Global Index

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(107016 entries)

Notation Index

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(895 entries)

Binder Index

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(82346 entries)

Module Index

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(25 entries)

Variable Index

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(1468 entries)

Library Index

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(550 entries)

Lemma Index

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(7141 entries)

Constructor Index

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(11 entries)

Axiom Index

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(6 entries)

Inductive Index

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(7 entries)

Projection Index

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(2 entries)

Section Index

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(1255 entries)

Abbreviation Index

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(145 entries)

Definition Index

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(13164 entries)

Record Index

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(1 entry)

---

Global Index

A

A [section, in UniMath.SyntheticHomotopyTheory.Circle]
a [abbreviation, in UniMath.CategoryTheory.FunctorAlgebras]
A [abbreviation, in UniMath.CategoryTheory.FunctorAlgebras]
A [section, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A [section, in UniMath.CategoryTheory.Enriched.Enriched]
A [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A [section, in UniMath.Algebra.GroupAction]
A [section, in UniMath.PAdics.padics]
A [section, in UniMath.CategoryTheory.Monoidal.Actions]
a [abbreviation, in UniMath.CategoryTheory.Chains.Adamek]
A [abbreviation, in UniMath.CategoryTheory.Chains.Adamek]
A [definition, in UniMath.Algebra.Universal.Examples.Tests]
A [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
A [section, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
A [lemma, in UniMath.SyntheticHomotopyTheory.AffineLine]
A [section, in UniMath.SyntheticHomotopyTheory.Test]
A [abbreviation, in UniMath.CategoryTheory.FunctorCoalgebras]
A [section, in UniMath.SyntheticHomotopyTheory.Circle2]
A [section, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
AaInitial [definition, in UniMath.CategoryTheory.FunctorAlgebras]
aaminuszero [lemma, in UniMath.PAdics.lemmas]
AA':1175 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AA':1194 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AA':1203 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
aa':604 [binder, in UniMath.Algebra.Monoids]
aa':621 [binder, in UniMath.Algebra.Monoids]
aa:10 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
aa:100 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:101 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:1015 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:103 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
aa:103 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
AA:103 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:1036 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1055 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:108 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:1083 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
AA:109 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:110 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:1106 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:111 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:113 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
aa:1134 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1148 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
AA:115 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:116 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:1166 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:117 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:1190 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:120 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
aa:1215 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1235 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:124 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:124 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:1254 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:127 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:127 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
aa:1272 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:129 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
aa:1291 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:131 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:135 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:136 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
aa:137 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:138 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
aa:138 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:139 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Aa:14 [binder, in UniMath.CategoryTheory.Chains.Adamek]
AA:142 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:1424 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:143 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:1436 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1440 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1449 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1458 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1469 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:147 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
aa:148 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
aa:1481 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:149 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:1495 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:15 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:15 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
aa:150 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:155 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:155 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
aa:158 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
aa:160 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
aa:161 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:164 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:165 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
aa:165 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:167 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
AA:169 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:171 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:173 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
AA:175 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:176 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
aa:177 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
aa:177 [binder, in UniMath.MoreFoundations.PartA]
aa:180 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:181 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
AA:185 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:19 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
aa:19 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
aa:19 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
aa:191 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
AA:194 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:195 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:199 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
AA:203 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:206 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
aa:208 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:210 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:213 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:216 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
aa:224 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
aa:225 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:226 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:23 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:232 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:234 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:239 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:240 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
AA:242 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:243 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:244 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:246 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
AA:249 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:252 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:253 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:255 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:257 [binder, in UniMath.Algebra.Domains_and_Fields]
aa:260 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:264 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:267 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:270 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:270 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:28 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:285 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:286 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
Aa:286 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
aa:287 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:29 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
aa:29 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
aa:291 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:296 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:304 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:307 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:31 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:31 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
aa:312 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:313 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:318 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:319 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:321 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:327 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:336 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:336 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:340 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:344 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:346 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:348 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:352 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:354 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:356 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:36 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:363 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:364 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:37 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
aa:370 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:378 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:38 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:386 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:39 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:393 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:399 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:4 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
aa:407 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
aa:43 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
aa:44 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
aa:49 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:49 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
Aa:49 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
aa:49 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:52 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:526 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
aa:55 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
aa:59 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:6 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
aa:60 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
aa:603 [binder, in UniMath.Algebra.Monoids]
aa:61 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:61 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:62 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:620 [binder, in UniMath.Algebra.Monoids]
aa:66 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
aa:68 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:7 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:72 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
aa:75 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:76 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:77 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:78 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:79 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
aa:8 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
aa:8 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
AA:80 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
AA:80 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
aa:82 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:84 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:85 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
aa:87 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:89 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
AA:91 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:92 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:92 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:96 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
AA:97 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:996 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
Abeliain_precategory_homset_comm' [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
Abelian [library]
AbelianData [definition, in UniMath.CategoryTheory.Abelian]
AbelianData_opp [definition, in UniMath.CategoryTheory.Abelian]
AbelianData1_opp [definition, in UniMath.CategoryTheory.Abelian]
AbelianData2_opp [definition, in UniMath.CategoryTheory.Abelian]
AbelianPreCat [definition, in UniMath.CategoryTheory.Abelian]
AbelianPreCat_homset_assoc [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_assoc_eq3 [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_assoc_eq2 [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_assoc_eq1 [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_inv_right [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_inv_minus [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_comm [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_zero_left [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_inv_left [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_inv_left' [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_inv [definition, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_zero_right [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_zero_right' [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_zero [definition, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_op_eq3 [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_op_eq2 [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_op_eq1 [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPullbackEpiisPushout1 [lemma, in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPullbackEpiisPushout1_eq [lemma, in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPullbackEpiisPushout2 [lemma, in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPullbackEpi1 [lemma, in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPullbackEpi2 [lemma, in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPushoutMonicisPullback_eq [lemma, in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPushoutMonicisPullback1 [lemma, in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPushoutMonicisPullback2 [lemma, in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPushoutMonic1 [lemma, in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPushoutMonic2 [lemma, in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPushoutPullback [library]
AbelianToAdditive [definition, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianToAdditive [library]
AbelianTocategoryWithAbgrops [definition, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianTocategoryWithAbgropsData [definition, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianToisPreAdditive [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianToPreAdditive [definition, in UniMath.CategoryTheory.AbelianToAdditive]
AbelianToprecategoryWithBinops [definition, in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_opp [definition, in UniMath.CategoryTheory.Abelian]
abelian_kernel_cokernel.A [variable, in UniMath.CategoryTheory.Abelian]
abelian_kernel_cokernel [section, in UniMath.CategoryTheory.Abelian]
abelian_factorization.A [variable, in UniMath.CategoryTheory.Abelian]
abelian_factorization [section, in UniMath.CategoryTheory.Abelian]
abelian_MonicToKernels.A [variable, in UniMath.CategoryTheory.Abelian]
abelian_MonicToKernels [section, in UniMath.CategoryTheory.Abelian]
abelian_pushouts.hs [variable, in UniMath.CategoryTheory.Abelian]
abelian_pushouts.A [variable, in UniMath.CategoryTheory.Abelian]
abelian_pushouts [section, in UniMath.CategoryTheory.Abelian]
abelian_equalizers.hs [variable, in UniMath.CategoryTheory.Abelian]
abelian_equalizers.A [variable, in UniMath.CategoryTheory.Abelian]
abelian_equalizers [section, in UniMath.CategoryTheory.Abelian]
abelian_monic_pullbacks.hs [variable, in UniMath.CategoryTheory.Abelian]
abelian_monic_pullbacks.A [variable, in UniMath.CategoryTheory.Abelian]
abelian_monic_pullbacks [section, in UniMath.CategoryTheory.Abelian]
abelian_monic_epi_iso.hs [variable, in UniMath.CategoryTheory.Abelian]
abelian_monic_epi_iso.A [variable, in UniMath.CategoryTheory.Abelian]
abelian_monic_epi_iso [section, in UniMath.CategoryTheory.Abelian]
Abelian_mor_from_to_BinProd [definition, in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_mor_to_BinProd [definition, in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_op_eq [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_op_eq_IdZero [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_DiagonalMap_eq [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_op [definition, in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_minus_op [definition, in UniMath.CategoryTheory.AbelianToAdditive]
abelian_is_additive.hs [variable, in UniMath.CategoryTheory.AbelianToAdditive]
abelian_is_additive.A [variable, in UniMath.CategoryTheory.AbelianToAdditive]
abelian_is_additive [section, in UniMath.CategoryTheory.AbelianToAdditive]
abf:34 [binder, in UniMath.CategoryTheory.CommaCategories]
abf:41 [binder, in UniMath.CategoryTheory.CommaCategories]
abf:44 [binder, in UniMath.CategoryTheory.CommaCategories]
abf:6 [binder, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
abf:8 [binder, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
abgr [definition, in UniMath.Algebra.Groups]
abgrconstr [definition, in UniMath.Algebra.Groups]
abgrdiff [definition, in UniMath.Algebra.Groups]
abgrdiffcarrier [definition, in UniMath.Algebra.Groups]
abgrdiffinv [definition, in UniMath.Algebra.Groups]
abgrdiffinvcomp [lemma, in UniMath.Algebra.Groups]
abgrdiffinvint [definition, in UniMath.Algebra.Groups]
abgrdiffisinv [lemma, in UniMath.Algebra.Groups]
abgrdiffphi [definition, in UniMath.Algebra.Groups]
abgrdiffrel [definition, in UniMath.Algebra.Groups]
abgrdiffrelimpl [lemma, in UniMath.Algebra.Groups]
abgrdiffrelint [definition, in UniMath.Algebra.Groups]
abgrdiffrelint' [definition, in UniMath.Algebra.Groups]
abgrdiffrellogeq [lemma, in UniMath.Algebra.Groups]
abgrdiffrel' [definition, in UniMath.Algebra.Groups]
abgrdirprod [definition, in UniMath.Algebra.Groups]
abgrfunfromunit [definition, in UniMath.Algebra.Groups]
abgrfunfromunit_ismonoidfun [lemma, in UniMath.Algebra.Groups]
abgrfuntounit [definition, in UniMath.Algebra.Groups]
abgrfuntounit_ismonoidfun [lemma, in UniMath.Algebra.Groups]
abgrquot [definition, in UniMath.Algebra.Groups]
abgrquotpr_rel_image [lemma, in UniMath.CategoryTheory.PreAdditive]
abgrquotpr_rel_paths [lemma, in UniMath.CategoryTheory.PreAdditive]
abgrquotpr_rel_to_refl [lemma, in UniMath.CategoryTheory.PreAdditive]
abgrquotpr_rels_to_unel [lemma, in UniMath.CategoryTheory.PreAdditive]
abgrquotpr_monoidfun [definition, in UniMath.CategoryTheory.PreAdditive]
abgrquotpr_ismonoidfun [lemma, in UniMath.CategoryTheory.PreAdditive]
abgrs [library]
abgrshomabgr [definition, in UniMath.Algebra.Groups]
abgrshomabgr_isabgrop [lemma, in UniMath.Algebra.Groups]
abgrshombinop_rinvax [definition, in UniMath.Algebra.Groups]
abgrshombinop_linvax [definition, in UniMath.Algebra.Groups]
abgrshombinop_inv [definition, in UniMath.Algebra.Groups]
abgrshombinop_inv_ismonoidfun [definition, in UniMath.Algebra.Groups]
abgrtoabmonoid [definition, in UniMath.Algebra.Groups]
abgrtogr [definition, in UniMath.Algebra.Groups]
abgr_isKernel_Criteria [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_isKernel_Criteria_uniqueness [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_isKernel_Criteria_comm [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_isKernel_Criteria_ismonoidfun [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_isKernel_iscontr [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive_premor_postmor_is_iso [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive_premor_postmor_is_iso_inverses [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive_is_iso_postmor [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive_is_iso_postmor_inverses [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive_is_iso_premor [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive_is_iso_premor_inverses [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_corollaries [section, in UniMath.CategoryTheory.categories.abgrs]
abgr_Abelian [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_abelian [section, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_comp [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_isCokernel [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_isCokernel_uniqueness [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_isCokernel_comm [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_eq [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_monoidfun [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_ismonoidfun [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_data_unel [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_data_unel_eq [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_data_mult [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_CokernelOut_mult_eq [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_CokernelOut_iscontr [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_data_hfiber_eq [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_data_hfibers_to_unel [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_data_eq [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_kernel_hsubtype [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_comp [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_Kernel_isKernel [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_Kernel_isKernel_uniqueness [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_Kernel_isKernel_comm [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_Kernel_eq [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_monoidfun [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_ismonoidfun [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_hfiber_unel [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_hfiber_unel_eq [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_hfiber_mult [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_hfiber_mult_eq [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_hfiber_iscontr [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernels_epi_cokernels [section, in UniMath.CategoryTheory.categories.abgrs]
abgr_monoidfun_postcomp [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_paths [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_isInjective [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_isincl [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monoidfun_precomp [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_issurjective [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_hfiber_inhabited [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_monics_and_epis [section, in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernels [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_isCokernel [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_isCokernel_uniquenss [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelOut_Comm [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelOut [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelOut_ismonoidfun [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelOut_map [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelArrowOutUniv_iscomprelfun [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_eq [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_monoidfun_issurjective [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelArrow [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelArrow_ismonoidfun [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_abgr [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_abgr_isbinoprel [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_eqrel [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_eqrel_issymm [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_eqrel_isrefl [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_eqrel_istrans [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernels [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernel [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernel_isKernel [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernel_isKernel_uniqueness [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernel_isKernel_KernelArrrow [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_KernelArrowIn [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_KernelArrowIn_ismonoidfun [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_KernelArrowIn_map [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_KernelArrowIn_map_property [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernel_eq [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernel_monoidfun [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_kernels_and_cokernels [section, in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_AdditiveStructure [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_isBinDirectSum [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumId [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumUnel2 [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumUnel1 [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumIdIn2 [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumIdIn1 [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumIn2 [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumIn2_ismonoidfun [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumIn1 [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumIn1_ismonoidfun [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumPr2 [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumPr2_ismonoidfun [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumPr1 [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumPr1_ismonoidfun [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_additive [section, in UniMath.CategoryTheory.categories.abgrs]
abgr_PreAdditive [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_isPreAdditive [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_WithAbGrops [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_WithBinOps [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_WithBinOpsData [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_preadditive [section, in UniMath.CategoryTheory.categories.abgrs]
abgr_Zero_arrow_comp [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_Zero_to_comp [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_Zero_from_comp [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_Zero_comp [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_Zero [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_isZero [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_univalent_category [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_category_is_univalent [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_category_isweq [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_equiv_weq_iso [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_equiv_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_iso_equiv_weq [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_iso_equiv_is_equiv [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_equiv_iso [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_equiv_is_iso [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_iso_equiv [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.abgrs]
abgr_category [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_precategory [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_precategory_data [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_fun_space [definition, in UniMath.CategoryTheory.categories.abgrs]
abgr_image [definition, in UniMath.Algebra.Groups]
abgr_image_issubgr [definition, in UniMath.Algebra.Groups]
abgr_Kernel_monoidfun_ismonoidfun [definition, in UniMath.Algebra.Groups]
abgr_Kernel_subabgr [definition, in UniMath.Algebra.Groups]
abgr_Kernel_subabgr_issubgr [definition, in UniMath.Algebra.Groups]
abgr_image_hsubtype [definition, in UniMath.Algebra.Groups]
abgr_kernel_hsubtype [definition, in UniMath.Algebra.Groups]
abgr_univalence [definition, in UniMath.Algebra.Groups]
abgr_univalence_isweq [lemma, in UniMath.Algebra.Groups]
abgr_univalence_map [definition, in UniMath.Algebra.Groups]
abgr_univalence_weq3 [definition, in UniMath.Algebra.Groups]
abgr_univalence_weq2 [definition, in UniMath.Algebra.Groups]
abgr_univalence_weq1' [definition, in UniMath.Algebra.Groups]
abgr_univalence_weq1 [definition, in UniMath.Algebra.Groups]
abgr_of_gr [definition, in UniMath.Algebra.Groups]
abgr_truncminus [lemma, in UniMath.Algebra.Lattice]
abgr_natnat_hz_X_comm [lemma, in UniMath.NumberSystems.Integers]
abgr_precategory_integer_fun_iscomprelfun [definition, in UniMath.NumberSystems.Integers]
abgr' [definition, in UniMath.Algebra.Groups]
abmonoid [definition, in UniMath.Algebra.Monoids]
abmonoidax:19 [binder, in UniMath.Algebra.Matrix]
abmonoidax:57 [binder, in UniMath.Algebra.Matrix]
abmonoiddirprod [definition, in UniMath.Algebra.Monoids]
abmonoidfrac [definition, in UniMath.Algebra.Monoids]
abmonoidfracop [definition, in UniMath.Algebra.Monoids]
abmonoidfracopint [definition, in UniMath.Algebra.Monoids]
abmonoidfracrel [definition, in UniMath.Algebra.Monoids]
abmonoidfracrelimpl [lemma, in UniMath.Algebra.Monoids]
abmonoidfracrelint [definition, in UniMath.Algebra.Monoids]
abmonoidfracrellogeq [lemma, in UniMath.Algebra.Monoids]
abmonoidfunfromunit [definition, in UniMath.Algebra.Monoids]
abmonoidfunfromunit_ismonoidfun [lemma, in UniMath.Algebra.Monoids]
abmonoidfuntounit [definition, in UniMath.Algebra.Monoids]
abmonoidfuntounit_ismonoidfun [lemma, in UniMath.Algebra.Monoids]
abmonoidMultipleOperation [definition, in UniMath.Algebra.IteratedBinaryOperations]
abmonoidoprer [lemma, in UniMath.Algebra.BinaryOperations]
abmonoidquot [definition, in UniMath.Algebra.Monoids]
abmonoidrer [definition, in UniMath.Algebra.Monoids]
abmonoids [library]
abmonoidsbinop_lunax [lemma, in UniMath.Algebra.Monoids]
abmonoidsbinop_runax [lemma, in UniMath.Algebra.Monoids]
abmonoidshomabmonoid [definition, in UniMath.Algebra.Monoids]
abmonoidshomabmonoid_isabmonoid [lemma, in UniMath.Algebra.Monoids]
abmonoidshomabmonoid_ismonoidop [lemma, in UniMath.Algebra.Monoids]
abmonoidshombinop [definition, in UniMath.Algebra.Monoids]
abmonoidshombinop_comm [lemma, in UniMath.Algebra.Monoids]
abmonoidshombinop_assoc [lemma, in UniMath.Algebra.Monoids]
abmonoidshombinop_ismonoidfun [lemma, in UniMath.Algebra.Monoids]
Abmonoids_Tactics [library]
abmonoidtomonoid [definition, in UniMath.Algebra.Monoids]
abmonoid_univalence [definition, in UniMath.Algebra.Monoids]
abmonoid_univalence_isweq [lemma, in UniMath.Algebra.Monoids]
abmonoid_univalence_map [definition, in UniMath.Algebra.Monoids]
abmonoid_univalence_weq3 [definition, in UniMath.Algebra.Monoids]
abmonoid_univalence_weq2 [definition, in UniMath.Algebra.Monoids]
abmonoid_univalence_weq1' [definition, in UniMath.Algebra.Monoids]
abmonoid_univalence_weq1 [definition, in UniMath.Algebra.Monoids]
abmonoid_of_monoid [definition, in UniMath.Algebra.Monoids]
abmonoid_perm210 [definition, in UniMath.Tactics.Abmonoids_Tactics]
abmonoid_perm201 [definition, in UniMath.Tactics.Abmonoids_Tactics]
abmonoid_perm120 [definition, in UniMath.Tactics.Abmonoids_Tactics]
abmonoid_perm102 [definition, in UniMath.Tactics.Abmonoids_Tactics]
abmonoid_perm021 [definition, in UniMath.Tactics.Abmonoids_Tactics]
abmonoid_to_absemigr [definition, in UniMath.Tactics.Abmonoids_Tactics]
abmonoid_univalent_category [definition, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_category_is_univalent [definition, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_category [definition, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_precategory_isweq [definition, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_equiv_weq_iso [definition, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_equiv_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_iso_equiv_weq [definition, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_iso_equiv_is_equiv [lemma, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_equiv_iso [lemma, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_equiv_is_iso [lemma, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_iso_equiv [lemma, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_precategory [definition, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_assoc [lemma, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_id_right [lemma, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_id_left [lemma, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_precategory_data [definition, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_fun_space [definition, in UniMath.CategoryTheory.categories.abmonoids]
abmonoid' [definition, in UniMath.Algebra.Monoids]
absemigr_perm210 [definition, in UniMath.Tactics.Abmonoids_Tactics]
absemigr_perm201 [definition, in UniMath.Tactics.Abmonoids_Tactics]
absemigr_perm120 [definition, in UniMath.Tactics.Abmonoids_Tactics]
absemigr_perm102 [definition, in UniMath.Tactics.Abmonoids_Tactics]
absemigr_perm021 [definition, in UniMath.Tactics.Abmonoids_Tactics]
Abs_Sig [definition, in UniMath.SubstitutionSystems.LamSignature]
Abs_θ_strength2_int [lemma, in UniMath.SubstitutionSystems.LamSignature]
Abs_θ_strength1_int [lemma, in UniMath.SubstitutionSystems.LamSignature]
Abs_θ [definition, in UniMath.SubstitutionSystems.LamSignature]
Abs_θ_data [definition, in UniMath.SubstitutionSystems.LamSignature]
Abs_θ_data_data [definition, in UniMath.SubstitutionSystems.LamSignature]
Abs_H [definition, in UniMath.SubstitutionSystems.LamSignature]
ab_str:128 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ab_strong_functor_strength [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ab_strength_composition [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ab_strength_identity_functor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ab_strength_pentagon [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ab_strength_triangle [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ab_strength_mor_from_signature_mor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_mor_from_signature_mor_diagram [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_mor_from_signature_mor_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_mor_from_signature_mor_is_nat_trans [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strong_functor_from_signature [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_from_signature [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_str:36 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_str:35 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_for_functors_and_pointed_functors_to_actionbased_strength [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_for_functors_and_pointed_functors [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_str:8 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_on_homs_in_bicat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_target_action [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_domain_action [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab':195 [binder, in UniMath.Foundations.PartA]
ab:102 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ab:106 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
AB:1159 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AB:1166 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AB:1366 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AB:1370 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AB:1387 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AB:1391 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AB:171 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AB:176 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ab:18 [binder, in UniMath.PAdics.frac]
AB:181 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AB:186 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ab:194 [binder, in UniMath.Foundations.PartA]
ab:2 [binder, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
ab:23 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
ab:241 [binder, in UniMath.PAdics.z_mod_p]
ab:245 [binder, in UniMath.PAdics.z_mod_p]
ab:249 [binder, in UniMath.PAdics.z_mod_p]
ab:260 [binder, in UniMath.PAdics.z_mod_p]
ab:419 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ab:494 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ab:499 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ab:504 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AB:54 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
AB:58 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
AB:64 [binder, in UniMath.Topology.Prelim]
ab:68 [binder, in UniMath.PAdics.frac]
ab:710 [binder, in UniMath.Foundations.PartB]
AB:825 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ab:87 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ab:91 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
accessors [section, in UniMath.Algebra.Modules.Core]
Accessors [section, in UniMath.CategoryTheory.SubobjectClassifier]
Accessors [section, in UniMath.CategoryTheory.Equivalences.Core]
accessors_moduleiso [section, in UniMath.Algebra.Modules.Core]
accth [lemma, in UniMath.Combinatorics.StandardFiniteSets]
acc:104 [binder, in UniMath.Combinatorics.Vectors]
acommring [definition, in UniMath.PAdics.lemmas]
acommringapartrel [definition, in UniMath.PAdics.lemmas]
acommringconstr [definition, in UniMath.PAdics.lemmas]
acommringfps [definition, in UniMath.PAdics.fps]
acommringofpadicints [definition, in UniMath.PAdics.padics]
acommringtocommring [definition, in UniMath.PAdics.lemmas]
acommring_hzmod [definition, in UniMath.PAdics.z_mod_p]
acommring_acotrans [definition, in UniMath.PAdics.lemmas]
acommring_asymm [definition, in UniMath.PAdics.lemmas]
acommring_airrefl [definition, in UniMath.PAdics.lemmas]
acommring_amult [definition, in UniMath.PAdics.lemmas]
acommring_aadd [definition, in UniMath.PAdics.lemmas]
actA:5 [binder, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
actfromprecomp [definition, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
actfromprecomp_odot_pointwise_ok [lemma, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
Action [definition, in UniMath.Algebra.GroupAction]
action [definition, in UniMath.CategoryTheory.Monoidal.Actions]
ActionBasedStrength [library]
ActionBasedStrengthOnHomsInBicat [library]
ActionBasedStrongFunctorCategory [library]
ActionBasedStrongFunctorCategoryToSignatureCategory [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ActionBasedStrongFunctorCategoryToSignatureCategory_is_functor [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ActionBasedStrongFunctorCategoryToSignatureCategory_data [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ActionBasedStrongFunctorsMonoidal [library]
actionbased_strength_from_relative_strength [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strong_functor_from_alt [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strong_functor_to_functor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strong_functor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_to_nat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_eq [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq_variant2variant1 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq_variant1variant2 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq_fromvariant1 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq_tovariant1 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq_variant2 [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq_variant1 [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_triangle_eq [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_nat_funclass [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_nat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_codom_ok [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_codom [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_dom_ok [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_dom [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ActionBased_Strength_Between_Homs_In_Bicat [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ActionIso [definition, in UniMath.Algebra.GroupAction]
ActionIso_isaset [lemma, in UniMath.Algebra.GroupAction]
ActionMap [definition, in UniMath.Algebra.GroupAction]
ActionOfEndomorphismsInBicat [library]
Actions [library]
ActionsFormBicategory [library]
ActionStructure [definition, in UniMath.Algebra.GroupAction]
actions_bicat [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_locally_groupoid [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_bicat [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_has_disp_cellset [lemma, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_prebicat [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_prebicat_laws [lemma, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_prebicat_data [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_prebicat_ops [lemma, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_2cells_isaprop [lemma, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_prebicat_1_id_comp_cells [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_2cell_struct [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_cat_data [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_cat_id_comp [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_cat_ob_mor [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
action_from_precomp [definition, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
action_from_precomp_laws [lemma, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
Action_From_Precomposition [section, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
Action_univalence_inv_comp_eval [definition, in UniMath.Algebra.GroupAction]
Action_univalence_inv_comp [definition, in UniMath.Algebra.GroupAction]
Action_univalence_inv [definition, in UniMath.Algebra.GroupAction]
Action_univalence_comp [definition, in UniMath.Algebra.GroupAction]
Action_univalence [definition, in UniMath.Algebra.GroupAction]
Action_univalence_prelim_comp [definition, in UniMath.Algebra.GroupAction]
Action_univalence_prelim [definition, in UniMath.Algebra.GroupAction]
action_op [definition, in UniMath.Algebra.GroupAction]
action_from_alt [definition, in UniMath.CategoryTheory.Monoidal.Actions]
action_pentagon_eq_from_alt [lemma, in UniMath.CategoryTheory.Monoidal.Actions]
action_triangle_eq_from_alt [lemma, in UniMath.CategoryTheory.Monoidal.Actions]
action_pentagon_eq [definition, in UniMath.CategoryTheory.Monoidal.Actions]
action_second_triangle_eq [definition, in UniMath.CategoryTheory.Monoidal.Actions]
action_triangle_eq [definition, in UniMath.CategoryTheory.Monoidal.Actions]
action_convertor_to_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.Actions]
action_convertor_funclass [definition, in UniMath.CategoryTheory.Monoidal.Actions]
action_convertor [definition, in UniMath.CategoryTheory.Monoidal.Actions]
action_right_unitor_to_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.Actions]
action_right_unitor_funclass [definition, in UniMath.CategoryTheory.Monoidal.Actions]
action_right_unitor [definition, in UniMath.CategoryTheory.Monoidal.Actions]
action_on_itself [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
actn':15 [binder, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actn':46 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
actn':5 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
actn':5 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actn':55 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actn':60 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actn':65 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actn':7 [binder, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actn1:47 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actn2:48 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actn3:49 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actn:14 [binder, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actn:37 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
actn:4 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
actn:4 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actn:43 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actn:45 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
actn:54 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actn:59 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actn:6 [binder, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actn:64 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
act_assoc [definition, in UniMath.Algebra.GroupAction]
act_unit [definition, in UniMath.Algebra.GroupAction]
act_mult [definition, in UniMath.Algebra.GroupAction]
act_assoc:15 [binder, in UniMath.Algebra.GroupAction]
act_unit:14 [binder, in UniMath.Algebra.GroupAction]
act_mult:13 [binder, in UniMath.Algebra.GroupAction]
act_unit:9 [binder, in UniMath.Algebra.GroupAction]
act_mult:7 [binder, in UniMath.Algebra.GroupAction]
act_pentagon [definition, in UniMath.CategoryTheory.Monoidal.Actions]
act_triangle [definition, in UniMath.CategoryTheory.Monoidal.Actions]
act_χ [definition, in UniMath.CategoryTheory.Monoidal.Actions]
act_ϱ [definition, in UniMath.CategoryTheory.Monoidal.Actions]
act_odot [definition, in UniMath.CategoryTheory.Monoidal.Actions]
AcyclicComplexFromObject [definition, in UniMath.HomologicalAlgebra.Complexes]
AcyclicComplexFromObject_diff [lemma, in UniMath.HomologicalAlgebra.Complexes]
AcyclicComplexFromObject_mors [definition, in UniMath.HomologicalAlgebra.Complexes]
AcyclicComplexFromObject_obs [definition, in UniMath.HomologicalAlgebra.Complexes]
acyclic_complexes.A [variable, in UniMath.HomologicalAlgebra.Complexes]
acyclic_complexes [section, in UniMath.HomologicalAlgebra.Complexes]
AC_iff_ADC_and_LEM [lemma, in UniMath.MoreFoundations.AxiomOfChoice]
AC_to_LEM [lemma, in UniMath.MoreFoundations.AxiomOfChoice]
AC_impl2 [lemma, in UniMath.MoreFoundations.AxiomOfChoice]
ac_assoc [definition, in UniMath.Algebra.GroupAction]
ac_mult [definition, in UniMath.Algebra.GroupAction]
ac_str [definition, in UniMath.Algebra.GroupAction]
ac_type [definition, in UniMath.Algebra.GroupAction]
ac_set [definition, in UniMath.Algebra.GroupAction]
AC_to_choice_fun [lemma, in UniMath.Combinatorics.WellOrderedSets]
ac:10 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
ac:105 [binder, in UniMath.AlgebraicGeometry.Spec]
ac:106 [binder, in UniMath.AlgebraicGeometry.Spec]
AC:1145 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AC:1152 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AC:1160 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AC:1167 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AC:1212 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AC:1245 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ac:230 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
ac:24 [binder, in UniMath.Algebra.GroupAction]
ac:367 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ac:376 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ac:385 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ac:394 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ac:403 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ac:519 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ac:530 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ac:541 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ac:550 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AC:7 [binder, in UniMath.CategoryTheory.categories.wosets]
AC:8 [binder, in UniMath.CategoryTheory.categories.wosets]
ad [definition, in UniMath.CategoryTheory.Chains.Adamek]
Adamek [library]
add [definition, in UniMath.Foundations.Preamble]
addabmonoideqrel [definition, in UniMath.Algebra.RigsAndRings]
AddEquiv [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounit [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitComm [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitInv [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitInvMor [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitInvMor_is_inverse_in_precat [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitInvMor_is_iso_with_inv_data [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitIso [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitMorComm [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitUnit [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitUnit' [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivLeftTriangle [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivRightTriangle [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnit [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitComm [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitCounit [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitCounit' [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitInv [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitInvMor [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitInvMor_is_inverse_in_precat [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitInvMor_is_iso_with_inv_data [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitIso [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitMorComm [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquiv_are_adjoints [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquiv1 [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquiv1Inj [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquiv2 [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AddEquiv2Inj [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
Additive [library]
AdditiveCategory [definition, in UniMath.CategoryTheory.Additive]
AdditiveCoequalizerToCokernel [definition, in UniMath.CategoryTheory.Additive]
AdditiveCoequalizerToCokernel_isCokernel [lemma, in UniMath.CategoryTheory.Additive]
AdditiveCoequalizerToCokernel_eq1 [lemma, in UniMath.CategoryTheory.Additive]
AdditiveCokernelToCoequalizer [definition, in UniMath.CategoryTheory.Additive]
AdditiveCokernelToCoequalizer_isCoequalizer [lemma, in UniMath.CategoryTheory.Additive]
AdditiveCokernelToCoequalizer_eq1 [lemma, in UniMath.CategoryTheory.Additive]
AdditiveComposite [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveEqualizerToKernel [definition, in UniMath.CategoryTheory.Additive]
AdditiveEqualizerToKernel_isKernel [lemma, in UniMath.CategoryTheory.Additive]
AdditiveEqualizerToKernel_eq1 [lemma, in UniMath.CategoryTheory.Additive]
AdditiveExactnessProperties [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdditiveFunctor [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorCriteria [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorInv [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorLinear [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums_id [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums_unit2 [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums_unit1 [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums_idin2 [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums_idin1 [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums_zero [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctors [library]
AdditiveFunctorUnel [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorZeroArrow [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
additivefunctor_criteria [section, in UniMath.CategoryTheory.AdditiveFunctors]
additivefunctor_preserves_bindirectsums [section, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctor_isAdditiveFunctor [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctor_Functor [definition, in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveKernelToEqualizer [definition, in UniMath.CategoryTheory.Additive]
AdditiveKernelToEqualizer_isEqualizer [lemma, in UniMath.CategoryTheory.Additive]
AdditiveKernelToEqualizer_eq1 [lemma, in UniMath.CategoryTheory.Additive]
AdditiveStructure [definition, in UniMath.CategoryTheory.Additive]
AdditiveToExact [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdditiveToExact [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdditiveZeroArrow [definition, in UniMath.CategoryTheory.Additive]
AdditiveZeroArrow_premor_Abelian [lemma, in UniMath.CategoryTheory.categories.abgrs]
AdditiveZeroArrow_postmor_Abelian [lemma, in UniMath.CategoryTheory.categories.abgrs]
additive_exact_opposite [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
additive_minus_monic.A [variable, in UniMath.CategoryTheory.Additive]
additive_minus_monic [section, in UniMath.CategoryTheory.Additive]
additive_kernel_equalizers.A [variable, in UniMath.CategoryTheory.Additive]
additive_kernel_equalizers [section, in UniMath.CategoryTheory.Additive]
additive_quot_additive.PAC [variable, in UniMath.CategoryTheory.Additive]
additive_quot_additive.PAS [variable, in UniMath.CategoryTheory.Additive]
additive_quot_additive.A [variable, in UniMath.CategoryTheory.Additive]
additive_quot_additive [section, in UniMath.CategoryTheory.Additive]
Additive_to_PreAdditive [definition, in UniMath.CategoryTheory.Additive]
Additive_PreAdditive [definition, in UniMath.CategoryTheory.Additive]
AddNotation [module, in UniMath.Algebra.Monoids]
0 (addmonoid_scope) [notation, in UniMath.Algebra.Monoids]
_ + _ (addmonoid_scope) [notation, in UniMath.Algebra.Monoids]
addStructure [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
addsubgr [definition, in UniMath.Algebra.RigsAndRings]
adds_properties_weq_locally_contractible [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
adds_structure_weq_locally_propositional [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
adds_properties [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
adds_structure [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
add_functor_sub [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
add_functor_zero [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
add_functor_add [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
add_functor_comp [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
add_mu [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
add_unit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
add_cell_disp_cat_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
add_cell_disp_cat_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
add_cell_disp_cat_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
add_cell_disp_cat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
add_cell_disp_cat_id_comp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
add_cell_disp_cat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
add_one [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
Add2Cell [section, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
Add2Cell [library]
Add2Cell.D [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
Add2Cell.l [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
Add2Cell.r [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
Add2Cell.S [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
Add2Cell.T [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
Add:520 [binder, in UniMath.CategoryTheory.categories.abgrs]
Add:524 [binder, in UniMath.CategoryTheory.categories.abgrs]
Add:528 [binder, in UniMath.CategoryTheory.categories.abgrs]
Add:534 [binder, in UniMath.CategoryTheory.categories.abgrs]
Add:540 [binder, in UniMath.CategoryTheory.categories.abgrs]
Add:546 [binder, in UniMath.CategoryTheory.categories.abgrs]
add:55 [binder, in UniMath.Ktheory.GrothendieckGroup]
Add:552 [binder, in UniMath.CategoryTheory.categories.abgrs]
Add:558 [binder, in UniMath.CategoryTheory.categories.abgrs]
Add:571 [binder, in UniMath.HomologicalAlgebra.Complexes]
add:64 [binder, in UniMath.Ktheory.GrothendieckGroup]
adEquivF:48 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
adjcounit [definition, in UniMath.CategoryTheory.Adjunctions.Core]
adjcounitiso [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjcounitiso [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
AdjEquivFullyFaithful [section, in UniMath.Bicategories.Core.FullyFaithful]
adjequiv_in_E₂_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
adjequiv_in_E₂_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
adjequiv_in_E₂ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
adjequiv_ps_base_weq [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
adjequiv_ps_base_inv [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
adjequiv_ps_base [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
adjequiv_to_weq [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
adjequiv_base_adjequiv_tot [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
adjev [definition, in UniMath.Foundations.PartA]
adjev2 [definition, in UniMath.Foundations.PartA]
AdjointEquivPregroupoid [section, in UniMath.Bicategories.Core.Univalence]
AdjointEquivPregroupoid.HB [variable, in UniMath.Bicategories.Core.Univalence]
AdjointEquivUniqueCompInv [section, in UniMath.Bicategories.Core.AdjointUnique]
AdjointFolds [section, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
AdjointFolds.AF [variable, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
AdjointFolds.inDD [variable, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
↓ _ [notation, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
AdjointFolds.μDD [variable, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
adjointification [section, in UniMath.CategoryTheory.Equivalences.Core]
adjointification_triangle_2 [definition, in UniMath.CategoryTheory.Equivalences.Core]
adjointification_forms_equivalence [lemma, in UniMath.CategoryTheory.Equivalences.Core]
adjointification_triangle_1 [definition, in UniMath.CategoryTheory.Equivalences.Core]
adjointification.F [variable, in UniMath.CategoryTheory.Equivalences.Core]
adjointification.FF [variable, in UniMath.CategoryTheory.Equivalences.Core]
adjointification.G [variable, in UniMath.CategoryTheory.Equivalences.Core]
adjointification.GG [variable, in UniMath.CategoryTheory.Equivalences.Core]
adjointification.εntiso [variable, in UniMath.CategoryTheory.Equivalences.Core]
adjointification.ηntiso [variable, in UniMath.CategoryTheory.Equivalences.Core]
adjointificiation [definition, in UniMath.CategoryTheory.Equivalences.Core]
adjoints_from_is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
AdjointUnique [library]
AdjointUniqueMapCompose [section, in UniMath.Bicategories.Core.AdjointUnique]
AdjointUniqueMapCompose.A₁ [variable, in UniMath.Bicategories.Core.AdjointUnique]
AdjointUniqueMapCompose.A₂ [variable, in UniMath.Bicategories.Core.AdjointUnique]
AdjointUniqueMapCompose.l [variable, in UniMath.Bicategories.Core.AdjointUnique]
adjoint_equivalence_total_disp_weq [lemma, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
adjoint_equivalence [definition, in UniMath.Bicategories.Core.Adjunctions]
adjoint_unique_map_iso [definition, in UniMath.Bicategories.Core.AdjointUnique]
adjoint_unique_map [definition, in UniMath.Bicategories.Core.AdjointUnique]
adjoint_equivalence_is_weq [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
adjoint_equivalence_precategory [definition, in UniMath.Bicategories.Core.Univalence]
adjoint_equivalence_is_precategory [lemma, in UniMath.Bicategories.Core.Univalence]
adjoint_equivalence_precategory_data [definition, in UniMath.Bicategories.Core.Univalence]
adjoint_equivalence_rinv [lemma, in UniMath.Bicategories.Core.Univalence]
adjoint_equivalence_linv [lemma, in UniMath.Bicategories.Core.Univalence]
adjoint_equivalence_assoc [lemma, in UniMath.Bicategories.Core.Univalence]
adjoint_equivalence_rid [lemma, in UniMath.Bicategories.Core.Univalence]
adjoint_equivalence_lid [lemma, in UniMath.Bicategories.Core.Univalence]
adjunction [definition, in UniMath.Bicategories.Core.Adjunctions]
Adjunction [section, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
adjunction [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjunction [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjunction [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
AdjunctionLemmas [section, in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.Fη [variable, in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.Gε [variable, in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.post_whisker_functor_cat [variable, in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.pre_whisker_functor_cat [variable, in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.ε [variable, in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.εF [variable, in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.η [variable, in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.ηG [variable, in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions [section, in UniMath.CategoryTheory.Adjunctions.Core]
Adjunctions [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Adjunctions [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Adjunctions [library]
Adjunctions [library]
adjunctions.left_adjoint_from_partial [section, in UniMath.CategoryTheory.Adjunctions.Core]
Adjunctions.notation [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjunctions.postcomp [section, in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.postcomp.G [variable, in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.postcomp.H [variable, in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.postcomp.H1 [variable, in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.postcomp.H2 [variable, in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.postcomp.ε [variable, in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.postcomp.η [variable, in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.right_adjoint_from_partial [section, in UniMath.CategoryTheory.Adjunctions.Core]
adjunction_total_disp_weq [lemma, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
adjunction_of_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Adjunctions]
adjunction_data_disc_fib [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
adjunction_homsetiso_weq [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
Adjunction_HomSetIso_weq [section, in UniMath.CategoryTheory.Adjunctions.Core]
Adjunction_from_HomSetIso [section, in UniMath.CategoryTheory.Adjunctions.Core]
adjunction_hom_weq [definition, in UniMath.CategoryTheory.Adjunctions.Core]
adjunction_data_from_is_left_adjoint [definition, in UniMath.CategoryTheory.Adjunctions.Core]
adjunction_data [definition, in UniMath.CategoryTheory.Adjunctions.Core]
adjunction_data_from_equivalence_of_cats [definition, in UniMath.CategoryTheory.Equivalences.Core]
adjunction_of_equiv_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjunction_of_right_adjoint_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjunction_of_right_adjoint_over_data [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjunction_of_equiv_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
adjunction_of_right_adjoint_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
adjunction_of_right_adjoint_over_id_data [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
adjuncts_mutually_inverse2 [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
adjuncts_mutually_inverse1 [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
adjunit [definition, in UniMath.CategoryTheory.Adjunctions.Core]
adjunitiso [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjunitiso [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
adj_equiv_fully_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
adj_equiv_fully_faithful_inv_cell_is_inv_cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
adj_equiv_fully_faithful_inv_cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
adj_equiv_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
adj_equivalence_of_cats_inv [definition, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
adj_equivalence_disc_fib [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
adj_int_equivalence [definition, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
adj_after_nathomweq [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
adj_from_nathomweq [definition, in UniMath.CategoryTheory.Adjunctions.Core]
adj_equiv_of_cats_is_weq_of_objects [lemma, in UniMath.CategoryTheory.Equivalences.Core]
adj_equivalence_inv [definition, in UniMath.CategoryTheory.Equivalences.Core]
adj_from_equiv [definition, in UniMath.CategoryTheory.Equivalences.Core]
adj_equivalence_of_cats [definition, in UniMath.CategoryTheory.Equivalences.Core]
adj_equivalence_to_left_equivalence [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
adj_equiv_is_equiv_cat [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
adj_equiv_to_equiv_cat [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
adj_from_adj_equiv [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adj_equiv_of_precats_from_adj [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adj_equiv [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adj_over_data_from_adj_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
adj:102 [binder, in UniMath.Bicategories.Core.Adjunctions]
adj:69 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
adj:97 [binder, in UniMath.Bicategories.Core.Adjunctions]
AdmEpiFromComposite [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmEpiToMap [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmEpiToMap' [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmissibleEpimorphism [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmissibleMonomorphism [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmMonoEnlargement [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmMonoFromComposite [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmMonoToMap [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmMonoToMap' [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ad_mor [definition, in UniMath.CategoryTheory.Chains.Adamek]
ad_is_algebra_mor [lemma, in UniMath.CategoryTheory.Chains.Adamek]
AD1:367 [binder, in UniMath.CategoryTheory.Abelian]
AD1:368 [binder, in UniMath.CategoryTheory.Abelian]
AD1:400 [binder, in UniMath.CategoryTheory.Abelian]
AD1:62 [binder, in UniMath.CategoryTheory.Abelian]
AD2:369 [binder, in UniMath.CategoryTheory.Abelian]
AD:401 [binder, in UniMath.CategoryTheory.Abelian]
AD:63 [binder, in UniMath.CategoryTheory.Abelian]
AECD:387 [binder, in UniMath.CategoryTheory.Abelian]
AECD:393 [binder, in UniMath.CategoryTheory.Abelian]
AECD:399 [binder, in UniMath.CategoryTheory.Abelian]
AE:176 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:179 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:182 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:185 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:188 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:191 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:195 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:199 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:203 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:207 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:211 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:215 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:219 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:223 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:227 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:231 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:237 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:243 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:249 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:255 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:261 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:267 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:271 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:275 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:279 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:283 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AE:293 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
AffineLine [library]
affine_line_value [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
affine_line_map [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
affine_line_path [lemma, in UniMath.SyntheticHomotopyTheory.AffineLine]
affine_line_point [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
affine_line [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
Aff:223 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
afld [definition, in UniMath.PAdics.lemmas]
afldfrac [definition, in UniMath.PAdics.frac]
afldfracapart [definition, in UniMath.PAdics.frac]
afldfracapartiscomprel [lemma, in UniMath.PAdics.frac]
afldfracapartrel [definition, in UniMath.PAdics.frac]
afldfracapartrelpre [definition, in UniMath.PAdics.frac]
afldfracisafld [lemma, in UniMath.PAdics.frac]
afldfracmultinv [definition, in UniMath.PAdics.frac]
afldfracmultinvint [definition, in UniMath.PAdics.frac]
afldfrac0 [definition, in UniMath.PAdics.frac]
afldinvertibletoazero [lemma, in UniMath.PAdics.lemmas]
afldtoaintdom [definition, in UniMath.PAdics.lemmas]
af':26 [binder, in UniMath.CategoryTheory.CommaCategories]
af':46 [binder, in UniMath.CategoryTheory.UnderCategories]
af':52 [binder, in UniMath.CategoryTheory.UnderCategories]
af:11 [binder, in UniMath.Induction.M.ComputationalM]
Af:219 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
Af:227 [binder, in UniMath.CategoryTheory.slicecat]
af:25 [binder, in UniMath.CategoryTheory.CommaCategories]
af:28 [binder, in UniMath.CategoryTheory.slicecat]
af:32 [binder, in UniMath.CategoryTheory.slicecat]
af:36 [binder, in UniMath.CategoryTheory.slicecat]
af:40 [binder, in UniMath.CategoryTheory.slicecat]
af:44 [binder, in UniMath.CategoryTheory.slicecat]
af:45 [binder, in UniMath.CategoryTheory.UnderCategories]
af:48 [binder, in UniMath.CategoryTheory.slicecat]
af:51 [binder, in UniMath.CategoryTheory.UnderCategories]
af:52 [binder, in UniMath.CategoryTheory.slicecat]
af:70 [binder, in UniMath.CategoryTheory.slicecat]
af:88 [binder, in UniMath.CategoryTheory.slicecat]
af:89 [binder, in UniMath.CategoryTheory.slicecat]
agree_on_intersections [definition, in UniMath.AlgebraicGeometry.SheavesOfRings]
agree_on_intersections_section [definition, in UniMath.AlgebraicGeometry.Spec]
ahzmod [definition, in UniMath.PAdics.z_mod_p]
AiM_chain_eq [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
AiM_chain [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
aint [section, in UniMath.PAdics.frac]
aintdom [definition, in UniMath.PAdics.lemmas]
aintdomazerosubmonoid [definition, in UniMath.PAdics.lemmas]
aintdomconstr [definition, in UniMath.PAdics.lemmas]
aint.A [variable, in UniMath.PAdics.frac]
Aiso:105 [binder, in UniMath.CategoryTheory.FunctorCategory]
Aiso:122 [binder, in UniMath.CategoryTheory.FunctorCategory]
Aiso:97 [binder, in UniMath.CategoryTheory.FunctorCategory]
AlgConstr [definition, in UniMath.SubstitutionSystems.GenMendlerIteration]
AlgConstr [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Algebra [module, in UniMath.Algebra.Universal.Examples.Group]
Algebra [section, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
algebra [definition, in UniMath.Algebra.Universal.Algebras]
AlgebraMap [library]
Algebras [section, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebras [section, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
Algebras [library]
Algebras [library]
Algebras [library]
algebras_disp [definition, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
Algebras.Algebra_precategory_data [section, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebras.Algebra_def [section, in UniMath.CategoryTheory.Monads.MonadAlgebras]
algebra_mor_homot_id [definition, in UniMath.Induction.W.Fibered]
algebra_section_path_to_homot [definition, in UniMath.Induction.W.Fibered]
algebra_sec_homot_id [definition, in UniMath.Induction.W.Fibered]
algebra_mor_homot [definition, in UniMath.Induction.W.Fibered]
algebra_mor_to_algsec [definition, in UniMath.Induction.W.Fibered]
algebra_sec_homot [definition, in UniMath.Induction.W.Fibered]
algebra_section [definition, in UniMath.Induction.W.Fibered]
Algebra_adjunction [section, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_mor_eq [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_category [section, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_mor_comp [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_mor_id [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_mor_commutes [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_mor [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_multlaw [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_idlaw [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_data_from_Algebra [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_laws [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_data [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
algebra_idtoiso [definition, in UniMath.CategoryTheory.FunctorAlgebras]
algebra_iso_rearrange [definition, in UniMath.CategoryTheory.FunctorAlgebras]
algebra_iso_first_iso [definition, in UniMath.CategoryTheory.FunctorAlgebras]
algebra_ob_eq [definition, in UniMath.CategoryTheory.FunctorAlgebras]
algebra_eq_type [definition, in UniMath.CategoryTheory.FunctorAlgebras]
algebra_mor_eq [definition, in UniMath.CategoryTheory.FunctorAlgebras]
algebra_mor_comp [definition, in UniMath.CategoryTheory.FunctorAlgebras]
algebra_mor_id [definition, in UniMath.CategoryTheory.FunctorAlgebras]
algebra_mor_commutes [lemma, in UniMath.CategoryTheory.FunctorAlgebras]
algebra_mor [definition, in UniMath.CategoryTheory.FunctorAlgebras]
algebra_ob [definition, in UniMath.CategoryTheory.FunctorAlgebras]
Algebra_Definition [section, in UniMath.CategoryTheory.FunctorAlgebras]
algebra_of_eqalgebra [definition, in UniMath.Algebra.Universal.EqAlgebras]
Algebra.DispAdjointEquivalenceToInvertible2cell [section, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.DispAdjointEquivalenceToInvertible2cell.aa [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.DispAdjointEquivalenceToInvertible2cell.bb [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.DispAdjointEquivalenceToInvertible2cell.x [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.F [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.GroupAlgebra [section, in UniMath.Algebra.Universal.Examples.Group]
Algebra.group_inv [definition, in UniMath.Algebra.Universal.Examples.Group]
Algebra.group_id [definition, in UniMath.Algebra.Universal.Examples.Group]
Algebra.group_mul [definition, in UniMath.Algebra.Universal.Examples.Group]
Algebra.group_algebra [definition, in UniMath.Algebra.Universal.Examples.Group]
Algebra.group_inv_op [definition, in UniMath.Algebra.Universal.Examples.Group]
Algebra.group_id_op [definition, in UniMath.Algebra.Universal.Examples.Group]
Algebra.group_mul_op [definition, in UniMath.Algebra.Universal.Examples.Group]
Algebra.Invertible2CellToDispAdjointEquivalence [section, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.Invertible2CellToDispAdjointEquivalence.aa [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.Invertible2CellToDispAdjointEquivalence.bb [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.Invertible2CellToDispAdjointEquivalence.x [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
alg_disp_cat_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
alg_disp_cat_id_comp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
alg_disp_cat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Alg_adjunction_monad_eq [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Alg_map [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Alg_carrier [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
alg_map [definition, in UniMath.CategoryTheory.FunctorAlgebras]
alg_carrier [definition, in UniMath.CategoryTheory.FunctorAlgebras]
alg_from_hetsubst [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
alg_map [definition, in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
alg_map_data_is_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
alg_map_data [definition, in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
alg2fibered_alg [definition, in UniMath.Induction.W.Fibered]
alg:44 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
alg:45 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
All [library]
all_is_adjequiv_is_is_adjequiv [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
all_is_adjequiv_to_is_adjequiv [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
all_is_invertible_is_is_invertible_2cell [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
all_is_invertible_to_is_invertible_2cell [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
all_invertible_2cell_is_disp_adjoint_equivalence [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_2cell_to_disp_adjoint_equivalence [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_counit [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_unit [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_right_adj [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_left_adj [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_map1cells [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_map1cells_inv [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all:12 [binder, in UniMath.CategoryTheory.Subcategory.Limits]
all:37 [binder, in UniMath.CategoryTheory.Subcategory.Limits]
alpha [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
alpha':116 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha':125 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha':29 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha':53 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha':63 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha':91 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:100 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:108 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:108 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
alpha:115 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:12 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
alpha:124 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:132 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:138 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:14 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:146 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:187 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
alpha:202 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
alpha:24 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
alpha:25 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
alpha:28 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:296 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
alpha:34 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
alpha:38 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:43 [binder, in UniMath.CategoryTheory.Profunctors.Core]
alpha:44 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
alpha:46 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:52 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:62 [binder, in UniMath.CategoryTheory.yoneda]
alpha:62 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:70 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:77 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:8 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:84 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
alpha:90 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
alpha:90 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
AlternativeProofs [library]
alternative_inv_to_relmonadmor_iso_is_inv [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
alternative_inv_to_relmonadmor_iso [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
AltList [module, in UniMath.CategoryTheory.Inductives.Lists]
AltList.cons [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.constcoprod_functor [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.constcoprod_functor.PC [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.constcoprod_functor.x [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.constcoprod_functor.C [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.constcoprod_functor [section, in UniMath.CategoryTheory.Inductives.Lists]
AltList.constprod_functor [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.constprod_functor.x [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.constprod_functor [section, in UniMath.CategoryTheory.Inductives.Lists]
AltList.cons_nat [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.cons_map [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.foldr [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.foldr_cons [lemma, in UniMath.CategoryTheory.Inductives.Lists]
AltList.foldr_nil [lemma, in UniMath.CategoryTheory.Inductives.Lists]
AltList.foldr_map [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.isalghom_pr1foldr [lemma, in UniMath.CategoryTheory.Inductives.Lists]
AltList.length [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.length_map [lemma, in UniMath.CategoryTheory.Inductives.Lists]
AltList.List [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.listFunctor [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.listFunctor_Initial [lemma, in UniMath.CategoryTheory.Inductives.Lists]
AltList.listInd [lemma, in UniMath.CategoryTheory.Inductives.Lists]
AltList.listIndProp [lemma, in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists [section, in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.A [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.Pc' [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.P0' [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.P' [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.Pc [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.P0 [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.PhSet [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.P [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction [section, in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.List_alg [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.List_mor [variable, in UniMath.CategoryTheory.Inductives.Lists]
AltList.make_listAlgebra [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.map [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.natHSET [definition, in UniMath.CategoryTheory.Inductives.Lists]
[] [notation, in UniMath.CategoryTheory.Inductives.Lists]
_ :: _ [notation, in UniMath.CategoryTheory.Inductives.Lists]
AltList.nat_examples [section, in UniMath.CategoryTheory.Inductives.Lists]
AltList.nil [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.nil_map [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.omega_cocont_listFunctor [lemma, in UniMath.CategoryTheory.Inductives.Lists]
AltList.omega_cocontConstCoprodFunctor [lemma, in UniMath.CategoryTheory.Inductives.Lists]
AltList.omega_cocontConstProdFunctor [lemma, in UniMath.CategoryTheory.Inductives.Lists]
AltList.pr1foldr_algmor_identity [lemma, in UniMath.CategoryTheory.Inductives.Lists]
AltList.pr1foldr_algmor [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.P'HSET [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.stream [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.sum [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.testlist [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.testlistS [definition, in UniMath.CategoryTheory.Inductives.Lists]
AltList.Unnamed_thm [definition, in UniMath.CategoryTheory.Inductives.Lists]
aminuszeroa [lemma, in UniMath.PAdics.lemmas]
AMKD:372 [binder, in UniMath.CategoryTheory.Abelian]
AMKD:378 [binder, in UniMath.CategoryTheory.Abelian]
AMKD:384 [binder, in UniMath.CategoryTheory.Abelian]
an [abbreviation, in UniMath.CategoryTheory.Chains.Adamek]
andb [definition, in UniMath.MoreFoundations.Bool]
and:15 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
and:21 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
and:27 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
and:33 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
Annihilator [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
anot:21 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
anot:29 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
anot:40 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
antisymmetric [definition, in UniMath.Combinatorics.ZFstructures]
antisymm_po_univalent_category [definition, in UniMath.CategoryTheory.categories.preorder_categories]
antisymm_po_category_isweq [lemma, in UniMath.CategoryTheory.categories.preorder_categories]
antisymm_po_category_isoiseq [lemma, in UniMath.CategoryTheory.categories.preorder_categories]
apart [definition, in UniMath.PAdics.lemmas]
apartbinarysum0 [lemma, in UniMath.PAdics.fps]
apartdecintdom0 [lemma, in UniMath.PAdics.fps]
apartdectoisaintdomfps [lemma, in UniMath.PAdics.fps]
apartnatsummation0 [lemma, in UniMath.PAdics.fps]
Apartness [library]
apart_implies_ne [lemma, in UniMath.Combinatorics.OrderedSets]
apart_isirrefl [lemma, in UniMath.Combinatorics.OrderedSets]
apathpr1toprUAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
apbinop [definition, in UniMath.Algebra.Apartness]
apbinop_pr1 [definition, in UniMath.Algebra.Apartness]
apCCDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
apCCDRplus [lemma, in UniMath.Algebra.ConstructiveStructures]
apCDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
apCDRplus [lemma, in UniMath.Algebra.ConstructiveStructures]
apCFmult [lemma, in UniMath.Algebra.ConstructiveStructures]
apCFplus [lemma, in UniMath.Algebra.ConstructiveStructures]
apd [definition, in UniMath.MoreFoundations.PathsOver]
apd_comparison [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
apfun [definition, in UniMath.MoreFoundations.PartA]
ApFunctor [section, in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
ApFunctor [library]
ApFunctor.f [variable, in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
ApModification [section, in UniMath.Bicategories.Modifications.Examples.ApModification]
ApModification [library]
apNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
append [definition, in UniMath.Combinatorics.GraphPaths]
append [definition, in UniMath.Combinatorics.Lists]
append [definition, in UniMath.Combinatorics.FiniteSequences]
Append [section, in UniMath.Combinatorics.FiniteSequences]
appendStep [lemma, in UniMath.Combinatorics.Lists]
append_concatenate [lemma, in UniMath.Combinatorics.Lists]
append_length [lemma, in UniMath.Combinatorics.FiniteSequences]
append_and_drop_fun [lemma, in UniMath.Combinatorics.FiniteSequences]
append_vec_compute_2 [definition, in UniMath.Combinatorics.FiniteSequences]
append_vec_compute_1 [definition, in UniMath.Combinatorics.FiniteSequences]
append_vec [definition, in UniMath.Combinatorics.FiniteSequences]
applyFunctorToBinDirectSum [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
applyFunctorToIsBinDirectSum [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
applyFunctorToIsZero [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
applyFunctorToPair [definition, in UniMath.CategoryTheory.Morphisms]
applyFunctorToPairIsomorphism [definition, in UniMath.CategoryTheory.Morphisms]
applyFunctorToShortExactSequence [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
applyFunctorToZero [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
apply_on_chain [definition, in UniMath.Induction.M.Chains]
app_map [definition, in UniMath.SubstitutionSystems.STLC]
app_source [definition, in UniMath.SubstitutionSystems.STLC]
app_map [definition, in UniMath.SubstitutionSystems.CCS_alt]
app_source [definition, in UniMath.SubstitutionSystems.CCS_alt]
app_map' [definition, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
app_map [definition, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
app_map [definition, in UniMath.SubstitutionSystems.STLC_alt]
app_source [definition, in UniMath.SubstitutionSystems.STLC_alt]
App_Sig [definition, in UniMath.SubstitutionSystems.LamSignature]
App_θ_strength2_int [lemma, in UniMath.SubstitutionSystems.LamSignature]
App_θ_strength1_int [lemma, in UniMath.SubstitutionSystems.LamSignature]
App_θ [definition, in UniMath.SubstitutionSystems.LamSignature]
App_θ_data [definition, in UniMath.SubstitutionSystems.LamSignature]
App_H [definition, in UniMath.SubstitutionSystems.LamSignature]
app_map [definition, in UniMath.SubstitutionSystems.CCS]
app_source [definition, in UniMath.SubstitutionSystems.CCS]
app_map [definition, in UniMath.SubstitutionSystems.LamFromBindingSig]
App_Sig [definition, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
aprel [definition, in UniMath.Algebra.Apartness]
aprel_pr1 [definition, in UniMath.Algebra.Apartness]
apRmult [lemma, in UniMath.RealNumbers.Reals]
apRplus [lemma, in UniMath.RealNumbers.Reals]
apr1:81 [binder, in UniMath.Bicategories.Colimits.Products]
apr1:84 [binder, in UniMath.Bicategories.Colimits.Products]
apr1:87 [binder, in UniMath.Bicategories.Colimits.Products]
apr2:82 [binder, in UniMath.Bicategories.Colimits.Products]
apr2:85 [binder, in UniMath.Bicategories.Colimits.Products]
apr2:88 [binder, in UniMath.Bicategories.Colimits.Products]
apSet [definition, in UniMath.Algebra.Apartness]
apsetwithbinop [definition, in UniMath.Algebra.Apartness]
apsetwithbinop_pty [section, in UniMath.Algebra.Apartness]
apsetwithbinop_setwithbinop [definition, in UniMath.Algebra.Apartness]
apsetwithbinop_pr1 [definition, in UniMath.Algebra.Apartness]
apsetwith2binop [definition, in UniMath.Algebra.Apartness]
apsetwith2binop_apsetwithbinop2 [definition, in UniMath.Algebra.Apartness]
apsetwith2binop_apsetwithbinop1 [definition, in UniMath.Algebra.Apartness]
apsetwith2binop_pty [section, in UniMath.Algebra.Apartness]
apsetwith2binop_setwith2binop [definition, in UniMath.Algebra.Apartness]
apsetwith2binop_pr1 [definition, in UniMath.Algebra.Apartness]
apSet_pr2 [definition, in UniMath.Algebra.Apartness]
apSet_pr1 [definition, in UniMath.Algebra.Apartness]
apstar [definition, in UniMath.MoreFoundations.PathsOver]
ApTrans [section, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
ApTransformation [library]
ap_multNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
ap_plusNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
ap_ltNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
ap_modification [definition, in UniMath.Bicategories.Modifications.Examples.ApModification]
ap_modification_is_modification [definition, in UniMath.Bicategories.Modifications.Examples.ApModification]
ap_modification_data [definition, in UniMath.Bicategories.Modifications.Examples.ApModification]
ap_PreShv [definition, in UniMath.CategoryTheory.elems_slice_equiv]
ap_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
ap_pstrans_laws [definition, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
ap_pstrans_data [definition, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
ap_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
ap_functor_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
ap_functor_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
ap:10 [binder, in UniMath.Algebra.Apartness]
ap:12 [binder, in UniMath.Algebra.Apartness]
ap:120 [binder, in UniMath.CategoryTheory.Inductives.Lists]
ap:14 [binder, in UniMath.Induction.M.ComputationalM]
ap:14 [binder, in UniMath.Algebra.Apartness]
ap:146 [binder, in UniMath.RealNumbers.Sets]
ap:152 [binder, in UniMath.RealNumbers.Sets]
ap:32 [binder, in UniMath.Algebra.Apartness]
ap:34 [binder, in UniMath.Algebra.Apartness]
ap:36 [binder, in UniMath.Algebra.Apartness]
ap:8 [binder, in UniMath.Algebra.Apartness]
ar [definition, in UniMath.Algebra.Universal.Signatures]
ar [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
Archimedean [library]
arecompatibleactions [definition, in UniMath.Algebra.Modules.Multimodules]
are_inverses_from_Coequalizer_to_Coequalizer [lemma, in UniMath.CategoryTheory.limits.graphs.coequalizers]
are_adjoint_monad_form_kleislify [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
are_inverses_from_Pushout_to_Pushout [lemma, in UniMath.CategoryTheory.limits.graphs.pushouts]
are_inverses_from_Pushout_to_Pushout [lemma, in UniMath.CategoryTheory.limits.pushouts]
are_inverses_from_Equalizer_to_Equalizer [lemma, in UniMath.CategoryTheory.limits.graphs.equalizers]
are_inverse_comp_of_inverses [lemma, in UniMath.CategoryTheory.Core.Isos]
are_isomorphic [definition, in UniMath.CategoryTheory.Core.Isos]
are_isomorphic [section, in UniMath.CategoryTheory.Core.Isos]
are_inverses_from_Kernel_to_Kernel [lemma, in UniMath.CategoryTheory.limits.kernels]
are_inverses_from_Cokernel_to_Cokernel [lemma, in UniMath.CategoryTheory.limits.cokernels]
are_inverses_from_Equalizer_to_Equalizer [lemma, in UniMath.CategoryTheory.limits.equalizers]
are_adjoints_slicecat_functor_base_change [lemma, in UniMath.CategoryTheory.slicecat]
are_isomorphic_monorel [lemma, in UniMath.CategoryTheory.Subobjects]
are_relative_adjoints [definition, in UniMath.CategoryTheory.Adjunctions.Core]
are_adjoints_functor_composite [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
are_adjoints_to_is_right_adjoint [definition, in UniMath.CategoryTheory.Adjunctions.Core]
are_adjoints_to_is_left_adjoint [definition, in UniMath.CategoryTheory.Adjunctions.Core]
are_adjoints [definition, in UniMath.CategoryTheory.Adjunctions.Core]
are_adjoints_restricted_adjunction [lemma, in UniMath.CategoryTheory.Adjunctions.Restriction]
are_adjoints_from_adjunction [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
are_adjoints_from_adjunction [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
are_inverses_from_Pullback_to_Pullback [lemma, in UniMath.CategoryTheory.limits.graphs.pullbacks]
are_inverses_from_Pullback_to_Pullback [lemma, in UniMath.CategoryTheory.limits.pullbacks]
are_conjugates_is_are_conjugates' [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
are_conjugates' [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
are_conjugates [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
are_adjoint_functor_cat_swap [lemma, in UniMath.CategoryTheory.Adjunctions.Examples]
are_inverses_from_Coequalizer_to_Coequalizer [lemma, in UniMath.CategoryTheory.limits.coequalizers]
are_adjoints_constprod_functor2 [lemma, in UniMath.CategoryTheory.categories.HSET.Structures]
are_adjoints_slice_fam [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
are:10 [binder, in UniMath.CategoryTheory.Adjunctions.Restriction]
are:364 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
arity [definition, in UniMath.Algebra.Universal.Signatures]
arity [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
arity [definition, in UniMath.SubstitutionSystems.MultiSorted]
arityok:19 [binder, in UniMath.Algebra.Universal.Terms]
Arity_to_Signature [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
around_δ.iter1_dl.DL [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.iter1_dl.G [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.iter1_dl [section, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.option_sig.opt [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.option_sig.CC [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.option_sig.TC [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.option_sig [section, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.genoption_sig.genopt [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.genoption_sig.CC [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.genoption_sig.A [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.genoption_sig [section, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.δ_mul.DL2 [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.δ_mul.G2 [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.δ_mul.DL1 [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.δ_mul.G1 [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.δ_mul [section, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.θ_from_δ.precompG [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.θ_from_δ.DL [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.θ_from_δ.G [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.θ_from_δ [section, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.δ_for_id [section, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.def_of_δ.δ_laws.D' [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.def_of_δ.δ_laws.δ [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.def_of_δ.δ_laws [section, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.def_of_δ.G [variable, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.def_of_δ [section, in UniMath.SubstitutionSystems.SignatureExamples]
EndC [notation, in UniMath.SubstitutionSystems.SignatureExamples]
Ptd [notation, in UniMath.SubstitutionSystems.SignatureExamples]
around_δ [section, in UniMath.SubstitutionSystems.SignatureExamples]
arrow [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
arrow [section, in UniMath.CategoryTheory.DisplayedCats.Examples]
arrow [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
ArrowCategory [library]
ArrowsFromInitial [lemma, in UniMath.CategoryTheory.limits.graphs.initial]
ArrowsFromZero [lemma, in UniMath.CategoryTheory.limits.zero]
ArrowsFromZero [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
ArrowsToTerminal [lemma, in UniMath.CategoryTheory.limits.graphs.terminal]
ArrowsToZero [lemma, in UniMath.CategoryTheory.limits.zero]
ArrowsToZero [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
arrow_Poset [definition, in UniMath.Algebra.FixedPointTheorems]
arrow_of_adjunction [definition, in UniMath.Bicategories.Core.Adjunctions]
arrow_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
arrow_axioms [lemma, in UniMath.CategoryTheory.DisplayedCats.Examples]
arrow_data [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
arrow_id_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
arrow_disp_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
Arrow_Disp [section, in UniMath.CategoryTheory.DisplayedCats.Examples]
arrow_mor_mor_assoc [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
arrow_mor_id [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
arrow_morphism_composition [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
arrow_category_eq_comma_category [definition, in UniMath.CategoryTheory.ArrowCategory]
arrow_category [definition, in UniMath.CategoryTheory.ArrowCategory]
arrow_precategory_data [definition, in UniMath.CategoryTheory.ArrowCategory]
arrow' [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
arrow.C [variable, in UniMath.CategoryTheory.DisplayedCats.Examples]
ars:11 [binder, in UniMath.CategoryTheory.Chains.Cochains]
ars:9 [binder, in UniMath.CategoryTheory.Chains.Cochains]
ar:101 [binder, in UniMath.Algebra.Universal.Terms]
ar:104 [binder, in UniMath.Algebra.Universal.Terms]
ar:12 [binder, in UniMath.Algebra.Universal.Signatures]
ar:14 [binder, in UniMath.Algebra.Universal.Signatures]
ar:18 [binder, in UniMath.Algebra.Universal.Signatures]
ar:20 [binder, in UniMath.Algebra.Universal.Signatures]
ar:20 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
ar:7 [binder, in UniMath.SubstitutionSystems.MultiSorted]
ar:93 [binder, in UniMath.Algebra.Universal.Terms]
assembleSequence [definition, in UniMath.Combinatorics.FiniteSequences]
assembleSequence_ii2 [lemma, in UniMath.Combinatorics.FiniteSequences]
assemble_disassemble [definition, in UniMath.Combinatorics.WellFoundedRelations]
assemble_attempt [definition, in UniMath.Combinatorics.WellFoundedRelations]
assignment [definition, in UniMath.Algebra.Universal.VTerms]
assoc [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
assoc [definition, in UniMath.CategoryTheory.Core.Categories]
assocax [definition, in UniMath.Algebra.Monoids]
assocax_is [definition, in UniMath.Algebra.BinaryOperations]
assocax:10 [binder, in UniMath.Algebra.Matrix]
assocax:36 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
assocax:48 [binder, in UniMath.Algebra.Matrix]
assocax:95 [binder, in UniMath.Algebra.Matrix]
AssociativeMultipleOperation [definition, in UniMath.Algebra.IteratedBinaryOperations]
associativity [section, in UniMath.CategoryTheory.HorizontalComposition]
Associativity [section, in UniMath.Bicategories.Transformations.Examples.Associativity]
Associativity [section, in UniMath.Bicategories.Modifications.Examples.Associativity]
Associativity [library]
Associativity [library]
associativityNat [lemma, in UniMath.Algebra.IteratedBinaryOperations]
associativityOfProducts_seq [lemma, in UniMath.Algebra.IteratedBinaryOperations]
associativityOfProducts_list [lemma, in UniMath.Algebra.IteratedBinaryOperations]
associativityOfProducts' [lemma, in UniMath.Algebra.IteratedBinaryOperations]
associativity_pentagon [lemma, in UniMath.Bicategories.Core.Bicat]
associativity_as_nat_z_iso [definition, in UniMath.CategoryTheory.HorizontalComposition]
associativity':174 [binder, in UniMath.CategoryTheory.Core.Categories]
Associativity.F₁ [variable, in UniMath.Bicategories.Transformations.Examples.Associativity]
Associativity.F₁ [variable, in UniMath.Bicategories.Modifications.Examples.Associativity]
Associativity.F₂ [variable, in UniMath.Bicategories.Transformations.Examples.Associativity]
Associativity.F₂ [variable, in UniMath.Bicategories.Modifications.Examples.Associativity]
Associativity.F₃ [variable, in UniMath.Bicategories.Transformations.Examples.Associativity]
Associativity.F₃ [variable, in UniMath.Bicategories.Modifications.Examples.Associativity]
associativity:166 [binder, in UniMath.CategoryTheory.Core.Categories]
associator [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
associator [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
Associators_Unitors_Natural_bicat [section, in UniMath.Bicategories.Core.Bicat]
Associators_Unitors_Natural [section, in UniMath.Bicategories.Core.Bicat]
Associators_Unitors_Iso [section, in UniMath.Bicategories.Core.Bicat]
associator_of_pointedfunctors [definition, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
associator_swapping_of_tensor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
associator_to_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
associator_funclass [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
associator_naturality [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
associator_and_unitors_are_iso [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
associator_2mor [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
associator_trans [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
associator_trans_type [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
assocPathOver [definition, in UniMath.MoreFoundations.PathsOver]
assoc_disp_var [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
assoc_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
assoc_disp:49 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
assoc_right_ok [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
assoc_right [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
assoc_left_ok [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
assoc_left [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
assoc_right_gen [definition, in UniMath.CategoryTheory.HorizontalComposition]
assoc_left_gen [definition, in UniMath.CategoryTheory.HorizontalComposition]
assoc_concatenate [lemma, in UniMath.Combinatorics.Lists]
assoc_seq_to_fun [lemma, in UniMath.Algebra.IteratedBinaryOperations]
assoc_fun_to_seq [lemma, in UniMath.Algebra.IteratedBinaryOperations]
assoc' [definition, in UniMath.CategoryTheory.Core.Categories]
assoc4 [lemma, in UniMath.CategoryTheory.Core.Categories]
assoc:25 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
attempt [definition, in UniMath.Combinatorics.WellFoundedRelations]
Attempts [section, in UniMath.Combinatorics.WellFoundedRelations]
_ ≤ _ [notation, in UniMath.Combinatorics.WellFoundedRelations]
_ < _ [notation, in UniMath.Combinatorics.WellFoundedRelations]
attempt_paths [definition, in UniMath.Combinatorics.WellFoundedRelations]
attempt_lemma [definition, in UniMath.Combinatorics.WellFoundedRelations]
attempt_comp [definition, in UniMath.Combinatorics.WellFoundedRelations]
attempt_fun [definition, in UniMath.Combinatorics.WellFoundedRelations]
autos_comp_apply [definition, in UniMath.Algebra.GroupAction]
autos_comp [definition, in UniMath.Algebra.GroupAction]
aux [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
auxH1 [lemma, in UniMath.SubstitutionSystems.Signatures]
auxH2aux [lemma, in UniMath.SubstitutionSystems.Signatures]
Auxiliary [section, in UniMath.Algebra.FixedPointTheorems]
Auxiliary [section, in UniMath.CategoryTheory.DisplayedCats.Constructions]
Auxiliary [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Auxiliary [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Auxiliary [library]
_ ∩ _ (subtype) [notation, in UniMath.Algebra.FixedPointTheorems]
_ ∪ _ (subtype) [notation, in UniMath.Algebra.FixedPointTheorems]
aux_iso_2_inv [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
aux_iso_2_inv_is_nat_trans [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
aux_iso_1_inv [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
aux_iso_1_inv_is_nat_trans [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
aux_iso_1 [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
aux_iso_1_is_nat_trans [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
aux_inject_N [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
aux_fh [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
aux_iso_2_inv [definition, in UniMath.SubstitutionSystems.LiftingInitial]
aux_iso_2_inv_is_nat_trans [lemma, in UniMath.SubstitutionSystems.LiftingInitial]
aux_iso_1_inv [definition, in UniMath.SubstitutionSystems.LiftingInitial]
aux_iso_1_inv_is_nat_trans [lemma, in UniMath.SubstitutionSystems.LiftingInitial]
aux_iso_1 [definition, in UniMath.SubstitutionSystems.LiftingInitial]
aux_iso_1_is_nat_trans [lemma, in UniMath.SubstitutionSystems.LiftingInitial]
aux_lemmas [library]
aux0 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
auxμ [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
auxμ_is_nat_trans [lemma, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
auxρ [definition, in UniMath.CategoryTheory.Monoidal.Actions]
auxχ_codom [definition, in UniMath.CategoryTheory.Monoidal.Actions]
auxχ_dom [definition, in UniMath.CategoryTheory.Monoidal.Actions]
av:43 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
AxiomOfChoice [definition, in UniMath.MoreFoundations.AxiomOfChoice]
AxiomOfChoice [library]
AxiomOfChoice_surj [definition, in UniMath.MoreFoundations.AxiomOfChoice]
AxiomOfDecidableChoice [definition, in UniMath.MoreFoundations.AxiomOfChoice]
axioms_of_left_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
axioms_of_left_equivalence [definition, in UniMath.Bicategories.Core.Adjunctions]
axioms_of_left_adjoint [definition, in UniMath.Bicategories.Core.Adjunctions]
axioms_of_equiv_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
axioms_of_equiv_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
axs:344 [binder, in UniMath.Algebra.BinaryOperations]
ax0:690 [binder, in UniMath.Foundations.Sets]
ax11:230 [binder, in UniMath.Algebra.RigsAndRings]
ax11:28 [binder, in UniMath.Algebra.RigsAndRings]
ax11:316 [binder, in UniMath.Algebra.RigsAndRings]
ax11:731 [binder, in UniMath.Algebra.RigsAndRings]
ax12:231 [binder, in UniMath.Algebra.RigsAndRings]
ax12:29 [binder, in UniMath.Algebra.RigsAndRings]
ax12:317 [binder, in UniMath.Algebra.RigsAndRings]
ax12:732 [binder, in UniMath.Algebra.RigsAndRings]
ax1:137 [binder, in UniMath.Algebra.Modules.Core]
ax1:142 [binder, in UniMath.Algebra.Modules.Core]
ax1:151 [binder, in UniMath.Algebra.Modules.Core]
ax1:693 [binder, in UniMath.Foundations.Sets]
ax21:733 [binder, in UniMath.Algebra.RigsAndRings]
ax22:233 [binder, in UniMath.Algebra.RigsAndRings]
ax22:734 [binder, in UniMath.Algebra.RigsAndRings]
ax2:143 [binder, in UniMath.Algebra.Modules.Core]
ax2:152 [binder, in UniMath.Algebra.Modules.Core]
ax2:232 [binder, in UniMath.Algebra.RigsAndRings]
ax2:30 [binder, in UniMath.Algebra.RigsAndRings]
ax2:318 [binder, in UniMath.Algebra.RigsAndRings]
ax2:696 [binder, in UniMath.Foundations.Sets]
ax3:144 [binder, in UniMath.Algebra.Modules.Core]
ax3:153 [binder, in UniMath.Algebra.Modules.Core]
ax4:145 [binder, in UniMath.Algebra.Modules.Core]
ax4:154 [binder, in UniMath.Algebra.Modules.Core]
ax:1059 [binder, in UniMath.Foundations.Sets]
ax:1060 [binder, in UniMath.Foundations.Sets]
ax:1063 [binder, in UniMath.Foundations.Sets]
ax:1064 [binder, in UniMath.Foundations.Sets]
ax:107 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ax:108 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Ax:173 [binder, in UniMath.Topology.Filters]
Ax:184 [binder, in UniMath.Topology.Topology]
ax:7 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ax:8 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ax:85 [binder, in UniMath.Algebra.Modules.Submodule]
ay:1061 [binder, in UniMath.Foundations.Sets]
ay:1062 [binder, in UniMath.Foundations.Sets]
ay:1065 [binder, in UniMath.Foundations.Sets]
ay:1066 [binder, in UniMath.Foundations.Sets]
Ay:174 [binder, in UniMath.Topology.Filters]
Ay:185 [binder, in UniMath.Topology.Topology]
azerolmultcomp [lemma, in UniMath.PAdics.frac]
azerorelcomp [lemma, in UniMath.PAdics.frac]
azerormultcomp [lemma, in UniMath.PAdics.frac]
AZ:12 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
AZ:150 [binder, in UniMath.CategoryTheory.slicecat]
AZ:31 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
AZ:51 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
a_is:24 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
A_chain_closed:405 [binder, in UniMath.Algebra.FixedPointTheorems]
A_y:261 [binder, in UniMath.Algebra.FixedPointTheorems]
a_is:149 [binder, in UniMath.CategoryTheory.Core.Univalence]
a' [definition, in UniMath.CategoryTheory.FunctorAlgebras]
a'':121 [binder, in UniMath.CategoryTheory.catiso]
a'':138 [binder, in UniMath.CategoryTheory.catiso]
A'':1412 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
A'':145 [binder, in UniMath.MoreFoundations.PartA]
a'':149 [binder, in UniMath.CategoryTheory.catiso]
a'':157 [binder, in UniMath.CategoryTheory.catiso]
a'':196 [binder, in UniMath.CategoryTheory.PseudoElements]
a'':206 [binder, in UniMath.CategoryTheory.PseudoElements]
a'':93 [binder, in UniMath.CategoryTheory.Core.Univalence]
A':10 [binder, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
a':100 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
a':105 [binder, in UniMath.CategoryTheory.Core.Univalence]
a':105 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
a':1061 [binder, in UniMath.Algebra.BinaryOperations]
A':108 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':1086 [binder, in UniMath.Algebra.BinaryOperations]
a':1088 [binder, in UniMath.Algebra.BinaryOperations]
A':1090 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':110 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
A':1100 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
A':1113 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
A':112 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
A':1123 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':114 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
A':1172 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
A':1192 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':120 [binder, in UniMath.CategoryTheory.catiso]
A':1201 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':121 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
a':1226 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
a':123 [binder, in UniMath.CategoryTheory.catiso]
a':1242 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
a':125 [binder, in UniMath.CategoryTheory.catiso]
a':126 [binder, in UniMath.CategoryTheory.Core.Univalence]
a':126 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
A':130 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
A':1306 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':131 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
A':133 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':136 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
a':137 [binder, in UniMath.CategoryTheory.catiso]
a':14 [binder, in UniMath.CategoryTheory.Profunctors.Core]
a':141 [binder, in UniMath.CategoryTheory.Core.Univalence]
a':141 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
a':141 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
a':142 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
A':1423 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
A':144 [binder, in UniMath.MoreFoundations.PartA]
A':145 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':146 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
a':146 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
a':147 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
a':148 [binder, in UniMath.CategoryTheory.catiso]
A':150 [binder, in UniMath.CategoryTheory.FunctorCategory]
a':151 [binder, in UniMath.CategoryTheory.Core.Univalence]
A':152 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':152 [binder, in UniMath.Folds.folds_pre_2_cat]
a':156 [binder, in UniMath.CategoryTheory.catiso]
a':159 [binder, in UniMath.CategoryTheory.Core.Univalence]
a':1591 [binder, in UniMath.Algebra.BinaryOperations]
a':1593 [binder, in UniMath.Algebra.BinaryOperations]
a':1615 [binder, in UniMath.Algebra.BinaryOperations]
a':1617 [binder, in UniMath.Algebra.BinaryOperations]
a':1619 [binder, in UniMath.Algebra.BinaryOperations]
a':1621 [binder, in UniMath.Algebra.BinaryOperations]
a':163 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
A':167 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
a':168 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
a':170 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
a':170 [binder, in UniMath.CategoryTheory.Core.Univalence]
a':171 [binder, in UniMath.MoreFoundations.PartA]
a':175 [binder, in UniMath.CategoryTheory.PseudoElements]
a':176 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
a':193 [binder, in UniMath.CategoryTheory.PseudoElements]
a':194 [binder, in UniMath.MoreFoundations.PartA]
A':195 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
a':203 [binder, in UniMath.CategoryTheory.PseudoElements]
A':205 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
a':207 [binder, in UniMath.MoreFoundations.PartA]
a':213 [binder, in UniMath.Foundations.UnivalenceAxiom]
a':214 [binder, in UniMath.CategoryTheory.PseudoElements]
a':215 [binder, in UniMath.Foundations.UnivalenceAxiom]
a':221 [binder, in UniMath.Foundations.UnivalenceAxiom]
a':221 [binder, in UniMath.CategoryTheory.PseudoElements]
a':223 [binder, in UniMath.Foundations.UnivalenceAxiom]
a':228 [binder, in UniMath.CategoryTheory.PseudoElements]
a':23 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
a':230 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
a':237 [binder, in UniMath.CategoryTheory.PseudoElements]
a':24 [binder, in UniMath.CategoryTheory.catiso]
a':24 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
a':244 [binder, in UniMath.CategoryTheory.PseudoElements]
a':244 [binder, in UniMath.CategoryTheory.limits.cats.limits]
a':254 [binder, in UniMath.CategoryTheory.PseudoElements]
a':255 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
a':258 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
a':26 [binder, in UniMath.CategoryTheory.catiso]
a':26 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
a':273 [binder, in UniMath.CategoryTheory.limits.pushouts]
a':284 [binder, in UniMath.CategoryTheory.limits.pushouts]
a':29 [binder, in UniMath.CategoryTheory.DisplayedCats.SIP]
A':3 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
A':3 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A':3 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
a':31 [binder, in UniMath.CategoryTheory.catiso]
a':314 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
a':32 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
a':333 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
a':35 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
a':36 [binder, in UniMath.CategoryTheory.catiso]
a':381 [binder, in UniMath.CategoryTheory.Core.Isos]
a':40 [binder, in UniMath.CategoryTheory.Core.Univalence]
a':407 [binder, in UniMath.Algebra.Monoids]
a':416 [binder, in UniMath.CategoryTheory.Core.Isos]
A':44 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
a':443 [binder, in UniMath.Algebra.Monoids]
a':47 [binder, in UniMath.CategoryTheory.catiso]
A':5 [binder, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
a':515 [binder, in UniMath.CategoryTheory.limits.pullbacks]
a':526 [binder, in UniMath.CategoryTheory.limits.pullbacks]
A':53 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
a':55 [binder, in UniMath.CategoryTheory.catiso]
a':55 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
A':58 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
a':61 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
a':62 [binder, in UniMath.CategoryTheory.catiso]
a':63 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
A':63 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A':648 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':65 [binder, in UniMath.CategoryTheory.Core.Univalence]
a':66 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
A':676 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':68 [binder, in UniMath.CategoryTheory.catiso]
a':68 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
A':68 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A':687 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
A':69 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
a':69 [binder, in UniMath.CategoryTheory.Equivalences.Core]
A':698 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':70 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
a':70 [binder, in UniMath.CategoryTheory.Equivalences.Core]
a':71 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
A':714 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':72 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
a':73 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
a':73 [binder, in UniMath.CategoryTheory.Core.Univalence]
a':74 [binder, in UniMath.CategoryTheory.catiso]
a':74 [binder, in UniMath.CategoryTheory.limits.zero]
a':78 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
a':8 [binder, in UniMath.Folds.folds_pre_2_cat]
a':80 [binder, in UniMath.CategoryTheory.catiso]
a':80 [binder, in UniMath.CategoryTheory.Core.Univalence]
A':82 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':83 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
a':83 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
a':88 [binder, in UniMath.CategoryTheory.Core.Univalence]
A':89 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':891 [binder, in UniMath.Algebra.RigsAndRings]
a':9 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
a':91 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
a':92 [binder, in UniMath.CategoryTheory.Core.Univalence]
a':930 [binder, in UniMath.Algebra.RigsAndRings]
a':94 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
A':96 [binder, in UniMath.Algebra.FixedPointTheorems]
A':986 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
a':99 [binder, in UniMath.CategoryTheory.Core.Univalence]
A':992 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
A':999 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ #⊙' _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ ⊙' _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ #⊙ _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ ⊙ _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.ActionBasedStrengths_Definition.ActionBasedStrengths_Natural_Transformation [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.ActionBasedStrengths_Definition [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Actions_Definition.Alternative_Definition.FFassoc [variable, in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.FFunital [variable, in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.μ_is_nat_z_iso [variable, in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.ϵ_is_z_iso [variable, in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.μ [variable, in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.ϵ_inv [variable, in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.ϵ [variable, in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.Mon_EndA [variable, in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition [section, in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Projections [section, in UniMath.CategoryTheory.Monoidal.Actions]
_ #⊙ _ [notation, in UniMath.CategoryTheory.Monoidal.Actions]
_ ⊙ _ [notation, in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Actions_Natural_Transformations [section, in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition [section, in UniMath.CategoryTheory.Monoidal.Actions]
_ #⊗_A _ [notation, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
_ ⊗_A _ [notation, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
A.Action_Lifting_Through_Strong_Monoidal_Functor [section, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
A.Alternative_Definition.Param_Distr.actionA' [variable, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition.Param_Distr.actionA [variable, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition.Param_Distr.δ_pentagon_eq [variable, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition.Param_Distr.δ_triangle_eq [variable, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition.Param_Distr.The_Laws [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition.Param_Distr [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition.Mon_EndA' [variable, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition.Mon_EndA [variable, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Def [section, in UniMath.CategoryTheory.Enriched.Enriched]
A.Def.Axioms [section, in UniMath.CategoryTheory.Enriched.Enriched]
A.D1 [variable, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.D2 [variable, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.F [variable, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.Functors [section, in UniMath.CategoryTheory.Enriched.Enriched]
A.Functors.Axioms [section, in UniMath.CategoryTheory.Enriched.Enriched]
# _ (enriched) [notation, in UniMath.CategoryTheory.Enriched.Enriched]
A.G [variable, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.GG [variable, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.I [variable, in UniMath.CategoryTheory.Enriched.Enriched]
A.is [variable, in UniMath.PAdics.padics]
A.l_unitor [variable, in UniMath.CategoryTheory.Enriched.Enriched]
A.p [variable, in UniMath.PAdics.padics]
A.r_unitor [variable, in UniMath.CategoryTheory.Enriched.Enriched]
_ #⊗_A _ [notation, in UniMath.CategoryTheory.Monoidal.Actions]
_ ⊗_A _ [notation, in UniMath.CategoryTheory.Monoidal.Actions]
A.Strong_Monoidal_Functor_Action [section, in UniMath.CategoryTheory.Monoidal.Actions]
A.tensor [variable, in UniMath.CategoryTheory.Enriched.Enriched]
_ #⊗ _ (enriched) [notation, in UniMath.CategoryTheory.Enriched.Enriched]
_ ⊗ _ (enriched) [notation, in UniMath.CategoryTheory.Enriched.Enriched]
# _ (enriched) [notation, in UniMath.CategoryTheory.Enriched.Enriched]
_ ⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ #⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.Actions]
_ ⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.Actions]
_ #⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
_ ⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
A.α [variable, in UniMath.CategoryTheory.Enriched.Enriched]
A.ε [variable, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.εinv [variable, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.η [variable, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.ηinv [variable, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
a0':43 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
a0':74 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
a0':86 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
a0':93 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
a0:1007 [binder, in UniMath.Foundations.Sets]
a0:1008 [binder, in UniMath.Foundations.Sets]
a0:1011 [binder, in UniMath.Foundations.Sets]
a0:1012 [binder, in UniMath.Foundations.Sets]
A0:112 [binder, in UniMath.CategoryTheory.catiso]
A0:126 [binder, in UniMath.CategoryTheory.catiso]
a0:130 [binder, in UniMath.CategoryTheory.Core.Univalence]
a0:1328 [binder, in UniMath.Algebra.BinaryOperations]
a0:1330 [binder, in UniMath.Algebra.BinaryOperations]
a0:1343 [binder, in UniMath.Algebra.BinaryOperations]
a0:1345 [binder, in UniMath.Algebra.BinaryOperations]
a0:1354 [binder, in UniMath.Algebra.BinaryOperations]
a0:1356 [binder, in UniMath.Algebra.BinaryOperations]
a0:1369 [binder, in UniMath.Algebra.BinaryOperations]
a0:1371 [binder, in UniMath.Algebra.BinaryOperations]
a0:138 [binder, in UniMath.CategoryTheory.Core.Univalence]
a0:140 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
a0:141 [binder, in UniMath.CategoryTheory.FunctorCategory]
a0:149 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
a0:155 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
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a0:160 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
a0:161 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
a0:162 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
a0:190 [binder, in UniMath.Algebra.Universal.Terms]
A0:3 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
a0:387 [binder, in UniMath.Algebra.Monoids]
a0:39 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
a0:39 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
a0:42 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
a0:439 [binder, in UniMath.NumberSystems.Integers]
a0:440 [binder, in UniMath.NumberSystems.Integers]
a0:72 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
A0:8 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
a0:84 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
A0:89 [binder, in UniMath.CategoryTheory.catiso]
a0:91 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
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a1':253 [binder, in UniMath.Foundations.Propositions]
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a1:102 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
a1:107 [binder, in UniMath.Foundations.UnivalenceAxiom]
a1:108 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
a1:108 [binder, in UniMath.Foundations.UnivalenceAxiom]
a1:109 [binder, in UniMath.Foundations.UnivalenceAxiom]
a1:110 [binder, in UniMath.Foundations.UnivalenceAxiom]
a1:111 [binder, in UniMath.Foundations.UnivalenceAxiom]
a1:113 [binder, in UniMath.Foundations.UnivalenceAxiom]
A1:115 [binder, in UniMath.CategoryTheory.catiso]
a1:115 [binder, in UniMath.Foundations.UnivalenceAxiom]
a1:116 [binder, in UniMath.Foundations.UnivalenceAxiom]
a1:122 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
a1:126 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
a1:128 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
A1:129 [binder, in UniMath.CategoryTheory.catiso]
a1:135 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
A1:14 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
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a1:144 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
a1:15 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
a1:153 [binder, in UniMath.Algebra.Domains_and_Fields]
A1:159 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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A1:165 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
A1:174 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
A1:177 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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A1:189 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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A1:209 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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a1:250 [binder, in UniMath.Foundations.Propositions]
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a1:252 [binder, in UniMath.Foundations.Propositions]
A1:253 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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A2:187 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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A2:198 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
A2:202 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
A2:206 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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A2:242 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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A2:248 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
A2:254 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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A2:260 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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a₂:334 [binder, in UniMath.Bicategories.Colimits.Products]
a₂:340 [binder, in UniMath.Bicategories.Colimits.Products]
a₂:341 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₂:420 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₂:491 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
A₂:6 [binder, in UniMath.Bicategories.Core.AdjointUnique]
a₂:6 [binder, in UniMath.Bicategories.Core.TransportLaws]
a₂:6 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
a₂:66 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
a₂:71 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₂:74 [binder, in UniMath.Bicategories.Core.TransportLaws]
a₂:80 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₂:89 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₂:924 [binder, in UniMath.MoreFoundations.PartA]
a₂:95 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
a₃:124 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₃:170 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₃:251 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₃:315 [binder, in UniMath.Bicategories.Colimits.Products]
a₃:325 [binder, in UniMath.Bicategories.Colimits.Products]
a₃:342 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₃:421 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₃:492 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₃:67 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
a₃:7 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
a₃:72 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₃:81 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₃:90 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₄:171 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₄:252 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₄:343 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₄:493 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
a₄:8 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]

B

B [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
B [definition, in UniMath.Algebra.GroupAction]
bandfmap [definition, in UniMath.Foundations.PartA]
bar [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
base [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
base [section, in UniMath.Topology.Filters]
Base [library]
baseConnectedness [lemma, in UniMath.MoreFoundations.Propositions]
BaseOfFilter [definition, in UniMath.Topology.Filters]
BaseOfFilter_notfalse [lemma, in UniMath.Topology.Filters]
BaseOfFilter_notempty [lemma, in UniMath.Topology.Filters]
BaseOfFilter_and [lemma, in UniMath.Topology.Filters]
BaseOfPreFilter [definition, in UniMath.Topology.Filters]
BaseOfPreFilter_notempty [lemma, in UniMath.Topology.Filters]
BaseOfPreFilter_and [lemma, in UniMath.Topology.Filters]
basepoint [definition, in UniMath.MoreFoundations.PartA]
BasePointComponent [definition, in UniMath.MoreFoundations.Propositions]
BasePointComponent_weq [definition, in UniMath.MoreFoundations.Propositions]
BasePointComponent_isweq [lemma, in UniMath.MoreFoundations.Propositions]
BasePointComponent_isincl [lemma, in UniMath.MoreFoundations.Propositions]
BasePointComponent_isBaseConnected [lemma, in UniMath.MoreFoundations.Propositions]
basePointComponent_inclusion [definition, in UniMath.MoreFoundations.Propositions]
BasePseudoFunctor [section, in UniMath.Bicategories.PseudoFunctors.Display.Base]
BasePseudoFunctor.C [variable, in UniMath.Bicategories.PseudoFunctors.Display.Base]
BasePseudoFunctor.D [variable, in UniMath.Bicategories.PseudoFunctors.Display.Base]
base_paths_maponpaths_make_ob [lemma, in UniMath.CategoryTheory.ElementsOp]
base_change.dependent_product.BPC [variable, in UniMath.CategoryTheory.slicecat]
base_change.dependent_product.dependent_product_functor [variable, in UniMath.CategoryTheory.slicecat]
base_change.dependent_product [section, in UniMath.CategoryTheory.slicecat]
base_change_functor [definition, in UniMath.CategoryTheory.slicecat]
base_change_functor_data [definition, in UniMath.CategoryTheory.slicecat]
_ / _ [notation, in UniMath.CategoryTheory.slicecat]
base_change [section, in UniMath.CategoryTheory.slicecat]
base_fxy:358 [binder, in UniMath.Topology.Topology]
base_y:357 [binder, in UniMath.Topology.Topology]
base_x:356 [binder, in UniMath.Topology.Topology]
base_fx:336 [binder, in UniMath.Topology.Topology]
base_x:335 [binder, in UniMath.Topology.Topology]
base_of_neighborhood_default [definition, in UniMath.Topology.Topology]
base_default_2 [lemma, in UniMath.Topology.Topology]
base_default_1 [lemma, in UniMath.Topology.Topology]
base_default [definition, in UniMath.Topology.Topology]
base_default [section, in UniMath.Topology.Topology]
base_of_neighborhood [definition, in UniMath.Topology.Topology]
base_category_univalent [lemma, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_category_iso_weq_aux [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_category_iso_fam_weq [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_category_iso_weq [lemma, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_category_iso_fam_to_iso [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_category_iso_to_iso_fam [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_category [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_precategory [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_precategory_data [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_precategory_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_paths_isotoid_CONE [lemma, in UniMath.CategoryTheory.limits.cones]
base_paths_pair_path_in2 [lemma, in UniMath.MoreFoundations.PartA]
base_finite_intersection [lemma, in UniMath.Topology.Filters]
base_total2_paths [lemma, in UniMath.Foundations.PartA]
base_paths [lemma, in UniMath.Foundations.PartA]
base':394 [binder, in UniMath.Topology.Filters]
base':401 [binder, in UniMath.Topology.Filters]
base':407 [binder, in UniMath.Topology.Filters]
Base:1 [binder, in UniMath.MoreFoundations.StructureIdentity]
base:253 [binder, in UniMath.Topology.Topology]
base:256 [binder, in UniMath.Topology.Topology]
base:266 [binder, in UniMath.Topology.Topology]
base:270 [binder, in UniMath.Topology.Topology]
base:274 [binder, in UniMath.Topology.Topology]
base:292 [binder, in UniMath.Topology.Topology]
base:298 [binder, in UniMath.Topology.Topology]
base:304 [binder, in UniMath.Topology.Topology]
base:321 [binder, in UniMath.Topology.Filters]
base:330 [binder, in UniMath.Topology.Filters]
base:333 [binder, in UniMath.Topology.Filters]
base:336 [binder, in UniMath.Topology.Filters]
base:342 [binder, in UniMath.Topology.Filters]
base:345 [binder, in UniMath.Topology.Filters]
base:351 [binder, in UniMath.Topology.Filters]
base:354 [binder, in UniMath.Topology.Filters]
base:358 [binder, in UniMath.Topology.Filters]
base:379 [binder, in UniMath.Topology.Filters]
base:381 [binder, in UniMath.Topology.Filters]
base:383 [binder, in UniMath.Topology.Filters]
base:385 [binder, in UniMath.Topology.Filters]
base:388 [binder, in UniMath.Topology.Filters]
base:393 [binder, in UniMath.Topology.Filters]
base:400 [binder, in UniMath.Topology.Filters]
base:406 [binder, in UniMath.Topology.Filters]
basics [section, in UniMath.CategoryTheory.Presheaf]
ba:293 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ba:301 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ba:309 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ba:333 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ba:341 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ba:349 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ba:495 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ba:500 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ba:505 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BB':1176 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BB':1195 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BB':1204 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bb:101 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:1016 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:102 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:1037 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:104 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
bb:104 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:1056 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:1084 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:109 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:11 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
bb:1107 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:111 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:112 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:1135 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:114 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
bb:1149 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:1167 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:117 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:118 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:1191 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:121 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bb:1216 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:1236 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:125 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:125 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:1255 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:1273 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:128 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:128 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb:1292 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:130 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bb:132 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:136 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:137 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
bb:138 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:139 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb:139 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:140 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:1425 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:144 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:1450 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:1459 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:1470 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:148 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
bb:1482 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:149 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb:1496 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:150 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:151 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:156 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:156 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb:159 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
bb:16 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:16 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
bb:161 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb:162 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:165 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:166 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
bb:166 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:174 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:175 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb:177 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
bb:178 [binder, in UniMath.MoreFoundations.PartA]
bb:181 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:182 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb:192 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
bb:196 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:20 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:20 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
bb:20 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb:200 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:207 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
bb:209 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:211 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:217 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb:225 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
bb:226 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:227 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:233 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:235 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:24 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:240 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:241 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:244 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:245 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:247 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:253 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:254 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:256 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:261 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:265 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:268 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:271 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:271 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:287 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:287 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
Bb:287 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
bb:288 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:29 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:292 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:297 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:30 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:30 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb:305 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:308 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:309 [binder, in UniMath.Algebra.Groups]
bb:310 [binder, in UniMath.Algebra.Groups]
bb:313 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:314 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:319 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:32 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:32 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
bb:320 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:322 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:328 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:337 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:337 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:341 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:345 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:347 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:349 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:353 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:355 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:357 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
bb:364 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:365 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:37 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:371 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:379 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:38 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:387 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:39 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:394 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:40 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:400 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:408 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
bb:44 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:50 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:50 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:50 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:527 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
bb:53 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:56 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:60 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:61 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:62 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:62 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:63 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:67 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:69 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:7 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb:73 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:76 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:77 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:78 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:79 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:8 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:80 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
BB:82 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
bb:83 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:85 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:86 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:88 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:9 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:9 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb:90 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:93 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:93 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:97 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:997 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb₁:1398 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb₁:252 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₁:377 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₁:397 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₁:406 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₁:44 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₁:63 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₁:76 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₁:89 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₁:912 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb₂:1399 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb₂:253 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₂:378 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₂:398 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₂:407 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₂:45 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₂:64 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₂:77 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₂:90 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₂:913 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb₃:379 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₃:46 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₃:914 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
bcat [definition, in UniMath.Bicategories.BicatOfBicategory]
bcat_laws [lemma, in UniMath.Bicategories.BicatOfBicategory]
bcat_data [definition, in UniMath.Bicategories.BicatOfBicategory]
bcat_2_id_comp_struct [definition, in UniMath.Bicategories.BicatOfBicategory]
bcat_1_id_comp_cells [definition, in UniMath.Bicategories.BicatOfBicategory]
bcat_ob_mor_cells [definition, in UniMath.Bicategories.BicatOfBicategory]
bcat_cell_struct [definition, in UniMath.Bicategories.BicatOfBicategory]
bcat_precategory_ob_mor [definition, in UniMath.Bicategories.BicatOfBicategory]
BCC:12 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
BCC:143 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BCC:150 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BCC:16 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
BCC:171 [binder, in UniMath.CategoryTheory.limits.Opp]
BCC:19 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
BCC:23 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
BCC:9 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
BCD [definition, in UniMath.SubstitutionSystems.SignatureCategory]
bcpC:103 [binder, in UniMath.CategoryTheory.Monads.Derivative]
bc_whisker_r_id₂ [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
bc_whisker_r [definition, in UniMath.Bicategories.Core.Invertible_2cells]
bc_whisker_l_id₂ [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
bc_whisker_l [definition, in UniMath.Bicategories.Core.Invertible_2cells]
bc1:691 [binder, in UniMath.MoreFoundations.PartA]
bc1:705 [binder, in UniMath.MoreFoundations.PartA]
bc2:692 [binder, in UniMath.MoreFoundations.PartA]
bc2:706 [binder, in UniMath.MoreFoundations.PartA]
bc:11 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BC:1146 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BC:1153 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BC:1186 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BC:1213 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BC:124 [binder, in UniMath.CategoryTheory.Monads.Monads]
BC:1246 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BC:125 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
bc:140 [binder, in UniMath.MoreFoundations.Propositions]
bc:142 [binder, in UniMath.MoreFoundations.Propositions]
BC:164 [binder, in UniMath.CategoryTheory.slicecat]
BC:168 [binder, in UniMath.CategoryTheory.slicecat]
BC:173 [binder, in UniMath.CategoryTheory.limits.Opp]
bc:231 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
BC:246 [binder, in UniMath.CategoryTheory.limits.binproducts]
BC:250 [binder, in UniMath.CategoryTheory.limits.binproducts]
BC:346 [binder, in UniMath.CategoryTheory.limits.Opp]
bc:510 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bc:61 [binder, in UniMath.SyntheticHomotopyTheory.Test]
BC:688 [binder, in UniMath.MoreFoundations.PartA]
BC:702 [binder, in UniMath.MoreFoundations.PartA]
BC:8 [binder, in UniMath.CategoryTheory.CategoriesWithBinOps]
bc:89 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
BD:1221 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BD:1232 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:368 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:377 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:386 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:395 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:404 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:521 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:532 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:542 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:551 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
beta:102 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
beta:149 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
beta:18 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
beta:203 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
beta:31 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
beta:32 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
beta:35 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
beta:45 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
beta:78 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
beta:96 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
between_ltNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
bezoutstrong [lemma, in UniMath.PAdics.z_mod_p]
Bf:21 [binder, in UniMath.MoreFoundations.PartD]
bg:29 [binder, in UniMath.CategoryTheory.slicecat]
bg:33 [binder, in UniMath.CategoryTheory.slicecat]
bg:37 [binder, in UniMath.CategoryTheory.slicecat]
bg:41 [binder, in UniMath.CategoryTheory.slicecat]
bg:45 [binder, in UniMath.CategoryTheory.slicecat]
bg:49 [binder, in UniMath.CategoryTheory.slicecat]
bg:53 [binder, in UniMath.CategoryTheory.slicecat]
bg:71 [binder, in UniMath.CategoryTheory.slicecat]
bg:90 [binder, in UniMath.CategoryTheory.slicecat]
bhfiber [definition, in UniMath.Foundations.PartC]
Biadjunction [library]
BiadjunctionDataProjections [section, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionDataProjections.R [variable, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionHom [section, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
ε [notation, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
η [notation, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionInitial [section, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionProjections [section, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionProjections.R [variable, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionTriangleLaws [section, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionTriangleLaws.R [variable, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
ε [notation, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
η [notation, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionUniqueMaps [section, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_preserves_biinitial [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_preserves_unique_maps [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_equiv [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_equivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_right_left [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_right_left_is_nat_trans [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_right_left_data [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_left_right [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_left_right_is_nat_trans [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_left_right_data [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_right_hom [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_right_hom_is_functor [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_right_hom_data [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_left_hom [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_left_hom_is_functor [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_left_hom_data [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_triangle_r [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_triangle_l [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_triangle_r_law [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_triangle_r_lhs [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_triangle_l_law [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_triangle_l_lhs [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_counit [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_unit [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_right_adjoint [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
bicat [definition, in UniMath.Bicategories.Core.Bicat]
Bicat [library]
BicatCleaving [section, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
BicatCleaving.Cartesian1cell [section, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bicategorical_yoneda_lemma_inv [definition, in UniMath.Bicategories.Core.YonedaLemma]
bicategorical_yoneda_lemma [definition, in UniMath.Bicategories.Core.YonedaLemma]
bicategory [definition, in UniMath.Bicategories.WkCatEnrichment.bicategory]
bicategory [library]
BicategoryFromMonoidal [library]
BicategoryLaws [library]
BicategoryOfBicat [library]
bicate_data [definition, in UniMath.Bicategories.BicategoryOfBicat]
bicate_transfs [lemma, in UniMath.Bicategories.BicategoryOfBicat]
bicate_lassociator [definition, in UniMath.Bicategories.BicategoryOfBicat]
bicate_lassociator_fun_natural [lemma, in UniMath.Bicategories.BicategoryOfBicat]
bicate_lassociator_fun [definition, in UniMath.Bicategories.BicategoryOfBicat]
bicate_id_comp [definition, in UniMath.Bicategories.BicategoryOfBicat]
bicate_ob_hom [definition, in UniMath.Bicategories.BicategoryOfBicat]
BicatOfBicategory [library]
BicatOfCats [library]
BicatOfUnivCats [library]
bicat_from_monoidal [definition, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
_ <== _ [notation, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
_ ==> _ [notation, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
_ #⊗ _ [notation, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
_ ⊗ _ [notation, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.pentagon_equation [variable, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.triangle_equality [variable, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.ρ [variable, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.l [variable, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.α [variable, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.tensor [variable, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.I [variable, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.pM [variable, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat [section, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
bicat_algebra_is_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
bicat_algebra_is_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
bicat_algebra_is_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
bicat_algebra [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
bicat_of_strict_bicat [definition, in UniMath.Bicategories.Core.Strictness]
bicat_with_binprod_to_bicat [definition, in UniMath.Bicategories.Colimits.Products]
bicat_with_binprod [definition, in UniMath.Bicategories.Colimits.Products]
bicat_adjoint_equivalence_is_op2_bicat_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
bicat_left_adjoint_equivalence_to_op2_bicat_left_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
bicat_invertible_2cell_is_op2_bicat_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
bicat_is_invertible_2cell_to_op2_bicat_is_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
bicat_of_univ_cats [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
bicat_of_cats [definition, in UniMath.Bicategories.Core.Examples.BicatOfCats]
bicat_ob [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
bicat_adjoint_equivalence_is_fullsub_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
bicat_left_adjoint_equivalence_to_fullsub_left_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
bicat_is_invertible_2cell_is_fullsub_is_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
bicat_is_invertible_2cell_to_fullsub_is_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
bicat_adjoint_equivalence_is_op1_bicat_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
bicat_left_adjoint_equivalence_to_op1_bicat_left_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
bicat_invertible_2cell_is_op1_bicat_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
bicat_is_invertible_2cell_to_op1_bicat_is_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
bicat_of_strict_cats_is_strict_bicat [lemma, in UniMath.Bicategories.Core.Examples.StrictCats]
bicat_of_strict_cats [definition, in UniMath.Bicategories.Core.Examples.StrictCats]
bicat_to_hcomp_bicat_to_bicat [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
bicat_to_hcomp_bicat [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
bicat_to_hcomp_bicat_laws [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
bicat_to_hcomp_bicat_data [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
Biequivalence [section, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
Biequivalence [library]
biequivalence_to_object_equivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
biequiv_path_groupoid [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
BiFinal [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_unique [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_unique_adj_eqv [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_unique_left_eqv [lemma, in UniMath.Bicategories.Colimits.Final]
bifinal_unique_adj_data [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_unique_adj_counit [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_unique_adj_unit [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_cats [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_1_types [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_inv_counit [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_inv_counit_is_nat_trans [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_inv_counit_data [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_inv_unit [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_inv_unit_is_nat_trans [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_inv_unit_data [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_inv [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_inv_is_functor [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_inv_data [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_eq [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_eq_property [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_2cell [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_2cell_property [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_1cell [definition, in UniMath.Bicategories.Colimits.Final]
bifinal_1cell_property [definition, in UniMath.Bicategories.Colimits.Final]
Bifunctor [library]
bifunctor_assoc_repn [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
bifunctor_assoc [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
bifunctor_comm [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
biggestUniqueness [lemma, in UniMath.Combinatorics.OrderedSets]
bigmonad [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_is_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_is_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_is_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_to_monad [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_laws [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_mu [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_unit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_map [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_obj [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
BigProjections [section, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigSet [lemma, in UniMath.Combinatorics.WellOrderedSets]
BiInitial [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_unique [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_unique_adj_eqv [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_unique_left_eqv [lemma, in UniMath.Bicategories.Colimits.Initial]
biinitial_unique_adj_data [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_unique_adj_counit [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_unique_adj_unit [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_cats [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_1_types [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_weq_biinitial' [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_counit [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_counit_is_nat_trans [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_counit_data [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_unit [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_unit_is_nat_trans [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_unit_data [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_inv [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_is_functor [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_data [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_eq [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_eq_property [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_2cell [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_2cell_property [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_1cell [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_1cell_property [definition, in UniMath.Bicategories.Colimits.Initial]
biinitial_to_unique_maps [definition, in UniMath.Bicategories.Colimits.Initial]
bimodule [definition, in UniMath.Algebra.Modules.Examples]
bimodule_struct' [definition, in UniMath.Algebra.Modules.Examples]
BinaryCoproduct [section, in UniMath.Induction.ImpredicativeInductiveSets]
BinaryCoproduct.A [variable, in UniMath.Induction.ImpredicativeInductiveSets]
BinaryCoproduct.B [variable, in UniMath.Induction.ImpredicativeInductiveSets]
BinaryOperations [section, in UniMath.Algebra.IteratedBinaryOperations]
BinaryOperations [library]
BinaryProduct [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
BinaryProduct [section, in UniMath.Induction.ImpredicativeInductiveSets]
binaryProductFunctor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
BinaryProductFunctorAssoc [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binaryProductMap [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binaryProductMapUniqueness [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binaryProductMap_2 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
BinaryProducts [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binaryProductToSums [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binaryProduct_pr_2_eqn [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binaryProduct_pr_1_eqn [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
BinaryProduct.A [variable, in UniMath.Induction.ImpredicativeInductiveSets]
BinaryProduct.B [variable, in UniMath.Induction.ImpredicativeInductiveSets]
BinarySum [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySumMap [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySumMapUniqueness [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySumMap_2 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySumProperty [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
BinarySums [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySumsToProducts [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySum_in_2_eqn [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySum_in_1_eqn [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binary_intersection_open [definition, in UniMath.AlgebraicGeometry.Topology]
BinCoprod [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoprodSortToSet [lemma, in UniMath.SubstitutionSystems.CCS_alt]
BinCoprodSortToSet [lemma, in UniMath.SubstitutionSystems.STLC_alt]
BinCoprodSortToSet2 [lemma, in UniMath.SubstitutionSystems.STLC_alt]
BinCoprods:259 [binder, in UniMath.CategoryTheory.limits.pushouts]
BinCoprodTypeToSet [lemma, in UniMath.SubstitutionSystems.PCF_alt]
BinCoprodTypeToSet2 [lemma, in UniMath.SubstitutionSystems.PCF_alt]
BinCoproduct [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductArrow [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductArrow [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductArrowEta [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductArrowEta [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductArrowsEq [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductArrowUnique [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductArrowUnique [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductArrowZero [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductArrow_eq_cor [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductCocone [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductIn1 [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn1 [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductIn1Commutes [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn1Commutes [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductIn1CommutesHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
BinCoproductIn1Commutes_right_in_double_ctx_dir [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn1Commutes_left_in_ctx_dir [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn1Commutes_left_dir [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn1Commutes_right_in_ctx_dir [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn1Commutes_right_dir [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2 [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2 [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductIn2Commutes [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2Commutes [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductIn2CommutesHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
BinCoproductIn2Commutes_right_in_double_ctx_dir [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2Commutes_left_in_ctx_dir [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2Commutes_left_dir [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2Commutes_right_in_ctx_dir [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2Commutes_right_dir [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductObject [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductObject [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductOfArrows [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductOfArrows [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductOfArrowsIn1 [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductOfArrowsIn1 [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductOfArrowsIn2 [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductOfArrowsIn2 [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductOfArrows_comp [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts [section, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
bincoproducts [library]
bincoproducts [library]
BinCoproductsFinSet [definition, in UniMath.CategoryTheory.categories.FinSet]
BinCoproductsHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
BinCoproductsHSET_from_Colims [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
BinCoproductsHSET2 [definition, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
BinCoproductsSortToC [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
BinCoproducts_PreShv [lemma, in UniMath.CategoryTheory.Presheaf]
BinCoproducts_functor_precat [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts_from_Colims [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts_from_Colims.C [variable, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts_from_Colims [section, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts_slice_precat [lemma, in UniMath.CategoryTheory.slicecat]
BinCoproducts_HSET_slice [lemma, in UniMath.CategoryTheory.categories.HSET.Slice]
BinCoproducts_opp [definition, in UniMath.CategoryTheory.limits.Opp]
BinCoproducts_from_Colims [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproducts.a [variable, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.b [variable, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.c [variable, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.C [variable, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.CC [variable, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.d [variable, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.x [variable, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.y [variable, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_from_iso.C [variable, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_from_iso [section, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_alt_eq_BinCoproduct_of_functors_alt2 [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_alt_eq_BinCoproduct_of_functors [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_alt2_eq_BinCoproduct_of_functors [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_data [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_mor [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_ob [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_zeroarrow.Z [variable, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_zeroarrow.C [variable, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_zeroarrow [section, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_alt2 [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_alt [definition, in UniMath.CategoryTheory.limits.bincoproducts]
bincoproduct_functor [definition, in UniMath.CategoryTheory.limits.bincoproducts]
bincoproduct_functor_data [definition, in UniMath.CategoryTheory.limits.bincoproducts]
bincoproduct_diagram [definition, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_endo_is_identity [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_opp [definition, in UniMath.CategoryTheory.limits.Opp]
bincoproduct_functor_adjunction [section, in UniMath.CategoryTheory.Adjunctions.Examples]
BinCoproduct_endo_is_identity [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
bincoproduct_def.C [variable, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
bincoproduct_def [section, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
bincoproduct_diagram [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoprod:142 [binder, in UniMath.CategoryTheory.Abelian]
BinCoprod:151 [binder, in UniMath.CategoryTheory.Abelian]
BinCoprod:160 [binder, in UniMath.CategoryTheory.Abelian]
BinCoprod:167 [binder, in UniMath.CategoryTheory.Abelian]
BinCoprod:239 [binder, in UniMath.CategoryTheory.limits.pushouts]
BinCoprod:246 [binder, in UniMath.CategoryTheory.limits.pushouts]
BinCoprod:257 [binder, in UniMath.CategoryTheory.limits.pushouts]
bind [definition, in UniMath.CategoryTheory.Monads.Monads]
bind [section, in UniMath.CategoryTheory.Monads.Monads]
Bind [section, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bind [definition, in UniMath.CategoryTheory.Monads.KTriples]
bindelta_pair_pr2_iso [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr2 [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr2_is_nat_trans [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr2_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr1_iso [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr1 [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr1_is_nat_trans [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr1_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_functor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_functor_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_functor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_functor_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_functor_adjunction [section, in UniMath.CategoryTheory.Adjunctions.Examples]
BindingSig [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BindingSig [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSig [section, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigIndex [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigIsaset [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigMap [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BindingSigToMonad [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad [section, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad [library]
BindingSigToMonadHSET [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonadHSET [section, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad.BPC2 [variable, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad.constprod_functor1 [variable, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad.HSS [variable, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad.Id_H [variable, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad.InitialHSS [variable, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad.Monad_from_hss [variable, in UniMath.SubstitutionSystems.BindingSigToMonad]
[C,C] [notation, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToSignature [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BindingSigToSignature [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToSignatureHSET [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
BinDirectSum [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIndAr [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIndArComp [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIndArEq [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIndArEq1 [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIndArEq2 [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIndArFormula [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIndAr' [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIn1Commutes [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIn2Commutes [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumOb [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumPr1Commutes [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumPr2Commutes [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums [library]
bindirectsums_in_quot.PAC [variable, in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_in_quot.PAS [variable, in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_in_quot.BD [variable, in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_in_quot.Z [variable, in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_in_quot.A [variable, in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_in_quot [section, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_BinProducts [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_isProduct [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_isCoproduct [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_eq5 [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_eq4 [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_eq3 [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_eq2 [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_eq1 [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_criteria.Z [variable, in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_criteria.hs [variable, in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_criteria.A [variable, in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_criteria [section, in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_monics_and_epis.A [variable, in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_monics_and_epis [section, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSum_from_BinProduct [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSum_BinProduct [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSum_BinCoproduct [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSum_isBinDirectSum [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
bind_relmonadmor_eq_from_relmonadmor_iso [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
bind_bind [lemma, in UniMath.CategoryTheory.Monads.Monads]
bind_η [lemma, in UniMath.CategoryTheory.Monads.Monads]
bind_bind [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bind_unit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bind_kt [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bind_bind:35 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bind_unit:25 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bind_bind_slice_inst [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_bind_slice [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_η_slice_inst [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_η_slice [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_slice_ok [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_slice [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_instantiated [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_bind_fun [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
bind_η_fun [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
bind_fun [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
bind_identity [lemma, in UniMath.CategoryTheory.Monads.KleisliCategory]
bind_comp_η [lemma, in UniMath.CategoryTheory.Monads.KleisliCategory]
bind_kt_monad_to_kleisli [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
bind_map [lemma, in UniMath.CategoryTheory.Monads.KTriples]
bind_η [definition, in UniMath.CategoryTheory.Monads.KTriples]
bind_bind [definition, in UniMath.CategoryTheory.Monads.KTriples]
bind:23 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bind:7 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
binop [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
BINOP [abbreviation, in UniMath.CategoryTheory.category_binops]
BINOP [abbreviation, in UniMath.CategoryTheory.category_binops]
binop [definition, in UniMath.Foundations.PartA]
binopeqrel [definition, in UniMath.Algebra.BinaryOperations]
binopeqrelabgrdiff [definition, in UniMath.Algebra.Groups]
binopeqrelabmonoidfrac [definition, in UniMath.Algebra.Monoids]
binopeqrel_of_binopfun [definition, in UniMath.Algebra.BinaryOperations]
binopeqrel_eq [definition, in UniMath.Algebra.BinaryOperations]
binopeqrel_resp_right [definition, in UniMath.Algebra.BinaryOperations]
binopeqrel_resp_left [definition, in UniMath.Algebra.BinaryOperations]
binopeqrel_subgr_eqrel [lemma, in UniMath.CategoryTheory.PreAdditive]
binopfun [definition, in UniMath.Algebra.BinaryOperations]
binopfuncomp [definition, in UniMath.Algebra.BinaryOperations]
binopfuncomp_assoc [definition, in UniMath.CategoryTheory.category_binops]
binopfunisbinopfun [definition, in UniMath.Algebra.BinaryOperations]
binophrel [definition, in UniMath.Algebra.BinaryOperations]
binophrelandfun [lemma, in UniMath.Algebra.BinaryOperations]
binophrelmodule_eqrel [definition, in UniMath.Algebra.Modules.Quotient]
binophrel_resp_right [definition, in UniMath.Algebra.BinaryOperations]
binophrel_resp_left [definition, in UniMath.Algebra.BinaryOperations]
binopincltobinopfun [definition, in UniMath.Algebra.BinaryOperations]
binopiso [definition, in UniMath.Algebra.BinaryOperations]
binopisocomp [definition, in UniMath.Algebra.BinaryOperations]
binopisotobinopmono [definition, in UniMath.Algebra.BinaryOperations]
binopmono [definition, in UniMath.Algebra.BinaryOperations]
binopmonocomp [definition, in UniMath.Algebra.BinaryOperations]
binopPathOver [definition, in UniMath.MoreFoundations.PathsOver]
binoppo [definition, in UniMath.Algebra.BinaryOperations]
binops_precategory_ob_mor [definition, in UniMath.CategoryTheory.category_binops]
binops_fun_space [definition, in UniMath.CategoryTheory.category_binops]
BINOPS_precategory [section, in UniMath.CategoryTheory.category_binops]
binop_category [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
binop_precategory_is_univalent [definition, in UniMath.CategoryTheory.category_binops]
binop_category [definition, in UniMath.CategoryTheory.category_binops]
binop_precategory_isweq [definition, in UniMath.CategoryTheory.category_binops]
binop_equiv_weq_iso [definition, in UniMath.CategoryTheory.category_binops]
binop_equiv_iso_is_equiv [lemma, in UniMath.CategoryTheory.category_binops]
binop_iso_equiv_weq [definition, in UniMath.CategoryTheory.category_binops]
binop_iso_equiv_is_equiv [lemma, in UniMath.CategoryTheory.category_binops]
binop_equiv_iso [lemma, in UniMath.CategoryTheory.category_binops]
binop_equiv_is_iso [lemma, in UniMath.CategoryTheory.category_binops]
binop_iso_equiv [lemma, in UniMath.CategoryTheory.category_binops]
binop_iso_is_equiv [lemma, in UniMath.CategoryTheory.category_binops]
BINOP_category [section, in UniMath.CategoryTheory.category_binops]
binop_precategory [definition, in UniMath.CategoryTheory.category_binops]
binop_precategory_data [definition, in UniMath.CategoryTheory.category_binops]
binop_weq_bck [definition, in UniMath.Algebra.BinaryOperations]
binop_weq_fwd [definition, in UniMath.Algebra.BinaryOperations]
binop1fun [definition, in UniMath.Algebra.BinaryOperations]
binop1iso [definition, in UniMath.Algebra.BinaryOperations]
binop1mono [definition, in UniMath.Algebra.BinaryOperations]
binop2fun [definition, in UniMath.Algebra.BinaryOperations]
binop2iso [definition, in UniMath.Algebra.BinaryOperations]
binop2mono [definition, in UniMath.Algebra.BinaryOperations]
BinProd [lemma, in UniMath.SubstitutionSystems.CCS_alt]
BinProd [lemma, in UniMath.SubstitutionSystems.PCF_alt]
BinProd [lemma, in UniMath.SubstitutionSystems.STLC_alt]
binprod [definition, in UniMath.Bicategories.Colimits.Products]
BinProds:319 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
BinProds:321 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Binproduct [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProduct [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProductArrow [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductArrow [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProductArrowEta [lemma, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductArrowEta [lemma, in UniMath.CategoryTheory.limits.binproducts]
BinProductArrowsEq [lemma, in UniMath.CategoryTheory.limits.binproducts]
BinProductArrowUnique [lemma, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductArrowUnique [lemma, in UniMath.CategoryTheory.limits.binproducts]
BinProductArrowZero [lemma, in UniMath.CategoryTheory.limits.binproducts]
BinProductArrow_diagram [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
BinProductCone [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
binproductleft_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
binproductleft_map_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
binproductleft_map_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
BinProductObject [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductObject [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProductOfArrows [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductOfArrows [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProductOfArrowsPr1 [lemma, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductOfArrowsPr1 [lemma, in UniMath.CategoryTheory.limits.binproducts]
BinProductOfArrowsPr2 [lemma, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductOfArrowsPr2 [lemma, in UniMath.CategoryTheory.limits.binproducts]
BinProductOfArrows_comp [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProductOfSignatures [library]
BinProductPr1 [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductPr1 [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProductPr1Commutes [lemma, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductPr1Commutes [lemma, in UniMath.CategoryTheory.limits.binproducts]
BinProductPr1_isEpi [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
BinProductPr2 [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductPr2 [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProductPr2Commutes [lemma, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductPr2Commutes [lemma, in UniMath.CategoryTheory.limits.binproducts]
BinProductPr2_isEpi [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
BinProducts [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProducts [section, in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts [section, in UniMath.CategoryTheory.limits.binproducts]
BinProducts [definition, in UniMath.CategoryTheory.limits.binproducts]
binproducts [library]
binproducts [library]
BinProductsFinSet [definition, in UniMath.CategoryTheory.categories.FinSet]
BinProductsFromPullbacks [definition, in UniMath.CategoryTheory.limits.pullbacks]
BinProductsHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
BinProductsHSET_from_Lims [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
BinProductsHSET2 [definition, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
BinProductsHSET2 [definition, in UniMath.SubstitutionSystems.LamFromBindingSig]
BinProducts_PreShv [lemma, in UniMath.CategoryTheory.Presheaf]
BinProducts_HSET_over_sort2 [lemma, in UniMath.SubstitutionSystems.STLC]
BinProducts_slice_precat [definition, in UniMath.CategoryTheory.slicecat]
BinProducts_HSET_slice [lemma, in UniMath.CategoryTheory.categories.HSET.Slice]
BinProducts_from_Lims [lemma, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProducts_opp [definition, in UniMath.CategoryTheory.limits.Opp]
BinProducts_Signature_category [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts_functor_precat [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProducts_from_Lims [lemma, in UniMath.CategoryTheory.limits.binproducts]
BinProducts_from_Lims.C [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProducts_from_Lims [section, in UniMath.CategoryTheory.limits.binproducts]
BinProducts.a [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProducts.b [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProducts.BC [variable, in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts.BD [variable, in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts.C [variable, in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts.c [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProducts.C [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProducts.CC [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProducts.D [variable, in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts.d [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProducts.D' [variable, in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts.x [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProducts.y [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_Signatures [definition, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S22' [variable, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S21' [variable, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S12' [variable, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S11' [variable, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S22 [variable, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S21 [variable, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S12 [variable, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S11 [variable, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.θ2 [variable, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.θ1 [variable, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.H2 [variable, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.H1 [variable, in UniMath.SubstitutionSystems.BinProductOfSignatures]
PCD [notation, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction [section, in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures [section, in UniMath.SubstitutionSystems.BinProductOfSignatures]
BinProduct_of_Signatures [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
binproduct_diagram [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
binproduct_def.C [variable, in UniMath.CategoryTheory.limits.graphs.binproducts]
binproduct_def [section, in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProduct_opp [definition, in UniMath.CategoryTheory.limits.Opp]
BinProduct_Pullback [definition, in UniMath.CategoryTheory.limits.pullbacks]
binproduct_from_pullback [section, in UniMath.CategoryTheory.limits.pullbacks]
BinProduct_from_iso.C [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_from_iso [section, in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_univ_prop [lemma, in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_Pr2Commutes [lemma, in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_Pr1Commutes [lemma, in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans [definition, in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_data [definition, in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_pr2 [definition, in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_pr2_data [definition, in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_pr1 [definition, in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_pr1_data [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_functors_alt_eq_BinProduct_of_functors [lemma, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_functors [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_functors_data [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_functors_mor [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_functors_ob [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_zeroarrow.Z [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_zeroarrow.C [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_zeroarrow [section, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_functors_alt [definition, in UniMath.CategoryTheory.limits.binproducts]
binproduct_functor [definition, in UniMath.CategoryTheory.limits.binproducts]
binproduct_functor_data [definition, in UniMath.CategoryTheory.limits.binproducts]
binproduct_functor [section, in UniMath.CategoryTheory.limits.binproducts]
binproduct_diagram [definition, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_endo_is_identity [lemma, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_unique.b [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_unique.a [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_unique.CC [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_unique.C [variable, in UniMath.CategoryTheory.limits.binproducts]
BinProduct_unique [section, in UniMath.CategoryTheory.limits.binproducts]
binproduct_def.C [variable, in UniMath.CategoryTheory.limits.binproducts]
binproduct_def [section, in UniMath.CategoryTheory.limits.binproducts]
binprod_comp [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
binprod_id [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
binprod_ump_2_cell_unique_univ_cat [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_pr2_univ_cat [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_pr1_univ_cat [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_univ_cat [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_1_univ_cat [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_unique_one_types [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_pr2_one_types [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_pr1_one_types [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_one_types [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_1_one_types [definition, in UniMath.Bicategories.Colimits.Products]
binprod_pr2 [definition, in UniMath.Bicategories.Colimits.Products]
binprod_pr1 [definition, in UniMath.Bicategories.Colimits.Products]
binprod_of [definition, in UniMath.Bicategories.Colimits.Products]
binprod_cat_ump [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2cell_invertible [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2cell_unique_alt [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2cell_unique [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2cell_pr2 [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2cell_pr1 [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2cell [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_1cell_pr2 [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_1cell_pr1 [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_1cell [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_2 [definition, in UniMath.Bicategories.Colimits.Products]
binprod_ump_1 [definition, in UniMath.Bicategories.Colimits.Products]
binprod_1cell_pr2 [definition, in UniMath.Bicategories.Colimits.Products]
binprod_1cell_pr1 [definition, in UniMath.Bicategories.Colimits.Products]
binprod_1cell_1cell [definition, in UniMath.Bicategories.Colimits.Products]
binprod_1cell [definition, in UniMath.Bicategories.Colimits.Products]
binprod_cone_pr2 [definition, in UniMath.Bicategories.Colimits.Products]
binprod_cone_pr1 [definition, in UniMath.Bicategories.Colimits.Products]
binprod_cone_obj [definition, in UniMath.Bicategories.Colimits.Products]
binprod_cone [definition, in UniMath.Bicategories.Colimits.Products]
binprod_delta_comm [lemma, in UniMath.CategoryTheory.LatticeObject]
binprod_assoc_comm [lemma, in UniMath.CategoryTheory.LatticeObject]
binprod_swap [definition, in UniMath.CategoryTheory.LatticeObject]
binprod_delta [definition, in UniMath.CategoryTheory.LatticeObject]
binprod_assoc [definition, in UniMath.CategoryTheory.LatticeObject]
binprod_to_pullback_inv [lemma, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
binprod_to_pullback [definition, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
BinProd:108 [binder, in UniMath.CategoryTheory.Abelian]
BinProd:117 [binder, in UniMath.CategoryTheory.Abelian]
BinProd:124 [binder, in UniMath.CategoryTheory.Abelian]
BinProd:13 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:17 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:21 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:23 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:25 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:27 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:3 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:301 [binder, in UniMath.CategoryTheory.limits.pullbacks]
BinProd:308 [binder, in UniMath.CategoryTheory.limits.pullbacks]
BinProd:319 [binder, in UniMath.CategoryTheory.limits.pullbacks]
BinProd:32 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:39 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:41 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:43 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:45 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:5 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:50 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:57 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:59 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:61 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:63 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:65 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:67 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:7 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:9 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:99 [binder, in UniMath.CategoryTheory.Abelian]
BinSumOfSignatures [library]
BinSum_of_Signatures [definition, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S22' [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S21' [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S12' [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S11' [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S22 [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S21 [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S12 [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S11 [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.θ2 [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.θ1 [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.H2 [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.H1 [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
CCD [notation, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction [section, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.CD [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.D' [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.D [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.C [variable, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures [section, in UniMath.SubstitutionSystems.BinSumOfSignatures]
binswap_pair_functor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
bintrees [section, in UniMath.CategoryTheory.Inductives.Trees]
bintrees.A [variable, in UniMath.CategoryTheory.Inductives.Trees]
bintrees.is_omega_cocont_treeFunctor [variable, in UniMath.CategoryTheory.Inductives.Trees]
bintrees.treeFunctor [variable, in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.Pc' [variable, in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.P0' [variable, in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.P' [variable, in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.Pc [variable, in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.P0 [variable, in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.PhSet [variable, in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.P [variable, in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction [section, in UniMath.CategoryTheory.Inductives.Trees]
bintrees.Tree_alg [variable, in UniMath.CategoryTheory.Inductives.Trees]
bintrees.Tree_mor [variable, in UniMath.CategoryTheory.Inductives.Trees]
bin_coproducts_in_full_subcategory [lemma, in UniMath.CategoryTheory.Subcategory.Limits]
bin_products_in_full_subcategory [lemma, in UniMath.CategoryTheory.Subcategory.Limits]
bla [definition, in UniMath.SubstitutionSystems.Lam]
bla' [definition, in UniMath.SubstitutionSystems.Lam]
bla'_inv [definition, in UniMath.SubstitutionSystems.Lam]
bl:50 [binder, in UniMath.Algebra.Lattice]
bl:57 [binder, in UniMath.CategoryTheory.LatticeObject]
bndexistsisdecnatprop [lemma, in UniMath.PAdics.lemmas]
Bool [section, in UniMath.Algebra.Universal.Examples.Tests]
bool [inductive, in UniMath.Foundations.Preamble]
Bool [library]
Bool [library]
boolascoprod [definition, in UniMath.Foundations.PartA]
boolchoice [definition, in UniMath.Foundations.PartA]
boolDcuts [definition, in UniMath.RealNumbers.DecidableDedekindCuts]
booleq [definition, in UniMath.Foundations.PartB]
boolnegtrueimplfalse [lemma, in UniMath.PAdics.lemmas]
boolset [definition, in UniMath.Foundations.Sets]
boolsumfun [definition, in UniMath.Foundations.PartA]
boolsumtocoprod [definition, in UniMath.Foundations.PartA]
bool_unit_binop_structure [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
bool_valuation [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
bool_algebra [definition, in UniMath.Algebra.Universal.Examples.Bool]
bool_signature [definition, in UniMath.Algebra.Universal.Examples.Bool]
bool_to_type [definition, in UniMath.Foundations.PartA]
bot_mor_M:107 [binder, in UniMath.CategoryTheory.LatticeObject]
bot_mor [definition, in UniMath.CategoryTheory.LatticeObject]
bot_op [definition, in UniMath.Algebra.Universal.Examples.Tests]
bot:40 [binder, in UniMath.Algebra.Lattice]
bot:44 [binder, in UniMath.Algebra.Lattice]
bot:47 [binder, in UniMath.CategoryTheory.LatticeObject]
bot:48 [binder, in UniMath.Algebra.Lattice]
bot:51 [binder, in UniMath.CategoryTheory.LatticeObject]
bot:55 [binder, in UniMath.CategoryTheory.LatticeObject]
BoundedLatticeObject_accessors [section, in UniMath.CategoryTheory.LatticeObject]
BoundedSearch [library]
bounded_lattice_pty [section, in UniMath.Algebra.Lattice]
bounded_lattice_to_lattice [definition, in UniMath.Algebra.Lattice]
bounded_lattice [definition, in UniMath.Algebra.Lattice]
bounded_latticeop [definition, in UniMath.Algebra.Lattice]
bounded_latticeob_to_latticeob [definition, in UniMath.CategoryTheory.LatticeObject]
bounded_latticeob [definition, in UniMath.CategoryTheory.LatticeObject]
bounded_latticeop_cat [definition, in UniMath.CategoryTheory.LatticeObject]
bounded_search [definition, in UniMath.Combinatorics.BoundedSearch]
bound01 [definition, in UniMath.Combinatorics.FiniteSets]
bound:177 [binder, in UniMath.PAdics.fps]
Bourbaki_Witt_fixpoint [lemma, in UniMath.Algebra.FixedPointTheorems]
Bourbaki_Witt_property [definition, in UniMath.Algebra.FixedPointTheorems]
Bourbaki_Witt [section, in UniMath.Algebra.FixedPointTheorems]
Bourbaki_Witt_fixpoint_theorem_statement [definition, in UniMath.Algebra.FixedPointTheorems]
BP [lemma, in UniMath.SubstitutionSystems.STLC]
BP [lemma, in UniMath.SubstitutionSystems.CCS]
BPC:142 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BPC:149 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BPC:165 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BPC:168 [binder, in UniMath.CategoryTheory.limits.Opp]
BPC:2 [binder, in UniMath.CategoryTheory.LatticeObject]
BPC:22 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
BPC:26 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
BPC:34 [binder, in UniMath.CategoryTheory.Subcategory.Limits]
BPC:63 [binder, in UniMath.CategoryTheory.slicecat]
BPC:64 [binder, in UniMath.CategoryTheory.slicecat]
BPC:64 [binder, in UniMath.CategoryTheory.LatticeObject]
BPC:65 [binder, in UniMath.CategoryTheory.slicecat]
BPC:66 [binder, in UniMath.CategoryTheory.slicecat]
BPC:68 [binder, in UniMath.CategoryTheory.LatticeObject]
BPC:73 [binder, in UniMath.CategoryTheory.LatticeObject]
BPC:9 [binder, in UniMath.CategoryTheory.Subcategory.Limits]
BPC:96 [binder, in UniMath.CategoryTheory.LatticeObject]
Bprop:4 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bp1:83 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
bp2:84 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
BP:157 [binder, in UniMath.CategoryTheory.slicecat]
BP:172 [binder, in UniMath.CategoryTheory.limits.Opp]
BP:175 [binder, in UniMath.CategoryTheory.limits.binproducts]
BP:205 [binder, in UniMath.CategoryTheory.limits.binproducts]
BP:213 [binder, in UniMath.CategoryTheory.limits.binproducts]
BP:223 [binder, in UniMath.CategoryTheory.limits.binproducts]
BP:228 [binder, in UniMath.CategoryTheory.limits.binproducts]
BP:256 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
BP:291 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
bp:297 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
BP:299 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
BP:309 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
BP:314 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
BP:345 [binder, in UniMath.CategoryTheory.limits.Opp]
bracket [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_for_InitAlg [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_unique [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_Thm15_ok_cor [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_Thm15_ok [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_Thm15_ok_part2 [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_Thm15_ok_part1 [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_Thm15 [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_for_LamE_algebra_on_Lam [definition, in UniMath.SubstitutionSystems.Lam]
bracket_for_LamE_algebra_on_Lam_at [definition, in UniMath.SubstitutionSystems.Lam]
bracket_for_LamE_algebra_on_Lam_unique [lemma, in UniMath.SubstitutionSystems.Lam]
bracket_property_for_LamE_algebra_on_Lam [lemma, in UniMath.SubstitutionSystems.Lam]
bracket_parts [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_property_parts_identity_nicer_impl2 [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_property_parts_identity_nicer_impl1 [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_property_parts_identity_nicer [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_parts_at [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_property_parts [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_at [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_property [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_Thm15_ok_τ [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
bracket_Thm15_ok_η [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
bracket_for_initial_algebra [definition, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
bracket_for_InitAlg [definition, in UniMath.SubstitutionSystems.LiftingInitial]
bracket_Thm15_ok_cor [lemma, in UniMath.SubstitutionSystems.LiftingInitial]
bracket_Thm15_ok [lemma, in UniMath.SubstitutionSystems.LiftingInitial]
bracket_Thm15_ok_part2 [lemma, in UniMath.SubstitutionSystems.LiftingInitial]
bracket_Thm15_ok_part1 [lemma, in UniMath.SubstitutionSystems.LiftingInitial]
bracket_Thm15 [definition, in UniMath.SubstitutionSystems.LiftingInitial]
BraidedMonoidalCategories [library]
braided_monoidal_cat_second_hexagon_eq [definition, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
braided_monoidal_cat_first_hexagon_eq [definition, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
braided_monoidal_cat_braiding [definition, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
braided_monoidal_cat_monoidal_cat [definition, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
Braided_Monoidal_Cat_Acessors [section, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
braided_monoidal_cat [definition, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
braiding [definition, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
Braiding [section, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
Braiding.HexagonEquations [section, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
_ #⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
_ ⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
braid:2 [binder, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
Branch [definition, in UniMath.Combinatorics.ZFstructures]
Branch_of_Branch_eq_Branch [lemma, in UniMath.Combinatorics.ZFstructures]
Branch_of_Branch_to_Branch_inv [definition, in UniMath.Combinatorics.ZFstructures]
Branch_of_Branch_to_Branch [definition, in UniMath.Combinatorics.ZFstructures]
Branch_to_subtype [lemma, in UniMath.Combinatorics.ZFstructures]
brel [definition, in UniMath.Foundations.Sets]
breltodecrel [definition, in UniMath.Foundations.Sets]
BS:23 [binder, in UniMath.CategoryTheory.Additive]
BS:27 [binder, in UniMath.CategoryTheory.Additive]
BS:55 [binder, in UniMath.Combinatorics.WellOrderedSets]
BS:63 [binder, in UniMath.Combinatorics.WellOrderedSets]
BT:56 [binder, in UniMath.Combinatorics.WellOrderedSets]
BT:64 [binder, in UniMath.Combinatorics.WellOrderedSets]
Builder [section, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
ε [notation, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
ηinv [notation, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
Builder_From_Unit_Counit [section, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
build_associator [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
build_right_unitor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
build_left_unitor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
Build_Bicategory.sc [variable, in UniMath.Bicategories.BicategoryOfBicat]
Build_Bicategory.C [variable, in UniMath.Bicategories.BicategoryOfBicat]
Build_Bicategory [section, in UniMath.Bicategories.BicategoryOfBicat]
build_term_curried [definition, in UniMath.Algebra.Universal.VTerms]
build_term [definition, in UniMath.Algebra.Universal.VTerms]
build_prebicat_data [definition, in UniMath.Bicategories.Core.Bicat]
build_bicategory [definition, in UniMath.Bicategories.Core.Bicat]
build_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Adjunctions]
build_gterm_curried [definition, in UniMath.Algebra.Universal.Terms]
build_gterm [abbreviation, in UniMath.Algebra.Universal.Terms]
build_term [definition, in UniMath.Algebra.Universal.Terms]
but_seriously_the_world_explodes [lemma, in UniMath.Paradoxes.GirardsParadox]
BZ:13 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
BZ:151 [binder, in UniMath.CategoryTheory.slicecat]
BZ:32 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
BZ:52 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
B_is_univalent_2_1:67 [binder, in UniMath.Bicategories.Core.YonedaLemma]
B_is_univalent_2_1:145 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
b'':134 [binder, in UniMath.CategoryTheory.catiso]
b'':181 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
b':10 [binder, in UniMath.Folds.folds_pre_2_cat]
b':10 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
B':1001 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
b':102 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
B':103 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
B':104 [binder, in UniMath.Bicategories.Modifications.Modification]
B':110 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
B':1105 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
B':111 [binder, in UniMath.Bicategories.Modifications.Modification]
b':112 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
B':1128 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
b':116 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
B':1173 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
B':1193 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
B':120 [binder, in UniMath.Bicategories.Modifications.Modification]
B':1202 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
b':1233 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
b':1249 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
b':1261 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
B':1301 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
B':131 [binder, in UniMath.Bicategories.Modifications.Modification]
b':133 [binder, in UniMath.CategoryTheory.catiso]
b':133 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
b':135 [binder, in UniMath.CategoryTheory.Core.Univalence]
B':138 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
B':139 [binder, in UniMath.Bicategories.Modifications.Modification]
B':140 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
B':147 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
B':147 [binder, in UniMath.Bicategories.Modifications.Modification]
B':15 [binder, in UniMath.Bicategories.Modifications.Modification]
B':154 [binder, in UniMath.Bicategories.Modifications.Modification]
B':159 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
b':162 [binder, in UniMath.Folds.folds_pre_2_cat]
B':164 [binder, in UniMath.Bicategories.Modifications.Modification]
B':167 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
B':171 [binder, in UniMath.Bicategories.Modifications.Modification]
b':173 [binder, in UniMath.MoreFoundations.PartA]
B':175 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
B':177 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
b':180 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
B':188 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
B':197 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
B':2 [binder, in UniMath.Bicategories.Modifications.Modification]
B':209 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
b':21 [binder, in UniMath.Combinatorics.Lists]
B':220 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
B':229 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
b':231 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
B':238 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
b':246 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
b':25 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
B':25 [binder, in UniMath.Bicategories.Modifications.Modification]
b':256 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
b':315 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
B':33 [binder, in UniMath.Bicategories.Modifications.Modification]
b':347 [binder, in UniMath.CategoryTheory.limits.pullbacks]
b':356 [binder, in UniMath.CategoryTheory.limits.pullbacks]
b':392 [binder, in UniMath.CategoryTheory.Core.Isos]
B':40 [binder, in UniMath.Bicategories.Modifications.Modification]
b':401 [binder, in UniMath.CategoryTheory.Core.Isos]
b':410 [binder, in UniMath.CategoryTheory.Core.Isos]
b':42 [binder, in UniMath.CategoryTheory.Core.Univalence]
b':455 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
b':5 [binder, in UniMath.MoreFoundations.NoInjectivePairing]
B':50 [binder, in UniMath.Bicategories.Modifications.Modification]
b':51 [binder, in UniMath.CategoryTheory.Core.Univalence]
b':53 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
b':56 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
B':58 [binder, in UniMath.Bicategories.Modifications.Modification]
b':59 [binder, in UniMath.CategoryTheory.Core.Univalence]
b':61 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
B':675 [binder, in UniMath.Foundations.PartA]
B':68 [binder, in UniMath.Bicategories.Modifications.Modification]
B':685 [binder, in UniMath.Foundations.PartA]
b':70 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
B':74 [binder, in UniMath.Bicategories.Modifications.Modification]
B':8 [binder, in UniMath.Bicategories.Modifications.Modification]
b':8 [binder, in UniMath.CategoryTheory.Profunctors.Core]
B':81 [binder, in UniMath.Bicategories.Modifications.Modification]
b':82 [binder, in UniMath.CategoryTheory.Core.Univalence]
b':82 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
B':87 [binder, in UniMath.Bicategories.Modifications.Modification]
b':89 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
b':89 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
b':94 [binder, in UniMath.CategoryTheory.Equivalences.Core]
B':96 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
B':97 [binder, in UniMath.Bicategories.Modifications.Modification]
b':97 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
B':977 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
B':98 [binder, in UniMath.Algebra.FixedPointTheorems]
B':994 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
B.ActionBasedStrength_Instantiates_To_RelativeStrength [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ #•W _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ #⊗V _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ •W _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ ⊗V _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
B.RelativeStrengths_Natural_Transformation [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
B.RelativeStrength_Is_An_ActionBasedStrength [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
B0:1 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
B0:10 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
B0:113 [binder, in UniMath.CategoryTheory.catiso]
B0:127 [binder, in UniMath.CategoryTheory.catiso]
b0:1329 [binder, in UniMath.Algebra.BinaryOperations]
b0:1331 [binder, in UniMath.Algebra.BinaryOperations]
b0:1344 [binder, in UniMath.Algebra.BinaryOperations]
b0:1346 [binder, in UniMath.Algebra.BinaryOperations]
b0:1355 [binder, in UniMath.Algebra.BinaryOperations]
b0:1357 [binder, in UniMath.Algebra.BinaryOperations]
b0:1370 [binder, in UniMath.Algebra.BinaryOperations]
b0:1372 [binder, in UniMath.Algebra.BinaryOperations]
b0:142 [binder, in UniMath.CategoryTheory.FunctorCategory]
B0:15 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
b0:458 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
b0:459 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
b0:460 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
b0:461 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
B0:6 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
B0:90 [binder, in UniMath.CategoryTheory.catiso]
B1:11 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
B1:116 [binder, in UniMath.CategoryTheory.catiso]
b1:128 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
B1:130 [binder, in UniMath.CategoryTheory.catiso]
b1:130 [binder, in UniMath.CategoryTheory.categories.abgrs]
B1:135 [binder, in UniMath.HomologicalAlgebra.Complexes]
b1:136 [binder, in UniMath.CategoryTheory.categories.abgrs]
b1:142 [binder, in UniMath.CategoryTheory.categories.abgrs]
B1:142 [binder, in UniMath.HomologicalAlgebra.Complexes]
b1:148 [binder, in UniMath.CategoryTheory.categories.abgrs]
B1:149 [binder, in UniMath.HomologicalAlgebra.Complexes]
b1:154 [binder, in UniMath.CategoryTheory.categories.abgrs]
B1:156 [binder, in UniMath.HomologicalAlgebra.Complexes]
B1:16 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
b1:178 [binder, in UniMath.CategoryTheory.categories.abgrs]
b1:189 [binder, in UniMath.CategoryTheory.categories.abgrs]
B1:204 [binder, in UniMath.MoreFoundations.PartA]
B1:216 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
b1:216 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
B1:224 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
B1:232 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
B1:240 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
B1:248 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
B1:256 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
B1:268 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
b1:357 [binder, in UniMath.MoreFoundations.PathsOver]
b1:368 [binder, in UniMath.MoreFoundations.PathsOver]
b1:378 [binder, in UniMath.MoreFoundations.PathsOver]
b1:391 [binder, in UniMath.MoreFoundations.PathsOver]
b1:419 [binder, in UniMath.MoreFoundations.PathsOver]
b1:420 [binder, in UniMath.CategoryTheory.categories.abgrs]
b1:429 [binder, in UniMath.MoreFoundations.PathsOver]
b1:436 [binder, in UniMath.CategoryTheory.categories.abgrs]
b1:441 [binder, in UniMath.MoreFoundations.PathsOver]
b1:448 [binder, in UniMath.MoreFoundations.PartA]
b1:456 [binder, in UniMath.MoreFoundations.PathsOver]
b1:464 [binder, in UniMath.MoreFoundations.PathsOver]
b1:476 [binder, in UniMath.MoreFoundations.PathsOver]
b1:488 [binder, in UniMath.MoreFoundations.PathsOver]
b1:498 [binder, in UniMath.MoreFoundations.PathsOver]
b1:511 [binder, in UniMath.MoreFoundations.PathsOver]
b1:524 [binder, in UniMath.MoreFoundations.PathsOver]
b1:535 [binder, in UniMath.Foundations.PartA]
b1:536 [binder, in UniMath.MoreFoundations.PathsOver]
b1:546 [binder, in UniMath.Foundations.PartA]
b1:557 [binder, in UniMath.Foundations.PartA]
b1:562 [binder, in UniMath.MoreFoundations.PathsOver]
b1:586 [binder, in UniMath.Foundations.PartA]
b1:589 [binder, in UniMath.MoreFoundations.PathsOver]
b1:593 [binder, in UniMath.Foundations.PartA]
b1:601 [binder, in UniMath.MoreFoundations.PathsOver]
b1:601 [binder, in UniMath.Foundations.PartA]
B1:65 [binder, in UniMath.HomologicalAlgebra.Complexes]
B1:71 [binder, in UniMath.CategoryTheory.catiso]
b1:891 [binder, in UniMath.Algebra.BinaryOperations]
b1:898 [binder, in UniMath.Algebra.BinaryOperations]
B1:93 [binder, in UniMath.CategoryTheory.catiso]
b2:129 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
b2:131 [binder, in UniMath.CategoryTheory.categories.abgrs]
B2:136 [binder, in UniMath.HomologicalAlgebra.Complexes]
b2:137 [binder, in UniMath.CategoryTheory.categories.abgrs]
b2:143 [binder, in UniMath.CategoryTheory.categories.abgrs]
B2:143 [binder, in UniMath.HomologicalAlgebra.Complexes]
b2:149 [binder, in UniMath.CategoryTheory.categories.abgrs]
B2:150 [binder, in UniMath.HomologicalAlgebra.Complexes]
b2:155 [binder, in UniMath.CategoryTheory.categories.abgrs]
B2:157 [binder, in UniMath.HomologicalAlgebra.Complexes]
b2:179 [binder, in UniMath.CategoryTheory.categories.abgrs]
b2:190 [binder, in UniMath.CategoryTheory.categories.abgrs]
B2:205 [binder, in UniMath.MoreFoundations.PartA]
B2:217 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
b2:217 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
B2:225 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
B2:233 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
B2:241 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
B2:249 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
B2:257 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
B2:269 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
b2:358 [binder, in UniMath.MoreFoundations.PathsOver]
b2:369 [binder, in UniMath.MoreFoundations.PathsOver]
b2:379 [binder, in UniMath.MoreFoundations.PathsOver]
b2:392 [binder, in UniMath.MoreFoundations.PathsOver]
b2:420 [binder, in UniMath.MoreFoundations.PathsOver]
b2:421 [binder, in UniMath.CategoryTheory.categories.abgrs]
b2:430 [binder, in UniMath.MoreFoundations.PathsOver]
b2:437 [binder, in UniMath.CategoryTheory.categories.abgrs]
b2:442 [binder, in UniMath.MoreFoundations.PathsOver]
b2:449 [binder, in UniMath.MoreFoundations.PartA]
b2:457 [binder, in UniMath.MoreFoundations.PathsOver]
b2:465 [binder, in UniMath.MoreFoundations.PathsOver]
b2:477 [binder, in UniMath.MoreFoundations.PathsOver]
b2:489 [binder, in UniMath.MoreFoundations.PathsOver]
b2:499 [binder, in UniMath.MoreFoundations.PathsOver]
b2:512 [binder, in UniMath.MoreFoundations.PathsOver]
b2:525 [binder, in UniMath.MoreFoundations.PathsOver]
b2:537 [binder, in UniMath.MoreFoundations.PathsOver]
b2:537 [binder, in UniMath.Foundations.PartA]
b2:548 [binder, in UniMath.Foundations.PartA]
b2:559 [binder, in UniMath.Foundations.PartA]
b2:563 [binder, in UniMath.MoreFoundations.PathsOver]
b2:587 [binder, in UniMath.Foundations.PartA]
b2:590 [binder, in UniMath.MoreFoundations.PathsOver]
b2:595 [binder, in UniMath.Foundations.PartA]
b2:602 [binder, in UniMath.MoreFoundations.PathsOver]
b2:603 [binder, in UniMath.Foundations.PartA]
B2:66 [binder, in UniMath.HomologicalAlgebra.Complexes]
b2:892 [binder, in UniMath.Algebra.BinaryOperations]
b2:899 [binder, in UniMath.Algebra.BinaryOperations]
B3:270 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
b3:359 [binder, in UniMath.MoreFoundations.PathsOver]
b3:370 [binder, in UniMath.MoreFoundations.PathsOver]
b3:431 [binder, in UniMath.MoreFoundations.PathsOver]
b3:443 [binder, in UniMath.MoreFoundations.PathsOver]
b3:591 [binder, in UniMath.MoreFoundations.PathsOver]
B3:67 [binder, in UniMath.HomologicalAlgebra.Complexes]
B:1 [binder, in UniMath.Bicategories.Core.FullyFaithful]
B:1 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
B:1 [binder, in UniMath.Bicategories.Colimits.Pullback]
B:1 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
B:1 [binder, in UniMath.Bicategories.Core.YonedaLemma]
B:1 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
B:1 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
B:1 [binder, in UniMath.Bicategories.Core.Strictness]
B:1 [binder, in UniMath.Bicategories.Colimits.Products]
B:1 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
B:1 [binder, in UniMath.Bicategories.Modifications.Modification]
B:1 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
B:1 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
B:1 [binder, in UniMath.CategoryTheory.Monads.LModules]
B:10 [binder, in UniMath.Bicategories.Core.FullyFaithful]
B:10 [binder, in UniMath.MoreFoundations.WeakEquivalences]
B:10 [binder, in UniMath.Combinatorics.Maybe]
B:10 [binder, in UniMath.MoreFoundations.PartD]
B:10 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
B:10 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
b:10 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
b:10 [binder, in UniMath.CategoryTheory.Core.Functors]
b:10 [binder, in UniMath.CategoryTheory.limits.initial]
B:10 [binder, in UniMath.Foundations.Propositions]
b:10 [binder, in UniMath.CategoryTheory.limits.zero]
b:10 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
b:10 [binder, in UniMath.CategoryTheory.Core.Univalence]
b:10 [binder, in UniMath.CategoryTheory.limits.cones]
b:10 [binder, in UniMath.CategoryTheory.limits.Opp]
b:10 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
b:10 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
b:10 [binder, in UniMath.CategoryTheory.CommaCategories]
b:10 [binder, in UniMath.Bicategories.Core.Unitors]
b:10 [binder, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
B:10 [binder, in UniMath.MoreFoundations.NoInjectivePairing]
B:100 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
B:100 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
b:100 [binder, in UniMath.Combinatorics.Vectors]
b:100 [binder, in UniMath.Bicategories.Core.Bicat]
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B₂:2 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
B₂:2 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
B₂:2 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
B₂:2 [binder, in UniMath.Bicategories.Modifications.Examples.Associativity]
b₂:200 [binder, in UniMath.Bicategories.Colimits.Products]
b₂:206 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:208 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
b₂:211 [binder, in UniMath.Bicategories.Colimits.Products]
b₂:213 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:216 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:218 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
b₂:219 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₂:22 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
b₂:220 [binder, in UniMath.Bicategories.Colimits.Products]
b₂:222 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:229 [binder, in UniMath.Bicategories.Colimits.Products]
b₂:238 [binder, in UniMath.Bicategories.Colimits.Products]
B₂:248 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
b₂:248 [binder, in UniMath.Bicategories.Colimits.Products]
b₂:248 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:250 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
b₂:258 [binder, in UniMath.Bicategories.Colimits.Products]
b₂:261 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₂:262 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
B₂:267 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
b₂:268 [binder, in UniMath.Bicategories.Colimits.Products]
b₂:278 [binder, in UniMath.Bicategories.Colimits.Products]
B₂:28 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
B₂:287 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
b₂:288 [binder, in UniMath.Bicategories.Colimits.Products]
B₂:29 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
b₂:3 [binder, in UniMath.Bicategories.Colimits.Pullback]
B₂:3 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
B₂:3 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
B₂:3 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
b₂:3 [binder, in UniMath.Bicategories.Colimits.Products]
b₂:303 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:305 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:317 [binder, in UniMath.Bicategories.Colimits.Products]
b₂:327 [binder, in UniMath.Bicategories.Colimits.Products]
b₂:336 [binder, in UniMath.Bicategories.Colimits.Products]
B₂:34 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
b₂:342 [binder, in UniMath.Bicategories.Colimits.Products]
B₂:36 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
b₂:369 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
b₂:38 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
B₂:389 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
b₂:395 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
B₂:40 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
b₂:402 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
B₂:415 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
B₂:47 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
B₂:5 [binder, in UniMath.Bicategories.Modifications.Examples.Unitality]
B₂:5 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
b₂:56 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:59 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₂:6 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
b₂:61 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
b₂:66 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₂:7 [binder, in UniMath.Bicategories.Core.Examples.Image]
b₂:72 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
b₂:72 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:76 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:8 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
B₂:80 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
b₂:84 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:85 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
b₂:88 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₂:9 [binder, in UniMath.Bicategories.Transformations.Examples.Unitality]
B₂:90 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
b₂:904 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
b₂:92 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:926 [binder, in UniMath.MoreFoundations.PartA]
b₂:96 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:101 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:109 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:117 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₃:12 [binder, in UniMath.Bicategories.Transformations.Examples.Whiskering]
B₃:133 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
b₃:159 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₃:163 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
b₃:164 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:179 [binder, in UniMath.Bicategories.Colimits.Pullback]
b₃:200 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:207 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:262 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₃:263 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
B₃:288 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
B₃:3 [binder, in UniMath.Bicategories.Transformations.Examples.Whiskering]
B₃:3 [binder, in UniMath.Bicategories.Transformations.Examples.Associativity]
B₃:3 [binder, in UniMath.Bicategories.Modifications.Examples.Associativity]
b₃:318 [binder, in UniMath.Bicategories.Colimits.Products]
b₃:328 [binder, in UniMath.Bicategories.Colimits.Products]
b₃:370 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
b₃:39 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
b₃:4 [binder, in UniMath.Bicategories.Colimits.Pullback]
B₃:416 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
b₃:67 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:905 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
b₄:102 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₄:110 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₄:201 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₄:208 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₄:264 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
B₄:4 [binder, in UniMath.Bicategories.Transformations.Examples.Associativity]
B₄:4 [binder, in UniMath.Bicategories.Modifications.Examples.Associativity]

C

c [definition, in UniMath.Combinatorics.Tests]
c [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
cAB:101 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:105 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:294 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:297 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:300 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:305 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:312 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:316 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:86 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:90 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cancel_φ [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration]
cancel_precomposition_disp [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
cancel_postcomposition_disp [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
cancel_z_iso' [lemma, in UniMath.CategoryTheory.Core.Isos]
cancel_z_iso [lemma, in UniMath.CategoryTheory.Core.Isos]
cancel_postcomposition_iso [lemma, in UniMath.CategoryTheory.Core.Isos]
cancel_precomposition_iso [lemma, in UniMath.CategoryTheory.Core.Isos]
cancel_whisker_right [definition, in UniMath.Bicategories.WkCatEnrichment.whiskering]
cancel_whisker_left [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
cancel_inv [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
cancel_precomposition [lemma, in UniMath.CategoryTheory.Core.Categories]
cancel_postcomposition [lemma, in UniMath.CategoryTheory.Core.Categories]
cardinalityFiniteSet [definition, in UniMath.Combinatorics.FiniteSets]
carrier [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
carrier [definition, in UniMath.Foundations.Sets]
carrierM [definition, in UniMath.Induction.M.ComputationalM]
carrierM0 [abbreviation, in UniMath.Induction.M.ComputationalM]
carrierofasubabgr [definition, in UniMath.Algebra.Groups]
carrierofasubcommrig [definition, in UniMath.Algebra.RigsAndRings]
carrierofasubcommring [definition, in UniMath.Algebra.RigsAndRings]
carrierofasubgr [definition, in UniMath.Algebra.Groups]
carrierofasubmodule [definition, in UniMath.Algebra.Modules.Submodule]
carrierofasubrig [definition, in UniMath.Algebra.RigsAndRings]
carrierofasubring [definition, in UniMath.Algebra.RigsAndRings]
carrierofasubsetwithbinop [definition, in UniMath.Algebra.BinaryOperations]
carrierofPartialOrder [definition, in UniMath.Foundations.Sets]
carrierofpo [definition, in UniMath.Foundations.Sets]
carrierofposet [definition, in UniMath.Foundations.Sets]
carrierofposetmorphism [definition, in UniMath.Foundations.Sets]
carrierofPreorderedSet [definition, in UniMath.Foundations.Sets]
carrierofsubabmonoid [definition, in UniMath.Algebra.Monoids]
carrierofsubmonoid [definition, in UniMath.Algebra.Monoids]
carrierofsubsetwith2binop [definition, in UniMath.Algebra.BinaryOperations]
carriers_eq [lemma, in UniMath.Induction.M.ComputationalM]
carriers_weq [lemma, in UniMath.Induction.M.ComputationalM]
carrier_of_sub_category [definition, in UniMath.CategoryTheory.Subcategory.Core]
carrier_of_sub_precategory [definition, in UniMath.CategoryTheory.Subcategory.Core]
carrier_subset [definition, in UniMath.Foundations.Sets]
carrier_Pullback [lemma, in UniMath.CategoryTheory.categories.HSET.Structures]
carrier_set [definition, in UniMath.MoreFoundations.Subtypes]
carry [definition, in UniMath.PAdics.padics]
carry [section, in UniMath.PAdics.padics]
carryandcarryequiv [lemma, in UniMath.PAdics.padics]
carryandone [lemma, in UniMath.PAdics.padics]
carryandplus [lemma, in UniMath.PAdics.padics]
carryandremainder [lemma, in UniMath.PAdics.padics]
carryandtimes [lemma, in UniMath.PAdics.padics]
carryandtimesl [lemma, in UniMath.PAdics.padics]
carryandtimesr [lemma, in UniMath.PAdics.padics]
carryandzero [lemma, in UniMath.PAdics.padics]
carryequiv [definition, in UniMath.PAdics.padics]
carryequiviseqrel [lemma, in UniMath.PAdics.padics]
carryequiv0 [definition, in UniMath.PAdics.padics]
carry.is [variable, in UniMath.PAdics.padics]
carry.m [variable, in UniMath.PAdics.padics]
cartesian [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
CartesianCubicalSets [library]
CartesianFactorisationDispFunctor [section, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
CartesianFactorisationDispNatTrans [section, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_1cell_to_is_pb [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cartesian_ump_eq [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cartesian_ump_2 [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cartesian_1cell_pb_ump_1 [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cartesian_comp_psfunctor [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_id_psfunctor [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_disp_psfunctor [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_2cell_weq_cartesian [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_to_cartesian_2cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_2cell_to_cartesian [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_1cell_lift_2cell_invertible [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_1cell_lift_inv₂ [lemma, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_1cell_lift_inv₁ [lemma, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_lift_2cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_1cell_lift_2cell_commutes [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_1cell_lift_2cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_1cell_lift_1cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_1cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_product.C' [variable, in UniMath.CategoryTheory.DisplayedCats.Examples]
cartesian_product.C [variable, in UniMath.CategoryTheory.DisplayedCats.Examples]
cartesian_product [section, in UniMath.CategoryTheory.DisplayedCats.Examples]
cartesian_product_pb.C' [variable, in UniMath.CategoryTheory.DisplayedCats.Examples]
cartesian_product_pb.C [variable, in UniMath.CategoryTheory.DisplayedCats.Examples]
cartesian_product_pb [section, in UniMath.CategoryTheory.DisplayedCats.Examples]
cartesian_cubical_sets_exponentials [definition, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_cubical_sets [definition, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_cube_category_binproducts [definition, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_cube_category [definition, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_cube_precategory [definition, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_cube_precategory_data [definition, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_cube_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_iff_isPullback [definition, in UniMath.CategoryTheory.DisplayedCats.Codomain]
cartesian_isPullback_in_cod_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Codomain]
cartesian_factorisation_disp_functor_cell_is_cartesian [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor_cell [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor_cell_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor_cell_data [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor_is_cartesian [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor_data [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_nat_trans [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_nat_trans_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_nat_trans_data [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_lifts_iso_commutes [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_lifts_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_lift_is_cartesian [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_lift [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_commutes' [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation' [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_unique [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_commutes [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_functor_from_cleaving [lemma, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
cartesian_functor_from_fibration [lemma, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
cast [definition, in UniMath.MoreFoundations.PartA]
castAction [definition, in UniMath.Algebra.GroupAction]
castTorsor [definition, in UniMath.Algebra.GroupAction]
castTorsor_transportf [lemma, in UniMath.Algebra.GroupAction]
CAT [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
CAT [definition, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
Cat [library]
CATAsInstanceOfBicat [library]
catbinprodmor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
catDelta [definition, in UniMath.CategoryTheory.SimplicialSets]
CategoricalRecursionSchemes [library]
Categories [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Categories [library]
CategoriesOfMonoids [library]
CategoriesOfMonoids [library]
CategoriesWithBinOps [library]
category [definition, in UniMath.CategoryTheory.Core.Categories]
CategoryBinproductIsoWeq [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
categoryEmbedding [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
CategoryEquality [library]
categoryIsomorphism [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
categoryOfSheaves [definition, in UniMath.CategoryTheory.GrothendieckTopos]
CategoryTop [library]
categoryWithAbgrops [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
categoryWithAbgropsData [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
categoryWithAbgrops_precategoryWithBinOps [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
CategoryWithAdditiveStructure [definition, in UniMath.CategoryTheory.Additive]
categoryWithStructure [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
category_RelMonad [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
category_from_bicat_and_ob [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
category_Monad [definition, in UniMath.CategoryTheory.Monads.Monads]
_ × _ (cat) [notation, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
category_products [section, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
category_monoid [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
_ #⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
_ ⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
Category_of_Monoids [section, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
category_Rezk_completion [definition, in UniMath.CategoryTheory.rezk_completion]
category_Algebra.IA [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.Yon [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
_ ^op [notation, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.ptdInitAlg [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.InitAlg [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.θ [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.Id_H [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
⦃ _ ⦄ [notation, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.fix_an_H.fix_a_Z [section, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.fix_an_H.Alg [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.fix_an_H [section, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.Colims_of_shape_nat_graph_EndC [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.InitialEndC [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.CPEndEndC [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.EndEndC [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.CPEndC [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
Ptd [notation, in UniMath.SubstitutionSystems.LiftingInitial_alt]
EndC [notation, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.CC [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.IC [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.CP [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.C [variable, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra [section, in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_FunctorAlg [definition, in UniMath.CategoryTheory.FunctorAlgebras]
category_from_setcategory [definition, in UniMath.CategoryTheory.Core.Setcategories]
category_algebras [definition, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
category_HSET [definition, in UniMath.CategoryTheory.categories.HSET.Univalence]
category_binproduct_iso_weq [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
category_binproduct_iso_inv [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
category_binproduct_iso_map [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
category_binproduct [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
category_eq [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
category_CONE [definition, in UniMath.CategoryTheory.limits.cones]
category_of_discrete_bicategory [definition, in UniMath.Bicategories.Discreteness]
category_eqalgebras [definition, in UniMath.CategoryTheory.categories.Universal_Algebra.EqAlgebras]
category_LModule [definition, in UniMath.CategoryTheory.Monads.LModules]
category_Ptd [definition, in UniMath.CategoryTheory.PointedFunctors]
category_from_two_cat_data [definition, in UniMath.CategoryTheory.Core.TwoCategories]
category_Algebra.Yon [variable, in UniMath.SubstitutionSystems.LiftingInitial]
_ ^op [notation, in UniMath.SubstitutionSystems.LiftingInitial]
⦃ _ ⦄ [notation, in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.IA [variable, in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.Alg [variable, in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.θ [variable, in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.H [variable, in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.KanExt [variable, in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.CPEndEndC [variable, in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.EndEndC [variable, in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.CPEndC [variable, in UniMath.SubstitutionSystems.LiftingInitial]
Ptd [notation, in UniMath.SubstitutionSystems.LiftingInitial]
EndC [notation, in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra [section, in UniMath.SubstitutionSystems.LiftingInitial]
category_Kleisli [definition, in UniMath.CategoryTheory.Monads.KTriples]
category_to_precategory [definition, in UniMath.CategoryTheory.Core.Categories]
category_binops [library]
catiso [definition, in UniMath.CategoryTheory.catiso]
catiso [library]
catiso_to_precategory_path [lemma, in UniMath.CategoryTheory.catiso]
catiso_to_precategory_data_path [lemma, in UniMath.CategoryTheory.catiso]
catiso_to_precategory_comp_path [lemma, in UniMath.CategoryTheory.catiso]
catiso_to_precategory_id_path [lemma, in UniMath.CategoryTheory.catiso]
catiso_to_precategory_ob_mor_path [definition, in UniMath.CategoryTheory.catiso]
catiso_to_precategory_mor_path_funext [lemma, in UniMath.CategoryTheory.catiso]
catiso_to_precategory_mor_path [lemma, in UniMath.CategoryTheory.catiso]
catiso_fully_faithful_path [lemma, in UniMath.CategoryTheory.catiso]
catiso_fully_faithful_weq [definition, in UniMath.CategoryTheory.catiso]
catiso_to_precategory_ob_path [definition, in UniMath.CategoryTheory.catiso]
catiso_ob_weq [definition, in UniMath.CategoryTheory.catiso]
catiso_is_path_precat [definition, in UniMath.CategoryTheory.CategoryEquality]
catiso_to_cat_equiv [definition, in UniMath.CategoryTheory.CategoryEquality]
catiso_reord [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
CatIso_To_LeftAdjEquiv.HF [variable, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
CatIso_To_LeftAdjEquiv.F [variable, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
CatIso_To_LeftAdjEquiv [section, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
Catlike_triangle [definition, in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_pentagon [definition, in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_right_unitor_is_iso [definition, in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_right_unitor [definition, in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_left_unitor_is_iso [definition, in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_left_unitor [definition, in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_associator_is_iso [definition, in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_associator [definition, in UniMath.Bicategories.WkCatEnrichment.Cat]
Cats [library]
CatsBinprodUMP [section, in UniMath.Bicategories.Colimits.Products]
cats_LimsHSET_of_shape [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
cats_LimsHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
cats_LimConeHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
cats_limset [definition, in UniMath.CategoryTheory.categories.HSET.Limits]
cats_limset_UU [definition, in UniMath.CategoryTheory.categories.HSET.Limits]
cats_limits.D [variable, in UniMath.CategoryTheory.categories.HSET.Limits]
cats_limits.J [variable, in UniMath.CategoryTheory.categories.HSET.Limits]
cats_limits [section, in UniMath.CategoryTheory.categories.HSET.Limits]
cat_fully_faithful_weq_fully_faithful_1cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
cat_fully_faithful_1cell_is_fully_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
cat_fully_faithful_is_fully_faithful_1cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
cat_faithful_weq_faithful_1cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
cat_faithful_1cell_is_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
cat_faithful_is_faithful_1cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
cat_of_elems_forgetful [definition, in UniMath.CategoryTheory.Elements]
cat_of_elems_on_nat_trans [definition, in UniMath.CategoryTheory.Elements]
cat_of_elems_on_nat_trans_is_functor [lemma, in UniMath.CategoryTheory.Elements]
cat_of_elems_on_nat_trans_data [definition, in UniMath.CategoryTheory.Elements]
cat_of_elems_theory [section, in UniMath.CategoryTheory.Elements]
cat_of_elems [definition, in UniMath.CategoryTheory.Elements]
cat_of_elems_mor_eq [lemma, in UniMath.CategoryTheory.Elements]
cat_of_elems_data [definition, in UniMath.CategoryTheory.Elements]
cat_of_elems_ob_mor [definition, in UniMath.CategoryTheory.Elements]
cat_of_elems_def [section, in UniMath.CategoryTheory.Elements]
cat_of_elems_forgetful [definition, in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_on_nat_trans [definition, in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_on_nat_trans_is_functor [lemma, in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_on_nat_trans_data [definition, in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_theory [section, in UniMath.CategoryTheory.ElementsOp]
cat_of_elems [definition, in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_mor_eq [lemma, in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_data [definition, in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_ob_mor [definition, in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_def [section, in UniMath.CategoryTheory.ElementsOp]
cat_n [definition, in UniMath.CategoryTheory.categories.StandardCategories]
cat_precat_subtype [definition, in UniMath.CategoryTheory.categories.Cats]
cat_not_a_two_cat [lemma, in UniMath.Bicategories.Core.Strictness]
cat_equiv_to_catiso_weq [definition, in UniMath.CategoryTheory.CategoryEquality]
cat_equiv_to_catiso [definition, in UniMath.CategoryTheory.CategoryEquality]
cat_equiv [definition, in UniMath.CategoryTheory.CategoryEquality]
cat_eq_1_to_cat_eq_2 [definition, in UniMath.CategoryTheory.CategoryEquality]
cat_eq_2 [definition, in UniMath.CategoryTheory.CategoryEquality]
cat_path_to_cat_eq_1 [definition, in UniMath.CategoryTheory.CategoryEquality]
cat_eq_1 [definition, in UniMath.CategoryTheory.CategoryEquality]
cat_monad_bind_bind [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_monad_unit_bind [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_monad_bind_unit [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_monad_map_as_bind [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_monad_μμ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_monad_μη [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_monad_ημ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_to_slicecat [definition, in UniMath.CategoryTheory.slicecat]
cat_to_slicecat_data [definition, in UniMath.CategoryTheory.slicecat]
cat_iso_to_adjequiv [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
cat_iso_counit [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
cat_iso_unit [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
cat_prebicat_laws [lemma, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
cat_prebicat_data [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
cat_prebicat_nouniv_laws [lemma, in UniMath.Bicategories.Core.Examples.BicatOfCats]
cat_prebicat_nouniv_data [definition, in UniMath.Bicategories.Core.Examples.BicatOfCats]
cat_from_skewmonoidal [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
Cauchy_seq_impl_ex_lim_seq [definition, in UniMath.RealNumbers.NonnegativeReals]
Cauchy_lim_seq [definition, in UniMath.RealNumbers.NonnegativeReals]
Cauchy_seq [definition, in UniMath.RealNumbers.NonnegativeReals]
Cauchy_seq_impl_ex_lim_seq [lemma, in UniMath.RealNumbers.Reals]
Cauchy_seq_pr2 [lemma, in UniMath.RealNumbers.Reals]
Cauchy_seq_pr1 [lemma, in UniMath.RealNumbers.Reals]
Cauchy_seq [definition, in UniMath.RealNumbers.Reals]
cax:58 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
ca:520 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ca:531 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ca:9 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
cb:10 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
cb:511 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CB:71 [binder, in UniMath.Bicategories.Core.YonedaLemma]
ccab:103 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CCab:104 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCab:106 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
ccab:107 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CCab:115 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CCab:115 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCab:126 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CCab:214 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CCAB:37 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
CCab:55 [binder, in UniMath.CategoryTheory.limits.coproducts]
CCab:62 [binder, in UniMath.CategoryTheory.limits.coproducts]
CCab:71 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCab:76 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CCab:79 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCab:80 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCab:83 [binder, in UniMath.CategoryTheory.limits.coproducts]
CCab:84 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CCab:87 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
ccab:88 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CCab:88 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCab:92 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
ccab:92 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CCab:93 [binder, in UniMath.CategoryTheory.limits.coproducts]
CCab:95 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCab:96 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
ccAiB_K [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccAiM_K [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccAiM_K_subproof [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Ccat:289 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
CCcd:107 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCcd:118 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CCcd:215 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CCcd:57 [binder, in UniMath.CategoryTheory.limits.coproducts]
CCcd:64 [binder, in UniMath.CategoryTheory.limits.coproducts]
CCcd:74 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCcd:79 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CCcd:82 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCcd:83 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCcd:85 [binder, in UniMath.CategoryTheory.limits.coproducts]
CCcd:87 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CCcd:90 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCcd:91 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCcd:95 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CCcd:98 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCcd:99 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCD [definition, in UniMath.SubstitutionSystems.SignatureCategory]
CCDRap [definition, in UniMath.Algebra.ConstructiveStructures]
CCDRdiv [definition, in UniMath.Algebra.ConstructiveStructures]
CCDRinv [definition, in UniMath.Algebra.ConstructiveStructures]
CCDRmult [definition, in UniMath.Algebra.ConstructiveStructures]
CCDRmultapCCDRzero [lemma, in UniMath.Algebra.ConstructiveStructures]
CCDRmult_apcompat_r' [lemma, in UniMath.Algebra.ConstructiveStructures]
CCDRmult_apcompat_r [lemma, in UniMath.Algebra.ConstructiveStructures]
CCDRmult_apcompat_l' [lemma, in UniMath.Algebra.ConstructiveStructures]
CCDRmult_apcompat_l [lemma, in UniMath.Algebra.ConstructiveStructures]
CCDRone [definition, in UniMath.Algebra.ConstructiveStructures]
CCDRplus [definition, in UniMath.Algebra.ConstructiveStructures]
CCDRplus_apcompat_r [lemma, in UniMath.Algebra.ConstructiveStructures]
CCDRplus_apcompat_l [lemma, in UniMath.Algebra.ConstructiveStructures]
CCDRzero [definition, in UniMath.Algebra.ConstructiveStructures]
CCDR_pty [section, in UniMath.Algebra.ConstructiveStructures]
ccFy [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccF:530 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
ccGy:16 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccGy:18 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccGy:23 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccG:135 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
ccG:361 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
ccG:364 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccHcL:82 [binder, in UniMath.CategoryTheory.Inductives.Lists]
ccHcL:83 [binder, in UniMath.CategoryTheory.Inductives.Lists]
CCHSET [definition, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
ccK:302 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccK:307 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccK:314 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccK:321 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccLM:318 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccL:177 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccL:296 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
ccL:389 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccL:390 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
ccL:396 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cComma [definition, in UniMath.CategoryTheory.CommaCategories]
cComma_mor_functor_data [definition, in UniMath.CategoryTheory.CommaCategories]
cComma_mor_mor [definition, in UniMath.CategoryTheory.CommaCategories]
cComma_mor_ob [definition, in UniMath.CategoryTheory.CommaCategories]
cComma_pr1 [definition, in UniMath.CategoryTheory.CommaCategories]
ccomma_pr1_functor_data [definition, in UniMath.CategoryTheory.CommaCategories]
cComma_precat [definition, in UniMath.CategoryTheory.CommaCategories]
ccomma_precategory_data [definition, in UniMath.CategoryTheory.CommaCategories]
ccomma_precategory_ob_mor [definition, in UniMath.CategoryTheory.CommaCategories]
ccomma_comp [definition, in UniMath.CategoryTheory.CommaCategories]
ccomma_id [definition, in UniMath.CategoryTheory.CommaCategories]
cComma_mor_eq [definition, in UniMath.CategoryTheory.CommaCategories]
ccomma_morphism [definition, in UniMath.CategoryTheory.CommaCategories]
ccomma_object [definition, in UniMath.CategoryTheory.CommaCategories]
ccs [section, in UniMath.SubstitutionSystems.CCS_alt]
CCS [definition, in UniMath.SubstitutionSystems.CCS]
ccs [section, in UniMath.SubstitutionSystems.CCS]
CCS [library]
CCS_M [definition, in UniMath.SubstitutionSystems.CCS_alt]
CCS_Monad [definition, in UniMath.SubstitutionSystems.CCS_alt]
CCS_Functor_Initial [lemma, in UniMath.SubstitutionSystems.CCS_alt]
CCS_Functor [definition, in UniMath.SubstitutionSystems.CCS_alt]
CCS_Signature [definition, in UniMath.SubstitutionSystems.CCS_alt]
CCS_Sig [definition, in UniMath.SubstitutionSystems.CCS_alt]
CCS_Monad [definition, in UniMath.SubstitutionSystems.CCS]
CCS_Functor_Initial [lemma, in UniMath.SubstitutionSystems.CCS]
CCS_Functor [definition, in UniMath.SubstitutionSystems.CCS]
CCS_Signature [definition, in UniMath.SubstitutionSystems.CCS]
CCS_Sig [definition, in UniMath.SubstitutionSystems.CCS]
CCS_alt [library]
ccs.CCS_M_alg [variable, in UniMath.SubstitutionSystems.CCS_alt]
ccs.CCS_M_mor [variable, in UniMath.SubstitutionSystems.CCS_alt]
ccs.CCS_alg [variable, in UniMath.SubstitutionSystems.CCS]
ccs.CCS_mor [variable, in UniMath.SubstitutionSystems.CCS]
ccs.HSET_over_sort2 [variable, in UniMath.SubstitutionSystems.CCS]
ccs.Id_H [variable, in UniMath.SubstitutionSystems.CCS]
ccs.sortToSet [variable, in UniMath.SubstitutionSystems.CCS_alt]
ccs.sortToSet2 [variable, in UniMath.SubstitutionSystems.CCS_alt]
_ + _ (set) [notation, in UniMath.SubstitutionSystems.CCS_alt]
_ + _ (set) [notation, in UniMath.SubstitutionSystems.CCS]
_ ⊗ _ [notation, in UniMath.SubstitutionSystems.CCS_alt]
_ ⊕ _ [notation, in UniMath.SubstitutionSystems.CCS_alt]
_ :: _ [notation, in UniMath.SubstitutionSystems.CCS_alt]
_ ⊗ _ [notation, in UniMath.SubstitutionSystems.CCS]
_ / _ [notation, in UniMath.SubstitutionSystems.CCS]
_ :: _ [notation, in UniMath.SubstitutionSystems.CCS]
Id [notation, in UniMath.SubstitutionSystems.CCS_alt]
Id [notation, in UniMath.SubstitutionSystems.CCS]
1 [notation, in UniMath.SubstitutionSystems.CCS_alt]
[] [notation, in UniMath.SubstitutionSystems.CCS_alt]
[] [notation, in UniMath.SubstitutionSystems.CCS]
CC_LchnF [definition, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
CC':116 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CC':1177 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CC':126 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC':132 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC':134 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC':143 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CC':147 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CC':151 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CC':207 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC':231 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC':303 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc':514 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
cc0:123 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc0:360 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc0:38 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc0:47 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc0:75 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc0:86 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc0:91 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC1:134 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC1:139 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC1:146 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC1:151 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC1:159 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC1:164 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC1:176 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC1:179 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC1:181 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC1:191 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC1:204 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC1:221 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc1:38 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC1:435 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC1:446 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC1:458 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC1:474 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc1:58 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc1:66 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC2:135 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC2:140 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC2:147 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC2:152 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC2:160 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC2:165 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC2:177 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC2:180 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC2:182 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC2:192 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC2:205 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC2:222 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc2:40 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC2:436 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC2:447 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC2:459 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC2:475 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc2:59 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc2:68 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:10 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:100 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC:101 [binder, in UniMath.CategoryTheory.limits.coproducts]
CC:101 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:101 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:102 [binder, in UniMath.CategoryTheory.limits.cats.limits]
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cc:104 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
CC:105 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:105 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:107 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:107 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:109 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC:110 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:112 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
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cc:114 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:114 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:114 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:115 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
cc:1150 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
cc:116 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:1168 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
cc:117 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
CC:117 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
cc:117 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:118 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cc:119 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cc:1192 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
CC:12 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
cc:1217 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
cc:122 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:123 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cc:1237 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
cc:125 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
CC:125 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
cc:1256 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
CC:126 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:127 [binder, in UniMath.CategoryTheory.slicecat]
CC:127 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:127 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
cc:1274 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
cc:128 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cc:1293 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
cc:13 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cc:130 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:131 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:131 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC:131 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:133 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:133 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC:134 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CC:134 [binder, in UniMath.CategoryTheory.slicecat]
cc:136 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
CC:137 [binder, in UniMath.CategoryTheory.slicecat]
cc:137 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
CC:137 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:139 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:14 [binder, in UniMath.CategoryTheory.Chains.Chains]
cc:142 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
CC:142 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
cc:143 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CC:144 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:146 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
CC:146 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
cc:146 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:15 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:150 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
cc:152 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
CC:154 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
cc:154 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:161 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
CC:163 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:167 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
cc:168 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:17 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
CC:170 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:173 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:178 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
cc:182 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
cc:1840 [binder, in UniMath.Foundations.PartA]
cc:1842 [binder, in UniMath.Foundations.PartA]
cc:185 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC:19 [binder, in UniMath.CategoryTheory.limits.coproducts]
CC:190 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:190 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:192 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:193 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
CC:195 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:197 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cc:197 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:199 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:20 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cc:202 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CC:204 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:206 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:208 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
CC:21 [binder, in UniMath.CategoryTheory.limits.coproducts]
CC:211 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:213 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:217 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:221 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:224 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:227 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
CC:23 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
cc:230 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:230 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:235 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:237 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:237 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
CC:24 [binder, in UniMath.CategoryTheory.limits.coproducts]
cc:24 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:242 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
CC:244 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:248 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:25 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cc:251 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:252 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:257 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
CC:26 [binder, in UniMath.CategoryTheory.limits.coproducts]
CC:26 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
cc:261 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:262 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:265 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:269 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:27 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
cc:27 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:272 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
cc:278 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:283 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CC:283 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:289 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:29 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
cc:291 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:296 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:3 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
CC:30 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
cc:30 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC:302 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:31 [binder, in UniMath.CategoryTheory.limits.coproducts]
cc:315 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:32 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CC:32 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
cc:33 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:337 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:338 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
CC:34 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
cc:340 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:348 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:35 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CC:35 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
cc:353 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:36 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
cc:366 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:37 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cc:37 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:374 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:377 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:378 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:38 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CC:38 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
cc:38 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CC:380 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:382 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:384 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:39 [binder, in UniMath.CategoryTheory.limits.coproducts]
CC:390 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:392 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:397 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:4 [binder, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
cc:40 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
CC:40 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
cc:40 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC:400 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:402 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:405 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:407 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:41 [binder, in UniMath.CategoryTheory.Chains.Chains]
CC:41 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CC:41 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
cc:411 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:411 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:413 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:42 [binder, in UniMath.CategoryTheory.limits.coproducts]
cc:420 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:428 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:44 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CC:44 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
cc:45 [binder, in UniMath.CategoryTheory.Chains.Chains]
cc:467 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:47 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:47 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
cc:47 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:47 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
cc:48 [binder, in UniMath.CategoryTheory.Chains.Chains]
cc:48 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cc:483 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:487 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:489 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:49 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:495 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:50 [binder, in UniMath.CategoryTheory.limits.coproducts]
CC:50 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CC:50 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC:501 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:506 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:51 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
CC:512 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:513 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
cc:52 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:528 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
CC:53 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
cc:53 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:54 [binder, in UniMath.CategoryTheory.Chains.Chains]
CC:56 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CC:56 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
cc:57 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CC:57 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:58 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cc:58 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
CC:59 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
cc:60 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:61 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC:62 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC:65 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CC:65 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC:65 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:66 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CC:68 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC:69 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:7 [binder, in UniMath.CategoryTheory.SetValuedFunctors]
cc:7 [binder, in UniMath.CategoryTheory.Chains.Adamek]
cc:70 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:70 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC:71 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
CC:71 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
CC:719 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
CC:73 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:75 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC:77 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:77 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:770 [binder, in UniMath.CategoryTheory.LocalizingClass]
CC:78 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:79 [binder, in UniMath.CategoryTheory.limits.cats.limits]
cc:80 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
CC:80 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
cc:82 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:82 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:84 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CC:86 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
cc:88 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:90 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC:93 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
CC:94 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC:94 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
cc:95 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
CC:95 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cc:96 [binder, in UniMath.CategoryTheory.limits.cats.limits]
CC:97 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cc:99 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:99 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CD [abbreviation, in UniMath.CategoryTheory.EpiFacts]
CD [abbreviation, in UniMath.CategoryTheory.EpiFacts]
cdg:35 [binder, in UniMath.CategoryTheory.CommaCategories]
cdg:42 [binder, in UniMath.CategoryTheory.CommaCategories]
cdg:45 [binder, in UniMath.CategoryTheory.CommaCategories]
CDRap [definition, in UniMath.Algebra.ConstructiveStructures]
CDRdiv [definition, in UniMath.Algebra.ConstructiveStructures]
CDRinv [definition, in UniMath.Algebra.ConstructiveStructures]
CDRmult [definition, in UniMath.Algebra.ConstructiveStructures]
CDRmultapCDRzero [lemma, in UniMath.Algebra.ConstructiveStructures]
CDRmult_apcompat_r' [lemma, in UniMath.Algebra.ConstructiveStructures]
CDRmult_apcompat_r [lemma, in UniMath.Algebra.ConstructiveStructures]
CDRmult_apcompat_l' [lemma, in UniMath.Algebra.ConstructiveStructures]
CDRmult_apcompat_l [lemma, in UniMath.Algebra.ConstructiveStructures]
CDRone [definition, in UniMath.Algebra.ConstructiveStructures]
CDRplus [definition, in UniMath.Algebra.ConstructiveStructures]
CDRplus_apcompat_r [lemma, in UniMath.Algebra.ConstructiveStructures]
CDRplus_apcompat_l [lemma, in UniMath.Algebra.ConstructiveStructures]
CDRzero [definition, in UniMath.Algebra.ConstructiveStructures]
CDR_pty [section, in UniMath.Algebra.ConstructiveStructures]
cd':4 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
cd:1048 [binder, in UniMath.Foundations.Sets]
CD:1222 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CD:1233 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
cd:127 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cd:19 [binder, in UniMath.PAdics.frac]
cd:201 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CD:207 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CD:208 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CD:209 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CD:210 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cd:213 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cd:219 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cd:226 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cd:273 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cd:285 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cd:291 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cd:298 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
cd:3 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
CD:367 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cd:4 [binder, in UniMath.PAdics.frac]
CD:5 [binder, in UniMath.SubstitutionSystems.SumOfSignatures]
cd:503 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cd:508 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
cd:514 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
CD:9 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
cellFF:23 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
cellFF:25 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
cellFF:54 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
cellfullsub [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
cellset_initial_prebicat [definition, in UniMath.Bicategories.Core.Examples.Initial]
cellset_property [definition, in UniMath.Bicategories.Core.Bicat]
cellset_final_prebicat [lemma, in UniMath.Bicategories.Core.Examples.Final]
cells_C:4 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
cell_from_invertible_2cell_eq [lemma, in UniMath.Bicategories.Core.Bicat]
cell_from_invertible_2cell [definition, in UniMath.Bicategories.Core.Bicat]
cell_E₂_to_E₁_is_invertible [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₁_to_E₂_is_invertible [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₂_to_E₁_vcomp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₁_to_E₂_vcomp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₂_to_E₁_id₂ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₁_to_E₂_id₂ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₂_to_E₁ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₁_to_E₂ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_transportf_to_b [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
cell_transportb_to_f [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
cell_transportf_pathsinv0 [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
cell_transportb [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
cell_transportf [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ==>[ _ ] _ [notation, in UniMath.Bicategories.DisplayedBicats.DispBicat]
Cell_Transport [section, in UniMath.Bicategories.DisplayedBicats.DispBicat]
cell_of_fullsub [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
cell:432 [binder, in UniMath.Bicategories.Core.Bicat]
cell:5 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
cell₁ [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
centralfiber [lemma, in UniMath.Foundations.PartA]
CEqs:260 [binder, in UniMath.CategoryTheory.limits.pushouts]
CEq:240 [binder, in UniMath.CategoryTheory.limits.pushouts]
CEq:247 [binder, in UniMath.CategoryTheory.limits.pushouts]
CEq:258 [binder, in UniMath.CategoryTheory.limits.pushouts]
CE:106 [binder, in UniMath.CategoryTheory.Additive]
CE:111 [binder, in UniMath.CategoryTheory.Additive]
CE:116 [binder, in UniMath.CategoryTheory.Additive]
ce:127 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
CE:140 [binder, in UniMath.CategoryTheory.limits.coequalizers]
ce:1460 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ce:1464 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ce:1468 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ce:1472 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CE:191 [binder, in UniMath.CategoryTheory.limits.cokernels]
CE:195 [binder, in UniMath.CategoryTheory.limits.cokernels]
CE:199 [binder, in UniMath.CategoryTheory.limits.cokernels]
CE:230 [binder, in UniMath.CategoryTheory.limits.Opp]
CE:232 [binder, in UniMath.CategoryTheory.limits.Opp]
CFap [definition, in UniMath.Algebra.ConstructiveStructures]
CFdiv [definition, in UniMath.Algebra.ConstructiveStructures]
cfg':108 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
cfg':122 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
cfg:107 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
cfg:121 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
CFinv [definition, in UniMath.Algebra.ConstructiveStructures]
CFminus [definition, in UniMath.Algebra.ConstructiveStructures]
CFmult [definition, in UniMath.Algebra.ConstructiveStructures]
CFmultapCFzero [lemma, in UniMath.Algebra.ConstructiveStructures]
CFmult_apcompat_r' [lemma, in UniMath.Algebra.ConstructiveStructures]
CFmult_apcompat_r [lemma, in UniMath.Algebra.ConstructiveStructures]
CFmult_apcompat_l' [lemma, in UniMath.Algebra.ConstructiveStructures]
CFmult_apcompat_l [lemma, in UniMath.Algebra.ConstructiveStructures]
CFone [definition, in UniMath.Algebra.ConstructiveStructures]
CFopp [definition, in UniMath.Algebra.ConstructiveStructures]
CFplus [definition, in UniMath.Algebra.ConstructiveStructures]
CFplus_apcompat_r [lemma, in UniMath.Algebra.ConstructiveStructures]
CFplus_apcompat_l [lemma, in UniMath.Algebra.ConstructiveStructures]
CFzero [definition, in UniMath.Algebra.ConstructiveStructures]
CF_pty [section, in UniMath.Algebra.ConstructiveStructures]
Chain [definition, in UniMath.Algebra.FixedPointTheorems]
chain [definition, in UniMath.Combinatorics.WellFoundedRelations]
Chains [section, in UniMath.Algebra.FixedPointTheorems]
Chains [library]
Chains [library]
chaintrans [lemma, in UniMath.Combinatorics.WellFoundedRelations]
chain_lub' [definition, in UniMath.Algebra.FixedPointTheorems]
chain_lub [definition, in UniMath.Algebra.FixedPointTheorems]
Chain_of_Chain_hsubtype [definition, in UniMath.Algebra.FixedPointTheorems]
Chain_hsubtype [definition, in UniMath.Algebra.FixedPointTheorems]
chain_property [definition, in UniMath.Algebra.FixedPointTheorems]
chain_family [definition, in UniMath.Algebra.FixedPointTheorems]
chain_index [definition, in UniMath.Algebra.FixedPointTheorems]
chain_mor_left [lemma, in UniMath.CategoryTheory.Chains.Chains]
chain_mor_right [lemma, in UniMath.CategoryTheory.Chains.Chains]
chain_mor_coconeIn [lemma, in UniMath.CategoryTheory.Chains.Chains]
chain_mor [definition, in UniMath.CategoryTheory.Chains.Chains]
chain_union_le [lemma, in UniMath.Combinatorics.WellOrderedSets]
chain_union_WOSubset [lemma, in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_hasSmallest [lemma, in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_initial [lemma, in UniMath.Combinatorics.WellOrderedSets]
chain_union_tosub_le [lemma, in UniMath.Combinatorics.WellOrderedSets]
chain_union_TOSubset [definition, in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_isTotalOrder [lemma, in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_istotal [lemma, in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_isantisymm [lemma, in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_isrefl [lemma, in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_istrans [lemma, in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_eqn [definition, in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel [definition, in UniMath.Combinatorics.WellOrderedSets]
chain_union_prelim_eq0 [lemma, in UniMath.Combinatorics.WellOrderedSets]
chain:251 [binder, in UniMath.Combinatorics.WellOrderedSets]
chain:261 [binder, in UniMath.Combinatorics.WellOrderedSets]
chain:271 [binder, in UniMath.Combinatorics.WellOrderedSets]
chain:282 [binder, in UniMath.Combinatorics.WellOrderedSets]
chain:294 [binder, in UniMath.Combinatorics.WellOrderedSets]
chain:299 [binder, in UniMath.Combinatorics.WellOrderedSets]
chain:309 [binder, in UniMath.Combinatorics.WellOrderedSets]
chain:313 [binder, in UniMath.Combinatorics.WellOrderedSets]
chain:317 [binder, in UniMath.Combinatorics.WellOrderedSets]
chain:321 [binder, in UniMath.Combinatorics.WellOrderedSets]
chain:325 [binder, in UniMath.Combinatorics.WellOrderedSets]
chain:355 [binder, in UniMath.Combinatorics.WellOrderedSets]
chaotic_bicat [definition, in UniMath.Bicategories.Core.Bicat]
chaotic_prebicat [definition, in UniMath.Bicategories.Core.Bicat]
chaotic_prebicat_laws [lemma, in UniMath.Bicategories.Core.Bicat]
chaotic_prebicat_data [definition, in UniMath.Bicategories.Core.Bicat]
chaotic_bicat.C [variable, in UniMath.Bicategories.Core.Bicat]
chaotic_bicat [section, in UniMath.Bicategories.Core.Bicat]
characteristic_morphism [definition, in UniMath.CategoryTheory.SubobjectClassifier]
cha':227 [binder, in UniMath.Induction.M.Chains]
cha:1 [binder, in UniMath.Induction.M.Chains]
cha:226 [binder, in UniMath.Induction.M.Chains]
cha:231 [binder, in UniMath.Induction.M.Chains]
Check_Overview [section, in UniMath.Algebra.FixedPointTheorems]
check_paths_any [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
check_paths [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
check_values [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
check_paths [definition, in UniMath.SyntheticHomotopyTheory.Halfline]
check_values [definition, in UniMath.SyntheticHomotopyTheory.Halfline]
check1 [lemma, in UniMath.MoreFoundations.Equivalences]
check2 [lemma, in UniMath.MoreFoundations.Equivalences]
check3 [lemma, in UniMath.MoreFoundations.Equivalences]
check4 [lemma, in UniMath.MoreFoundations.Equivalences]
chi:17 [binder, in UniMath.CategoryTheory.SubobjectClassifier]
chi:25 [binder, in UniMath.CategoryTheory.SubobjectClassifier]
chi:41 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
chi:46 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
chi:8 [binder, in UniMath.CategoryTheory.SubobjectClassifier]
choice [definition, in UniMath.MoreFoundations.DecidablePropositions]
choice_compute_no [definition, in UniMath.MoreFoundations.DecidablePropositions]
choice_compute_yes [definition, in UniMath.MoreFoundations.DecidablePropositions]
choice_fun [definition, in UniMath.Combinatorics.WellOrderedSets]
chooser [definition, in UniMath.MoreFoundations.DecidablePropositions]
circle [definition, in UniMath.SyntheticHomotopyTheory.Circle]
circle [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
Circle [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
Circle [library]
CircleEquiv [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
CircleInduction [definition, in UniMath.SyntheticHomotopyTheory.Circle]
CircleInduction [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
CircleInductionEquiv [lemma, in UniMath.SyntheticHomotopyTheory.Circle2]
CircleInductionMatch [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
CircleInductionToRecursion' [lemma, in UniMath.SyntheticHomotopyTheory.Circle2]
CircleInduction_isaprop [lemma, in UniMath.SyntheticHomotopyTheory.Circle2]
CircleInduction' [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
CircleRecursion [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
CircleRecursionEquiv [lemma, in UniMath.SyntheticHomotopyTheory.Circle2]
CircleRecursion' [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
circle_map'' [definition, in UniMath.SyntheticHomotopyTheory.Circle]
circle_map_uniqueness [lemma, in UniMath.SyntheticHomotopyTheory.Circle]
circle_map_check_paths' [lemma, in UniMath.SyntheticHomotopyTheory.Circle]
circle_map':252 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
circle_map' [definition, in UniMath.SyntheticHomotopyTheory.Circle]
circle_map_conjugation [definition, in UniMath.SyntheticHomotopyTheory.Circle]
circle_map_check_paths [definition, in UniMath.SyntheticHomotopyTheory.Circle]
circle_map_check_values [definition, in UniMath.SyntheticHomotopyTheory.Circle]
circle_map [definition, in UniMath.SyntheticHomotopyTheory.Circle]
circle_loop [definition, in UniMath.SyntheticHomotopyTheory.Circle]
circle_induction [lemma, in UniMath.SyntheticHomotopyTheory.Circle2]
Circle_isaprop [lemma, in UniMath.SyntheticHomotopyTheory.Circle2]
Circle' [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
Circle2 [library]
circle:12 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
circle:22 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
circle:3 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
circle:30 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
circle:39 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
circle:48 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
circle:55 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
circle:58 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
circle:63 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
circle:66 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
ci:14 [binder, in UniMath.CategoryTheory.limits.products]
ci:19 [binder, in UniMath.CategoryTheory.limits.products]
ci:21 [binder, in UniMath.CategoryTheory.limits.products]
CK':142 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK':147 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK':152 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK':272 [binder, in UniMath.CategoryTheory.limits.Opp]
CK':99 [binder, in UniMath.CategoryTheory.limits.Opp]
CK1:100 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK1:118 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK1:123 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK1:136 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK1:139 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK1:154 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK1:172 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK1:260 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK1:267 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK1:274 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK1:281 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK1:288 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK1:295 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK1:322 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK1:329 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK1:50 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK1:57 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK1:64 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK1:73 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK1:80 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK1:87 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK1:94 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK2:173 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK2:261 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK2:268 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK2:275 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK2:282 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK2:289 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK2:296 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK2:323 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK2:330 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK2:51 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK2:58 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK2:65 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK2:74 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK2:81 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK2:88 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK4:126 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK4:159 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK4:162 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK:101 [binder, in UniMath.CategoryTheory.Additive]
CK:105 [binder, in UniMath.CategoryTheory.limits.Opp]
CK:110 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:110 [binder, in UniMath.CategoryTheory.limits.Opp]
CK:115 [binder, in UniMath.CategoryTheory.limits.Opp]
CK:119 [binder, in UniMath.CategoryTheory.limits.Opp]
ck:12 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
CK:128 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:13 [binder, in UniMath.CategoryTheory.limits.graphs.cokernels]
CK:133 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:141 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:146 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:151 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:161 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:164 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:168 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:17 [binder, in UniMath.CategoryTheory.limits.graphs.cokernels]
CK:179 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:183 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:184 [binder, in UniMath.CategoryTheory.PreAdditive]
CK:187 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:207 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:21 [binder, in UniMath.CategoryTheory.limits.graphs.cokernels]
CK:215 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:226 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:236 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:244 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:25 [binder, in UniMath.CategoryTheory.limits.graphs.cokernels]
CK:252 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:258 [binder, in UniMath.CategoryTheory.Abelian]
CK:278 [binder, in UniMath.CategoryTheory.limits.Opp]
CK:283 [binder, in UniMath.CategoryTheory.limits.Opp]
CK:288 [binder, in UniMath.CategoryTheory.limits.Opp]
CK:29 [binder, in UniMath.CategoryTheory.limits.graphs.cokernels]
CK:292 [binder, in UniMath.CategoryTheory.limits.Opp]
CK:302 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:308 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:314 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:318 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK:336 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:342 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:348 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:361 [binder, in UniMath.CategoryTheory.Abelian]
CK:375 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
CK:68 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:72 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:76 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:80 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:84 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:9 [binder, in UniMath.CategoryTheory.limits.graphs.cokernels]
CK:91 [binder, in UniMath.CategoryTheory.limits.cokernels]
CK:91 [binder, in UniMath.CategoryTheory.Additive]
CK:96 [binder, in UniMath.CategoryTheory.Additive]
ClassifyingSpace [definition, in UniMath.Algebra.GroupAction]
CLC:10 [binder, in UniMath.SubstitutionSystems.LamSignature]
CLC:14 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
CLC:28 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
CLC:36 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
CLC:42 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
CLC:47 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
CLC:53 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
CLC:57 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
CLC:61 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
CLC:67 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
clD:68 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
cleaving [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
CleavingOfBicat [library]
cleaving_of_bicats_rwhisker_cartesian [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cleaving_of_bicats_lwhisker_cartesian [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cleaving_of_bicats_global_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cleaving_of_bicats_local_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cleaving_of_bicats [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cleaving_reindex_disp_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
cleaving_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cleaving_ob [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cleaving_of_fibs [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_global_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_mor_cartesian [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_unit_disp_cat [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_mor_lift_2cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_unique_2_lifts [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_2cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_axioms [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_2cell_data [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_mor_lift_1cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_mor [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_obj [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_rwhisker_cartesian [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lwhisker_cartesian [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_local_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_cartesian_2cell_is_pointwise_cartesian [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_is_cartesian_2cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
Cmor':5 [binder, in UniMath.CategoryTheory.Subcategory.Core]
cntr:500 [binder, in UniMath.Foundations.PartD]
cntr:502 [binder, in UniMath.Foundations.PartD]
cntr:506 [binder, in UniMath.Foundations.PartD]
cntr:508 [binder, in UniMath.Foundations.PartD]
cntr:510 [binder, in UniMath.Foundations.PartD]
cntr:512 [binder, in UniMath.Foundations.PartD]
cntr:727 [binder, in UniMath.Foundations.PartA]
co [module, in UniMath.CategoryTheory.limits.graphs.limits]
coab:82 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
coalgebra [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
coalgebras_eq [lemma, in UniMath.Induction.M.ComputationalM]
coalgebra_homo_comp [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
coalgebra_homo_id [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
coalgebra_homo_commutes [lemma, in UniMath.CategoryTheory.FunctorCoalgebras]
coalgebra_homo_eq [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
coalgebra_homo [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
coalgebra_mor [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
coalgebra_ob [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
Coalgebra_Definition [section, in UniMath.CategoryTheory.FunctorCoalgebras]
CoAlg_category [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
CoAlg_precategory [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
CoAlg_is_precategory [lemma, in UniMath.CategoryTheory.FunctorCoalgebras]
CoAlg_precategory_data [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
CoAlg_precategory_ob_mor [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
cobase [definition, in UniMath.CategoryTheory.categories.HSET.Colimits]
CochainCone [section, in UniMath.Induction.M.Chains]
CochainCone.Cone0 [variable, in UniMath.Induction.M.Chains]
CochainCone.Cone0' [variable, in UniMath.Induction.M.Chains]
CochainCone.W [variable, in UniMath.Induction.M.Chains]
CochainCone.π [variable, in UniMath.Induction.M.Chains]
CochainLimit [section, in UniMath.Induction.M.Limits]
CochainLimit.X [variable, in UniMath.Induction.M.Limits]
CochainLimit.π [variable, in UniMath.Induction.M.Limits]
CochainLimit.π' [variable, in UniMath.Induction.M.Limits]
Cochains [library]
cochain_mor [definition, in UniMath.CategoryTheory.Chains.Cochains]
cochain_weq [definition, in UniMath.CategoryTheory.Chains.Cochains]
cochain_limit_standard_limit_weq [lemma, in UniMath.Induction.M.Chains]
cochain_dmor_paths_type [lemma, in UniMath.Induction.M.Chains]
cochain_dmor_paths [lemma, in UniMath.Induction.M.Chains]
cochain_limit_is_limit [lemma, in UniMath.Induction.M.Limits]
cochain_limit_cone [definition, in UniMath.Induction.M.Limits]
cochain_limit [definition, in UniMath.Induction.M.Limits]
cocha:75 [binder, in UniMath.Induction.M.Chains]
cochn:14 [binder, in UniMath.Induction.M.Chains]
cochn:20 [binder, in UniMath.Induction.M.Chains]
cochn:5 [binder, in UniMath.Induction.M.Chains]
cochn:6 [binder, in UniMath.Induction.M.Chains]
coch:51 [binder, in UniMath.Induction.M.Limits]
cocone [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
cocone [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
coconeIn [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
coconeInCommutes [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
cocone_functor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
cocone_pr2_functor [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocone_pr1_functor [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocone_over_alg [definition, in UniMath.CategoryTheory.Chains.Adamek]
cocone_pointwise [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
Cocone_by_postcompose [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
Cocone_postcompose [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
cocone_paths [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
cocont [section, in UniMath.CategoryTheory.Chains.Chains]
_ / _ [notation, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.cocont_slicecat_to_cat_HSET [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.functor_swap [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.post_composition_functor [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.pre_composition_functor_kan [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.pre_composition_functor [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.BinProduct_of_functors.omega_cocont_constprod_functor1 [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.BinProduct_of_functors [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.ccAiB_K [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.HAiM [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.CCAiB [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.HAiB [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.HB [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.HA [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.cB [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.cA [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.M [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.L [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_constprod_functor2 [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_constprod_functor1 [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.constprod_functors [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.coproduct_of_functors [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.BinCoproduct_of_functors [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.coprod_functor [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.bincoprod_functor [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.delta_functor [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.bindelta_functor [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.family_functor.HI [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.family_functor [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.tuple_functor [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.functor_into_product_category [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.pair_functor [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.iter_functor [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.functor_composite [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.constant_functor [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.functor_identity [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.cocont_iso.preserves_colimit_iso.Hα [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.cocont_iso.preserves_colimit_iso.α [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.cocont_iso.preserves_colimit_iso.αinv [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.cocont_iso.preserves_colimit_iso [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.cocont_iso [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
coconusf [definition, in UniMath.Foundations.PartA]
coconusfromt [definition, in UniMath.Foundations.PartA]
coconusfromtpair [definition, in UniMath.Foundations.PartA]
coconusfromtpr1 [definition, in UniMath.Foundations.PartA]
coconusfromt_isProofIrrelevant [lemma, in UniMath.Foundations.PartA]
coconustot [definition, in UniMath.Foundations.PartA]
coconustotpair [definition, in UniMath.Foundations.PartA]
coconustotpr1 [definition, in UniMath.Foundations.PartA]
coconustot_isProofIrrelevant [lemma, in UniMath.Foundations.PartA]
Codomain [library]
Codomain [library]
CodomainArrow [section, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
CodomainArrow.B [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
CodomainCleaving [section, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving [library]
CodomainCleaving.CartesianToPullback [section, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.CartesianToPullback.pb [variable, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.CartesianToPullback.PbUMP2AndEq [section, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.CartesianToPullback.PbUMP2AndEq.g [variable, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.CartesianToPullback.PbUMP2AndEq.lift_ψ [variable, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.CartesianToPullback.PbUMP2AndEq.lift_φ [variable, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.CartesianToPullback.PbUMP2AndEq.χ [variable, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.PullbackToCartesian [section, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.PullbackToCartesian.Lift1CellConeMor [section, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.PullbackToCartesian.Lift1CellConeMor.other_cone [variable, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.PullbackToCartesian.Lift2CellConeCell [section, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.PullbackToCartesian.Lift2CellConeCell.cell₂ [variable, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.PullbackToCartesian.Lift2CellConeCell.cone [variable, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Codomain_Disp [section, in UniMath.CategoryTheory.DisplayedCats.Codomain]
cod_fibration_one_types [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cod_cleaving_of_bicats [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cod_global_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cod_local_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cod_invertible_is_cartesian_2cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cod_disp_axioms [lemma, in UniMath.CategoryTheory.DisplayedCats.Codomain]
cod_disp_data [definition, in UniMath.CategoryTheory.DisplayedCats.Codomain]
cod_id_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Codomain]
cod_disp_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Codomain]
cod_disp_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_weq_disp_adj_equiv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_adj_to_adj_to_disp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_to_adj [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_adj_equiv_to_adj_equiv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_help [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_disp_adj [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_counit_homot [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_counit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_unit_homot [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_unit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_right_adj [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_map [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_1cell_path [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_1cell_path_help [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_2cell_path [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_invertible_2_cell_weq_disp_invertible [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_invertible_invertible_2_cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_invertible_2_cell_to_disp_invertible [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_invertible_2_cell_to_disp_invertible_help [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_bicat_help [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_has_disp_cellset [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_prebicat_laws [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_prebicat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_prebicat_ops [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
Coequalizer [definition, in UniMath.CategoryTheory.Abelian]
Coequalizer [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Coequalizer [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizer [definition, in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerArrow [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerArrow [definition, in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerArrowComm [lemma, in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerArrowEpi [lemma, in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerArrowEq [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerArrowisEpi [lemma, in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerCokernel [definition, in UniMath.CategoryTheory.limits.cokernels]
CoequalizerCokernel_isCokernel [lemma, in UniMath.CategoryTheory.limits.cokernels]
CoequalizerCokernel_eq [lemma, in UniMath.CategoryTheory.limits.cokernels]
CoequalizerCommutes [lemma, in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerEqAr [definition, in UniMath.CategoryTheory.limits.coequalizers]
coequalizerEquation [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
coequalizerMap [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
CoequalizerObject [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerObject [definition, in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerOfArrows [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerOfArrowsEq [lemma, in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerOut [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerOut [definition, in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerOutComp [lemma, in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerOutsEq [lemma, in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerOutUnique [lemma, in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizers [lemma, in UniMath.CategoryTheory.Abelian]
Coequalizers [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizers [definition, in UniMath.CategoryTheory.limits.coequalizers]
coequalizers [library]
coequalizers [library]
coequalizers_coincide.C [variable, in UniMath.CategoryTheory.limits.graphs.coequalizers]
coequalizers_coincide [section, in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizers_from_Colims [lemma, in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizers_opp [definition, in UniMath.CategoryTheory.limits.Opp]
Coequalizer_eq2 [definition, in UniMath.CategoryTheory.Abelian]
Coequalizer_eq1 [definition, in UniMath.CategoryTheory.Abelian]
Coequalizer_Pushout [definition, in UniMath.CategoryTheory.Abelian]
Coequalizer_isEpi [definition, in UniMath.CategoryTheory.Abelian]
Coequalizer_cocone [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizer_diagram [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizer_graph [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizer_opp [definition, in UniMath.CategoryTheory.limits.Opp]
coeq:405 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
coeq:411 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Coevaluation [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
coevaluation_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
coevaluation_is_pstrans [lemma, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
coevaluation_pstrans_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
coevaluation_functor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
Cofunctormap [library]
Cofunctormaps [section, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
Cofunctormaps.K [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
coherent_homot [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
CohomologyComplex [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplex [library]
CohomologyComplexIso [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_is_iso [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_is_iso_i [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor_comm [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor_i [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor8 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor7 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor6 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor5 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor4 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor3 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor2 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor1 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_CokernelArrow [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_isCokernel [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_isCokernel_Eq [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_KernelArrow [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_isKernel [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_isKernel_Eq [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_mor_eq2 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_mor_eq1 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_isEpi [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_isMonic [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_CokerKerIso [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_CokerKerIso_eq2 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_CokerKerIso_eq1 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_KerCokerIso [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_KerCokerIso_eq2 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_KerCokerIso_eq1 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_eq2' [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_eq2 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_eq1' [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_eq1 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplex_KernelIn_eq [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplex_KernelIn_eq' [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplex' [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctor [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHCommutes [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHIm [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHImEq [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHImEquality [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHImMor [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHomotopies [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHomotopy [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHomotopy_eq1 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Additive [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_isAdditive [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Additive_linear [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Additive_zero [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_isfunctor [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_functor_data [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Mor_Comp [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Mor_Id [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Mor [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Mor_eq [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctor_Additive [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctor_isAdditive [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctor_assoc [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctor_id [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctor_data [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyMorphism [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyMorphism_Mor_comm [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyMorphism_Mor [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyMorphism_Ker_Coker_Zero [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyMorphism_KernelIn_comm [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomolohyMorphism_Ker_comm [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
coh_strictness_from_univalent_2_1 [definition, in UniMath.Bicategories.Core.Strictness]
coh_strictness_structure [definition, in UniMath.Bicategories.Core.Strictness]
coiaib:19 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
coia:15 [binder, in UniMath.CategoryTheory.limits.coproducts]
CoImage [definition, in UniMath.CategoryTheory.Abelian]
CoImage [definition, in UniMath.CategoryTheory.ShortExactSequences]
CoImage_Eq [lemma, in UniMath.CategoryTheory.ShortExactSequences]
CoIm_to_Im_is_iso [lemma, in UniMath.CategoryTheory.Abelian]
CoIm_to_Im_eq [definition, in UniMath.CategoryTheory.Abelian]
CoIm_to_Im [definition, in UniMath.CategoryTheory.Abelian]
CoIm_to_Im_eq2 [definition, in UniMath.CategoryTheory.Abelian]
CoIm_to_Im_eq1 [definition, in UniMath.CategoryTheory.Abelian]
CoIm_ar [definition, in UniMath.CategoryTheory.Abelian]
CoIm_ar_eq [lemma, in UniMath.CategoryTheory.Abelian]
CoIm:172 [binder, in UniMath.CategoryTheory.ShortExactSequences]
Cokernel [definition, in UniMath.CategoryTheory.Abelian]
Cokernel [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Cokernel [definition, in UniMath.CategoryTheory.limits.graphs.cokernels]
Cokernel [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelArrow [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelArrowisEpi [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelCoequalizer [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelCoequalizer_isCokernel [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelCoequalizer_eq [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelCommutes [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelComplex [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelComplex_comm [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelComplex_Cokernel_comm [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelCompZero [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp_isCoequalizer [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp_eq [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp_mor2 [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp_eq2 [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp_mor1 [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp_eq1 [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp1 [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp2 [lemma, in UniMath.CategoryTheory.limits.cokernels]
cokernelEquation [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
CokernelisCokernel [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelIsEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CokernelKernelCohomology1 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_id2 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_id1 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_Mor2 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_Mor2_comm1 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_Mor1 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_Mor1_comm1 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_Mor1_eq1 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_eq [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology2 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology2_inverses [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology2_Mor2 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology2_comm2 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology2_Mor1 [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology2_comm1 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism_uni [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism_comm2' [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism_comm1' [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism_comm3 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism_comm2 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism_comm1 [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
cokernelMap [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
CokernelMorphism_eq' [lemma, in UniMath.HomologicalAlgebra.Complexes]
CokernelMorphism_eq [definition, in UniMath.HomologicalAlgebra.Complexes]
CokernelOb [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelOfDiagonal [definition, in UniMath.CategoryTheory.AbelianToAdditive]
CokernelOfDiagonal_is_iso [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
CokernelOfIdentity [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelOfIdentity_isCokernel [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelOfKernelOfPr1 [definition, in UniMath.CategoryTheory.AbelianToAdditive]
CokernelOfKernelOfPr2 [definition, in UniMath.CategoryTheory.AbelianToAdditive]
CokernelofZeroArrow [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelofZeroArrow_iso [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelofZeroArrow_is_iso [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelOfZeroArrow_isCokernel [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelOfZeroMapIsIso [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CokernelOut [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelOutComp [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelOutOp [lemma, in UniMath.CategoryTheory.PreAdditive]
CokernelOutOp_Eq [lemma, in UniMath.CategoryTheory.PreAdditive]
CokernelOutPaths_is_iso [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelOutPaths_is_iso_mor [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelOutsEq [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelOutUnique [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelPath [definition, in UniMath.CategoryTheory.limits.cokernels]
CokernelPath_isCokernel [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelPath_eq [lemma, in UniMath.CategoryTheory.limits.cokernels]
CokernelPlusIdentity [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Cokernels [definition, in UniMath.CategoryTheory.limits.cokernels]
cokernels [library]
cokernels [library]
CokernelSequence [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CokernelsOut_is_iso [lemma, in UniMath.CategoryTheory.limits.cokernels]
cokernels_epis.Z [variable, in UniMath.CategoryTheory.limits.cokernels]
cokernels_epis.hs [variable, in UniMath.CategoryTheory.limits.cokernels]
cokernels_epis.C [variable, in UniMath.CategoryTheory.limits.cokernels]
cokernels_epis [section, in UniMath.CategoryTheory.limits.cokernels]
cokernels_iso.Z [variable, in UniMath.CategoryTheory.limits.cokernels]
cokernels_iso.hs [variable, in UniMath.CategoryTheory.limits.cokernels]
cokernels_iso.C [variable, in UniMath.CategoryTheory.limits.cokernels]
cokernels_iso [section, in UniMath.CategoryTheory.limits.cokernels]
cokernels_coequalizers.Z [variable, in UniMath.CategoryTheory.limits.cokernels]
cokernels_coequalizers.hs [variable, in UniMath.CategoryTheory.limits.cokernels]
cokernels_coequalizers [section, in UniMath.CategoryTheory.limits.cokernels]
Cokernels_opp [definition, in UniMath.CategoryTheory.limits.Opp]
CokernelUniqueness [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CokernelZeroEpi [definition, in UniMath.CategoryTheory.Abelian]
CokernelZeroEpi_kernel [definition, in UniMath.CategoryTheory.Abelian]
CokernelZeroisEpi [lemma, in UniMath.CategoryTheory.Abelian]
cokernel_out_paths.Z [variable, in UniMath.CategoryTheory.limits.cokernels]
cokernel_out_paths.hs [variable, in UniMath.CategoryTheory.limits.cokernels]
cokernel_out_paths.C [variable, in UniMath.CategoryTheory.limits.cokernels]
cokernel_out_paths [section, in UniMath.CategoryTheory.limits.cokernels]
Cokernel_up_to_iso2 [definition, in UniMath.CategoryTheory.limits.cokernels]
Cokernel_up_to_iso2_isCoequalizer [definition, in UniMath.CategoryTheory.limits.cokernels]
Cokernel_up_to_iso2_eq [definition, in UniMath.CategoryTheory.limits.cokernels]
Cokernel_up_to_iso [definition, in UniMath.CategoryTheory.limits.cokernels]
Cokernel_up_to_iso_isCokernel [lemma, in UniMath.CategoryTheory.limits.cokernels]
Cokernel_up_to_iso_eq [lemma, in UniMath.CategoryTheory.limits.cokernels]
Cokernel_opp [definition, in UniMath.CategoryTheory.limits.Opp]
Cokernel_opp_isKernel [lemma, in UniMath.CategoryTheory.limits.Opp]
Cokernel_opp_eq [lemma, in UniMath.CategoryTheory.limits.Opp]
coker:143 [binder, in UniMath.CategoryTheory.Abelian]
coker:152 [binder, in UniMath.CategoryTheory.Abelian]
coker:161 [binder, in UniMath.CategoryTheory.Abelian]
coker:168 [binder, in UniMath.CategoryTheory.Abelian]
coker:514 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
col [definition, in UniMath.Combinatorics.FiniteSequences]
colim [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
colimAlgInitial [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
colimAlgInitial [definition, in UniMath.CategoryTheory.Chains.Adamek]
colimAlgIsInitial [lemma, in UniMath.CategoryTheory.Chains.Adamek]
colimAlgIsInitial_subproof [lemma, in UniMath.CategoryTheory.Chains.Adamek]
colimArrow [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
colimArrowCommutes [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
colimArrowEta [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
colimArrowUnique [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
colimArrowUnique' [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
colimCocone [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
ColimCocone [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
ColimCoconeHSET [definition, in UniMath.CategoryTheory.categories.HSET.Colimits]
colimCoconeHSET [definition, in UniMath.CategoryTheory.categories.HSET.Colimits]
colimD:35 [binder, in UniMath.CategoryTheory.EpiFacts]
ColimFunctor [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
ColimFunctor [section, in UniMath.CategoryTheory.limits.graphs.colimits]
ColimFunctorCocone [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
ColimFunctor_unique [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
ColimFunctor_data [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
ColimFunctor_mor [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
ColimFunctor_ob [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
ColimFunctor.HCg [variable, in UniMath.CategoryTheory.limits.graphs.colimits]
colimHSET [definition, in UniMath.CategoryTheory.categories.HSET.Colimits]
ColimHSETArrow [definition, in UniMath.CategoryTheory.categories.HSET.Colimits]
colimIn [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
colimInCommutes [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
Colimit [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Colimits [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
colimits [section, in UniMath.CategoryTheory.categories.HSET.Colimits]
colimits [library]
Colimits [library]
Colimits [library]
colimits.D [variable, in UniMath.CategoryTheory.categories.HSET.Colimits]
colimits.from_colim.cc [variable, in UniMath.CategoryTheory.categories.HSET.Colimits]
colimits.from_colim.c [variable, in UniMath.CategoryTheory.categories.HSET.Colimits]
colimits.from_colim [section, in UniMath.CategoryTheory.categories.HSET.Colimits]
colimits.g [variable, in UniMath.CategoryTheory.categories.HSET.Colimits]
colimOfArrows [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
colimOfArrowsIn [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
Colims [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
Colims [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
Colims [section, in UniMath.CategoryTheory.limits.graphs.colimits]
ColimsFunctorCategory [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
ColimsFunctorCategory_of_shape [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
ColimsFunctorCategory_of_shape [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
ColimsHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
ColimsHSET_of_shape [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
ColimsHSET_of_shape [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
Colims_PreShv_of_shape [lemma, in UniMath.CategoryTheory.Presheaf]
Colims_of_shape [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
Colims_of_shape [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
Colims.Universal_Unique.H [variable, in UniMath.CategoryTheory.limits.graphs.colimits]
Colims.Universal_Unique.C [variable, in UniMath.CategoryTheory.limits.graphs.colimits]
Colims.Universal_Unique [section, in UniMath.CategoryTheory.limits.graphs.colimits]
colimUnivProp [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
colim_functor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
colim_initial_algebra.algebra_mor.Aa [variable, in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.algebra_mor [section, in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.α_alg [variable, in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.α_inv [variable, in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.α [variable, in UniMath.CategoryTheory.Chains.Adamek]
colim_algebra_mor [definition, in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.FHC [variable, in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.FHC' [variable, in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.Fa [variable, in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.FFchain [variable, in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.L [variable, in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.CC [variable, in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.Fchain [variable, in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra [section, in UniMath.CategoryTheory.Chains.Adamek]
colim_nat_trans_in_data [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
colim_endo_is_identity [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
colim_def [section, in UniMath.CategoryTheory.limits.graphs.colimits]
colim:570 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
colim:582 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
colim:596 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
collection_of_sieves [definition, in UniMath.CategoryTheory.GrothendieckTopos]
col_vec [definition, in UniMath.Combinatorics.FiniteSequences]
combine_over_nat' [lemma, in UniMath.Induction.M.Chains]
combine_over_nat [lemma, in UniMath.Induction.M.Chains]
combine_over_nat_basic [lemma, in UniMath.Induction.M.Chains]
comb:62 [binder, in UniMath.Algebra.Universal.HVectors]
comm [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
CommaCategories [library]
commax [definition, in UniMath.Algebra.Monoids]
commax_hom [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
commax_is [definition, in UniMath.Algebra.BinaryOperations]
commax:17 [binder, in UniMath.Algebra.Matrix]
commax:55 [binder, in UniMath.Algebra.Matrix]
comma_codomain [definition, in UniMath.CategoryTheory.CommaCategories]
comma_domain [definition, in UniMath.CategoryTheory.CommaCategories]
comma_category [definition, in UniMath.CategoryTheory.CommaCategories]
comma_precategory [definition, in UniMath.CategoryTheory.CommaCategories]
comma_cat_data_assoc' [definition, in UniMath.CategoryTheory.CommaCategories]
comma_cat_data_assoc [definition, in UniMath.CategoryTheory.CommaCategories]
comma_cat_data_id_right [definition, in UniMath.CategoryTheory.CommaCategories]
comma_cat_data_id_left [definition, in UniMath.CategoryTheory.CommaCategories]
comma_cat_data [definition, in UniMath.CategoryTheory.CommaCategories]
comma_cat_id_comp [definition, in UniMath.CategoryTheory.CommaCategories]
comma_cat_comp [definition, in UniMath.CategoryTheory.CommaCategories]
comma_cat_id [definition, in UniMath.CategoryTheory.CommaCategories]
comma_cat_ob_mor [definition, in UniMath.CategoryTheory.CommaCategories]
comma_cat_mor [definition, in UniMath.CategoryTheory.CommaCategories]
comma_cat_ob [definition, in UniMath.CategoryTheory.CommaCategories]
CommDivRig [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_isrdistr [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_isldistr [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_isrinv [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_islinv [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_iscomm_mult [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_isrunit_one [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_islunit_one [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_isassoc_mult [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_iscomm_plus [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_isrunit_zero [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_islunit_zero [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_isassoc_plus [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_pty [section, in UniMath.Algebra.DivisionRig]
CommDivRig_DivRig [definition, in UniMath.Algebra.DivisionRig]
CommDivRig_hnnq [definition, in UniMath.RealNumbers.NonnegativeRationals]
commhfp [definition, in UniMath.Foundations.PartA]
commonhzdivsignswap [lemma, in UniMath.PAdics.z_mod_p]
common_index3 [lemma, in UniMath.Combinatorics.WellOrderedSets]
common_index2 [lemma, in UniMath.Combinatorics.WellOrderedSets]
common_index [lemma, in UniMath.Combinatorics.WellOrderedSets]
common_initial [definition, in UniMath.Combinatorics.WellOrderedSets]
commrig [definition, in UniMath.Algebra.RigsAndRings]
commrigconstr [definition, in UniMath.Algebra.RigsAndRings]
commrigdirprod [definition, in UniMath.Algebra.RigsAndRings]
commrigmultabmonoid [definition, in UniMath.Algebra.RigsAndRings]
commrigop2axs [definition, in UniMath.Algebra.RigsAndRings]
commrigquot [definition, in UniMath.Algebra.RigsAndRings]
commrigs [library]
commrigtocommring [definition, in UniMath.Algebra.RigsAndRings]
commrigtocommringcomm2 [lemma, in UniMath.Algebra.RigsAndRings]
commrigtorig [definition, in UniMath.Algebra.RigsAndRings]
commrig_ideals' [lemma, in UniMath.Algebra.RigsAndRings.Ideals]
commrig_ideals [lemma, in UniMath.Algebra.RigsAndRings.Ideals]
commrig_hnnq [definition, in UniMath.RealNumbers.NonnegativeRationals]
commrig_univalent_category [definition, in UniMath.CategoryTheory.categories.commrigs]
commrig_category_is_univalent [definition, in UniMath.CategoryTheory.categories.commrigs]
commrig_category [definition, in UniMath.CategoryTheory.categories.commrigs]
commrig_precategory_isweq [definition, in UniMath.CategoryTheory.categories.commrigs]
commrig_equiv_weq_iso [definition, in UniMath.CategoryTheory.categories.commrigs]
commrig_equiv_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.commrigs]
commrig_iso_equiv_weq [definition, in UniMath.CategoryTheory.categories.commrigs]
commrig_iso_equiv_is_equiv [lemma, in UniMath.CategoryTheory.categories.commrigs]
commrig_equiv_iso [lemma, in UniMath.CategoryTheory.categories.commrigs]
commrig_equiv_is_iso [lemma, in UniMath.CategoryTheory.categories.commrigs]
commrig_iso_equiv [lemma, in UniMath.CategoryTheory.categories.commrigs]
commrig_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.commrigs]
commrig_precategory [definition, in UniMath.CategoryTheory.categories.commrigs]
commrig_assoc [lemma, in UniMath.CategoryTheory.categories.commrigs]
commrig_id_commright [lemma, in UniMath.CategoryTheory.categories.commrigs]
commrig_id_left [lemma, in UniMath.CategoryTheory.categories.commrigs]
commrig_precategory_data [definition, in UniMath.CategoryTheory.categories.commrigs]
commrig_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.commrigs]
commrig_fun_space [definition, in UniMath.CategoryTheory.categories.commrigs]
commrig_univalence [definition, in UniMath.Algebra.RigsAndRings]
commrig_univalence_isweq [lemma, in UniMath.Algebra.RigsAndRings]
commrig_univalence_map [definition, in UniMath.Algebra.RigsAndRings]
commrig_univalence_weq3 [definition, in UniMath.Algebra.RigsAndRings]
commrig_univalence_weq2 [definition, in UniMath.Algebra.RigsAndRings]
commrig_univalence_weq1' [definition, in UniMath.Algebra.RigsAndRings]
commrig_univalence_weq1 [definition, in UniMath.Algebra.RigsAndRings]
commrig' [definition, in UniMath.Algebra.RigsAndRings]
commring [definition, in UniMath.Algebra.RigsAndRings]
commringaddinvunique [lemma, in UniMath.PAdics.lemmas]
commringconstr [definition, in UniMath.Algebra.RigsAndRings]
commringdirprod [definition, in UniMath.Algebra.RigsAndRings]
commringfrac [definition, in UniMath.Algebra.RigsAndRings]
commringfracassoc1 [lemma, in UniMath.Algebra.RigsAndRings]
commringfraccomm1 [lemma, in UniMath.Algebra.RigsAndRings]
commringfraccomm2 [lemma, in UniMath.Algebra.RigsAndRings]
commringfracgt [definition, in UniMath.Algebra.RigsAndRings]
commringfracinv1 [definition, in UniMath.Algebra.RigsAndRings]
commringfracinv1comp [lemma, in UniMath.Algebra.RigsAndRings]
commringfracinv1int [definition, in UniMath.Algebra.RigsAndRings]
commringfracisinv1 [lemma, in UniMath.Algebra.RigsAndRings]
commringfracldistr [lemma, in UniMath.Algebra.RigsAndRings]
commringfraclunit1 [lemma, in UniMath.Algebra.RigsAndRings]
commringfracl1 [lemma, in UniMath.Algebra.RigsAndRings]
commringfracl2 [lemma, in UniMath.Algebra.RigsAndRings]
commringfracop1 [definition, in UniMath.Algebra.RigsAndRings]
commringfracop1comp [lemma, in UniMath.Algebra.RigsAndRings]
commringfracop1int [definition, in UniMath.Algebra.RigsAndRings]
commringfracop2 [definition, in UniMath.Algebra.RigsAndRings]
commringfracop2int [definition, in UniMath.Algebra.RigsAndRings]
commringfracrdistr [lemma, in UniMath.Algebra.RigsAndRings]
commringfracrunit1 [lemma, in UniMath.Algebra.RigsAndRings]
commringfracunel1 [definition, in UniMath.Algebra.RigsAndRings]
commringfracunel1int [definition, in UniMath.Algebra.RigsAndRings]
commringfracunel2 [definition, in UniMath.Algebra.RigsAndRings]
commringfracunel2int [definition, in UniMath.Algebra.RigsAndRings]
commringfracunit1 [definition, in UniMath.Algebra.RigsAndRings]
commringismultcancelableif [lemma, in UniMath.Algebra.RigsAndRings]
commringofpadicints [definition, in UniMath.PAdics.padics]
commringop2axs [definition, in UniMath.Algebra.RigsAndRings]
commringquot [definition, in UniMath.Algebra.RigsAndRings]
commringquotprandop1 [lemma, in UniMath.PAdics.padics]
commringquotprandop2 [lemma, in UniMath.PAdics.padics]
commrings [library]
commringtocommrig [definition, in UniMath.Algebra.RigsAndRings]
commringtoring [definition, in UniMath.Algebra.RigsAndRings]
commring_univalence [definition, in UniMath.Algebra.RigsAndRings]
commring_univalence_isweq [lemma, in UniMath.Algebra.RigsAndRings]
commring_univalence_map [definition, in UniMath.Algebra.RigsAndRings]
commring_univalence_weq3 [definition, in UniMath.Algebra.RigsAndRings]
commring_univalence_weq2 [definition, in UniMath.Algebra.RigsAndRings]
commring_univalence_weq1' [definition, in UniMath.Algebra.RigsAndRings]
commring_univalence_weq1 [definition, in UniMath.Algebra.RigsAndRings]
commring_bimodule [definition, in UniMath.Algebra.Modules.Examples]
commring_univalent_category [definition, in UniMath.CategoryTheory.categories.commrings]
commring_category_is_univalent [definition, in UniMath.CategoryTheory.categories.commrings]
commring_category [definition, in UniMath.CategoryTheory.categories.commrings]
commring_precategory_isweq [definition, in UniMath.CategoryTheory.categories.commrings]
commring_equiv_weq_iso [definition, in UniMath.CategoryTheory.categories.commrings]
commring_equiv_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.commrings]
commring_iso_equiv_weq [definition, in UniMath.CategoryTheory.categories.commrings]
commring_iso_equiv_is_equiv [lemma, in UniMath.CategoryTheory.categories.commrings]
commring_equiv_iso [lemma, in UniMath.CategoryTheory.categories.commrings]
commring_equiv_is_iso [lemma, in UniMath.CategoryTheory.categories.commrings]
commring_iso_equiv [lemma, in UniMath.CategoryTheory.categories.commrings]
commring_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.commrings]
commring_precategory [definition, in UniMath.CategoryTheory.categories.commrings]
commring_assoc [lemma, in UniMath.CategoryTheory.categories.commrings]
commring_id_right [lemma, in UniMath.CategoryTheory.categories.commrings]
commring_id_left [lemma, in UniMath.CategoryTheory.categories.commrings]
commring_precategory_data [definition, in UniMath.CategoryTheory.categories.commrings]
commring_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.commrings]
commring_fun_space [definition, in UniMath.CategoryTheory.categories.commrings]
commring' [definition, in UniMath.Algebra.RigsAndRings]
commsqstr [definition, in UniMath.Foundations.PartA]
commsqstrtocomplxstr [lemma, in UniMath.Foundations.PartA]
commsqZtohfp [definition, in UniMath.Foundations.PartA]
commsqZtohfphomot [definition, in UniMath.Foundations.PartA]
commsqZtohfphomot' [definition, in UniMath.Foundations.PartA]
commutativityOfProducts [lemma, in UniMath.Algebra.IteratedBinaryOperations]
commutativityOfProducts_helper [lemma, in UniMath.Algebra.IteratedBinaryOperations]
comm_comm_eq_id [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
comm_comm_iso_id [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
comm_functor_data_2 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
comm_functor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
comm_functor_data [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
Comm1:361 [binder, in UniMath.HomologicalAlgebra.Triangulated]
comm1:707 [binder, in UniMath.HomologicalAlgebra.Triangulated]
comm1:720 [binder, in UniMath.HomologicalAlgebra.Triangulated]
comm1:733 [binder, in UniMath.HomologicalAlgebra.Triangulated]
Comm2:362 [binder, in UniMath.HomologicalAlgebra.Triangulated]
comm2:708 [binder, in UniMath.HomologicalAlgebra.Triangulated]
comm2:721 [binder, in UniMath.HomologicalAlgebra.Triangulated]
comm2:734 [binder, in UniMath.HomologicalAlgebra.Triangulated]
Comm3:363 [binder, in UniMath.HomologicalAlgebra.Triangulated]
Comm4:364 [binder, in UniMath.HomologicalAlgebra.Triangulated]
comm:117 [binder, in UniMath.Bicategories.Colimits.Pullback]
comm:122 [binder, in UniMath.Bicategories.Colimits.Pullback]
comm:127 [binder, in UniMath.Bicategories.Colimits.Pullback]
comm:132 [binder, in UniMath.Bicategories.Colimits.Pullback]
comm:137 [binder, in UniMath.Bicategories.Colimits.Pullback]
comm:151 [binder, in UniMath.Bicategories.Colimits.Pullback]
comm:165 [binder, in UniMath.Bicategories.Colimits.Pullback]
comm:788 [binder, in UniMath.CategoryTheory.LocalizingClass]
Comm:80 [binder, in UniMath.HomologicalAlgebra.Complexes]
Comm:831 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:838 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:847 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:853 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:859 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:865 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:871 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:877 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:883 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:889 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:895 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:901 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:922 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:933 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:943 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Comm:953 [binder, in UniMath.HomologicalAlgebra.MappingCone]
comparable [definition, in UniMath.Algebra.FixedPointTheorems]
compax:278 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
compax:81 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
compB:135 [binder, in UniMath.CategoryTheory.catiso]
compevmapset [definition, in UniMath.Foundations.Sets]
compfun [definition, in UniMath.Foundations.Sets]
compfuncomp [definition, in UniMath.Foundations.Sets]
CompIsHQIS [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
CompIsQIS [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
compl [definition, in UniMath.Foundations.PartC]
complementary [definition, in UniMath.Foundations.PartB]
complementaryDecisions [lemma, in UniMath.MoreFoundations.DecidablePropositions]
ComplementaryPair [definition, in UniMath.MoreFoundations.DecidablePropositions]
complementary_to_neg_iff [definition, in UniMath.Foundations.PartB]
Completeness [section, in UniMath.Algebra.FixedPointTheorems]
CompleteSpace [definition, in UniMath.RealNumbers.Sets]
Complex [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexCat [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexEpiIndexEpi [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexEpiIndexEpi_eq [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexEpiIndexEpi' [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexEq [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexEq_transport_source [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
ComplexEq_transport_target [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
ComplexEq' [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexEq'' [lemma, in UniMath.HomologicalAlgebra.Complexes]
Complexes [library]
complexes_homotopies.A [variable, in UniMath.HomologicalAlgebra.KA]
complexes_homotopies [section, in UniMath.HomologicalAlgebra.KA]
complexes_abelian.hs [variable, in UniMath.HomologicalAlgebra.Complexes]
complexes_abelian.A [variable, in UniMath.HomologicalAlgebra.Complexes]
complexes_abelian [section, in UniMath.HomologicalAlgebra.Complexes]
complexes_additive.A [variable, in UniMath.HomologicalAlgebra.Complexes]
complexes_additive [section, in UniMath.HomologicalAlgebra.Complexes]
complexes_precat.A [variable, in UniMath.HomologicalAlgebra.Complexes]
complexes_precat [section, in UniMath.HomologicalAlgebra.Complexes]
ComplexFromObject [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexFromObject_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexFromObject_mors [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexFromObject_obs [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexHomot [definition, in UniMath.HomologicalAlgebra.KA]
ComplexHomotComm2 [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotComm3 [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotComm4 [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotFunctor [definition, in UniMath.HomologicalAlgebra.KA]
ComplexHomotFunctor_im_to_homot [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotFunctor_mor_rel [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotFunctor_rel_mor' [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotFunctor_rel_mor [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotFunctor_issurj [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotisSubgrop [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotMorphism [definition, in UniMath.HomologicalAlgebra.KA]
ComplexHomotMorphism_comm [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotPostCompHomot [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotPreCompHomot [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotSubgrop_comp_right [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotSubgrop_comp_left [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexHomotSubgrp [definition, in UniMath.HomologicalAlgebra.KA]
ComplexHomotSubset [definition, in UniMath.HomologicalAlgebra.KA]
ComplexHomot_Additive [definition, in UniMath.HomologicalAlgebra.KA]
ComplexHomot_Additive_Comp [lemma, in UniMath.HomologicalAlgebra.KA]
ComplexIsoIndexIso [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexMonicIndexMonic [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexMonicIndexMonic_eq [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexMonicIndexMonic' [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexMonicKernelIn [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexMonicKernelInComm [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexMonicKernelIn_Complex_Comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCatAbelianEpiCokernelsData_isCokernel [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCatAbelianMonicKernelsData_isKernel [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCatCokernelOut [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCatCokernelOut_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCatCokernelOut_comp [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_AbelianPreCat [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Epi_Cokernel_Complex [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Epi_Cokernel_Complex_comp [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Epi_Cokernel_Complex_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Monic_Kernel_Complex [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Monic_Kernel_Complex_comp [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Monic_Kernel_Complex_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernels [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernels_isCokernel [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernels_Comp [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernels_Eq [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_CokernelCompZero [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_CokernelArrow [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernel [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernel_comp [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernel_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Kernels [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Kernels_isKernel [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_KernelIn [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_KernelIn_comp [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Kernels_comp [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_KernelArrow [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Kernel [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Kernel_comp [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Kernel_moreq [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_ZeroArrow_ZeroMorphism [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Additive [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_isBinDirectSum [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_isZero [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_PreAdditive [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_isPreAdditive [lemma, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_categoryWithAbgrops [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_precategoryWithBinOps [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_data [definition, in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_ob_mor [definition, in UniMath.HomologicalAlgebra.Complexes]
Complex_Funclass [definition, in UniMath.HomologicalAlgebra.Complexes]
complxstr [definition, in UniMath.Foundations.PartA]
complxstrtocommsqstr [lemma, in UniMath.Foundations.PartA]
compl_weq_compl_ne [lemma, in UniMath.MoreFoundations.NegativePropositions]
compl_ne_weq_compl [lemma, in UniMath.MoreFoundations.NegativePropositions]
compl_ne [definition, in UniMath.MoreFoundations.NegativePropositions]
component [definition, in UniMath.MoreFoundations.Sets]
compose [definition, in UniMath.CategoryTheory.Core.Categories]
composeActionIso [definition, in UniMath.Algebra.GroupAction]
composeActionIsoId [lemma, in UniMath.Algebra.GroupAction]
composeActionIsoId' [lemma, in UniMath.Algebra.GroupAction]
composeActionMap [definition, in UniMath.Algebra.GroupAction]
composeExactFunctors [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
composeIdpathPathOver [lemma, in UniMath.MoreFoundations.PathsOver]
composeMultipleOperation [definition, in UniMath.Algebra.IteratedBinaryOperations]
composePathOver [definition, in UniMath.MoreFoundations.PathsOver]
composePathOverIdpath [definition, in UniMath.MoreFoundations.PathsOver]
composePathOverLeftInverse [definition, in UniMath.MoreFoundations.PathsOver]
composePathOverLeftUnit [definition, in UniMath.MoreFoundations.PathsOver]
composePathOverPath [definition, in UniMath.MoreFoundations.PathsOver]
composePathOverPathRotate [lemma, in UniMath.MoreFoundations.PathsOver]
composePathOverPath_compute [definition, in UniMath.MoreFoundations.PathsOver]
composePathOverRightInverse [definition, in UniMath.MoreFoundations.PathsOver]
composePathOverRightUnit [definition, in UniMath.MoreFoundations.PathsOver]
composePathOver_weq [definition, in UniMath.MoreFoundations.PathsOver]
composePathPathOver [definition, in UniMath.MoreFoundations.PathsOver]
composePathPathOverPath [lemma, in UniMath.MoreFoundations.PathsOver]
composePathPathOverRotate [lemma, in UniMath.MoreFoundations.PathsOver]
composePathPathOver_compute [definition, in UniMath.MoreFoundations.PathsOver]
composeSequence [definition, in UniMath.Combinatorics.FiniteSequences]
composeSequence' [definition, in UniMath.Combinatorics.FiniteSequences]
ComposeSplitEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ComposeSplitMono [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
composeUnorderedSequence [definition, in UniMath.Combinatorics.FiniteSequences]
compose_SET [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
compose_functor [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
compose' [definition, in UniMath.CategoryTheory.categories.StandardCategories]
compose1 [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
compose2h [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
compose2h_iso [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
compose:150 [binder, in UniMath.CategoryTheory.Core.Categories]
compose:67 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
CompositesAndInverses [library]
Composition [library]
CompositionEquivalence [section, in UniMath.Bicategories.Core.EquivToAdjequiv]
CompositionEquivalence.A₁ [variable, in UniMath.Bicategories.Core.EquivToAdjequiv]
CompositionEquivalence.A₂ [variable, in UniMath.Bicategories.Core.EquivToAdjequiv]
CompositionEquivalence.f [variable, in UniMath.Bicategories.Core.EquivToAdjequiv]
CompositionEquivalence.g [variable, in UniMath.Bicategories.Core.EquivToAdjequiv]
CompositionIsAdditive [definition, in UniMath.CategoryTheory.AdditiveFunctors]
composition_of_maps [lemma, in UniMath.Bicategories.Core.AdjointUnique]
composition_of_triangles_is_identity [lemma, in UniMath.Bicategories.Core.AdjointUnique]
composition_of_triangles [definition, in UniMath.Bicategories.Core.AdjointUnique]
Compositor [section, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
Compositor [library]
compositor_is_disp_univalent_2 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
compositor_is_disp_univalent_2_0 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
compositor_is_disp_univalent_2_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
compositor_disp_cat [definition, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
compositor_disp_cat_id_comp [definition, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
compositor_disp_cat_data [definition, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
Compositor.C [variable, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
Compositor.D [variable, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
ComprehensionC [library]
comprehension_cat_structure [definition, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ComputationalM [library]
compute_iscontrweqb_weqfibtototal_3 [definition, in UniMath.MoreFoundations.MoreEquivalences]
compute_pr2_invmap_weqfibtototal [definition, in UniMath.MoreFoundations.MoreEquivalences]
compute_pr1_invmap_weqfibtototal [definition, in UniMath.MoreFoundations.MoreEquivalences]
compute_iscontrweqb_weqfibtototal_1 [definition, in UniMath.MoreFoundations.MoreEquivalences]
compute_fbracket [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
compute_pr1_dni_first [definition, in UniMath.Combinatorics.StandardFiniteSets]
compute_pr1_dni_last [definition, in UniMath.Combinatorics.StandardFiniteSets]
compute_fbracket [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
comp_psfunctor_psfunctor_comp [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
comp_psfunctor_psfunctor_id [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
comp_psfunctor_cell [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
comp_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
comp_is_ps [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
comp_psfunctor_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
comp_adjequiv [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
comp_equiv [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
comp_counit_isiso [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
comp_counit [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
comp_unit_isiso [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
comp_unit [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
comp_pseudo_morphism [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
comp_fully_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
comp_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
comp_pb_2cell [definition, in UniMath.Bicategories.Colimits.Pullback]
comp_pstrans [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
comp_ff_is_ff [lemma, in UniMath.CategoryTheory.Core.Functors]
comp_full_and_faithful_is_full_and_faithful [lemma, in UniMath.CategoryTheory.Core.Functors]
comp_full_is_full [lemma, in UniMath.CategoryTheory.Core.Functors]
comp_faithful_is_faithful [lemma, in UniMath.CategoryTheory.Core.Functors]
comp_essentially_surjective [lemma, in UniMath.CategoryTheory.Core.Functors]
comp_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
comp_disp:17 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
comp_coslice_precat [definition, in UniMath.CategoryTheory.coslicecat]
comp_of_invertible_2cell [definition, in UniMath.Bicategories.Core.Invertible_2cells]
comp_slice_precat [definition, in UniMath.CategoryTheory.slicecat]
comp_slice_precat_subproof [definition, in UniMath.CategoryTheory.slicecat]
comp_adj_equivalence_of_cats [definition, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
comp_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Univalence]
comp_eq [lemma, in UniMath.CategoryTheory.PreAdditive]
comp_zero [section, in UniMath.HomologicalAlgebra.Triangulated]
comp_func_on_mor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
comp_def.DistrLaws [section, in UniMath.CategoryTheory.Monads.Derivative]
comp_def [section, in UniMath.CategoryTheory.Monads.Derivative]
comp_distr_laws_assoc [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
comp_distr_laws [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
comp_pbm [abbreviation, in UniMath.CategoryTheory.Monads.LModules]
comp_compose2' [lemma, in UniMath.Folds.from_precats_to_folds_and_back]
comp_compose2 [lemma, in UniMath.Folds.from_precats_to_folds_and_back]
comp_compose' [lemma, in UniMath.Folds.from_precats_to_folds_and_back]
comp_compose [lemma, in UniMath.Folds.from_precats_to_folds_and_back]
comp_pred_comp [lemma, in UniMath.Folds.from_precats_to_folds_and_back]
comp_pred [definition, in UniMath.Folds.from_precats_to_folds_and_back]
comp1:11 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
comp:169 [binder, in UniMath.Algebra.Universal.HVectors]
comp:18 [binder, in UniMath.CategoryTheory.Core.Categories]
comp:438 [binder, in UniMath.Bicategories.Core.Bicat]
conat_graph [definition, in UniMath.CategoryTheory.Chains.Cochains]
concat [definition, in UniMath.Combinatorics.GraphPaths]
concatenate [definition, in UniMath.CategoryTheory.Inductives.Lists]
concatenate [definition, in UniMath.Combinatorics.Lists]
concatenate [definition, in UniMath.Combinatorics.FiniteSequences]
concatenateFiniteOrderedSets [definition, in UniMath.Combinatorics.OrderedSets]
concatenateStep [lemma, in UniMath.Combinatorics.Lists]
concatenateStep [definition, in UniMath.Combinatorics.FiniteSequences]
concatenate_oplistsplit [lemma, in UniMath.Algebra.Universal.Terms]
concatenate_nil [lemma, in UniMath.Combinatorics.Lists]
concatenate_0 [definition, in UniMath.Combinatorics.FiniteSequences]
concatenate_length [definition, in UniMath.Combinatorics.FiniteSequences]
concatenate' [definition, in UniMath.Combinatorics.StandardFiniteSets]
concatenate'_r0' [definition, in UniMath.Combinatorics.StandardFiniteSets]
concatenate'_r0 [definition, in UniMath.Combinatorics.StandardFiniteSets]
cone [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
cone [definition, in UniMath.CategoryTheory.limits.cats.limits]
CONE [definition, in UniMath.CategoryTheory.limits.cones]
Cone [definition, in UniMath.CategoryTheory.limits.cones]
Cone [section, in UniMath.CategoryTheory.limits.cones]
cone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
ConeConnect [definition, in UniMath.CategoryTheory.limits.cones]
ConeConnectIso [definition, in UniMath.CategoryTheory.limits.cones]
ConeConnectIso_inj [lemma, in UniMath.CategoryTheory.limits.cones]
ConeConnectIso_identity_iso [lemma, in UniMath.CategoryTheory.limits.cones]
ConeConnect_idtoiso [lemma, in UniMath.CategoryTheory.limits.cones]
ConeData [definition, in UniMath.HomologicalAlgebra.Triangulated]
ConeData [definition, in UniMath.CategoryTheory.limits.cones]
ConeDataOb [definition, in UniMath.HomologicalAlgebra.Triangulated]
ConeData_from_Cone [definition, in UniMath.CategoryTheory.limits.cones]
ConeData1 [definition, in UniMath.HomologicalAlgebra.Triangulated]
ConeData2 [definition, in UniMath.HomologicalAlgebra.Triangulated]
ConeMor [definition, in UniMath.CategoryTheory.limits.cones]
coneOut [definition, in UniMath.CategoryTheory.limits.cats.limits]
coneOut [definition, in UniMath.CategoryTheory.limits.graphs.limits]
coneOutCommutes [lemma, in UniMath.CategoryTheory.limits.cats.limits]
coneOutCommutes [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
ConeProp [definition, in UniMath.CategoryTheory.limits.cones]
ConeProp_from_Cone [definition, in UniMath.CategoryTheory.limits.cones]
cones [library]
ConeTop [definition, in UniMath.CategoryTheory.limits.cones]
ConeTri [definition, in UniMath.HomologicalAlgebra.Triangulated]
coneY:35 [binder, in UniMath.Induction.M.Limits]
cone_squash_map [definition, in UniMath.MoreFoundations.NullHomotopies]
cone_cell_to_pb_2cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cone_cell_weq_lift_2cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cone_cell_to_lift_2cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cone_functor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
cone_eq [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
cone_pointwise [definition, in UniMath.CategoryTheory.limits.cats.limits]
Cone_precompose [lemma, in UniMath.CategoryTheory.limits.cats.limits]
cone_in_full_subcategory [definition, in UniMath.CategoryTheory.Subcategory.Limits]
CONE_category.is_cat_C [variable, in UniMath.CategoryTheory.limits.cones]
CONE_category.F [variable, in UniMath.CategoryTheory.limits.cones]
CONE_category.C [variable, in UniMath.CategoryTheory.limits.cones]
CONE_category.J [variable, in UniMath.CategoryTheory.limits.cones]
CONE_category [section, in UniMath.CategoryTheory.limits.cones]
Cone_precategory_data [definition, in UniMath.CategoryTheory.limits.cones]
Cone_precategory_ob_mor [definition, in UniMath.CategoryTheory.limits.cones]
Cone_comp [definition, in UniMath.CategoryTheory.limits.cones]
Cone_id [definition, in UniMath.CategoryTheory.limits.cones]
cone_mor_prop [lemma, in UniMath.CategoryTheory.limits.cones]
Cone_Mor_eq [lemma, in UniMath.CategoryTheory.limits.cones]
Cone_Mor [definition, in UniMath.CategoryTheory.limits.cones]
Cone_eq [definition, in UniMath.CategoryTheory.limits.cones]
cone_prop [lemma, in UniMath.CategoryTheory.limits.cones]
cone_pointwise [definition, in UniMath.CategoryTheory.limits.graphs.limits]
Cone_precompose [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
Cone.C [variable, in UniMath.CategoryTheory.limits.cones]
Cone.F [variable, in UniMath.CategoryTheory.limits.cones]
Cone.J [variable, in UniMath.CategoryTheory.limits.cones]
confirm_not_equal [definition, in UniMath.Foundations.Sets]
confirm_equal [definition, in UniMath.Foundations.Sets]
confun [definition, in UniMath.MoreFoundations.PartA]
Conjugates [section, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
conj_op [definition, in UniMath.Algebra.Universal.Examples.Tests]
conn:45 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cons [definition, in UniMath.CategoryTheory.Inductives.Lists]
cons [definition, in UniMath.Combinatorics.GraphPaths]
cons [definition, in UniMath.Combinatorics.Lists]
cons [definition, in UniMath.Combinatorics.WellFoundedRelations]
consecutive [definition, in UniMath.Combinatorics.OrderedSets]
consecutive [definition, in UniMath.Foundations.Sets]
consecutive_preserved [lemma, in UniMath.Combinatorics.OrderedSets]
conservative [definition, in UniMath.CategoryTheory.Core.Functors]
constant [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Constant]
Constant [section, in UniMath.Bicategories.PseudoFunctors.Examples.Constant]
Constant [library]
ConstantCleaving [section, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
ConstantCleaving.B₁ [variable, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
ConstantCleaving.B₂ [variable, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
ConstantCleaving.Cartesian1CellToAdjEquiv [section, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
ConstantCleaving.Cartesian1CellToAdjEquiv.inv [variable, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
ConstantCleaving.Cartesian1CellToAdjEquiv.ε [variable, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
ConstantCleaving.Cartesian1CellToAdjEquiv.εinv [variable, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
ConstantCleaving.TrivialCartesianOneCell [section, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
constantFunctor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
constantly_constant_signature.H [variable, in UniMath.SubstitutionSystems.SignatureExamples]
constantly_constant_signature.d [variable, in UniMath.SubstitutionSystems.SignatureExamples]
constantly_constant_signature.D' [variable, in UniMath.SubstitutionSystems.SignatureExamples]
constantly_constant_signature.D [variable, in UniMath.SubstitutionSystems.SignatureExamples]
constantly_constant_signature.C [variable, in UniMath.SubstitutionSystems.SignatureExamples]
constantly_constant_signature [section, in UniMath.SubstitutionSystems.SignatureExamples]
constant_PreShv [definition, in UniMath.CategoryTheory.Presheaf]
constant_functor [definition, in UniMath.CategoryTheory.Core.Functors]
constant_functor_data [definition, in UniMath.CategoryTheory.Core.Functors]
constant_nat_trans [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
constant_nat_trans [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
constant_invertible_cells [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Constant]
constant_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Constant]
constant_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Constant]
constant_nat_trans [definition, in UniMath.SubstitutionSystems.LiftingInitial]
ConstConstSignature [definition, in UniMath.SubstitutionSystems.SignatureExamples]
constcoprod_functor2 [definition, in UniMath.CategoryTheory.limits.bincoproducts]
constcoprod_functor1 [definition, in UniMath.CategoryTheory.limits.bincoproducts]
constHSET_slice [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
constHSET_slice [definition, in UniMath.SubstitutionSystems.MultiSorted]
constprod_functor2 [definition, in UniMath.CategoryTheory.exponentials]
constprod_functor1 [definition, in UniMath.CategoryTheory.exponentials]
ConstrTerms [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
ConstructionOfActions [library]
Constructions [library]
ConstructiveCommutativeDivisionRig [definition, in UniMath.Algebra.ConstructiveStructures]
ConstructiveCommutativeDivisionRig_ConstructiveDivisionRig [definition, in UniMath.Algebra.ConstructiveStructures]
ConstructiveCommutativeDivisionRig_commrig [definition, in UniMath.Algebra.ConstructiveStructures]
ConstructiveDivisionRig [definition, in UniMath.Algebra.ConstructiveStructures]
ConstructiveDivisionRig_apsetwith2binop [definition, in UniMath.Algebra.ConstructiveStructures]
ConstructiveDivisionRig_rig [definition, in UniMath.Algebra.ConstructiveStructures]
ConstructiveField [definition, in UniMath.Algebra.ConstructiveStructures]
ConstructiveField_ConstructiveCommutativeDivisionRig [definition, in UniMath.Algebra.ConstructiveStructures]
ConstructiveField_commring [definition, in UniMath.Algebra.ConstructiveStructures]
ConstructiveStructures [library]
ConstructiveTotalEffectivellyOrderedSet [definition, in UniMath.RealNumbers.Sets]
ConstructiveTotalEffectiveOrder [definition, in UniMath.RealNumbers.Sets]
constr_indef_descr [section, in UniMath.Combinatorics.BoundedSearch]
constr1 [definition, in UniMath.Foundations.PartA]
constr2 [lemma, in UniMath.Foundations.PartA]
Const_plus_H [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
const_true [definition, in UniMath.CategoryTheory.SubobjectClassifier]
const_prod_functor1_slicecat [lemma, in UniMath.CategoryTheory.slicecat]
const_matrix [definition, in UniMath.Combinatorics.FiniteSequences]
const_vec [definition, in UniMath.Combinatorics.FiniteSequences]
const_comma_category_definition [section, in UniMath.CategoryTheory.CommaCategories]
const_htrue [definition, in UniMath.CategoryTheory.categories.HSET.Structures]
Const_plus_H [definition, in UniMath.SubstitutionSystems.LiftingInitial]
cons_nat [definition, in UniMath.CategoryTheory.Inductives.Lists]
cons_map [definition, in UniMath.CategoryTheory.Inductives.Lists]
cons_inj2 [lemma, in UniMath.Combinatorics.MoreLists]
cons_inj1 [lemma, in UniMath.Combinatorics.MoreLists]
cons_nil_id [lemma, in UniMath.Algebra.Universal.Examples.ListDataType]
cons_idx [definition, in UniMath.Algebra.Universal.Examples.ListDataType]
cons' [definition, in UniMath.Combinatorics.WellFoundedRelations]
cons1 [definition, in UniMath.Combinatorics.WellFoundedRelations]
contained_in_union_open [lemma, in UniMath.AlgebraicGeometry.Topology]
continuous [definition, in UniMath.Topology.Topology]
continuous_pr2 [lemma, in UniMath.Topology.Topology]
continuous_pr1 [lemma, in UniMath.Topology.Topology]
continuous_tpair [lemma, in UniMath.Topology.Topology]
continuous_funcomp [lemma, in UniMath.Topology.Topology]
continuous_comp [lemma, in UniMath.Topology.Topology]
continuous_base_at [definition, in UniMath.Topology.Topology]
continuous_on [definition, in UniMath.Topology.Topology]
continuous_at [definition, in UniMath.Topology.Topology]
continuous2d [definition, in UniMath.Topology.Topology]
continuous2d_comp [lemma, in UniMath.Topology.Topology]
continuous2d_base_at [definition, in UniMath.Topology.Topology]
continuous2d_at [definition, in UniMath.Topology.Topology]
ContravariantFunctor [library]
contr_to_pr1contr [lemma, in UniMath.Combinatorics.ZFstructures]
CopCocone [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
coprod [inductive, in UniMath.Foundations.Preamble]
coprodasstol [definition, in UniMath.Foundations.PartA]
coprodasstor [definition, in UniMath.Foundations.PartA]
coprodcomm [definition, in UniMath.Foundations.PartA]
coprodcomm_coprodcomm [lemma, in UniMath.MoreFoundations.PartA]
coprodf [definition, in UniMath.Foundations.PartA]
coprodf1 [definition, in UniMath.Foundations.PartA]
coprodf2 [definition, in UniMath.Foundations.PartA]
coprodofhfiberstohfiber [lemma, in UniMath.Foundations.PartC]
coprodtobool [definition, in UniMath.Foundations.PartA]
coprodtoboolsum [definition, in UniMath.Foundations.PartA]
Coproduct [definition, in UniMath.CategoryTheory.limits.coproducts]
CoproductArrow [definition, in UniMath.CategoryTheory.limits.coproducts]
CoproductArrow [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductArrowEta [lemma, in UniMath.CategoryTheory.limits.coproducts]
CoproductArrowEta [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductArrowUnique [lemma, in UniMath.CategoryTheory.limits.coproducts]
CoproductArrowUnique [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductArrow_diagram [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
CoproductCocone [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductIn [definition, in UniMath.CategoryTheory.limits.coproducts]
CoproductInCommutes [lemma, in UniMath.CategoryTheory.limits.coproducts]
CoproductIn_idtoiso [lemma, in UniMath.CategoryTheory.limits.coproducts]
CoproductIn1 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductIn1Commutes [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductIn2 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductIn2Commutes [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductObject [definition, in UniMath.CategoryTheory.limits.coproducts]
CoproductObject [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductOfArrows [definition, in UniMath.CategoryTheory.limits.coproducts]
CoproductOfArrows [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductOfArrowsIn [lemma, in UniMath.CategoryTheory.limits.coproducts]
CoproductOfArrowsIn1 [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductOfArrowsIn2 [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductOfArrows_comp [definition, in UniMath.CategoryTheory.limits.coproducts]
Coproducts [section, in UniMath.CategoryTheory.limits.coproducts]
Coproducts [definition, in UniMath.CategoryTheory.limits.coproducts]
Coproducts [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
Coproducts [section, in UniMath.SubstitutionSystems.SignatureCategory]
coproducts [library]
CoproductsBool [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
CoproductsBool [section, in UniMath.CategoryTheory.limits.bincoproducts]
CoproductsHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
Coproducts_PreShv [lemma, in UniMath.CategoryTheory.Presheaf]
Coproducts_HSET_over_sort2 [lemma, in UniMath.SubstitutionSystems.STLC]
Coproducts_from_Colims [lemma, in UniMath.CategoryTheory.limits.coproducts]
Coproducts_cocone [definition, in UniMath.CategoryTheory.limits.coproducts]
coproducts_diagram [definition, in UniMath.CategoryTheory.limits.coproducts]
coproducts_from_colimits.C [variable, in UniMath.CategoryTheory.limits.coproducts]
coproducts_from_colimits.I [variable, in UniMath.CategoryTheory.limits.coproducts]
coproducts_from_colimits [section, in UniMath.CategoryTheory.limits.coproducts]
Coproducts_functor_precat [definition, in UniMath.CategoryTheory.limits.coproducts]
Coproducts_functor_precat [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
Coproducts_slice_precat [lemma, in UniMath.CategoryTheory.slicecat]
Coproducts_Signature_category [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
Coproducts.C [variable, in UniMath.CategoryTheory.limits.coproducts]
Coproducts.C [variable, in UniMath.SubstitutionSystems.SignatureCategory]
Coproducts.CC [variable, in UniMath.CategoryTheory.limits.coproducts]
Coproducts.CD [variable, in UniMath.SubstitutionSystems.SignatureCategory]
Coproducts.D [variable, in UniMath.SubstitutionSystems.SignatureCategory]
Coproducts.D' [variable, in UniMath.SubstitutionSystems.SignatureCategory]
Coproducts.I [variable, in UniMath.CategoryTheory.limits.coproducts]
Coproducts.I [variable, in UniMath.SubstitutionSystems.SignatureCategory]
coproduct_nat_trans [definition, in UniMath.CategoryTheory.limits.coproducts]
coproduct_nat_trans_data [definition, in UniMath.CategoryTheory.limits.coproducts]
coproduct_nat_trans_in [definition, in UniMath.CategoryTheory.limits.coproducts]
coproduct_nat_trans_in_data [definition, in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors_alt_eq_coproduct_of_functors [lemma, in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors_alt_old_eq_coproduct_of_functors [lemma, in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors [definition, in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors_data [definition, in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors_mor [definition, in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors_ob [definition, in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors_alt [definition, in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors_alt_old [definition, in UniMath.CategoryTheory.limits.coproducts]
coproduct_functor [definition, in UniMath.CategoryTheory.limits.coproducts]
coproduct_functor_data [definition, in UniMath.CategoryTheory.limits.coproducts]
Coproduct_endo_is_identity [lemma, in UniMath.CategoryTheory.limits.coproducts]
coproduct_def.C [variable, in UniMath.CategoryTheory.limits.coproducts]
coproduct_def.I [variable, in UniMath.CategoryTheory.limits.coproducts]
coproduct_def [section, in UniMath.CategoryTheory.limits.coproducts]
coproduct_nat_trans_univ_prop [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_In2Commutes [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_In1Commutes [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans [definition, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_data [definition, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_in2 [definition, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_in2_data [definition, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_in1 [definition, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_in1_data [definition, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_unique.b [variable, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_unique.a [variable, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_unique.H [variable, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_unique.C [variable, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_unique [section, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_def.C [variable, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_def [section, in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_functor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
Coproduct_endo_is_identity [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Test]
coproduct_functor_adjunction [section, in UniMath.CategoryTheory.Adjunctions.Examples]
coproduct_unique.b [variable, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
coproduct_unique.a [variable, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
coproduct_unique.H [variable, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
coproduct_unique.C [variable, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
coproduct_unique [section, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
coprod_iter_eq [lemma, in UniMath.SubstitutionSystems.ModulesFromSignatures]
coprod_rect_compute_2 [definition, in UniMath.MoreFoundations.PartA]
coprod_rect_compute_1 [definition, in UniMath.MoreFoundations.PartA]
coprod_stn_assoc [definition, in UniMath.Combinatorics.StandardFiniteSets]
cop:156 [binder, in UniMath.CategoryTheory.opp_precat]
cop:36 [binder, in UniMath.CategoryTheory.opp_precat]
Core [library]
Core [library]
Core [library]
Core [library]
Core [library]
Core [library]
Core [library]
Core [library]
Core [library]
Core [library]
corecM [definition, in UniMath.Induction.M.ComputationalM]
corecM0 [abbreviation, in UniMath.Induction.M.ComputationalM]
corec_computation [lemma, in UniMath.Induction.M.ComputationalM]
CorestrictImage [section, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
CorestrictImage [library]
CorestrictImage.CorestrictFullImageLocalEquivalence [section, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
CorestrictImage.CorestrictFullImageLocalEquivalence.B₁_is_univalent_2_1 [variable, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
CorestrictImage.CorestrictFullImageLocalEquivalence.B₂_is_univalent_2_1 [variable, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
CorestrictImage.CorestrictFullImageLocalEquivalence.FI_is_univalent_2_1 [variable, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
CorestrictImage.CorestrictFullImageLocalEquivalence.F_local_equiv [variable, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image_weak_equivalence [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image_local_equivalence [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image_local_equivalence_right_adj [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image_essentially_surjective [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image_invertibles [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
Coroof [definition, in UniMath.CategoryTheory.LocalizingClass]
CoroofMor1 [definition, in UniMath.CategoryTheory.LocalizingClass]
CoroofMor2 [definition, in UniMath.CategoryTheory.LocalizingClass]
CoroofMor2Is [definition, in UniMath.CategoryTheory.LocalizingClass]
CoroofOb [definition, in UniMath.CategoryTheory.LocalizingClass]
correct_hom_on_comp [lemma, in UniMath.CategoryTheory.catiso]
correct_hom_on_id [lemma, in UniMath.CategoryTheory.catiso]
correct_hom [lemma, in UniMath.CategoryTheory.catiso]
Cosets [section, in UniMath.Algebra.Monoids]
coslicecat [library]
coslicecat_mor_comm [definition, in UniMath.CategoryTheory.coslicecat]
coslicecat_mor_morphism [definition, in UniMath.CategoryTheory.coslicecat]
coslicecat_ob_morphism [definition, in UniMath.CategoryTheory.coslicecat]
coslicecat_ob_object [definition, in UniMath.CategoryTheory.coslicecat]
coslicecat_mor [definition, in UniMath.CategoryTheory.coslicecat]
coslicecat_ob [definition, in UniMath.CategoryTheory.coslicecat]
coslice_precat [definition, in UniMath.CategoryTheory.coslicecat]
coslice_precat_data [definition, in UniMath.CategoryTheory.coslicecat]
coslice_precat_ob_mor [definition, in UniMath.CategoryTheory.coslicecat]
coslice_precat_def [section, in UniMath.CategoryTheory.coslicecat]
COS:12 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
COS:14 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
COS:19 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
COS:24 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
COS:25 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
cotrans:224 [binder, in UniMath.Combinatorics.OrderedSets]
counit [definition, in UniMath.CategoryTheory.Adjunctions.Core]
counitcounit_of_is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
counitunit_of_is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
counit_is_iso_if_right_adjoint_is_fully_faithful [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
counit_is_split_monic_if_right_adjoint_is_full [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
counit_is_epi_if_right_adjoint_is_faithful [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
counit_from_hom [definition, in UniMath.CategoryTheory.Adjunctions.Core]
counit_left_from_partial [definition, in UniMath.CategoryTheory.Adjunctions.Core]
counit_from_right_adjoint [definition, in UniMath.CategoryTheory.Adjunctions.Core]
counit_from_left_adjoint [definition, in UniMath.CategoryTheory.Adjunctions.Core]
counit_from_are_adjoints [definition, in UniMath.CategoryTheory.Adjunctions.Core]
counit_iso_from_adj_equivalence_of_cats [definition, in UniMath.CategoryTheory.Equivalences.Core]
counit_nat_iso_from_adj_equivalence_of_cats [definition, in UniMath.CategoryTheory.Equivalences.Core]
counit_pointwise_iso_from_adj_equivalence [definition, in UniMath.CategoryTheory.Equivalences.Core]
counit_of_disp_left_biadj [definition, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
counit_of_is_disp_biequivalence [definition, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
counit_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
counit_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
counit_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
counit_of_is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
covyoneda [definition, in UniMath.CategoryTheory.covyoneda]
covyoneda [library]
covyoneda_functor_data [definition, in UniMath.CategoryTheory.covyoneda]
covyoneda_morphisms [definition, in UniMath.CategoryTheory.covyoneda]
covyoneda_morphisms_data [definition, in UniMath.CategoryTheory.covyoneda]
covyoneda_objects [definition, in UniMath.CategoryTheory.covyoneda]
covyoneda_ob_functor_data [definition, in UniMath.CategoryTheory.covyoneda]
covyoneda_objects_ob [definition, in UniMath.CategoryTheory.covyoneda]
cov_hom_functor [definition, in UniMath.CategoryTheory.categories.Type.Core]
coweighting [definition, in UniMath.Algebra.Matrix]
cowei:94 [binder, in UniMath.Algebra.Matrix]
co.cone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.coneOut [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.coneOutCommutes [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.Cone_precompose [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.get_cocone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.get_diagram [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.hasLims [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.inv_isLim_is_iso [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.isLimCone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.isLimCone_LimCone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.isLim_is_iso [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.is_iso_isLim [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.lim [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.limArrow [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.limArrowCommutes [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.limArrowEta [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.limArrowUnique [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.limCone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.LimCone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.LimFunctor [section, in UniMath.CategoryTheory.limits.graphs.limits]
co.LimFunctorCone [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.limOfArrows [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.limOfArrowsOut [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.limOut [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.limOutCommutes [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.Lims [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.limUnivProp [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.lim_endo_is_identity [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.lim_def [section, in UniMath.CategoryTheory.limits.graphs.limits]
co.make_LimCone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.make_cone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.opp_diagram [definition, in UniMath.CategoryTheory.limits.graphs.limits]
co.postcompWithColimOfArrows [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.postCompWithLimOfArrows_subproof [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co.precompWithLimArrow [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
co:106 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
co:13 [binder, in UniMath.CategoryTheory.limits.coproducts]
co:13 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
co:15 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
co:15 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
co:162 [binder, in UniMath.CategoryTheory.limits.Opp]
co:18 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
co:21 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
co:22 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
co:29 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
co:319 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
co:335 [binder, in UniMath.CategoryTheory.limits.Opp]
co:37 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
co:4 [binder, in UniMath.CategoryTheory.limits.coproducts]
co:4 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
co:4 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
co:410 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
co:45 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
co:53 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
co:55 [binder, in UniMath.CategoryTheory.Monads.Derivative]
co:61 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
co:69 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
co:74 [binder, in UniMath.CategoryTheory.limits.coproducts]
co:8 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
co:81 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
co:85 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
co:9 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
cp [definition, in UniMath.MoreFoundations.PathsOver]
cp_apstar' [definition, in UniMath.MoreFoundations.PathsOver]
cp_apstar [definition, in UniMath.MoreFoundations.PathsOver]
cp_pathscomp0 [lemma, in UniMath.MoreFoundations.PathsOver]
cp_inverse_cp [definition, in UniMath.MoreFoundations.PathsOver]
cp_irrelevance [definition, in UniMath.MoreFoundations.PathsOver]
cp_in_family [definition, in UniMath.MoreFoundations.PathsOver]
cp_right [definition, in UniMath.MoreFoundations.PathsOver]
cp_left [definition, in UniMath.MoreFoundations.PathsOver]
cp_idpath [definition, in UniMath.MoreFoundations.PathsOver]
cp_irrelevance_circle [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
CP:156 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
CP:159 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
CP:2 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
CP:2 [binder, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
CP:2 [binder, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
CP:2 [binder, in UniMath.SubstitutionSystems.LiftingInitial]
CP:24 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:32 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:38 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:41 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:44 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:47 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:53 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:61 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:69 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:81 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:87 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:95 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
cQ [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
creates_limits_functor_alg [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
creates_preserves [section, in UniMath.CategoryTheory.DisplayedCats.Limits]
creates_limits [definition, in UniMath.CategoryTheory.DisplayedCats.Limits]
creates_limit [definition, in UniMath.CategoryTheory.DisplayedCats.Limits]
Creates_Limits [section, in UniMath.CategoryTheory.DisplayedCats.Limits]
CR:245 [binder, in UniMath.Algebra.RigsAndRings]
CR:335 [binder, in UniMath.CategoryTheory.LocalizingClass]
CR:338 [binder, in UniMath.CategoryTheory.LocalizingClass]
CR:341 [binder, in UniMath.CategoryTheory.LocalizingClass]
CR:344 [binder, in UniMath.CategoryTheory.LocalizingClass]
CR:475 [binder, in UniMath.CategoryTheory.LocalizingClass]
CR:743 [binder, in UniMath.Algebra.RigsAndRings]
ctlong [definition, in UniMath.Foundations.Sets]
curry [definition, in UniMath.Foundations.PartA]
Currying [section, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
Currying [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
CurryingInBicatOfCats [library]
currying_biajd [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
currying_biajd_triangle_r_law [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
currying_biajd_triangle_l_law [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
currying_biajd_unit_counit [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
Currying.Def_Uncurry_Mor [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
Currying.Def_Uncurry_Ob [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
Currying.Def_Curry_Mor [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
Currying.Def_Curry_Ob [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
Currying.L [variable, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
Currying.R [variable, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
curry_after_uncurry_pointwise [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
curry_nattrans [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
curry_functor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
curry_functor_data_is_functor [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
curry_functor_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
curry_uncurry [lemma, in UniMath.Foundations.PartA]
cutonweq [definition, in UniMath.Foundations.PartD]
Cu:710 [binder, in UniMath.RealNumbers.NonnegativeReals]
Cu:712 [binder, in UniMath.RealNumbers.NonnegativeReals]
cwf [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
CwF [section, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
CwF [library]
CwFRepresentation [section, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_is_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_is_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_is_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_representation [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_fiber_representation [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_fiber_rep_ax [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_square_comm [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_fiber_rep_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cx0:1163 [binder, in UniMath.Foundations.Sets]
cx0:1173 [binder, in UniMath.Foundations.Sets]
cx:1162 [binder, in UniMath.Foundations.Sets]
cx:1172 [binder, in UniMath.Foundations.Sets]
cx:885 [binder, in UniMath.Foundations.Sets]
C_is_univalent_2:34 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
C_is_univalent_2_0:32 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
C_is_univalent_2_1:31 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
C_is_univalent_2_0:27 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
C_is_univalent_2_1:25 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
C_is_univalent_2_1:21 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
C_is_univalent_2:17 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
C_is_univalent_2_0:15 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
C_is_univalent_2_1:14 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
C_is_univalent_2_0:10 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
C_is_univalent_2_1:8 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
C_is_univalent_2_1:4 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
C_SET [abbreviation, in UniMath.CategoryTheory.SetValuedFunctors]
C_is_univalent_2_1:80 [binder, in UniMath.Bicategories.Colimits.Final]
C_is_univalent_2_1:83 [binder, in UniMath.Bicategories.Core.Univalence]
C_local_univalent:78 [binder, in UniMath.Bicategories.Core.Univalence]
C_is_univalent_2_1:72 [binder, in UniMath.Bicategories.Core.Univalence]
C_is_univalent_2_1:146 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
C_is_univalent_2_1:88 [binder, in UniMath.Bicategories.Colimits.Initial]
c_hat [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
c_tilde [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
c' [definition, in UniMath.Combinatorics.Tests]
C' [abbreviation, in UniMath.Folds.folds_isomorphism]
C''':30 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
c''':944 [binder, in UniMath.Foundations.Sets]
c'':107 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C'':11 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
c'':123 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C'':200 [binder, in UniMath.CategoryTheory.Core.Functors]
C'':209 [binder, in UniMath.CategoryTheory.Core.Functors]
C'':214 [binder, in UniMath.CategoryTheory.Core.Functors]
C'':23 [binder, in UniMath.CategoryTheory.FunctorCategory]
C'':29 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C'':315 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
c'':317 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c'':36 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c'':36 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
c'':46 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
c'':50 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c'':51 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
c'':56 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
c'':63 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c'':66 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
c'':76 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c'':92 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c'':922 [binder, in UniMath.Foundations.Sets]
C'':936 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
c'':943 [binder, in UniMath.Foundations.Sets]
C'':946 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C'':956 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':1 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c':10 [binder, in UniMath.CategoryTheory.Quotobjects]
C':10 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C':100 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
C':100 [binder, in UniMath.CategoryTheory.FunctorCategory]
C':1006 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
c':101 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C':1018 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':102 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C':103 [binder, in UniMath.CategoryTheory.Core.Functors]
C':1030 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
c':104 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
C':105 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C':106 [binder, in UniMath.CategoryTheory.Core.Functors]
C':1073 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':108 [binder, in UniMath.CategoryTheory.Subcategory.Full]
C':108 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
C':108 [binder, in UniMath.CategoryTheory.FunctorCategory]
C':1084 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':1093 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':1099 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':11 [binder, in UniMath.CategoryTheory.FunctorCategory]
c':11 [binder, in UniMath.CategoryTheory.Subobjects]
c':11 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c':110 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
C':1105 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':111 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C':1112 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':1115 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':1127 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':114 [binder, in UniMath.CategoryTheory.Core.Functors]
C':1143 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
c':115 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
C':1153 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':1163 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':117 [binder, in UniMath.CategoryTheory.FunctorCategory]
c':117 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C':117 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C':1174 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C':1175 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':118 [binder, in UniMath.CategoryTheory.Core.Functors]
c':119 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C':119 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C':1191 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':12 [binder, in UniMath.CategoryTheory.Subcategory.Full]
C':12 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
C':1207 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':1215 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
c':122 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C':1221 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':1237 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':124 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
c':125 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C':1251 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C':1293 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C':13 [binder, in UniMath.CategoryTheory.Core.Functors]
c':13 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C':131 [binder, in UniMath.CategoryTheory.Core.Functors]
C':131 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
c':132 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C':133 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C':137 [binder, in UniMath.CategoryTheory.Core.Functors]
C':138 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
c':139 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c':14 [binder, in UniMath.CategoryTheory.covyoneda]
c':14 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C':14 [binder, in UniMath.CategoryTheory.Subcategory.Limits]
c':14 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
c':141 [binder, in UniMath.CategoryTheory.limits.coproducts]
C':143 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C':144 [binder, in UniMath.CategoryTheory.Core.Functors]
C':144 [binder, in UniMath.CategoryTheory.FunctorCategory]
C':144 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
c':145 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C':147 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
c':149 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C':15 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
c':15 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
C':15 [binder, in UniMath.CategoryTheory.Subcategory.Core]
C':150 [binder, in UniMath.CategoryTheory.Core.Functors]
C':151 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C':156 [binder, in UniMath.CategoryTheory.Core.Functors]
c':157 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
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C:137 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
c:137 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
C:137 [binder, in UniMath.CategoryTheory.Core.Categories]
C:138 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
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C:138 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
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C:138 [binder, in UniMath.CategoryTheory.slicecat]
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C:138 [binder, in UniMath.CategoryTheory.Morphisms]
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C:14 [binder, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
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c:1447 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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C:145 [binder, in UniMath.CategoryTheory.Monads.KTriples]
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C:146 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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C:147 [binder, in UniMath.CategoryTheory.opp_precat]
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C:147 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
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C:147 [binder, in UniMath.CategoryTheory.Morphisms]
C:147 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
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C:148 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
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C:148 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
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c:148 [binder, in UniMath.CategoryTheory.limits.pullbacks]
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C:15 [binder, in UniMath.CategoryTheory.Elements]
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C:15 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
C:15 [binder, in UniMath.CategoryTheory.limits.initial]
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C:23 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
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C:38 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
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C:39 [binder, in UniMath.CategoryTheory.SubobjectClassifier]
C:39 [binder, in UniMath.Bicategories.Core.Univalence]
C:39 [binder, in UniMath.CategoryTheory.HorizontalComposition]
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C:39 [binder, in UniMath.CategoryTheory.Groupoids]
C:39 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
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C:4 [binder, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
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C:4 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
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C:40 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
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C:40 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
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C:41 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
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C:41 [binder, in UniMath.CategoryTheory.yoneda]
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C:41 [binder, in UniMath.CategoryTheory.EpiFacts]
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C:41 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
C:41 [binder, in UniMath.Bicategories.Core.TransportLaws]
C:41 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
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C:59 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
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C:6 [binder, in UniMath.CategoryTheory.limits.initial]
C:6 [binder, in UniMath.CategoryTheory.rezk_completion]
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C:6 [binder, in UniMath.CategoryTheory.CategoriesWithBinOps]
C:6 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
C:6 [binder, in UniMath.Induction.M.ComputationalM]
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C:6 [binder, in UniMath.CategoryTheory.Monads.KleisliCategory]
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C:6 [binder, in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
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C₁:183 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
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c₁:19 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
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C₁:209 [binder, in UniMath.Bicategories.Colimits.Pullback]
c₁:210 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:212 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₁:213 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₁:214 [binder, in UniMath.Bicategories.Colimits.Pullback]
C₁:217 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:217 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
c₁:220 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:222 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₁:222 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₁:227 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₁:230 [binder, in UniMath.Bicategories.Core.FullyFaithful]
c₁:230 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
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c₁:235 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:237 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₁:238 [binder, in UniMath.Bicategories.Core.FullyFaithful]
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C₁:242 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₁:246 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₁:247 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
c₁:249 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c₁:257 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:28 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₁:29 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
c₁:297 [binder, in UniMath.Bicategories.Colimits.Products]
c₁:3 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
c₁:304 [binder, in UniMath.Bicategories.Colimits.Products]
C₁:305 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
C₁:31 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₁:35 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₁:351 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₁:365 [binder, in UniMath.Bicategories.Colimits.Products]
C₁:367 [binder, in UniMath.Bicategories.Colimits.Products]
C₁:39 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₁:39 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₁:39 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₁:43 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
C₁:431 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C₁:451 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C₁:46 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:47 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
c₁:48 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
c₁:5 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₁:50 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
C₁:51 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:64 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:79 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₁:79 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₁:83 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₁:87 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₁:90 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₁:929 [binder, in UniMath.MoreFoundations.PartA]
C₁:95 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂':184 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c₂':193 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c₂':200 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C₂:104 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:105 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C₂:106 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
C₂:108 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:11 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₂:112 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:117 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:1265 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C₂:1283 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
c₂:130 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
c₂:139 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₂:14 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:14 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
C₂:141 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:147 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₂:149 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:155 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₂:157 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:158 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:161 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c₂:163 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₂:166 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:167 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c₂:169 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:174 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C₂:176 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:181 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:181 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c₂:183 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C₂:184 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:19 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₂:190 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C₂:192 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:192 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c₂:192 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c₂:199 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C₂:2 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₂:2 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
c₂:20 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
c₂:201 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:206 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:21 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
C₂:210 [binder, in UniMath.Bicategories.Colimits.Pullback]
c₂:211 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:213 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₂:214 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₂:215 [binder, in UniMath.Bicategories.Colimits.Pullback]
C₂:218 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:218 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
c₂:221 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:223 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₂:223 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₂:228 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₂:231 [binder, in UniMath.Bicategories.Core.FullyFaithful]
c₂:231 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:233 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
c₂:236 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:238 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₂:239 [binder, in UniMath.Bicategories.Core.FullyFaithful]
c₂:242 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:243 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₂:243 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₂:247 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₂:248 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
c₂:250 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c₂:258 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:29 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:298 [binder, in UniMath.Bicategories.Colimits.Products]
c₂:3 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
c₂:30 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
c₂:305 [binder, in UniMath.Bicategories.Colimits.Products]
C₂:306 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
C₂:32 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₂:352 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₂:36 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₂:366 [binder, in UniMath.Bicategories.Colimits.Products]
C₂:368 [binder, in UniMath.Bicategories.Colimits.Products]
c₂:4 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
C₂:40 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:40 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₂:40 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₂:432 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C₂:44 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
C₂:452 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C₂:47 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:48 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
c₂:49 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₂:51 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
C₂:52 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:6 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₂:65 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:80 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₂:80 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₂:84 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₂:88 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₂:91 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:96 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:118 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:1266 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C₃:1284 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
C₃:142 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:150 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:158 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:167 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:177 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:185 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:193 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:207 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₃:21 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₃:211 [binder, in UniMath.Bicategories.Colimits.Pullback]
C₃:214 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:215 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₃:216 [binder, in UniMath.Bicategories.Colimits.Pullback]
C₃:219 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:219 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:224 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₃:224 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:229 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:232 [binder, in UniMath.Bicategories.Core.FullyFaithful]
C₃:234 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:239 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:244 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:249 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:3 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
c₃:31 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₃:41 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₃:49 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]

D

d [lemma, in UniMath.Combinatorics.Tests]
DataEquiv [definition, in UniMath.MoreFoundations.StructureIdentity]
DatatypeOfBindingSig [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
DatatypeOfBindingSig [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
data_of_left_equivalence [definition, in UniMath.Bicategories.Core.Adjunctions]
data_of_left_adjoint [definition, in UniMath.Bicategories.Core.Adjunctions]
data_cat_eq_1_to_2 [definition, in UniMath.CategoryTheory.CategoryEquality]
data_cat_eq_2 [definition, in UniMath.CategoryTheory.CategoryEquality]
data_cat_eq_1 [definition, in UniMath.CategoryTheory.CategoryEquality]
data_of_right_adjoint_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
data_of_disp_adjunction [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
data_from_adjunction [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
data_of_right_adjoint_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
data_of_disp_adjunction_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
data_from_adjunction [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
data_from_skewmonoidal [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
Data1 [definition, in UniMath.CategoryTheory.Abelian]
Data2 [definition, in UniMath.CategoryTheory.Abelian]
Data:2 [binder, in UniMath.MoreFoundations.StructureIdentity]
data:23 [binder, in UniMath.CategoryTheory.Profunctors.Core]
data:35 [binder, in UniMath.CategoryTheory.Profunctors.Core]
dax:238 [binder, in UniMath.Algebra.RigsAndRings]
dax:319 [binder, in UniMath.Algebra.RigsAndRings]
dax:35 [binder, in UniMath.Algebra.RigsAndRings]
dax:735 [binder, in UniMath.Algebra.RigsAndRings]
DA:111 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DA:133 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
da:139 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DA:83 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DA:89 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
da₁:118 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
da₁:96 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
da₂:119 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
da₂:97 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DB:112 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DB:134 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db:141 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db:522 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
db:533 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DB:84 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DB:90 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db₁:104 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db₁:126 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db₁:145 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db₂:105 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db₂:127 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db₂:146 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DComm3 [definition, in UniMath.HomologicalAlgebra.Triangulated]
DCompletion [definition, in UniMath.HomologicalAlgebra.Triangulated]
dcpo [definition, in UniMath.Algebra.Dcpo]
dcpo [section, in UniMath.Algebra.Dcpo]
Dcpo [library]
dcpoisdirectedcomplete [definition, in UniMath.Algebra.Dcpo]
dcpomorphism [definition, in UniMath.Algebra.Dcpo]
dcpomorphism_preserveslub [lemma, in UniMath.Algebra.Dcpo]
dcpomorphism_preservesdirected [lemma, in UniMath.Algebra.Dcpo]
dcpomorphism_preservesorder [lemma, in UniMath.Algebra.Dcpo]
dcpomorphism_posetmorphism [definition, in UniMath.Algebra.Dcpo]
dcpoofdcpomorphisms [definition, in UniMath.Algebra.Dcpo]
dcpoposet [definition, in UniMath.Algebra.Dcpo]
dcpowithbottom [definition, in UniMath.Algebra.Dcpo]
dcpowithbottom [section, in UniMath.Algebra.Dcpo]
dcpowithbottom_ofdcpomorphisms [definition, in UniMath.Algebra.Dcpo]
dcpowithbottom_bottom [definition, in UniMath.Algebra.Dcpo]
dcpowithbottom_isMinimal [definition, in UniMath.Algebra.Dcpo]
dcpowithbottom_dcpo [definition, in UniMath.Algebra.Dcpo]
dcpo_mklub_islub [definition, in UniMath.Algebra.Dcpo]
dcpo_mklub [definition, in UniMath.Algebra.Dcpo]
Dcuts [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts_bij' [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts_bij [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts'_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts'_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts'_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts'_val [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts' [section, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts_val [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts [section, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_Cauchy_seq_impl_ex_lim_seq [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lim_cauchy_seq [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_Cauchy_seq [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lim_cauchy_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lim_cauchy_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lim_cauchy_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lim_cauchy_val [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lim [section, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_locatedness [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_correct [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_double [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_le [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_val [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half [section, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_two_ap_zero [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_gt [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_min [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_max [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_carac_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_carac_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_le_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_le_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_val [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min [section, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_plus [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_lt [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_le [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_plus_max [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_carac_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_carac_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_le_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_le_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_val [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max [section, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_le [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_plus_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_eq_zero [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_correct_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_correct_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_val [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus [section, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_ConstructiveCommutativeDivisionRig [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_commrig [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_setwith2binop [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_double [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_lecompat_r' [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_lecompat_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_ltcompat_r' [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_ltcompat_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_lecompat_l' [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_lecompat_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_ltcompat_l' [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_ltcompat_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_le_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_le_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_lecompat_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_ltcompat_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_lecompat_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_ltcompat_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_ap_one_zero [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_lt_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_lt_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult_mult [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv' [section, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_corr_aux [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_out [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_in [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_val [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv [section, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult' [section, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_corr_aux [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_finite [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_val [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult [section, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult_finite [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult_val [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult [section, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_val [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus [section, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_apzero_notempty [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_notlt_0 [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_ge_0 [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_notempty_notzero [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_zero_empty [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_two [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_one [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_zero [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lt_nge [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_nlt_ge [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_gt_nle [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_gt_ge [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_gt_lt [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_le_ge_eq [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_eq_ge [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_eq_le [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_le_ge [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_ge_le [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_ap_rel [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_eq_is_eq [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_eq [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_eq_rel [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_gt [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lt [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_ge [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_le [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_le_ngt_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lt_le_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lt_rel [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_le_rel [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_finite [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_set [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_hsubtype [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_def_corr_not_empty [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_def_corr_finite [lemma, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_def_corr [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_def_finite [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_def_open [definition, in UniMath.RealNumbers.NonnegativeReals]
Dcuts_def_bot [definition, in UniMath.RealNumbers.NonnegativeReals]
DC:113 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DC:135 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DC:45 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DC:85 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DC:91 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ddualand [definition, in UniMath.Foundations.PartA]
DD':239 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
dd:1137 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
dd:1151 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
dd:1169 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
dd:1193 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
dd:1218 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
dd:138 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
dd:153 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
dd:168 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
dd:179 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
dd:183 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DD:238 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
DD:339 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
DD:46 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
dd:516 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
DD:720 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
deceqtoneqapart [lemma, in UniMath.PAdics.lemmas]
deceq_to_decrel [definition, in UniMath.Foundations.Sets]
decfun1 [definition, in UniMath.Foundations.PartB]
decfun2 [definition, in UniMath.Foundations.PartB]
decfun3 [definition, in UniMath.Foundations.PartB]
decidabilityProperty [definition, in UniMath.MoreFoundations.DecidablePropositions]
decidable [definition, in UniMath.Foundations.PartB]
decidableAnd [definition, in UniMath.MoreFoundations.DecidablePropositions]
DecidableDedekindCuts [library]
decidableNot [definition, in UniMath.MoreFoundations.DecidablePropositions]
decidableOr [definition, in UniMath.MoreFoundations.DecidablePropositions]
DecidableProposition [definition, in UniMath.MoreFoundations.DecidablePropositions]
DecidablePropositions [library]
DecidableProposition_to_hProp [definition, in UniMath.MoreFoundations.DecidablePropositions]
DecidableProposition_to_isdecprop [definition, in UniMath.MoreFoundations.DecidablePropositions]
DecidableRelation [definition, in UniMath.MoreFoundations.DecidablePropositions]
DecidableRelation_to_hrel [definition, in UniMath.MoreFoundations.DecidablePropositions]
DecidableSubtype [definition, in UniMath.MoreFoundations.DecidablePropositions]
decidableSubtypeCarrier [definition, in UniMath.MoreFoundations.DecidablePropositions]
decidableSubtypeCarrier_weq [definition, in UniMath.MoreFoundations.DecidablePropositions]
decidableSubtypeCarrier' [definition, in UniMath.MoreFoundations.DecidablePropositions]
DecidableSubtype_to_hsubtype [definition, in UniMath.MoreFoundations.DecidablePropositions]
decidable_to_DecidableProposition [definition, in UniMath.MoreFoundations.DecidablePropositions]
decidable_to_isdecprop_2 [definition, in UniMath.MoreFoundations.DecidablePropositions]
decidable_to_isdecprop [definition, in UniMath.MoreFoundations.DecidablePropositions]
decidable_prop [definition, in UniMath.MoreFoundations.DecidablePropositions]
decidable_dirprod [definition, in UniMath.Foundations.PartB]
decidable_to_complementary [definition, in UniMath.Foundations.PartB]
decidable_ishinh [lemma, in UniMath.Foundations.Propositions]
decidable_proof_by_contradiction [lemma, in UniMath.MoreFoundations.Propositions]
decproperty [definition, in UniMath.Combinatorics.DecSet]
decquotrel [definition, in UniMath.Foundations.Sets]
decrel [definition, in UniMath.Foundations.Sets]
decreltobrel [definition, in UniMath.Foundations.Sets]
decrel_to_DecidableRelation [definition, in UniMath.MoreFoundations.DecidablePropositions]
decSet [definition, in UniMath.Combinatorics.DecSet]
DecSet [library]
dec:12 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
dec:18 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
dec:5 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
dec:50 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
DedekindCuts [library]
Def [section, in UniMath.CategoryTheory.Subcategory.Reflective]
DefDistrLaw [section, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Definitions [section, in UniMath.Algebra.RigsAndRings.Ideals]
Defn [section, in UniMath.CategoryTheory.ArrowCategory]
def_ring_category [section, in UniMath.CategoryTheory.categories.rings]
def_ring_precategory [section, in UniMath.CategoryTheory.categories.rings]
def_grothendiecktopos.C [variable, in UniMath.CategoryTheory.GrothendieckTopos]
def_grothendiecktopos [section, in UniMath.CategoryTheory.GrothendieckTopos]
def_grothendiecktopology.C [variable, in UniMath.CategoryTheory.GrothendieckTopos]
def_grothendiecktopology [section, in UniMath.CategoryTheory.GrothendieckTopos]
def_additive_equivalence [section, in UniMath.CategoryTheory.AdditiveFunctors]
def_additive_quot_functor.PAC [variable, in UniMath.CategoryTheory.AdditiveFunctors]
def_additive_quot_functor.PAS [variable, in UniMath.CategoryTheory.AdditiveFunctors]
def_additive_quot_functor.A [variable, in UniMath.CategoryTheory.AdditiveFunctors]
def_additive_quot_functor [section, in UniMath.CategoryTheory.AdditiveFunctors]
def_additivefunctor [section, in UniMath.CategoryTheory.AdditiveFunctors]
def_abelian [section, in UniMath.CategoryTheory.Abelian]
def_setwith2binop_category [section, in UniMath.CategoryTheory.categories.setwith2binops]
def_setwith2binop_precategory [section, in UniMath.CategoryTheory.categories.setwith2binops]
def_gr_category [section, in UniMath.CategoryTheory.categories.grs]
def_gr_precategory [section, in UniMath.CategoryTheory.categories.grs]
def_fld_category [section, in UniMath.CategoryTheory.categories.flds]
def_fld_precategory [section, in UniMath.CategoryTheory.categories.flds]
def_roofs.iLC [variable, in UniMath.CategoryTheory.LocalizingClass]
def_roofs.SOM [variable, in UniMath.CategoryTheory.LocalizingClass]
def_roofs.hs [variable, in UniMath.CategoryTheory.LocalizingClass]
def_roofs.C [variable, in UniMath.CategoryTheory.LocalizingClass]
def_roofs [section, in UniMath.CategoryTheory.LocalizingClass]
def_kernels.Z [variable, in UniMath.CategoryTheory.limits.graphs.kernels]
def_kernels.hs [variable, in UniMath.CategoryTheory.limits.graphs.kernels]
def_kernels.C [variable, in UniMath.CategoryTheory.limits.graphs.kernels]
def_kernels [section, in UniMath.CategoryTheory.limits.graphs.kernels]
def_terminal [section, in UniMath.CategoryTheory.limits.graphs.terminal]
def_abgr_zero [section, in UniMath.CategoryTheory.categories.abgrs]
def_abgr_category [section, in UniMath.CategoryTheory.categories.abgrs]
def_abgr_precategory [section, in UniMath.CategoryTheory.categories.abgrs]
def_cokernels.Z [variable, in UniMath.CategoryTheory.limits.graphs.cokernels]
def_cokernels.hs [variable, in UniMath.CategoryTheory.limits.graphs.cokernels]
def_cokernels.C [variable, in UniMath.CategoryTheory.limits.graphs.cokernels]
def_cokernels [section, in UniMath.CategoryTheory.limits.graphs.cokernels]
def_coequalizers.C [variable, in UniMath.CategoryTheory.limits.graphs.coequalizers]
def_coequalizers [section, in UniMath.CategoryTheory.limits.graphs.coequalizers]
def_functor_pointwise_coprod.coproduct_of_functors.vertex.f [variable, in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.coproduct_of_functors.vertex.A [variable, in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.coproduct_of_functors.vertex [section, in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.coproduct_of_functors.F [variable, in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.coproduct_of_functors [section, in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.HD [variable, in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.D [variable, in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.C [variable, in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.I [variable, in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod [section, in UniMath.CategoryTheory.limits.coproducts]
def_initial [section, in UniMath.CategoryTheory.limits.initial]
def_ptd.C [variable, in UniMath.CategoryTheory.PointedFunctorsComposition]
def_ptd [section, in UniMath.CategoryTheory.PointedFunctorsComposition]
def_po.pushout_lemma.P2 [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.P1 [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.H2 [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.H1 [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.m [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.j [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.i [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.k [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.h [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.g [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.f [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.x [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.e [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.d [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.c [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.b [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.a [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma [section, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.C [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po [section, in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po [section, in UniMath.CategoryTheory.limits.pushouts]
def_functor_pointwise_coprod.BinCoproduct_of_functors.vertex.g [variable, in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.BinCoproduct_of_functors.vertex.f [variable, in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.BinCoproduct_of_functors.vertex.A [variable, in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.BinCoproduct_of_functors.vertex [section, in UniMath.CategoryTheory.limits.bincoproducts]
_ ⊗ _ [notation, in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.BinCoproduct_of_functors.G [variable, in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.BinCoproduct_of_functors.F [variable, in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.BinCoproduct_of_functors [section, in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.HD [variable, in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.D [variable, in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.C [variable, in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod [section, in UniMath.CategoryTheory.limits.bincoproducts]
def_quotobjects.hpo [variable, in UniMath.CategoryTheory.Quotobjects]
def_quotobjects.C [variable, in UniMath.CategoryTheory.Quotobjects]
def_quotobjects [section, in UniMath.CategoryTheory.Quotobjects]
def_equalizers.hs [variable, in UniMath.CategoryTheory.limits.graphs.equalizers]
def_equalizers.C [variable, in UniMath.CategoryTheory.limits.graphs.equalizers]
def_equalizers [section, in UniMath.CategoryTheory.limits.graphs.equalizers]
def_pseudo_element [section, in UniMath.CategoryTheory.PseudoElements]
def_precategory_with_binops [section, in UniMath.CategoryTheory.CategoriesWithBinOps]
def_kernels.Z [variable, in UniMath.CategoryTheory.limits.kernels]
def_kernels.hs [variable, in UniMath.CategoryTheory.limits.kernels]
def_kernels [section, in UniMath.CategoryTheory.limits.kernels]
def_functor_pointwise_coprod.coproduct_functor.G [variable, in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_functor_pointwise_coprod.coproduct_functor.F [variable, in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_functor_pointwise_coprod.coproduct_functor [section, in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_functor_pointwise_coprod.HD [variable, in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_functor_pointwise_coprod.D [variable, in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_functor_pointwise_coprod.C [variable, in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_functor_pointwise_coprod [section, in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_zero.C [variable, in UniMath.CategoryTheory.limits.zero]
def_zero [section, in UniMath.CategoryTheory.limits.zero]
def_cokernels.Z [variable, in UniMath.CategoryTheory.limits.cokernels]
def_cokernels.hs [variable, in UniMath.CategoryTheory.limits.cokernels]
def_cokernels [section, in UniMath.CategoryTheory.limits.cokernels]
def_equalizers [section, in UniMath.CategoryTheory.limits.equalizers]
def_FinOrdCoproducts.C [variable, in UniMath.CategoryTheory.limits.FinOrdCoproducts]
def_FinOrdCoproducts [section, in UniMath.CategoryTheory.limits.FinOrdCoproducts]
def_bindirectsums.A [variable, in UniMath.CategoryTheory.limits.BinDirectSums]
def_bindirectsums [section, in UniMath.CategoryTheory.limits.BinDirectSums]
def_additive_kernel_cokernel.Z [variable, in UniMath.CategoryTheory.PreAdditive]
def_additive_kernel_cokernel.A [variable, in UniMath.CategoryTheory.PreAdditive]
def_additive_kernel_cokernel [section, in UniMath.CategoryTheory.PreAdditive]
def_preadditive.A [variable, in UniMath.CategoryTheory.PreAdditive]
def_preadditive [section, in UniMath.CategoryTheory.PreAdditive]
def_subobjects.hsC [variable, in UniMath.CategoryTheory.Subobjects]
def_subobjects [section, in UniMath.CategoryTheory.Subobjects]
def_kernel_cokernel_complex.A [variable, in UniMath.HomologicalAlgebra.CohomologyComplex]
def_kernel_cokernel_complex [section, in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_homotopy.A [variable, in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_homotopy [section, in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_functor_additive.A [variable, in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_functor_additive [section, in UniMath.HomologicalAlgebra.CohomologyComplex]
def_quasi_isomorphisms.A [variable, in UniMath.HomologicalAlgebra.CohomologyComplex]
def_quasi_isomorphisms [section, in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology'_complex.A [variable, in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology'_complex [section, in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_complex.hs [variable, in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_complex.A [variable, in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_complex [section, in UniMath.HomologicalAlgebra.CohomologyComplex]
def_commrig_category [section, in UniMath.CategoryTheory.categories.commrigs]
def_commrig_precategory [section, in UniMath.CategoryTheory.categories.commrigs]
def_triangulated [section, in UniMath.HomologicalAlgebra.Triangulated]
def_pretrangulated [section, in UniMath.HomologicalAlgebra.Triangulated]
def_pretriangulated_data [section, in UniMath.HomologicalAlgebra.Triangulated]
def_pretriang_data [section, in UniMath.HomologicalAlgebra.Triangulated]
def_triangles [section, in UniMath.HomologicalAlgebra.Triangulated]
def_shortexactseqs.hs [variable, in UniMath.CategoryTheory.ShortExactSequences]
def_shortexactseqs.A [variable, in UniMath.CategoryTheory.ShortExactSequences]
def_shortexactseqs [section, in UniMath.CategoryTheory.ShortExactSequences]
def_monic.hs [variable, in UniMath.CategoryTheory.Monics]
def_monic.C [variable, in UniMath.CategoryTheory.Monics]
def_monic [section, in UniMath.CategoryTheory.Monics]
def_functor_pointwise_prod.product_of_functors.vertex.f [variable, in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.product_of_functors.vertex.A [variable, in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.product_of_functors.vertex [section, in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.product_of_functors.F [variable, in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.product_of_functors [section, in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.HD [variable, in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.D [variable, in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.C [variable, in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.I [variable, in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod [section, in UniMath.CategoryTheory.limits.products]
def_initial [section, in UniMath.CategoryTheory.limits.graphs.initial]
def_opposites'.hs [variable, in UniMath.CategoryTheory.limits.Opp]
def_opposites'.C [variable, in UniMath.CategoryTheory.limits.Opp]
def_opposites' [section, in UniMath.CategoryTheory.limits.Opp]
def_opposites.hs [variable, in UniMath.CategoryTheory.limits.Opp]
def_opposites.C [variable, in UniMath.CategoryTheory.limits.Opp]
def_opposites [section, in UniMath.CategoryTheory.limits.Opp]
def_FinOrdProducts.C [variable, in UniMath.CategoryTheory.limits.FinOrdProducts]
def_FinOrdProducts [section, in UniMath.CategoryTheory.limits.FinOrdProducts]
def_rig_category [section, in UniMath.CategoryTheory.categories.rigs]
def_rig_precategory [section, in UniMath.CategoryTheory.categories.rigs]
def_complexes.A [variable, in UniMath.HomologicalAlgebra.Complexes]
def_complexes [section, in UniMath.HomologicalAlgebra.Complexes]
def_pb.pullback_lemma.P2 [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.P1 [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.H2 [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.H1 [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.m [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.j [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.i [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.k [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.h [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.g [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.f [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.x [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.e [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.d [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.c [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.b [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.a [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma [section, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.C [variable, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb [section, in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.P2 [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.P1 [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.H2 [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.H1 [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.m [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.j [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.i [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.k [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.h [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.g [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.f [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.x [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.e [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.d [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.c [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.b [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.a [variable, in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma [section, in UniMath.CategoryTheory.limits.pullbacks]
def_pb [section, in UniMath.CategoryTheory.limits.pullbacks]
def_zero [section, in UniMath.CategoryTheory.limits.graphs.zero]
def_precategory_with_abgrops.PA [variable, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
def_precategory_with_abgrops [section, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
def_additive [section, in UniMath.CategoryTheory.Additive]
def_monoid_category [section, in UniMath.CategoryTheory.categories.monoids]
def_monoid_precategory [section, in UniMath.CategoryTheory.categories.monoids]
def_coequalizers [section, in UniMath.CategoryTheory.limits.coequalizers]
def_intdom_category [section, in UniMath.CategoryTheory.categories.intdoms]
def_intdom_precategory [section, in UniMath.CategoryTheory.categories.intdoms]
def_ptd [section, in UniMath.CategoryTheory.PointedFunctors]
def_underprecategories.c [variable, in UniMath.CategoryTheory.UnderCategories]
def_underprecategories.hs [variable, in UniMath.CategoryTheory.UnderCategories]
def_underprecategories.C [variable, in UniMath.CategoryTheory.UnderCategories]
def_underprecategories [section, in UniMath.CategoryTheory.UnderCategories]
def_epi.hs [variable, in UniMath.CategoryTheory.Epis]
def_epi.C [variable, in UniMath.CategoryTheory.Epis]
def_epi [section, in UniMath.CategoryTheory.Epis]
def_commring_category [section, in UniMath.CategoryTheory.categories.commrings]
def_commring_precategory [section, in UniMath.CategoryTheory.categories.commrings]
def_abmonoid_category [section, in UniMath.CategoryTheory.categories.abmonoids]
def_abmonoid_precategory [section, in UniMath.CategoryTheory.categories.abmonoids]
def_terminal [section, in UniMath.CategoryTheory.limits.terminal]
def_shortshortexactdata.Z [variable, in UniMath.CategoryTheory.Morphisms]
def_shortshortexactdata.hs [variable, in UniMath.CategoryTheory.Morphisms]
def_shortshortexactdata.C [variable, in UniMath.CategoryTheory.Morphisms]
def_shortshortexactdata [section, in UniMath.CategoryTheory.Morphisms]
def_morphismpair [section, in UniMath.CategoryTheory.Morphisms]
def_functor_pointwise_binprod.BinProduct_of_functors.vertex.g [variable, in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.BinProduct_of_functors.vertex.f [variable, in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.BinProduct_of_functors.vertex.A [variable, in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.BinProduct_of_functors.vertex [section, in UniMath.CategoryTheory.limits.binproducts]
_ ⊗ _ [notation, in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.BinProduct_of_functors.G [variable, in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.BinProduct_of_functors.F [variable, in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.BinProduct_of_functors [section, in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.HD [variable, in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.D [variable, in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.C [variable, in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod [section, in UniMath.CategoryTheory.limits.binproducts]
delta [definition, in UniMath.CategoryTheory.precomp_fully_faithful]
deltap [definition, in UniMath.Foundations.PartA]
delta_functor [definition, in UniMath.CategoryTheory.ProductCategory]
delta_functor_data [definition, in UniMath.CategoryTheory.ProductCategory]
delta_functor_adjunction [section, in UniMath.CategoryTheory.Adjunctions.Examples]
delta:162 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
dependent_choice [definition, in UniMath.MoreFoundations.DecidablePropositions]
dependent_product_to_exponentials [lemma, in UniMath.CategoryTheory.slicecat]
depth [definition, in UniMath.Algebra.Universal.Terms]
depths:208 [binder, in UniMath.Algebra.Universal.Terms]
dep_product_precategory [section, in UniMath.CategoryTheory.ProductCategory]
deref:189 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
deref:195 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
Derivative [library]
Derived_laws [section, in UniMath.Bicategories.Core.Bicat]
deriv_dist_is_monad_dist [definition, in UniMath.CategoryTheory.Monads.Derivative]
deriv_dist_law4 [lemma, in UniMath.CategoryTheory.Monads.Derivative]
deriv_dist_law3 [lemma, in UniMath.CategoryTheory.Monads.Derivative]
deriv_dist_law2 [lemma, in UniMath.CategoryTheory.Monads.Derivative]
deriv_dist_law1 [lemma, in UniMath.CategoryTheory.Monads.Derivative]
deriv_dist [definition, in UniMath.CategoryTheory.Monads.Derivative]
destrM [definition, in UniMath.Induction.M.ComputationalM]
destrM' [definition, in UniMath.Induction.M.ComputationalM]
destrM0 [abbreviation, in UniMath.Induction.M.ComputationalM]
DExt [definition, in UniMath.HomologicalAlgebra.Triangulated]
DExtIso [definition, in UniMath.HomologicalAlgebra.Triangulated]
DExtIso_Comm2 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
DExtIso_Comm1 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
DExts [definition, in UniMath.HomologicalAlgebra.Triangulated]
DE:47 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
df:82 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
df:93 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
dg:83 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
dg:94 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
DH:16 [binder, in UniMath.CategoryTheory.rezk_completion]
di [definition, in UniMath.Foundations.NaturalNumbers]
diag [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
diaglemma2 [lemma, in UniMath.Foundations.PartA]
DiagonalMap [definition, in UniMath.CategoryTheory.AbelianToAdditive]
DiagonalMap_isMonic [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
diagonal_from_section [definition, in UniMath.CategoryTheory.limits.pullbacks]
diagram [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
diagram [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
diagram_pointwise [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
diagram_from_functor [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
diagram_def.diagram_from_functor.F [variable, in UniMath.CategoryTheory.limits.graphs.colimits]
diagram_def.diagram_from_functor.C [variable, in UniMath.CategoryTheory.limits.graphs.colimits]
diagram_def.diagram_from_functor.J [variable, in UniMath.CategoryTheory.limits.graphs.colimits]
diagram_def.diagram_from_functor [section, in UniMath.CategoryTheory.limits.graphs.colimits]
diagram_def [section, in UniMath.CategoryTheory.limits.graphs.colimits]
diagRecursion [lemma, in UniMath.Combinatorics.WellFoundedRelations]
diag_set [definition, in UniMath.Bicategories.Core.Strictness]
Diff [definition, in UniMath.HomologicalAlgebra.Complexes]
DiffInvTranslationComplex [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
DiffInvTranslationComplex_comp [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
DiffTranslationComplex [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
DiffTranslationComplex_comp [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
Dinatural [section, in UniMath.CategoryTheory.Profunctors.Core]
dinatural_transformation_is_dinatural [definition, in UniMath.CategoryTheory.Profunctors.Core]
dinatural_transformation_get_data [definition, in UniMath.CategoryTheory.Profunctors.Core]
dinatural_transformation [definition, in UniMath.CategoryTheory.Profunctors.Core]
dinatural_transformation_data [definition, in UniMath.CategoryTheory.Profunctors.Core]
Dinatural.Accessors [section, in UniMath.CategoryTheory.Profunctors.Core]
_ ⇏ _ (cat) [notation, in UniMath.CategoryTheory.Profunctors.Core]
Directed [section, in UniMath.Algebra.FixedPointTheorems]
directedfamily [section, in UniMath.Algebra.Dcpo]
directeduntruncated [definition, in UniMath.Algebra.Dcpo]
directed_lub [definition, in UniMath.Algebra.FixedPointTheorems]
Directed_of_Directed_hsubtype [definition, in UniMath.Algebra.FixedPointTheorems]
Directed_hsubtype [definition, in UniMath.Algebra.FixedPointTheorems]
directed_property [definition, in UniMath.Algebra.FixedPointTheorems]
directed_family [definition, in UniMath.Algebra.FixedPointTheorems]
directed_index [definition, in UniMath.Algebra.FixedPointTheorems]
Directed_family [definition, in UniMath.Algebra.FixedPointTheorems]
DirectSum [definition, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
DirectSum [library]
DirectSumComplex [definition, in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexIn1 [definition, in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexIn1_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexIn2 [definition, in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexIn2_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexPr1 [definition, in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexPr1_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexPr2 [definition, in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexPr2_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplex_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
DirectSumId [lemma, in UniMath.HomologicalAlgebra.Complexes]
DirectSumIdIn1 [lemma, in UniMath.HomologicalAlgebra.Complexes]
DirectSumIdIn2 [lemma, in UniMath.HomologicalAlgebra.Complexes]
DirectSumIn1Pr2 [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
DirectSumIn2Pr1 [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
directSumMap [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
directSumMapEqIn1 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
directSumMapEqIn2 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
directSumMapEqPr1 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
directSumMapEqPr2 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
directSumMapSwitch [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToCokernel [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToExact [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToExact' [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToKernel [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToPullback [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToPushout [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToSplit [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToSplit' [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumUnit1 [lemma, in UniMath.HomologicalAlgebra.Complexes]
DirectSumUnit2 [lemma, in UniMath.HomologicalAlgebra.Complexes]
Dirprod [section, in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprod [definition, in UniMath.Foundations.PartA]
dirprodadj [definition, in UniMath.Foundations.PartA]
dirprodeq [lemma, in UniMath.Foundations.PartA]
dirprodf [definition, in UniMath.Foundations.PartA]
dirprodpr1_disp_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprodpr1_disp_functor_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprodpr1_disp_functor_data [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprodpr2_disp_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprodpr2_disp_functor_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprodpr2_disp_functor_data [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprodtosetquot [definition, in UniMath.Foundations.Sets]
dirprod_with_contr_l [lemma, in UniMath.MoreFoundations.WeakEquivalences]
dirprod_with_contr_r [lemma, in UniMath.MoreFoundations.WeakEquivalences]
dirprod_pair_maps [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
dirprod_maps [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
dirprod_assoc [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
dirprod_paths [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
Dirprod_utils [section, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
dirprod_with_prop' [lemma, in UniMath.CategoryTheory.categories.Cats]
dirprod_with_prop [lemma, in UniMath.CategoryTheory.categories.Cats]
dirprod_disp_cat_is_univalent [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprod_disp_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprod_disp_cat_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprod_disp_cat_data [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprod_disp_cat_id_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprod_disp_cat_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprod_hSet [definition, in UniMath.Foundations.Sets]
dirprod_paths [lemma, in UniMath.Foundations.PartA]
dirprod_pr2 [definition, in UniMath.Foundations.PartA]
dirprod_pr1 [definition, in UniMath.Foundations.PartA]
disassembleSequence [definition, in UniMath.Combinatorics.FiniteSequences]
disassemble_attempt [definition, in UniMath.Combinatorics.WellFoundedRelations]
Discern [module, in UniMath.MoreFoundations.Nat]
Discern.apSC [lemma, in UniMath.MoreFoundations.Nat]
Discern.E [definition, in UniMath.MoreFoundations.Nat]
Discern.helper_D [definition, in UniMath.MoreFoundations.Nat]
Discern.helper_C [definition, in UniMath.MoreFoundations.Nat]
Discern.helper_B [definition, in UniMath.MoreFoundations.Nat]
Discern.helper_A [definition, in UniMath.MoreFoundations.Nat]
Discern.nat_dist_anti [definition, in UniMath.MoreFoundations.Nat]
Discern.nat_discern_iscontr [lemma, in UniMath.MoreFoundations.Nat]
Discern.nat_discern_unit [lemma, in UniMath.MoreFoundations.Nat]
Discern.nat_discern_isaprop [lemma, in UniMath.MoreFoundations.Nat]
Discern.nat_discern_inj [lemma, in UniMath.MoreFoundations.Nat]
Discern.nat_discern [definition, in UniMath.MoreFoundations.Nat]
Discern.Unnamed_thm0 [definition, in UniMath.MoreFoundations.Nat]
Discern.Unnamed_thm [definition, in UniMath.MoreFoundations.Nat]
discrete [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
Discreteness [library]
discrete_prebicat [definition, in UniMath.Bicategories.Core.Bicat]
discrete_prebicat_laws [lemma, in UniMath.Bicategories.Core.Bicat]
discrete_prebicat_data [definition, in UniMath.Bicategories.Core.Bicat]
discrete_bicat.C [variable, in UniMath.Bicategories.Core.Bicat]
discrete_bicat [section, in UniMath.Bicategories.Core.Bicat]
discrete_category_iso_path_groupoid [lemma, in UniMath.CategoryTheory.categories.StandardCategories]
discrete_category_hset [definition, in UniMath.CategoryTheory.categories.StandardCategories]
discrete_fiber_category [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_precategory [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_is_precategory [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_lassociator_disp_invertible [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_rassociator [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_lassociator [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_runitor_disp_invertible [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_rinvunitor [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_runitor [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_lunitor_disp_invertible [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_linvunitor [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_lunitor [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber.c [variable, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber.h [variable, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber.HD_2_1 [variable, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber.HD [variable, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber.D [variable, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber [section, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_precategory_data [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_ob_mor [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber_Precategory.c [variable, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber_Precategory.h [variable, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber_Precategory.D [variable, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber_Precategory [section, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fibrations.Equivalence_disc_fibs_presheaves.C [variable, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Discrete_Fibrations.Equivalence_disc_fibs_presheaves [section, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
discrete_fibration [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Discrete_Fibrations [section, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
discrete_cat_nat_trans [definition, in UniMath.CategoryTheory.Groupoids]
discrete_functor [lemma, in UniMath.CategoryTheory.Groupoids]
discrete_category_hom_prop [lemma, in UniMath.CategoryTheory.Groupoids]
discrete_category_is_setcategory [definition, in UniMath.CategoryTheory.Groupoids]
discrete_category_is_discrete [definition, in UniMath.CategoryTheory.Groupoids]
discrete_category_to_univalent_groupoid [definition, in UniMath.CategoryTheory.Groupoids]
discrete_category [definition, in UniMath.CategoryTheory.Groupoids]
discrete_has_homsets [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
disc_fib_from_preshv [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
disc:18 [binder, in UniMath.Bicategories.Discreteness]
disc:30 [binder, in UniMath.Bicategories.Discreteness]
disc:36 [binder, in UniMath.Bicategories.Discreteness]
disc:40 [binder, in UniMath.Bicategories.Discreteness]
disc:42 [binder, in UniMath.Bicategories.Discreteness]
disc:44 [binder, in UniMath.Bicategories.Discreteness]
disc:46 [binder, in UniMath.Bicategories.Discreteness]
disc:53 [binder, in UniMath.Bicategories.Discreteness]
disc:66 [binder, in UniMath.CategoryTheory.Groupoids]
disc:71 [binder, in UniMath.CategoryTheory.Groupoids]
disjointl1 [lemma, in UniMath.Foundations.PartB]
disjoint_disjunction [lemma, in UniMath.Foundations.Propositions]
disj_op [definition, in UniMath.Algebra.Universal.Examples.Tests]
DispAdjunctions [library]
dispadjunction_hom_weq' [lemma, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
dispadjunction_hom_weq [lemma, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
DispAssocFunctors [section, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DispBiadjunction [library]
DispBicat [library]
DispBicatOfDispCats [library]
DispBiequivalence [library]
DispBuilders [library]
DispCartProdOfCats [section, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DispCartProdOfFunctors [section, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DispDepprod [section, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DispDepProd [library]
DispDepprod.DepProdBicatDispGloballyUnivalent [section, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DispDepprod.DepProdBicatDispGloballyUnivalent.HD_2_0 [variable, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DispDepprod.DepProdBicatDispLocallyUnivalent [section, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DispDepprod.DepProdBicatDispLocallyUnivalent.HD_2_1 [variable, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DispDepprod.HB [variable, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DispDepprod.HD_2_1 [variable, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DispInvertibles [library]
DispInvModification [section, in UniMath.Bicategories.DisplayedBicats.DispModification]
display [definition, in UniMath.MoreFoundations.PartD]
DisplayedBiadjunction [section, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
DisplayedBiequivalence [section, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
DisplayedBiequivalence.total_biequivalence [section, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
DisplayedCatToBicat [library]
DisplayedInserter [section, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
DisplayedInserter [library]
DisplayedInserter.DispAdjEquivToInv2Cell [section, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
DisplayedInserter.Inv2CellToDispAdjEquiv [section, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
DisplayedMonoidal [library]
Displayed_Internal_Adjunction [section, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
Displayed_Global_Univalence.D [variable, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Displayed_Global_Univalence [section, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Displayed_Local_Univalence.D [variable, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Displayed_Local_Univalence [section, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
displayed_tensor [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
Displayed_Equiv_Compose [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Displayed_Equiv_Inv.ε [variable, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Displayed_Equiv_Inv.η [variable, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Displayed_Equiv_Inv.GG [variable, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Displayed_Equiv_Inv [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Displayed2Inserter [library]
display_weq [lemma, in UniMath.MoreFoundations.PartD]
display_totalfst [lemma, in UniMath.MoreFoundations.PartD]
DispModification [section, in UniMath.Bicategories.DisplayedBicats.DispModification]
DispModification [library]
DispProjectionIsContractible [section, in UniMath.CategoryTheory.DisplayedCats.Projection]
DispProjectionIsFaithful [section, in UniMath.CategoryTheory.DisplayedCats.Projection]
DispProjectionIsFull [section, in UniMath.CategoryTheory.DisplayedCats.Projection]
DispProjectionIsFullAndFaithful [section, in UniMath.CategoryTheory.DisplayedCats.Projection]
DispProjectionIsPropositional [section, in UniMath.CategoryTheory.DisplayedCats.Projection]
DispPseudofunctor [section, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispPseudofunctor [library]
DispPseudofunctorInvertible_2cell [section, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispPseudofunctor_comp [section, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispPseudofunctor_identity [section, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispPseudofunctor.DispPseudofunctorLaws [section, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispPseudofunctor.DispPseudofunctorLaws.FFdata [variable, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispPseudofunctor.Projections [section, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispPseudofunctor.Projections.FFdata [variable, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispToFiberEquivalence [library]
DispTransAssociativiy [section, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTransformation [section, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTransformation [library]
DispTransformation.DispPstransLaws [section, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTransformation.DispPstransLaws.ααdata [variable, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTransUnitality [section, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTrans_rwhisker [section, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
_ •• _ [notation, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTrans_lwhisker [section, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
_ ▹▹ _ [notation, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
_ ◃◃ _ [notation, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
_ •• _ [notation, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTrans_comp [section, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTrans_identity [section, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTwoInserter [section, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
DispUnivalence [library]
disp_locally_groupoid_presheaf [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_2cells_isaprop_presheaf [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_is_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_is_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_idtoiso_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_adjequiv_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_adjequiv_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_adjequiv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_is_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_all_invertible [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_prebicat_laws [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_prebicat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_prebicat_ops [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_cat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_cat_ob_mor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_bicat_of_fibs_disp_invertible_2cell_pointwise_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_fibs_is_disp_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_fibs [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_fibs_help [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_fibs_cat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_fibs_id_comp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_fibs_ob_mor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_univ_disp_cats_is_disp_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_univ_disp_cats_is_disp_invertible_2cell_natural [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_univ_disp_cats [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_prebicat_of_univ_disp_cats [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_prebicat_of_univ_disp_cats_laws [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_prebicat_of_univ_disp_cats_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_univ_disp_cats_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_univ_disp_cats_disp_cat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_inserter_bicat_pseudo_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_bicat_pseudo_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_bicat_pseudo [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_bicat_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_adjequiv_to_inv2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_adjequiv_to_inv2cell_inv_cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_adjequiv_to_inv2cell_cell_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_adjequiv_to_inv2cell_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_adjequiv_to_inv2cell_cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_bicat_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_locally_groupoidal [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_locally_sym [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_locally_propositional [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_ops_laws [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_ops [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_prebicat_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_disp_cat_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_disp_cat_id_comp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_disp_cat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_hom_disp_iso_weq_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_hom_disp_invertible_2cell_to_iso [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_hom_disp_iso_to_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_rwhisker [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_lwhisker [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_rassociator [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_lassociator [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_rinvunitor [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_runitor [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_lunitor [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_iso_to_invetible_2cell_weq [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_iso_to_invetible_2cell_inv [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_iso_to_invetible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_to_disp_iso_weq [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_to_disp_iso_inv [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_to_disp_iso [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_iso_total [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_id2_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_univalent_2_0_morphisms_of_presheaf_display [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
disp_univalent_2_1_morphisms_of_presheaf_display [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
disp_locally_groupoid_disp_cwf [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
disp_2cells_isaprop_disp_cwf [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
disp_cwf [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
disp_cwf' [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
disp_cat_is_locally_propositional [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
disp_hcomp_is_cartesian_2cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
disp_cell_lift_2cell_factor [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
disp_cell_lift_1cell_factor [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
disp_mor_lift_1cell_factor [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
disp_pseudo_comp [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_pseudo_comp_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_pseudo_comp_data [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_cell_transportb [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_pseudo_id [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_pseudo_id_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_pseudo_id_data [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_to_disp_psfunctor_data [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_vcomp2_alt [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_vcomp2 [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_id2 [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_rwhisker_law [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_lwhisker_law [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_lassociator_law [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_runitor_law [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_lunitor_law [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_vcomp2_law [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_id2_law [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_comp [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_id [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_cell [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_mor [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_ob [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_comp:68 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_id:57 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_id:26 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_data [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_sub1cell_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_sub1cell_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_sub1cell_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_sub1cell_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_sub1cell_disp_cat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_sub1cell_disp_cat_id_comp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_sub1cell_disp_cat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_identity_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_internal_adjunction_data_identity [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_equivalence_of_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_adjunction_of_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_of_adjunction [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_arrow_of_adjunction [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_adjunction [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_of_left_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_equivalence_axioms [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_axioms_of_left_adjoint [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_data_of_left_adjoint [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_internal_triangle2 [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_internal_triangle1 [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_axioms [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_counit [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_unit [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_right_adjoint [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_data [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_biequiv_data_unit_counit_path_pgroupoid [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_counit_counit_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_counit_inv_counit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_unit_inv_unit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_unit_unit_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_unit_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_counit_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_unit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_counit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_objects_of_pgrpd [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_locally_groupoid_morphisms_of_presheaves_display [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_2cells_isaprop_morphisms_of_presheaves_display [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_locally_groupoid_cofunctormaps [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_2cells_isaprop_cofunctormaps [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_bicat_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_bicat_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_bicat_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_cat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_cat_id_comp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_cat_ob_mor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_two_presheaves_is_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_two_presheaves_is_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_two_presheaves_is_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_two_presheaves [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_presheaf [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_locally_groupoid_cell_unit_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_2cells_isaprop_cell_unit_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_idtoiso [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_adjoint_equivalent [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_left_adjoint_equivalence_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_disp_cellset [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_left_adjoint_equivalence_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_left_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_is_disp_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_prebicat_cells_unit_laws [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_prebicat_cells_unit_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_prebicat_cells_unit_ops [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_prebicat_cells_unit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
Disp_Prebicat_Cells_Unit [section, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_psfunctor_comp:39 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
disp_psfunctor_id:28 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
disp_locally_groupoid_kleisli [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
disp_locally_groupoid_kleisli_help [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
disp_2cells_isaprop_kleisli [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
disp_2cellsisaprop [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
disp_adjequiv_sigma_help_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
disp_adjequiv_sigma_help_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
disp_adjequiv_sigma_help [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
disp_locally_groupoid_sigma [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
disp_2cells_isaprop_sigma [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
disp_locally_groupoid_alg [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_2cells_isaprop_alg [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_adjoint_equivalence_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_adjoint_equivalence_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_disp_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_disp_is_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_ops_laws [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_ops [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_lassociator [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_runitor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_runitor_help [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_lunitor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_prebicat_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_two_inserter_locally_groupoid [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_cells_isaprop [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_disp_cat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_disp_cat_id_comp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_disp_cat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_nat_trans_eq [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_comp_ax [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_id [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_id_ax [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_ax_var [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_ax [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_pr1 [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_data [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Nat_Trans [section, in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Functor.Total_Functors [section, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_disp_ess_split_surj [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ess_split_surj [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff_reflects_isos [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff_inv_compose [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff_inv_identity [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff_inv_transportf [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff_inv [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff_weq [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Functor.Functor_Properties.ff_reflects_isos [section, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Functor.Functor_Properties [section, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_on_iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_on_is_iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_on_iso_disp_aux2 [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_on_iso_disp_aux1 [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Functor.Functors_on_isos [section, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_identity [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_composite [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_composite_axioms [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_composite_data [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_transportf [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_comp_var [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_id [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_data_from_disp_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
# _ (mor_disp_scope) [notation, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_on_morphisms [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_on_objects [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_data [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Functor [section, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_univalent_category_is_univalent_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_of_disp_univalent_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_univalent_category [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Cat.Lemmas [section, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_data_from_disp_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
_ ;; _ (mor_disp_scope) [notation, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_ob_mor_from_disp_cat_data [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_data [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_id_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
_ -->[ _ ] _ [notation, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Cat [section, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat' [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
disp_modification_of_invmodification [definition, in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_invmodification_to_disp_invmodification_data [definition, in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_invmodification [definition, in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_invmodification_data [definition, in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_modification_to_disp_modification_data [definition, in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_modification [definition, in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_modification_data [definition, in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_cartesian' [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cartesian_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cartesian_data [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cartesian_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_domain [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_arrow [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_arrow_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_arrow_data [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cartesian [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_over_unit [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_over_unit_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_over_unit_data [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cat_monad_alg [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cat_monad_alg_over_functor_alg [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cat_functor_alg [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cat_of_elements [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_univalent_2_1_of_2 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_univalent_2_0_of_2 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Disp_Univalent_2 [section, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_idtoiso_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_isotoid_idtoiso_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_idtoiso_isotoid_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_idtoiso_2_1_inv [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_1cell_transport_rwhisker [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_isotoid_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_idtoiso_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_adjoint_equivalence_to_all_invertible_2cell [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
disp_top [definition, in UniMath.Topology.CategoryTop]
disp_locally_groupoid_monad [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
disp_2cells_isaprop_monad [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
disp_functor_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_nat_trans_assoc [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_nat_trans_id_right [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_nat_trans_id_left [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_nat_trans_transportf [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_struct [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_struct_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_struct_data [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_struct_id_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_struct_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_full_sub_univalent [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_full_sub [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_full_sub_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_full_sub_data [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_full_sub_id_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_full_sub_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_hom [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_hom_laws [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_hom_data [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_hom_id_comp [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_hom_ob_mor [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_locally_groupoid_over_id [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_locally_sym [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_locally_groupoid [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_2cells_isaprop [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_runitor_lunitor_identity [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lunitor_runitor_identity [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_cellset_property [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_of_disp_bicat [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_bicat [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.total_prebicat.D [variable, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.total_prebicat [section, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_rcancel [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_runitor_alt [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_rwhisker_alt [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_whisker_alt [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_vcomp_alt [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_vcomp_alt [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_transport_right [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_transport_left_new [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_transport_left [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lunitor_lwhisker [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_to_rassociator_pre [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_to_rassociator_post [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_to_rassociator_post' [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.Derived_Laws [section, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lhs_left_invert_cell [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lhs_right_invert_cell [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lhs_right_invert_cell' [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_mor_transportf_prewhisker_gen [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_mor_transportf_prewhisker [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_mor_transportf_postwhisker [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_linv [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_rinv [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_inv_cell [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_cell_from_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.Display_Invertible_2cell.Def_inv_2cell [section, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.Display_Invertible_2cell [section, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vassocl [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_hcomp [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_lassociator [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_runitor_rwhisker [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rassociator_lassociator [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_rassociator [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rinvunitor_runitor [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_runitor_rinvunitor [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_linvunitor_lunitor [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lunitor_linvunitor [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_whisker [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_rwhisker [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_lwhisker [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_lwhisker [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_runitor [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_lunitor [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_vcomp [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_vcomp [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_rwhisker [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_id2 [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vassocr' [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vassocr [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_right [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_left [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.disp_prebicat_law_projections [section, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_data_from_disp_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_laws [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_lassociator_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_runitor_rwhisker_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rassociator_lassociator_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_rassociator_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rinvunitor_runitor_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_runitor_rinvunitor_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_linvunitor_lunitor_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lunitor_linvunitor_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_whisker_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_rwhisker_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_lwhisker_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_lwhisker_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_runitor_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_lunitor_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_vcomp_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_vcomp_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_rwhisker_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_id2_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vassocr_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_right_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_left_law [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.disp_prebicat_laws [section, in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ▹▹ _ [notation, in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ◃◃ _ [notation, in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ •• _ [notation, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp2 [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rassociator [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rinvunitor [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_linvunitor [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_runitor [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lunitor [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2 [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.disp_prebicat_ops_projections [section, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_ops_from_disp_prebicat_data [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_ob_mor_cells_1_id_comp_from_disp_prebicat_data [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_data [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_ops [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ <==[ _ ] _ [notation, in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ==>[ _ ] _ [notation, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat [section, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_2cells [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_cat_data_from_disp_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_2cell_struct [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_codomain [definition, in UniMath.CategoryTheory.DisplayedCats.Codomain]
disp_pstrans_rassociator [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_rassociator_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_rassociator_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_lassociator_pstrans [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_lassociator_pstrans_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_lassociator_pstrans_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_rinvunitor_pstrans [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_rinvunitor_pstrans_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_rinvunitor_pstrans_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_runitor_pstrans [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_runitor_pstrans_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_runitor_pstrans_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_linvunitor [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_linvunitor_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_linvunitor_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_lunitor_pstrans [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_lunitor_pstrans_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_lunitor_pstrans_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_right_whisker [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_right_whisker_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_right_whisker_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_left_whisker [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_left_whisker_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_left_whisker_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_inv_invertible [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_comp_pstrans [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_comp_pstrans_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_comp_pstrans_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_id_pstrans [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_id_pstrans_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_id_pstrans_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_to_disp_pstrans_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_comp_law [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_id_law [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_psnaturality_natural_law [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_psnaturality_of [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pscomponent_of [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_iso_to_is_cartesian [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
disp_cat_from_preshv [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
disp_mor_unique_disc_fib [lemma, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
disp_cat_from_discrete_fibration [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
disp_local_iso_cleaving_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Fibration]
disp_assoc_left [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_tensor:207 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_functor_fix_fst_arg [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_functor_fix_fst_arg_axioms [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_functor_fix_fst_arg_data [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_functor_fix_fst_arg_mor [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_functor_fix_fst_arg_ob [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
( _ #, _ ) [notation, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_fix_fst_arg [section, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_unassoc [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_unassoc_axioms [lemma, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_unassoc_data [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_assoc [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_assoc_axioms [lemma, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_assoc_data [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_pair_functor [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_pair_functor_axioms [lemma, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_pair_functor_data [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_transportf [lemma, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_axioms [lemma, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_transportf_pr2 [lemma, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_transportf_pr1 [lemma, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_data [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_id_comp [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_ob_mor [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_locally_groupoid_prod [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_2cells_isaprop_prod [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_dirprod_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
Disp_Dirprod.D2 [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
Disp_Dirprod.D1 [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
Disp_Dirprod [section, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_dirprod_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_dirprod_brebicat_laws [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_dirprod_prebicat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_dirprod_prebicat_ops [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_dirprod_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
Disp_PreDirprod.D2 [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
Disp_PreDirprod.D1 [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
Disp_PreDirprod [section, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_locally_groupoid_add_cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
disp_2cells_isaprop_add_cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
disp_depprod_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_idtotiso_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_adjequiv_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_adjequiv_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_adjequiv_map [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_idtotiso_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_invertible_2cell_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_invertible_2cell_inv_map [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_is_invertible_2cell_pr [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_invertible_2cell_map [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_locally_groupoid_depprod [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_is_invertible_2cell_map [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_2cells_isaprop_depprod [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_prebicat_laws [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_prebicat_laws_help [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_prebicat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_disp_prebicat_ops [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_disp_2cell_struct [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_cat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_cat_ob_mor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_morph [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
disp_left_biadj_data [definition, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
disp_left_biadj_right_triangle [definition, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
disp_left_biadj_left_triangle [definition, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
disp_left_biadj_unit_counit [definition, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
disp_is_biequivalence_data [definition, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
disp_functor_id_ff_reflects_isos [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
disp_adjunction [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
disp_adjunction_data [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
disp_locally_groupoid_fullsubbicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
disp_2cells_isaprop_fullsubbicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
disp_univalent_2_0_fullsubbicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
disp_fullsubbicat_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
disp_fullsubbicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
disp_fullsubprebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
disp_functor_id_ff_reflects_isos [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
disp_adjunction_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
disp_adjunction_id_data [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
disp_adjunction [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
disp_adjunction.notation [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
disp_adjunction_data [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
disp_adjunction [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
disp_locally_groupoid_cod_one_types [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
disp_locally_groupoid_cod [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
disp_cat_from_SIP_data [definition, in UniMath.CategoryTheory.DisplayedCats.SIP]
DistributiveLaw [definition, in UniMath.SubstitutionSystems.SignatureExamples]
distributive_law2 [definition, in UniMath.SubstitutionSystems.SignatureExamples]
distributive_law1 [definition, in UniMath.SubstitutionSystems.SignatureExamples]
DistrLaw [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
DistrLaw_data [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
divalgorithm [lemma, in UniMath.PAdics.z_mod_p]
divalgorithmexists [lemma, in UniMath.PAdics.z_mod_p]
divalgorithmnonneg [lemma, in UniMath.PAdics.z_mod_p]
divandhzabsval [lemma, in UniMath.PAdics.z_mod_p]
divDivRig [definition, in UniMath.Algebra.DivisionRig]
DivisionRig [library]
divNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
divNonnegativeRationals_le1 [lemma, in UniMath.RealNumbers.NonnegativeRationals]
divNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
DivRig [definition, in UniMath.Algebra.DivisionRig]
DivRig_isrdistr [definition, in UniMath.Algebra.DivisionRig]
DivRig_isldistr [definition, in UniMath.Algebra.DivisionRig]
DivRig_isrinv [definition, in UniMath.Algebra.DivisionRig]
DivRig_islinv [definition, in UniMath.Algebra.DivisionRig]
DivRig_isrunit_one [definition, in UniMath.Algebra.DivisionRig]
DivRig_islunit_one [definition, in UniMath.Algebra.DivisionRig]
DivRig_isassoc_mult [definition, in UniMath.Algebra.DivisionRig]
DivRig_iscomm_plus [definition, in UniMath.Algebra.DivisionRig]
DivRig_isrunit_zero [definition, in UniMath.Algebra.DivisionRig]
DivRig_islunit_zero [definition, in UniMath.Algebra.DivisionRig]
DivRig_isassoc_plus [definition, in UniMath.Algebra.DivisionRig]
DivRig_pty [section, in UniMath.Algebra.DivisionRig]
DivRig_isDivRig [definition, in UniMath.Algebra.DivisionRig]
div_fld [definition, in UniMath.RealNumbers.Fields]
di_neq_i [lemma, in UniMath.Foundations.NaturalNumbers]
di_eq2 [lemma, in UniMath.Foundations.NaturalNumbers]
di_eq1 [lemma, in UniMath.Foundations.NaturalNumbers]
DL_option_list [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
DL_sorted_option_functor [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
DL_iter_functor1 [definition, in UniMath.SubstitutionSystems.SignatureExamples]
DL_comp [definition, in UniMath.SubstitutionSystems.SignatureExamples]
DL_id [definition, in UniMath.SubstitutionSystems.SignatureExamples]
DL_option_list [definition, in UniMath.SubstitutionSystems.MultiSorted]
DL_sorted_option_functor [definition, in UniMath.SubstitutionSystems.MultiSorted]
DL:15 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
DL:16 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
DL:17 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
dmor [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
dneg [definition, in UniMath.Foundations.PartA]
dneganddnegimpldneg [definition, in UniMath.Foundations.PartA]
dneganddnegl1 [lemma, in UniMath.Foundations.PartA]
dnegelim [definition, in UniMath.MoreFoundations.DecidablePropositions]
dnegf [definition, in UniMath.Foundations.PartA]
dnegnegtoneg [definition, in UniMath.Foundations.PartA]
dneg_LEM [lemma, in UniMath.MoreFoundations.DecidablePropositions]
dneg_decidable [lemma, in UniMath.MoreFoundations.DoubleNegation]
dneg_elim_to_LEM [lemma, in UniMath.MoreFoundations.Propositions]
dni [definition, in UniMath.Combinatorics.StandardFiniteSets]
dnicommsq [lemma, in UniMath.Combinatorics.StandardFiniteSets]
dnihfsq [lemma, in UniMath.Combinatorics.StandardFiniteSets]
dnitocompl [definition, in UniMath.Combinatorics.StandardFiniteSets]
dni_lastelement_eq [lemma, in UniMath.Combinatorics.StandardFiniteSets]
dni_lastelement_is_inj [lemma, in UniMath.Combinatorics.StandardFiniteSets]
dni_neq_i [lemma, in UniMath.Combinatorics.StandardFiniteSets]
dni_last_lt [lemma, in UniMath.Combinatorics.StandardFiniteSets]
dni_lastelement_ord [lemma, in UniMath.Combinatorics.StandardFiniteSets]
dni_lastelement [definition, in UniMath.Combinatorics.StandardFiniteSets]
dni_firstelement [definition, in UniMath.Combinatorics.StandardFiniteSets]
dni_first [lemma, in UniMath.Combinatorics.StandardFiniteSets]
dni_last [lemma, in UniMath.Combinatorics.StandardFiniteSets]
dnx:89 [binder, in UniMath.Foundations.PartA]
dnx:93 [binder, in UniMath.Foundations.PartA]
dny:90 [binder, in UniMath.Foundations.PartA]
dny:94 [binder, in UniMath.Foundations.PartA]
dob [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
dom [definition, in UniMath.Algebra.Universal.Algebras]
dom [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
Domain [library]
DomainArrow [section, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
DomainArrow.a [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
DomainArrow.B [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
DomainCleaving [section, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
DomainCleaving [library]
Domains_and_Fields [library]
domain_action [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
domi [definition, in UniMath.Paradoxes.GirardsParadox]
domicom [definition, in UniMath.Paradoxes.GirardsParadox]
dom_disp_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_invertible_2cell_weq_disp_adj_equiv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_adj_equiv_to_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_invertible_2cell_to_disp_adj_equiv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_locally_groupoid [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_locally_sym [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_2cells_isaprop [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_prebicat_laws [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_prebicat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_prebicat_ops [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_cat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_cat_id_comp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_cat_ob_mor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_cleaving_of_bicats [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
dom_global_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
dom_cartesian_1cell_is_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
dom_invertible_2cell_is_cartesian_1cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
dom_local_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
dom_is_cartesian_2cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
dom:119 [binder, in UniMath.Topology.Filters]
dom:127 [binder, in UniMath.Topology.Filters]
dom:130 [binder, in UniMath.Topology.Filters]
dom:140 [binder, in UniMath.Topology.Filters]
dom:151 [binder, in UniMath.Topology.Filters]
dom:155 [binder, in UniMath.Topology.Filters]
dom:215 [binder, in UniMath.Topology.Topology]
dom:248 [binder, in UniMath.Topology.Topology]
dom:315 [binder, in UniMath.Topology.Topology]
doublecarry [lemma, in UniMath.PAdics.padics]
doublelubdirected [lemma, in UniMath.Algebra.Dcpo]
doubleminuslehpaths [lemma, in UniMath.PAdics.lemmas]
DoubleNegation [library]
double_halfNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
double_transport_idtoiso [lemma, in UniMath.CategoryTheory.Core.Univalence]
double_transport [definition, in UniMath.CategoryTheory.Core.Univalence]
DownwardClosure [definition, in UniMath.Combinatorics.ZFstructures]
drop [definition, in UniMath.Combinatorics.Vectors]
drop [definition, in UniMath.Combinatorics.MoreLists]
drop [definition, in UniMath.Combinatorics.FiniteSequences]
drop_el [lemma, in UniMath.Combinatorics.Vectors]
drop_concatenate [lemma, in UniMath.Combinatorics.MoreLists]
drop_full [lemma, in UniMath.Combinatorics.MoreLists]
drop_step [lemma, in UniMath.Combinatorics.MoreLists]
drop_zero [lemma, in UniMath.Combinatorics.MoreLists]
drop_nil [lemma, in UniMath.Combinatorics.MoreLists]
drop_and_append' [definition, in UniMath.Combinatorics.FiniteSequences]
drop_and_append [definition, in UniMath.Combinatorics.FiniteSequences]
drop_and_append_vec [lemma, in UniMath.Combinatorics.FiniteSequences]
drop' [definition, in UniMath.Combinatorics.FiniteSequences]
ds [definition, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
Dset:70 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
Dset:83 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
DSq [definition, in UniMath.HomologicalAlgebra.Complexes]
ds_issum:46 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_isprod:45 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_id:44 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_in:43 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_pr:42 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_issum [definition, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_isprod [definition, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_id [definition, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_in [definition, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_pr [definition, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_isprod:31 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_id:27 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_in:24 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_pr:22 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
DS1':14 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS1':22 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS1':30 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS1':6 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS10:265 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS10:289 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS10:602 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS10:746 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS11:603 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS11:747 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:12 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:15 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS1:171 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS1:18 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:23 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS1:235 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:24 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:241 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:260 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:284 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:30 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:31 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS1:36 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:38 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS1:42 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:49 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:55 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:593 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:6 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:61 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:67 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS1:7 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS1:737 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2':16 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS2':24 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS2':32 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS2':8 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS2:13 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:17 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS2:172 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS2:19 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:236 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:242 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:25 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS2:25 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:261 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:285 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:31 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:33 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS2:37 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:39 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS2:43 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:50 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:56 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:594 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:62 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:68 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:7 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:738 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS2:9 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
DS3:262 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS3:286 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS3:44 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS3:595 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS3:69 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS3:739 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS4:263 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS4:287 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS4:596 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS4:740 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS5:597 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS5:741 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS6:598 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS6:742 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS7:599 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS7:743 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS8:600 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS8:744 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS9:264 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS9:288 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS9:601 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS9:745 [binder, in UniMath.HomologicalAlgebra.MappingCone]
DS:104 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
DS:110 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
DS:123 [binder, in UniMath.CategoryTheory.Additive]
DS:129 [binder, in UniMath.CategoryTheory.Additive]
DS:130 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
DS:135 [binder, in UniMath.CategoryTheory.Additive]
DS:139 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
DS:141 [binder, in UniMath.CategoryTheory.Additive]
DS:147 [binder, in UniMath.CategoryTheory.Additive]
DS:153 [binder, in UniMath.CategoryTheory.Additive]
DS:176 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
DS:182 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
ds:20 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
DS:22 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
DS:25 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
DS:38 [binder, in UniMath.CategoryTheory.CategoryEquality]
ds:41 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
DS:59 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
DS:62 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
DS:77 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
DS:86 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
DS:92 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
DS:98 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
DTM:21 [binder, in UniMath.HomologicalAlgebra.Triangulated]
DTri [definition, in UniMath.HomologicalAlgebra.Triangulated]
DTriCompZero [lemma, in UniMath.HomologicalAlgebra.Triangulated]
DTriCompZero' [lemma, in UniMath.HomologicalAlgebra.Triangulated]
DTriCompZero'' [lemma, in UniMath.HomologicalAlgebra.Triangulated]
DTriisDTri [definition, in UniMath.HomologicalAlgebra.Triangulated]
DTrisUnderIso [definition, in UniMath.HomologicalAlgebra.Triangulated]
DTriTri [definition, in UniMath.HomologicalAlgebra.Triangulated]
dualelement [definition, in UniMath.Combinatorics.StandardFiniteSets]
dualelement_lt [lemma, in UniMath.Combinatorics.StandardFiniteSets]
dualelement_0_empty [lemma, in UniMath.Combinatorics.StandardFiniteSets]
dv:57 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
dv:61 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
dv:80 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
dv:88 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
dw:480 [binder, in UniMath.Combinatorics.StandardFiniteSets]
dw:58 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
dw:62 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
dw:81 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
dw:89 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
dX:103 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
dx:287 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
dx:374 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
dX:70 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
dX:80 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
dX:91 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
dY:104 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
dY:71 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
dY:81 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
dY:92 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
D_cat:609 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D_cat:600 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D_cat:591 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D_cat:215 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D_cat:206 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d_pb [abbreviation, in UniMath.CategoryTheory.Monads.Derivative]
D''':34 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d'':110 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D'':12 [binder, in UniMath.HomologicalAlgebra.Complexes]
D'':14 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D'':33 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d'':38 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d'':40 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d'':50 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d'':52 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d'':54 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
d'':60 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d'':65 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d'':70 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d'':78 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D'':939 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D'':949 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d'':95 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D'':959 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':10 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
D':10 [binder, in UniMath.HomologicalAlgebra.Complexes]
d':100 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
D':100 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D':1009 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d':101 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
d':101 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
D':102 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D':1021 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':1033 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d':104 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D':104 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D':104 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D':106 [binder, in UniMath.Algebra.Dcpo]
d':107 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
D':1076 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':108 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D':108 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D':1087 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':1096 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d':11 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d':11 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
D':110 [binder, in UniMath.Algebra.Dcpo]
D':1102 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':1108 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':1114 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':112 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D':112 [binder, in UniMath.Algebra.Dcpo]
D':1121 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d':113 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
D':1132 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d':114 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
D':114 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D':1148 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':1158 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':116 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D':1168 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d':118 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
D':1180 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d':119 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D':1196 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':120 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D':121 [binder, in UniMath.Algebra.Dcpo]
D':121 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D':1210 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':1218 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d':122 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
D':1228 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':1244 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':125 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D':1256 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D':127 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D':127 [binder, in UniMath.Algebra.Dcpo]
D':13 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
d':13 [binder, in UniMath.CategoryTheory.yoneda]
D':13 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d':132 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
D':132 [binder, in UniMath.Algebra.Dcpo]
d':134 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
D':134 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D':134 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D':135 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D':137 [binder, in UniMath.Algebra.Dcpo]
d':137 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
D':138 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d':140 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
D':141 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D':142 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D':143 [binder, in UniMath.Algebra.Dcpo]
D':146 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D':146 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D':147 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D':148 [binder, in UniMath.Algebra.Dcpo]
D':149 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D':150 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d':152 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D':153 [binder, in UniMath.Algebra.Dcpo]
D':154 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D':154 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d':158 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
D':158 [binder, in UniMath.Algebra.Dcpo]
D':159 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d':16 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
d':16 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d':160 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D':161 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D':163 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D':164 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D':165 [binder, in UniMath.Algebra.Dcpo]
D':167 [binder, in UniMath.Algebra.Dcpo]
D':168 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
d':169 [binder, in UniMath.CategoryTheory.PseudoElements]
D':169 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d':17 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
D':173 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D':173 [binder, in UniMath.Algebra.Dcpo]
D':174 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D':177 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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D1:15 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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D1:18 [binder, in UniMath.CategoryTheory.Equivalences.Core]
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D1:44 [binder, in UniMath.CategoryTheory.Abelian]
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D1:45 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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D1:52 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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D1:54 [binder, in UniMath.CategoryTheory.Abelian]
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D1:99 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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D:141 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:141 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:141 [binder, in UniMath.Algebra.Dcpo]
d:141 [binder, in UniMath.CategoryTheory.limits.pullbacks]
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D:1429 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
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D:145 [binder, in UniMath.CategoryTheory.limits.products]
D:145 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:145 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:145 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
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D:153 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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D:155 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
D:155 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
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D:157 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
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D:157 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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D:157 [binder, in UniMath.Algebra.Dcpo]
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D:158 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:159 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
D:159 [binder, in UniMath.CategoryTheory.FunctorCategory]
d:159 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
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d:16 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
D:16 [binder, in UniMath.CategoryTheory.category_binops]
D:16 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D:16 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
D:16 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
D:16 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
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D:16 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
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d:161 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
D:161 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
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d:161 [binder, in UniMath.CategoryTheory.limits.pullbacks]
D:162 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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d:163 [binder, in UniMath.CategoryTheory.PseudoElements]
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D:163 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:163 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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D:165 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
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D:166 [binder, in UniMath.Algebra.Dcpo]
d:166 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
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D:167 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
d:167 [binder, in UniMath.CategoryTheory.PseudoElements]
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D:167 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
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D:168 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:168 [binder, in UniMath.Algebra.Dcpo]
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D:169 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:169 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
d:17 [binder, in UniMath.PAdics.z_mod_p]
d:17 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
d:17 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
d:17 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
D:17 [binder, in UniMath.CategoryTheory.CategoryEquality]
D:17 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:17 [binder, in UniMath.CategoryTheory.limits.binproducts]
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d:170 [binder, in UniMath.CategoryTheory.Core.Categories]
D:171 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
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d:172 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
d:172 [binder, in UniMath.CategoryTheory.PseudoElements]
D:172 [binder, in UniMath.CategoryTheory.FunctorCategory]
D:172 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:172 [binder, in UniMath.Algebra.Dcpo]
d:172 [binder, in UniMath.CategoryTheory.limits.pullbacks]
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D:173 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
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d:174 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
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D:174 [binder, in UniMath.Algebra.Dcpo]
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D:177 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:177 [binder, in UniMath.Algebra.Dcpo]
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d:178 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
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D:179 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
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d:18 [binder, in UniMath.Bicategories.BicategoryOfBicat]
D:18 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
D:18 [binder, in UniMath.CategoryTheory.FunctorCategory]
D:18 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:18 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
D:18 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
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d:18 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
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D:182 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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D:183 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
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D:187 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:188 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
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D:189 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:189 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:189 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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d:19 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
d:19 [binder, in UniMath.CategoryTheory.limits.pushouts]
D:19 [binder, in UniMath.CategoryTheory.HorizontalComposition]
D:19 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
D:19 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
d:19 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
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D:191 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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D:195 [binder, in UniMath.Algebra.Dcpo]
D:196 [binder, in UniMath.CategoryTheory.Monads.Monads]
D:196 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
D:196 [binder, in UniMath.CategoryTheory.Core.Functors]
D:196 [binder, in UniMath.CategoryTheory.FunctorCategory]
D:196 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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D:197 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:197 [binder, in UniMath.Algebra.Dcpo]
D:198 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
d:198 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
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d:199 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:199 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:199 [binder, in UniMath.Algebra.Dcpo]
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D:2 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
D:2 [binder, in UniMath.SubstitutionSystems.Signatures]
D:2 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
D:2 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
D:2 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
D:2 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D:2 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
D:2 [binder, in UniMath.SubstitutionSystems.BinProductOfSignatures]
D:2 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
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D:2 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
D:2 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
D:2 [binder, in UniMath.CategoryTheory.CategoryEquality]
D:2 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
D:2 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
D:2 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:2 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:2 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
D:2 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
D:2 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
d:2 [binder, in UniMath.CategoryTheory.limits.graphs.initial]
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D:2 [binder, in UniMath.CategoryTheory.Adjunctions.Restriction]
D:2 [binder, in UniMath.CategoryTheory.Subcategory.Reflective]
D:2 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:2 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
D:2 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
D:2 [binder, in UniMath.CategoryTheory.Profunctors.Core]
d:2 [binder, in UniMath.Induction.M.Limits]
D:2 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
D:2 [binder, in UniMath.CategoryTheory.RightKanExtension]
D:2 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
D:2 [binder, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
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d:20 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
d:20 [binder, in UniMath.CategoryTheory.opp_precat]
D:20 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:20 [binder, in UniMath.CategoryTheory.Subcategory.Limits]
d:20 [binder, in UniMath.CategoryTheory.limits.pullbacks]
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D:200 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:201 [binder, in UniMath.CategoryTheory.Monads.Monads]
D:201 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
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D:201 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:201 [binder, in UniMath.Algebra.Dcpo]
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d:203 [binder, in UniMath.Bicategories.Core.Bicat]
D:203 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
D:203 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
D:204 [binder, in UniMath.Algebra.Dcpo]
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D:205 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:205 [binder, in UniMath.Algebra.Dcpo]
D:206 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
D:206 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
D:206 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:206 [binder, in UniMath.Algebra.Dcpo]
d:207 [binder, in UniMath.Bicategories.Core.Univalence]
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D:42 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
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D:63 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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d:7 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
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D:7 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
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D:70 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
d:70 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
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d:73 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
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D:73 [binder, in UniMath.Algebra.Dcpo]
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D:74 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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d:741 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:742 [binder, in UniMath.Algebra.RigsAndRings]
D:743 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D:747 [binder, in UniMath.CategoryTheory.LocalizingClass]
D:747 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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D:75 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
d:75 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
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D:76 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
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D:76 [binder, in UniMath.Algebra.Dcpo]
D:76 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d:76 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d:76 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
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D:764 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D:767 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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d:77 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
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D:78 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
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D:799 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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D:8 [binder, in UniMath.SubstitutionSystems.ModulesFromSignatures]
d:8 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
d:8 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:8 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
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D:8 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
d:8 [binder, in UniMath.CategoryTheory.Subcategory.Reflective]
D:8 [binder, in UniMath.HomologicalAlgebra.Complexes]
D:8 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
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D:804 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D:807 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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D:84 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
D:84 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
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d:86 [binder, in UniMath.CategoryTheory.PseudoElements]
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D:86 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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D:86 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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D:87 [binder, in UniMath.CategoryTheory.Monads.Derivative]
D:872 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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d:88 [binder, in UniMath.Bicategories.Core.Strictness]
d:88 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:88 [binder, in UniMath.CategoryTheory.HorizontalComposition]
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d:88 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d:88 [binder, in UniMath.CategoryTheory.Core.Categories]
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d:886 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
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d:89 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
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D:9 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
d:9 [binder, in UniMath.CategoryTheory.yoneda]
D:9 [binder, in UniMath.CategoryTheory.CategoryEquality]
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D:90 [binder, in UniMath.CategoryTheory.Monics]
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D:908 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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D:91 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
d:91 [binder, in UniMath.CategoryTheory.PseudoElements]
D:91 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
D:91 [binder, in UniMath.Algebra.Dcpo]
D:92 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
d:92 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
D:92 [binder, in UniMath.CategoryTheory.Monads.Derivative]
D:92 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
D:92 [binder, in UniMath.CategoryTheory.Epis]
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d:924 [binder, in UniMath.Bicategories.Core.Bicat]
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D:93 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
D:93 [binder, in UniMath.RealNumbers.DedekindCuts]
D:93 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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d:938 [binder, in UniMath.Bicategories.Core.Bicat]
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d:94 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
D:94 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:94 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d:94 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
D:943 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:945 [binder, in UniMath.Bicategories.Core.Bicat]
D:947 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d:948 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
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D:95 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:95 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
D:957 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D:96 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
d:96 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
d:96 [binder, in UniMath.CategoryTheory.Core.Categories]
D:965 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d:965 [binder, in UniMath.Algebra.RigsAndRings]
D:969 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d:969 [binder, in UniMath.Algebra.RigsAndRings]
D:97 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
d:97 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
D:97 [binder, in UniMath.CategoryTheory.Monics]
d:97 [binder, in UniMath.CategoryTheory.limits.binproducts]
d:975 [binder, in UniMath.Bicategories.Core.Bicat]
D:98 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D:98 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
D:98 [binder, in UniMath.RealNumbers.DedekindCuts]
d:98 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
D:98 [binder, in UniMath.CategoryTheory.opp_precat]
D:98 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:98 [binder, in UniMath.CategoryTheory.Monads.Derivative]
d:98 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
D:98 [binder, in UniMath.Algebra.Dcpo]
d:98 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
d:98 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
d:980 [binder, in UniMath.Bicategories.Core.Bicat]
D:982 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d:985 [binder, in UniMath.Bicategories.Core.Bicat]
D:99 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
d:99 [binder, in UniMath.Folds.folds_precat]
D:99 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:99 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
D:99 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
D:99 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:992 [binder, in UniMath.Algebra.RigsAndRings]
d:995 [binder, in UniMath.Bicategories.Core.Bicat]
D:995 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
d:996 [binder, in UniMath.Algebra.RigsAndRings]
d:999 [binder, in UniMath.Bicategories.Core.Bicat]
D₁:107 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
D₁:119 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:12 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
D₁:1271 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D₁:1289 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D₁:138 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₁:143 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:151 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:159 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:168 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:168 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
d₁:172 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
D₁:178 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:186 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:194 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:194 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₁:2 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₁:2 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
D₁:2 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₁:208 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:220 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:23 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₁:236 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
D₁:250 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₁:268 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₁:269 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
d₁:28 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
D₁:291 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₁:3 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
D₁:3 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
D₁:3 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
d₁:31 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
D₁:334 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₁:347 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₁:35 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
D₁:391 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D₁:419 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D₁:438 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D₁:453 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D₁:6 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₁:81 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₁:96 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:108 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
D₂:1272 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D₂:1290 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D₂:139 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:169 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:17 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
d₂:173 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
D₂:195 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:237 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
D₂:24 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:251 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₂:269 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:270 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
d₂:29 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
D₂:292 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
d₂:32 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
D₂:33 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:335 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₂:351 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₂:37 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
D₂:37 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:392 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D₂:4 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₂:4 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
D₂:4 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
D₂:4 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:4 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
D₂:4 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
D₂:42 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:420 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D₂:439 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D₂:454 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D₂:54 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:7 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:81 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:82 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:97 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₃:120 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:1273 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D₃:1291 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
D₃:140 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₃:144 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:152 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:160 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:169 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:170 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₃:179 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:187 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:195 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:209 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:221 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:270 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₃:293 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₃:421 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D₃:43 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₃:55 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₄:271 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]

E

E [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
E [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
E [definition, in UniMath.Folds.folds_pre_2_cat]
E [abbreviation, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
E [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
E [definition, in UniMath.Algebra.GroupAction]
E [abbreviation, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
each_is_submonoid:193 [binder, in UniMath.Algebra.Monoids]
each_is_subgr:146 [binder, in UniMath.Algebra.Groups]
each_is_submodule:49 [binder, in UniMath.Algebra.Modules.Submodule]
eA:174 [binder, in UniMath.MoreFoundations.PartA]
ea:693 [binder, in UniMath.MoreFoundations.PartA]
ea:707 [binder, in UniMath.MoreFoundations.PartA]
eB:175 [binder, in UniMath.MoreFoundations.PartA]
eb:694 [binder, in UniMath.MoreFoundations.PartA]
eb:708 [binder, in UniMath.MoreFoundations.PartA]
EC_PushoutMono [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_PullbackEpi [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_ComposeEpi [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_ComposeMono [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_ExactToCokernel [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_ExactToKernel [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_ExactToKernelCokernel [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_IdentityIsEpi [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_IdentityIsMono [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_IsomorphicToExact' [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_IsomorphicToExact [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ec:695 [binder, in UniMath.MoreFoundations.PartA]
ec:709 [binder, in UniMath.MoreFoundations.PartA]
Ed [definition, in UniMath.Combinatorics.ZFstructures]
edf:37 [binder, in UniMath.CategoryTheory.CommaCategories]
edge [definition, in UniMath.Combinatorics.Graph]
edge [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
ed:19 [binder, in UniMath.Induction.M.Limits]
ed:24 [binder, in UniMath.Induction.M.Limits]
ed:28 [binder, in UniMath.Induction.M.Limits]
ed:33 [binder, in UniMath.CategoryTheory.CommaCategories]
ed:9 [binder, in UniMath.Induction.M.Chains]
eee0:979 [binder, in UniMath.Foundations.PartA]
eee0:980 [binder, in UniMath.Foundations.PartA]
eee:820 [binder, in UniMath.Foundations.PartA]
ee:1010 [binder, in UniMath.Foundations.PartA]
ee:12 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
ee:15 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ee:16 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
EE:186 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ee:190 [binder, in UniMath.Foundations.PartB]
ee:191 [binder, in UniMath.Foundations.PartB]
EE:195 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ee:198 [binder, in UniMath.Foundations.PartB]
ee:199 [binder, in UniMath.Foundations.PartB]
ee:20 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
ee:200 [binder, in UniMath.Foundations.PartB]
ee:201 [binder, in UniMath.Foundations.PartB]
ee:2072 [binder, in UniMath.Foundations.PartA]
ee:209 [binder, in UniMath.Foundations.PartB]
EE:209 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ee:21 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ee:210 [binder, in UniMath.Foundations.PartB]
ee:211 [binder, in UniMath.Foundations.PartB]
ee:212 [binder, in UniMath.Foundations.PartB]
EE:215 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
EE:229 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
EE:236 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ee:24 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
EE:243 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
EE:25 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
EE:250 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ee:27 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ee:271 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ee:28 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
ee:287 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ee:33 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
ee:34 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ee:361 [binder, in UniMath.Foundations.PartC]
ee:362 [binder, in UniMath.Foundations.PartC]
ee:365 [binder, in UniMath.Foundations.PartC]
ee:366 [binder, in UniMath.Foundations.PartC]
ee:367 [binder, in UniMath.Foundations.PartC]
ee:368 [binder, in UniMath.Foundations.PartC]
ee:380 [binder, in UniMath.Foundations.PartC]
ee:381 [binder, in UniMath.Foundations.PartC]
ee:384 [binder, in UniMath.Foundations.PartC]
ee:385 [binder, in UniMath.Foundations.PartC]
ee:385 [binder, in UniMath.Foundations.PartA]
ee:386 [binder, in UniMath.Foundations.PartC]
ee:387 [binder, in UniMath.Foundations.PartC]
ee:39 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ee:39 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
ee:40 [binder, in UniMath.Foundations.UnivalenceAxiom]
ee:43 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
ee:43 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ee:459 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ee:465 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ee:559 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ee:615 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ee:639 [binder, in UniMath.HomologicalAlgebra.MappingCone]
ee:642 [binder, in UniMath.HomologicalAlgebra.MappingCone]
ee:657 [binder, in UniMath.HomologicalAlgebra.MappingCone]
ee:659 [binder, in UniMath.HomologicalAlgebra.MappingCone]
ee:68 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ee:725 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ee:726 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ee:819 [binder, in UniMath.Foundations.PartA]
ee:84 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ee:98 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
EffectiveEpi [section, in UniMath.CategoryTheory.EpiFacts]
EffectiveEpis_Functor_HSET [lemma, in UniMath.CategoryTheory.SetValuedFunctors]
EffectiveEpis_HSET [lemma, in UniMath.CategoryTheory.categories.HSET.Structures]
EffectiveEpi.f [variable, in UniMath.CategoryTheory.EpiFacts]
EffectivelyOrderedSet [definition, in UniMath.RealNumbers.Sets]
EffectivelyOrdered_NonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
EffectiveOrder [definition, in UniMath.RealNumbers.Sets]
EFF:311 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
EFF:316 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
efg:1073 [binder, in UniMath.Foundations.PartA]
efg:1082 [binder, in UniMath.Foundations.PartA]
efg:1198 [binder, in UniMath.Foundations.PartA]
efg:1208 [binder, in UniMath.Foundations.PartA]
efg:1216 [binder, in UniMath.Foundations.PartA]
ef:1014 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ef:1035 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ef:235 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ef:5 [binder, in UniMath.PAdics.frac]
ef:994 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
egf:1196 [binder, in UniMath.Foundations.PartA]
egf:1206 [binder, in UniMath.Foundations.PartA]
egf:1214 [binder, in UniMath.Foundations.PartA]
egf:1367 [binder, in UniMath.Foundations.PartA]
eg:250 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
el [definition, in UniMath.Combinatorics.Vectors]
el [definition, in UniMath.SubstitutionSystems.CCS_alt]
el [definition, in UniMath.SubstitutionSystems.CCS]
elem [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
Elements [library]
ElementsOp [library]
elements_universal [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
elements_axioms [lemma, in UniMath.CategoryTheory.DisplayedCats.Examples]
elements_data [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
elements_id_comp [lemma, in UniMath.CategoryTheory.DisplayedCats.Examples]
elements_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
Elements_Disp [section, in UniMath.CategoryTheory.DisplayedCats.Examples]
element_to_nattrans [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
elems_slice_equiv.P [variable, in UniMath.CategoryTheory.elems_slice_equiv]
elems_slice_equiv.C [variable, in UniMath.CategoryTheory.elems_slice_equiv]
## [notation, in UniMath.CategoryTheory.elems_slice_equiv]
_ / _ [notation, in UniMath.CategoryTheory.elems_slice_equiv]
elems_slice_equiv [section, in UniMath.CategoryTheory.elems_slice_equiv]
elems_slice_equiv [library]
elem_sort_id [lemma, in UniMath.Algebra.Universal.Examples.ListDataType]
elem_sort_idx [definition, in UniMath.Algebra.Universal.Examples.ListDataType]
elem12 [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
elem12_isiso [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
elem21 [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
elem21_isiso [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
el_vec_map [lemma, in UniMath.Combinatorics.Vectors]
el_tl [lemma, in UniMath.Combinatorics.Vectors]
el_vcons_hd [lemma, in UniMath.Combinatorics.Vectors]
el_vcons_tl [lemma, in UniMath.Combinatorics.Vectors]
el_make_vec_fun [lemma, in UniMath.Combinatorics.Vectors]
el_make_vec [lemma, in UniMath.Combinatorics.Vectors]
embeddingRepresentability [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
embeddingToFunctor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
empty [inductive, in UniMath.Foundations.Preamble]
emptyHSET [definition, in UniMath.CategoryTheory.categories.HSET.Core]
emptynofilter [lemma, in UniMath.Topology.Filters]
empty_sieve [definition, in UniMath.CategoryTheory.Presheaf]
empty_PreShv [definition, in UniMath.CategoryTheory.Presheaf]
empty_graph [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
empty_category [definition, in UniMath.CategoryTheory.categories.StandardCategories]
empty_is_terminal_cartesian_cube_category [lemma, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
empty_woset [definition, in UniMath.Combinatorics.WellOrderedSets]
empty_graph_eq_diag [lemma, in UniMath.CategoryTheory.limits.graphs.initial]
empty_graph [definition, in UniMath.CategoryTheory.limits.graphs.initial]
empty_vec [definition, in UniMath.Combinatorics.FiniteSequences]
empty_1_type [definition, in UniMath.Bicategories.Colimits.Initial]
empty_hlevel [definition, in UniMath.Bicategories.Colimits.Initial]
End [definition, in UniMath.CategoryTheory.Profunctors.Core]
EndC [abbreviation, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
endo [definition, in UniMath.SubstitutionSystems.Signatures]
EndofunctorsMonoidal [library]
Endofunctors_as_monoidal_category [section, in UniMath.CategoryTheory.Monoidal.EndofunctorsMonoidal]
Ends [section, in UniMath.CategoryTheory.Profunctors.Core]
end_wedge [definition, in UniMath.CategoryTheory.Profunctors.Core]
end_ob [definition, in UniMath.CategoryTheory.Profunctors.Core]
Enriched [library]
enriched_functor_comp [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_comp_data [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_on_comp [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_on_identity [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_to_enriched_functor_data [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_comp_ax [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_unit_ax [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_on_morphisms [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_on_objects [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_data [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_precat_to_enriched_precat_data [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_precat [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_id_ax [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_assoc_ax [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_cat_comp [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_cat_id [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_cat_mor [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_cat_ob [definition, in UniMath.CategoryTheory.Enriched.Enriched]
enriched_precat_data [definition, in UniMath.CategoryTheory.Enriched.Enriched]
entrywise [definition, in UniMath.Algebra.Matrix]
entrywise_abmonoidop [definition, in UniMath.Algebra.Matrix]
entrywise_monoidop [definition, in UniMath.Algebra.Matrix]
entrywise_comm [definition, in UniMath.Algebra.Matrix]
entrywise_unit [definition, in UniMath.Algebra.Matrix]
entrywise_runit [definition, in UniMath.Algebra.Matrix]
entrywise_lunit [definition, in UniMath.Algebra.Matrix]
entrywise_assoc [definition, in UniMath.Algebra.Matrix]
enumeration_FiniteOrderedSet [lemma, in UniMath.Combinatorics.OrderedSets]
EOge [definition, in UniMath.RealNumbers.Sets]
EOge_le [lemma, in UniMath.RealNumbers.Sets]
EOge_rel [definition, in UniMath.RealNumbers.Sets]
EOgt [definition, in UniMath.RealNumbers.Sets]
EOgt_noteq [lemma, in UniMath.RealNumbers.Sets]
EOgt_lt [lemma, in UniMath.RealNumbers.Sets]
EOgt_rel [definition, in UniMath.RealNumbers.Sets]
EOle [definition, in UniMath.RealNumbers.Sets]
EOle_rel [definition, in UniMath.RealNumbers.Sets]
EOlt [definition, in UniMath.RealNumbers.Sets]
EOlt_noteq [lemma, in UniMath.RealNumbers.Sets]
EOlt_le [lemma, in UniMath.RealNumbers.Sets]
EOlt_rel [definition, in UniMath.RealNumbers.Sets]
eo_Dcuts [definition, in UniMath.RealNumbers.NonnegativeReals]
eo_pty [section, in UniMath.RealNumbers.Sets]
Epi [definition, in UniMath.CategoryTheory.Epis]
EpiAdmMonoIsIso [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EpiArrow [definition, in UniMath.CategoryTheory.Epis]
epia:39 [binder, in UniMath.CategoryTheory.EpiFacts]
epich:62 [binder, in UniMath.CategoryTheory.slicecat]
EpiCokernelZero [definition, in UniMath.CategoryTheory.Abelian]
EpiCokernelZero_isCokernel [definition, in UniMath.CategoryTheory.Abelian]
epic_to_slice_precat_epic [lemma, in UniMath.CategoryTheory.slicecat]
EpiFacts [library]
EpiisEpi [definition, in UniMath.CategoryTheory.Epis]
epiissurjectiontosets [lemma, in UniMath.Foundations.Sets]
EpiPlusIdentity [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EpiPushoutId [section, in UniMath.CategoryTheory.limits.pushouts]
EpiPushoutisEpi [lemma, in UniMath.CategoryTheory.limits.pushouts]
EpiPushoutisEpi' [lemma, in UniMath.CategoryTheory.limits.pushouts]
epip:754 [binder, in UniMath.Foundations.Sets]
Epis [library]
EpisAreCokernels [definition, in UniMath.CategoryTheory.Abelian]
EpisAreCokernels_opp [definition, in UniMath.CategoryTheory.Abelian]
EpisAreCokernels_opp_isKernel [lemma, in UniMath.CategoryTheory.Abelian]
EpisAreCokernels_opp_eq [lemma, in UniMath.CategoryTheory.Abelian]
EpisAreEffective [definition, in UniMath.CategoryTheory.EpiFacts]
EpisAreSurjective_HSET [lemma, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
epis_Pushout [definition, in UniMath.CategoryTheory.Abelian]
epis_Pushout_isPushout [definition, in UniMath.CategoryTheory.Abelian]
epis_Pushout_eq3 [definition, in UniMath.CategoryTheory.Abelian]
epis_Pushout_eq2 [definition, in UniMath.CategoryTheory.Abelian]
epis_Pushout_eq1 [definition, in UniMath.CategoryTheory.Abelian]
epis_initial [section, in UniMath.CategoryTheory.limits.initial]
epis_are_split [definition, in UniMath.CategoryTheory.SplitMonicsAndEpis]
epis_functorcategories [section, in UniMath.CategoryTheory.Epis]
epis_subcategory.C [variable, in UniMath.CategoryTheory.Epis]
epis_subcategory [section, in UniMath.CategoryTheory.Epis]
EpiToCokernel [definition, in UniMath.CategoryTheory.Abelian]
EpiToCokernel' [definition, in UniMath.CategoryTheory.Abelian]
EpiToZero [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
epi_to_pushout [lemma, in UniMath.CategoryTheory.limits.pushouts]
epi_po.C [variable, in UniMath.CategoryTheory.limits.pushouts]
epi_po [section, in UniMath.CategoryTheory.limits.pushouts]
Epi_opp [definition, in UniMath.CategoryTheory.limits.Opp]
Epi_comp [definition, in UniMath.CategoryTheory.Epis]
eps [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eps [definition, in UniMath.CategoryTheory.slicecat]
eps [definition, in UniMath.CategoryTheory.categories.HSET.Slice]
eps [definition, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
eps [definition, in UniMath.CategoryTheory.RightKanExtension]
epsinv_morph [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
epsinv_morph_law [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eps_natural [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eps_morph [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eps_morph_law [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eps_is_nat_trans [lemma, in UniMath.CategoryTheory.RightKanExtension]
eps_n [definition, in UniMath.CategoryTheory.RightKanExtension]
eps' [definition, in UniMath.CategoryTheory.exponentials]
eps:13 [binder, in UniMath.Foundations.PartB]
eps:181 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
eps:21 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
eps:25 [binder, in UniMath.MoreFoundations.MoreEquivalences]
eps:26 [binder, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
eps:341 [binder, in UniMath.Foundations.PartA]
eps:350 [binder, in UniMath.Foundations.PartA]
eps:359 [binder, in UniMath.Foundations.PartA]
eps:374 [binder, in UniMath.Foundations.PartA]
eps:375 [binder, in UniMath.RealNumbers.NonnegativeReals]
eps:39 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
eps:393 [binder, in UniMath.RealNumbers.NonnegativeReals]
eps:399 [binder, in UniMath.RealNumbers.NonnegativeReals]
eps:45 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
eps:51 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
eps:53 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
eps:66 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
eps:700 [binder, in UniMath.RealNumbers.NonnegativeReals]
eps:706 [binder, in UniMath.RealNumbers.NonnegativeReals]
eps:743 [binder, in UniMath.Foundations.PartA]
eps:8 [binder, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
ep:18 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
eq [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
eqalgebra [definition, in UniMath.Algebra.Universal.EqAlgebras]
EqAlgebras [library]
EqAlgebras [library]
eqalgebra_proof [definition, in UniMath.Algebra.Universal.EqAlgebras]
eqalg_disp [definition, in UniMath.CategoryTheory.categories.Universal_Algebra.EqAlgebras]
eqax0 [definition, in UniMath.Foundations.Sets]
eqax1 [definition, in UniMath.Foundations.Sets]
eqax2 [definition, in UniMath.Foundations.Sets]
eqbx [definition, in UniMath.Foundations.PartC]
eqclass:657 [binder, in UniMath.CategoryTheory.LocalizingClass]
eqclass:671 [binder, in UniMath.CategoryTheory.LocalizingClass]
eqclass:729 [binder, in UniMath.CategoryTheory.LocalizingClass]
eqcor0UAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
eqdiag [library]
eqfromdnegeq [lemma, in UniMath.Foundations.PartB]
eqfromempty [lemma, in UniMath.Induction.W.Naturals]
eqf:111 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
eqf:125 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
eqg:112 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
eqg:126 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
eqh [definition, in UniMath.Foundations.Sets]
eqin:61 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
eqNonnegativeReals_le [lemma, in UniMath.RealNumbers.NonnegativeReals]
eqn:197 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
eqn:207 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
eqn:217 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
eqn:227 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
eqr [definition, in UniMath.CategoryTheory.categories.HSET.Colimits]
eqrel [definition, in UniMath.Foundations.Sets]
eqrelabgrdiff [definition, in UniMath.Algebra.Groups]
eqrelabmonoidfrac [definition, in UniMath.Algebra.Monoids]
eqrelcommringfrac [definition, in UniMath.Algebra.RigsAndRings]
eqrelconstr [definition, in UniMath.Foundations.Sets]
eqreldirprod [definition, in UniMath.Foundations.Sets]
eqreleq [lemma, in UniMath.MoreFoundations.Sets]
eqrelrefl [definition, in UniMath.Foundations.Sets]
eqrelrigtoring [definition, in UniMath.Algebra.RigsAndRings]
eqrelsubmodule [definition, in UniMath.Algebra.Modules.Quotient]
eqrelsymm [definition, in UniMath.Foundations.Sets]
eqreltrans [definition, in UniMath.Foundations.Sets]
eqrel_impl [lemma, in UniMath.MoreFoundations.Sets]
eqrel_from_hrel [definition, in UniMath.MoreFoundations.Sets]
eqrel_on_bool_iff [lemma, in UniMath.MoreFoundations.AxiomOfChoice]
eqrel_on_bool [definition, in UniMath.MoreFoundations.AxiomOfChoice]
eqrel_reverse_correct [lemma, in UniMath.RealNumbers.Sets]
eqrel_reverse [definition, in UniMath.RealNumbers.Sets]
eqrel_closure_minimal [lemma, in UniMath.Combinatorics.Equivalence_Relations]
eqrel_closure [definition, in UniMath.Combinatorics.Equivalence_Relations]
eqrel_closure_hrel [definition, in UniMath.Combinatorics.Equivalence_Relations]
eqset [definition, in UniMath.Foundations.Sets]
eqset_to_path [definition, in UniMath.MoreFoundations.Sets]
eqsort [definition, in UniMath.Algebra.Universal.Equations]
eqspec [definition, in UniMath.Algebra.Universal.Equations]
Eqspec [module, in UniMath.Algebra.Universal.Examples.Group]
Eqspec [module, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.G [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_eqalgebra [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_eqspec [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_axioms [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_mul_rid [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_mul_lid [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_mul_assoc [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_equation [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_inv [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_id [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_mul [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_varspec [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.holds_monoid_mul_assoc [lemma, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.holds_monoid_mul_rid [lemma, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.holds_monoid_mul_lid [lemma, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.id [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.is_eqalgebra_monoid [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.make_monoid_eqalgebra [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.Make_Monoid_Eqalgebra.M [variable, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.Make_Monoid_Eqalgebra [section, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.Mon [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_eqalgebra [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_eqspec [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_axioms [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_mul_rid [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_mul_lid [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_mul_assoc [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_equation [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_varspec [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.mul [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.x [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.x [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.y [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.y [definition, in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.z [definition, in UniMath.Algebra.Universal.Examples.Group]
Eqspec.z [definition, in UniMath.Algebra.Universal.Examples.Monoid]
eqSS [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
eqsystem [definition, in UniMath.Algebra.Universal.Equations]
eqsystemids [definition, in UniMath.Algebra.Universal.Equations]
Eqs:322 [binder, in UniMath.CategoryTheory.limits.pullbacks]
eqtohomot [definition, in UniMath.Foundations.PartA]
equality_by_case [definition, in UniMath.Foundations.PartA]
equality_cases [definition, in UniMath.Foundations.PartA]
Equalization [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Equalizer [definition, in UniMath.CategoryTheory.Abelian]
Equalizer [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Equalizer [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
Equalizer [definition, in UniMath.CategoryTheory.limits.equalizers]
EqualizerArrow [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerArrow [definition, in UniMath.CategoryTheory.limits.equalizers]
EqualizerArrowComm [lemma, in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerArrowEq [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerArrowisMonic [lemma, in UniMath.CategoryTheory.limits.equalizers]
EqualizerArrowMonic [lemma, in UniMath.CategoryTheory.limits.equalizers]
EqualizerCommutes [lemma, in UniMath.CategoryTheory.limits.equalizers]
EqualizerEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.equalizers]
EqualizerEqAr [definition, in UniMath.CategoryTheory.limits.equalizers]
equalizerEquation [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
EqualizerIn [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerIn [definition, in UniMath.CategoryTheory.limits.equalizers]
EqualizerInComp [lemma, in UniMath.CategoryTheory.limits.equalizers]
EqualizerInsEq [lemma, in UniMath.CategoryTheory.limits.equalizers]
EqualizerInUnique [lemma, in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerKernel [definition, in UniMath.CategoryTheory.limits.kernels]
EqualizerKernel_isKernel [lemma, in UniMath.CategoryTheory.limits.kernels]
EqualizerKernel_eq [lemma, in UniMath.CategoryTheory.limits.kernels]
equalizerMap [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
EqualizerObject [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerObject [definition, in UniMath.CategoryTheory.limits.equalizers]
Equalizers [lemma, in UniMath.CategoryTheory.Abelian]
Equalizers [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
Equalizers [definition, in UniMath.CategoryTheory.limits.equalizers]
equalizers [library]
equalizers [library]
EqualizersHSET_from_Lims [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
equalizers_coincide.hs [variable, in UniMath.CategoryTheory.limits.graphs.equalizers]
equalizers_coincide.C [variable, in UniMath.CategoryTheory.limits.graphs.equalizers]
equalizers_coincide [section, in UniMath.CategoryTheory.limits.graphs.equalizers]
Equalizers_from_Lims [lemma, in UniMath.CategoryTheory.limits.graphs.equalizers]
Equalizers_opp [definition, in UniMath.CategoryTheory.limits.Opp]
Equalizers' [section, in UniMath.CategoryTheory.limits.equalizers]
Equalizer_eq2 [definition, in UniMath.CategoryTheory.Abelian]
Equalizer_eq1 [definition, in UniMath.CategoryTheory.Abelian]
Equalizer_Pullback [definition, in UniMath.CategoryTheory.Abelian]
Equalizer_isMonic [definition, in UniMath.CategoryTheory.Abelian]
Equalizer_cone [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
Equalizer_diagram [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
Equalizer_graph [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
Equalizer_opp [definition, in UniMath.CategoryTheory.limits.Opp]
equation [definition, in UniMath.Algebra.Universal.Equations]
equations [definition, in UniMath.Algebra.Universal.Equations]
Equations [section, in UniMath.Algebra.Universal.Equations]
Equations [library]
Equivalence [definition, in UniMath.MoreFoundations.Equivalences]
EquivalenceOfTwoDefinitions [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EquivalenceOfTwoDefinitions [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Equivalences [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Equivalences [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Equivalences [library]
Equivalences [library]
EquivalenceSignaturesABStrongFunctors [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Equivalences_bis [library]
Equivalence_to_weq [definition, in UniMath.MoreFoundations.Equivalences]
Equivalence_toAdjointness [definition, in UniMath.MoreFoundations.Equivalences]
Equivalence_toSourceHomotopy [definition, in UniMath.MoreFoundations.Equivalences]
Equivalence_toTargetHomotopy [definition, in UniMath.MoreFoundations.Equivalences]
Equivalence_toInverseFunction [definition, in UniMath.MoreFoundations.Equivalences]
Equivalence_to_isEquivalence [definition, in UniMath.MoreFoundations.Equivalences]
Equivalence_toFunction [definition, in UniMath.MoreFoundations.Equivalences]
Equivalence_to_invweq [definition, in UniMath.MoreFoundations.MoreEquivalences]
equivalence_of_cats [definition, in UniMath.CategoryTheory.Equivalences.Core]
equivalence_homtype_property [lemma, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
Equivalence_Relations [library]
EquivalentDefinition [section, in UniMath.CategoryTheory.limits.bincoproducts]
EquivalentDefinition [section, in UniMath.CategoryTheory.limits.binproducts]
equivariance [definition, in UniMath.Algebra.GroupAction]
EquivToAdjEquiv [section, in UniMath.Bicategories.Core.EquivToAdjequiv]
EquivToAdjequiv [library]
EquivToAdjEquiv.f [variable, in UniMath.Bicategories.Core.EquivToAdjequiv]
EquivToAdjEquiv.Hf [variable, in UniMath.Bicategories.Core.EquivToAdjequiv]
equiv_to_adjequiv [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
equiv_to_isadjequiv [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
equiv_to_adjequiv_isadj [lemma, in UniMath.Bicategories.Core.EquivToAdjequiv]
equiv_to_adjequiv_d [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
equiv_Kernel2 [definition, in UniMath.CategoryTheory.limits.graphs.kernels]
equiv_Kernel2_isEqualizer [lemma, in UniMath.CategoryTheory.limits.graphs.kernels]
equiv_Kernel2_eq [lemma, in UniMath.CategoryTheory.limits.graphs.kernels]
equiv_Kernel1 [definition, in UniMath.CategoryTheory.limits.graphs.kernels]
equiv_Kernel1_isEqualizer [lemma, in UniMath.CategoryTheory.limits.graphs.kernels]
equiv_Kernel1_eq [lemma, in UniMath.CategoryTheory.limits.graphs.kernels]
equiv_Terminal2 [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
equiv_Terminal1 [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
equiv_isTerminal2 [lemma, in UniMath.CategoryTheory.limits.graphs.terminal]
equiv_isTerminal1 [lemma, in UniMath.CategoryTheory.limits.graphs.terminal]
equiv_Cokernel2 [definition, in UniMath.CategoryTheory.limits.graphs.cokernels]
equiv_Cokernel2_isCoequalizer [lemma, in UniMath.CategoryTheory.limits.graphs.cokernels]
equiv_Cokernel2_eq [lemma, in UniMath.CategoryTheory.limits.graphs.cokernels]
equiv_Cokernel1 [definition, in UniMath.CategoryTheory.limits.graphs.cokernels]
equiv_Cokernel1_isCoequalizer [lemma, in UniMath.CategoryTheory.limits.graphs.cokernels]
equiv_Cokernel1_eq [lemma, in UniMath.CategoryTheory.limits.graphs.cokernels]
equiv_Coequalizer2 [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
equiv_Coequalizer1 [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
equiv_isCoequalizer2 [lemma, in UniMath.CategoryTheory.limits.graphs.coequalizers]
equiv_isCoequalizer1 [lemma, in UniMath.CategoryTheory.limits.graphs.coequalizers]
equiv_Pushout2 [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
equiv_Pushout1 [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
equiv_isPushout2 [lemma, in UniMath.CategoryTheory.limits.graphs.pushouts]
equiv_isPushout1 [lemma, in UniMath.CategoryTheory.limits.graphs.pushouts]
equiv_Equalizers2 [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
equiv_Equalizer2 [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
equiv_Equalizers1 [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
equiv_Equalizer1 [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
equiv_isEqualizer2 [lemma, in UniMath.CategoryTheory.limits.graphs.equalizers]
equiv_isEqualizer1 [lemma, in UniMath.CategoryTheory.limits.graphs.equalizers]
equiv_Initial2 [definition, in UniMath.CategoryTheory.limits.graphs.initial]
equiv_Initial1 [definition, in UniMath.CategoryTheory.limits.graphs.initial]
equiv_isInitial2 [lemma, in UniMath.CategoryTheory.limits.graphs.initial]
equiv_isInitial1 [lemma, in UniMath.CategoryTheory.limits.graphs.initial]
Equiv_rect [lemma, in UniMath.MoreFoundations.StructureIdentity]
equiv_cat_to_adj_equiv [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
Equiv_Fibers [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Equiv_from_ff_plus_ess_split.FFinv [variable, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Equiv_from_ff_plus_ess_split.FFweq [variable, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Equiv_from_ff_plus_ess_split [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
equiv_of_is_equiv_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
equiv_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
equiv_from_adj_equiv [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Equiv_Fibers [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
equiv_inv [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Equiv_from_ff_plus_ess_split.FFinv [variable, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Equiv_from_ff_plus_ess_split.FFweq [variable, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Equiv_from_ff_plus_ess_split [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
equiv_of_is_equiv_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
equiv_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
equiv_Pullbacks_2 [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
equiv_Pullback_2 [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
equiv_isPullback_2 [lemma, in UniMath.CategoryTheory.limits.graphs.pullbacks]
equiv_Pullbacks_1 [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
equiv_Pullback_1 [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
equiv_isPullback_1 [lemma, in UniMath.CategoryTheory.limits.graphs.pullbacks]
equiv_ZeroArrow [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
equiv_ZeroArrowFrom [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
equiv_ZeroArrowTo [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
equiv_Zero2 [definition, in UniMath.CategoryTheory.limits.graphs.zero]
equiv_Zero1 [definition, in UniMath.CategoryTheory.limits.graphs.zero]
equiv_isZero2 [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
equiv_isZero1 [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
eqv_inv [section, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
eqv_comp.HF' [variable, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
eqv_comp.HF [variable, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
eqv_comp [section, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
eqweqmap [definition, in UniMath.Foundations.UnivalenceAxiom]
eqweqmapap_inv' [definition, in UniMath.MoreFoundations.MoreEquivalences]
eqweqmapap_inv [definition, in UniMath.MoreFoundations.MoreEquivalences]
eqweqmaphProp [definition, in UniMath.Foundations.Propositions]
eqweqmap_weqtopaths [lemma, in UniMath.MoreFoundations.PartD]
eqweqmap_transportb [lemma, in UniMath.MoreFoundations.PartD]
eqweqmap_pathsinv0 [lemma, in UniMath.Foundations.PartD]
eqweqmap_pathscomp0 [lemma, in UniMath.Foundations.PartD]
eqweqmap_ap' [definition, in UniMath.MoreFoundations.Univalence]
eqweqmap_ap [definition, in UniMath.MoreFoundations.Univalence]
eqweq_fully_faithful_is_functor_app [lemma, in UniMath.CategoryTheory.catiso]
eqweq_correct_hom_is_comp [lemma, in UniMath.CategoryTheory.catiso]
eqweq_maponpaths_mor [lemma, in UniMath.CategoryTheory.catiso]
eqweq_ob_path_is_functor_app_compute [lemma, in UniMath.CategoryTheory.catiso]
eqweq_ob_path_is_functor_app [lemma, in UniMath.CategoryTheory.catiso]
eq_d:141 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag_liftlimcone [definition, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_d:135 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag_liftcolimcocone [definition, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_d:123 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag_iscolimcocone [lemma, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_d:115 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag_islimcone [lemma, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag_mkcone [lemma, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag_mkcocone [lemma, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag_is_eq [lemma, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_is_eq_diag [lemma, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_v:33 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag [definition, in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_pb_1cell [definition, in UniMath.Bicategories.Colimits.Pullback]
eq_lift_2cell_alt [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
eq_lift_2cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
eq_iso_disp [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
eq_corecM0 [lemma, in UniMath.Induction.M.ComputationalM]
eq_po_pw [lemma, in UniMath.CategoryTheory.EpiFacts]
eq_coeq_pw [lemma, in UniMath.CategoryTheory.EpiFacts]
eq_pb_pw [lemma, in UniMath.CategoryTheory.EpiFacts]
eq_z_iso [lemma, in UniMath.CategoryTheory.Core.Isos]
eq_iso [lemma, in UniMath.CategoryTheory.Core.Isos]
eq_idto1_idto2 [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
eq_α:81 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq_ρ:80 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq_λ:79 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq_α:59 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq_ρ:57 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq_λ:55 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq_iso_slicecat [lemma, in UniMath.CategoryTheory.slicecat]
eq_mor_slicecat_weq [definition, in UniMath.CategoryTheory.slicecat]
eq_mor_slicecat_isweq [lemma, in UniMath.CategoryTheory.slicecat]
eq_mor_slicecat [lemma, in UniMath.CategoryTheory.slicecat]
eq_isotoid [lemma, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
eq_discrete_fib_mor [lemma, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
eq_in_sub_precategory [lemma, in UniMath.CategoryTheory.Subcategory.Core]
eq_binprod_1cell [definition, in UniMath.Bicategories.Colimits.Products]
eq_idtoiso_idtomor [lemma, in UniMath.CategoryTheory.Core.Univalence]
eq_CONE_pr1 [lemma, in UniMath.CategoryTheory.limits.cones]
eq_Cone_eq [lemma, in UniMath.CategoryTheory.limits.cones]
eq_ConeData_eq [lemma, in UniMath.CategoryTheory.limits.cones]
eq_equalities_between_pairs [lemma, in UniMath.MoreFoundations.PartA]
eq_ptd_mor_cat [lemma, in UniMath.CategoryTheory.PointedFunctors]
eq_ptd_mor [lemma, in UniMath.CategoryTheory.PointedFunctors]
eq0orgt0NonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
eq1 [lemma, in UniMath.Induction.M.ComputationalM]
eq1:57 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
eq1:73 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq1:813 [binder, in UniMath.Algebra.RigsAndRings]
eq2 [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
eq2 [lemma, in UniMath.Induction.M.ComputationalM]
eq2:59 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
eq2:74 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq2:814 [binder, in UniMath.Algebra.RigsAndRings]
eq3 [lemma, in UniMath.Induction.M.ComputationalM]
eq:11 [binder, in UniMath.MoreFoundations.NoInjectivePairing]
eq:12 [binder, in UniMath.Algebra.Universal.Equations]
eq:221 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
eq:228 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
eq:299 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
Eq:302 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Eq:309 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Eq:320 [binder, in UniMath.CategoryTheory.limits.pullbacks]
eq:388 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
eq:394 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
eq:6 [binder, in UniMath.Algebra.Universal.Equations]
eq:9 [binder, in UniMath.Algebra.Universal.Equations]
esF:387 [binder, in UniMath.CategoryTheory.Core.Functors]
esG:389 [binder, in UniMath.CategoryTheory.Core.Functors]
EssentiallyAlgebraic [library]
essentially_surjective [definition, in UniMath.CategoryTheory.Core.Functors]
essentially_surjective [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Essential_Surjectivity [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Essential_Surjectivity [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
eta [definition, in UniMath.CategoryTheory.slicecat]
eta [definition, in UniMath.CategoryTheory.categories.HSET.Slice]
eta [definition, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
etaeps:24 [binder, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
etaeps:60 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
etainv_morph_law [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
etainv_morph [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
etainv_data_laws [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
etainv_data [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_natural [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_morph [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_data_laws [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_data [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_arrow_natural [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_arrow [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_data [definition, in UniMath.CategoryTheory.slicecat]
eta_from_alg [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
eta_unit [lemma, in UniMath.Induction.W.Naturals]
eta' [definition, in UniMath.CategoryTheory.exponentials]
eta:198 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
eta:20 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
eta:25 [binder, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
eta:38 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
eta:44 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
eta:5 [binder, in UniMath.CategoryTheory.Adjunctions.Restriction]
eta:50 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
eta:52 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
eta:65 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
eta:7 [binder, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
euclidean [definition, in UniMath.PAdics.z_mod_p]
euclideanalgorithm [lemma, in UniMath.PAdics.z_mod_p]
EVAL [definition, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
eval [definition, in UniMath.Algebra.Universal.FreeAlgebras]
eval [definition, in UniMath.CategoryTheory.categories.HSET.Structures]
evalat [definition, in UniMath.MoreFoundations.PartA]
evalhom [definition, in UniMath.Algebra.Universal.FreeAlgebras]
evalstep [lemma, in UniMath.Algebra.Universal.FreeAlgebras]
Evaluation [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
evaluation_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
evaluation_is_pstrans [lemma, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
evaluation_pstrans_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
evaluation_functor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
ExactCategories [library]
ExactCategory [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryAccessFunctions [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryData [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryDataToAdditiveCategory [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryFacts [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryFacts.Tmp [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryProperties [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryProperties_Quillen [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryToData [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactFunctor [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactFunctorToFunctor [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactIso1 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactIso2 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactIso3 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactPullback [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactPullback' [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactPushout [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactPushout' [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactSequenceFromEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactSequenceFromMono [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactSequence01 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactSequence10 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactToAdmEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactToAdmMono [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactToEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactToMono [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Examples [library]
Examples [library]
Examples [library]
exch [definition, in UniMath.SubstitutionSystems.STLC_alt]
exinv:12 [binder, in UniMath.RealNumbers.Sets]
exinv:19 [binder, in UniMath.RealNumbers.Sets]
exinv:5 [binder, in UniMath.RealNumbers.Sets]
exists_monotone [definition, in UniMath.Algebra.FixedPointTheorems]
exp [definition, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
ExponentialFunctor [section, in UniMath.CategoryTheory.categories.Type.Structures]
Exponentials [definition, in UniMath.CategoryTheory.exponentials]
exponentials [section, in UniMath.CategoryTheory.exponentials]
exponentials [section, in UniMath.CategoryTheory.categories.HSET.Structures]
exponentials [library]
Exponentials_PreShv [lemma, in UniMath.CategoryTheory.Presheaf]
Exponentials_HSET [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
Exponentials_HSET2 [lemma, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
Exponentials_HSET_slice [lemma, in UniMath.CategoryTheory.categories.HSET.Slice]
Exponentials_functor_HSET [lemma, in UniMath.CategoryTheory.categories.HSET.Structures]
exponentials_functor_cat.cy [variable, in UniMath.CategoryTheory.categories.HSET.Structures]
exponentials_functor_cat.CP [variable, in UniMath.CategoryTheory.categories.HSET.Structures]
exponentials_functor_cat [section, in UniMath.CategoryTheory.categories.HSET.Structures]
Exponentials_HSET [lemma, in UniMath.CategoryTheory.categories.HSET.Structures]
exponentials.a [variable, in UniMath.CategoryTheory.exponentials]
exponentials.eps [variable, in UniMath.CategoryTheory.exponentials]
exponentials.eta [variable, in UniMath.CategoryTheory.exponentials]
exponentials.G [variable, in UniMath.CategoryTheory.exponentials]
exponentials.H [variable, in UniMath.CategoryTheory.exponentials]
exponentials.HF [variable, in UniMath.CategoryTheory.exponentials]
exponentials.H1 [variable, in UniMath.CategoryTheory.exponentials]
exponentials.H2 [variable, in UniMath.CategoryTheory.exponentials]
exponential_functor_cat [definition, in UniMath.CategoryTheory.categories.HSET.Structures]
exponential_functor [definition, in UniMath.CategoryTheory.categories.HSET.Structures]
ExponentiationLeftAdjoint [library]
exp_functor [definition, in UniMath.CategoryTheory.categories.Type.Structures]
exp_functor_is_functor [lemma, in UniMath.CategoryTheory.categories.Type.Structures]
exp_functor_data [definition, in UniMath.CategoryTheory.categories.Type.Structures]
exp_functor_arr [definition, in UniMath.CategoryTheory.categories.Type.Structures]
exp_functor_ob [definition, in UniMath.CategoryTheory.categories.Type.Structures]
exp_I [definition, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
exp_functor_list [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
exp_functor [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
exp_functor_list [definition, in UniMath.SubstitutionSystems.MultiSorted]
exp_functor [definition, in UniMath.SubstitutionSystems.MultiSorted]
ext [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
ExtendPseudoFunctor [section, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
extend_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
ExtMor'_Comm3 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
ExtMor'_Comm1 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
ExtMor1 [definition, in UniMath.HomologicalAlgebra.Triangulated]
ExtMor2 [definition, in UniMath.HomologicalAlgebra.Triangulated]
ExtMor2_Comm3 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
ExtMor2_Comm2 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
ExtMor2_Comm [lemma, in UniMath.HomologicalAlgebra.Triangulated]
extphi [lemma, in UniMath.CategoryTheory.precomp_ess_surj]
extruncminus [definition, in UniMath.Algebra.Lattice]
exts_lift_sums [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
exts_lift [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Ext_isomorphisms [section, in UniMath.HomologicalAlgebra.Triangulated]
Ext:582 [binder, in UniMath.HomologicalAlgebra.Triangulated]
ex_lim_seq [definition, in UniMath.RealNumbers.NonnegativeReals]
ex_lim_seq [definition, in UniMath.RealNumbers.Reals]
ex_lim_base_correct [lemma, in UniMath.Topology.Topology]
ex_lim_base [definition, in UniMath.Topology.Topology]
ex_lim [definition, in UniMath.Topology.Topology]
ex_filter_lim_base_correct [lemma, in UniMath.Topology.Topology]
ex_filter_lim_base [definition, in UniMath.Topology.Topology]
ex_filter_lim [definition, in UniMath.Topology.Topology]
ex_filter_le [lemma, in UniMath.Topology.Filters]
ex:190 [binder, in UniMath.Foundations.PartA]
ex:210 [binder, in UniMath.Foundations.PartA]
ex:23 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
ex:237 [binder, in UniMath.Algebra.Lattice]
ex:240 [binder, in UniMath.Algebra.Lattice]
ex:245 [binder, in UniMath.Algebra.Lattice]
ex:286 [binder, in UniMath.Algebra.Lattice]
ey:191 [binder, in UniMath.Foundations.PartA]
ey:211 [binder, in UniMath.Foundations.PartA]
ezmap [definition, in UniMath.Foundations.PartA]
ezmaphf [definition, in UniMath.Foundations.PartA]
ezmappr1 [definition, in UniMath.Foundations.PartA]
ezmap1 [definition, in UniMath.Foundations.PartA]
ezweq [definition, in UniMath.Foundations.PartA]
ezweqg [definition, in UniMath.Foundations.PartA]
ezweqhf [definition, in UniMath.Foundations.PartA]
ezweqpr1 [definition, in UniMath.Foundations.PartA]
ezweq1 [definition, in UniMath.Foundations.PartA]
ezweq1g [definition, in UniMath.Foundations.PartA]
ezweq1pr1 [definition, in UniMath.Foundations.PartA]
ezweq2 [definition, in UniMath.Foundations.PartA]
ezweq2g [definition, in UniMath.Foundations.PartA]
ezweq3g [definition, in UniMath.Foundations.PartA]
ez:1857 [binder, in UniMath.Foundations.PartA]
ez:1865 [binder, in UniMath.Foundations.PartA]
ez:1872 [binder, in UniMath.Foundations.PartA]
ez:1879 [binder, in UniMath.Foundations.PartA]
ez:1886 [binder, in UniMath.Foundations.PartA]
ez:1918 [binder, in UniMath.Foundations.PartA]
E_corr:461 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_bot:460 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_corr:458 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_bot:457 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_corr:455 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_bot:454 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_open:452 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_bot:449 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_corr:434 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_open:433 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_bot:432 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_corr:430 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_bot:429 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_corr:421 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_open:418 [binder, in UniMath.RealNumbers.NonnegativeReals]
E_bot:415 [binder, in UniMath.RealNumbers.NonnegativeReals]
e_B:100 [binder, in UniMath.Algebra.FixedPointTheorems]
e_A:99 [binder, in UniMath.Algebra.FixedPointTheorems]
E_implies_folds_iso [lemma, in UniMath.Folds.folds_pre_2_cat]
E_transport_target [lemma, in UniMath.Folds.folds_pre_2_cat]
E_transport_source [lemma, in UniMath.Folds.folds_pre_2_cat]
E_is_good_to_I_and_T [definition, in UniMath.Folds.folds_pre_2_cat]
e_lt:34 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
e_lt:29 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
e_x:93 [binder, in UniMath.MoreFoundations.PartA]
e_y:90 [binder, in UniMath.MoreFoundations.PartA]
e_z:87 [binder, in UniMath.MoreFoundations.PartA]
e_w:84 [binder, in UniMath.MoreFoundations.PartA]
e_w:71 [binder, in UniMath.MoreFoundations.PartA]
e_x:62 [binder, in UniMath.MoreFoundations.PartA]
e_z:58 [binder, in UniMath.MoreFoundations.PartA]
e_x:50 [binder, in UniMath.MoreFoundations.PartA]
e_y:47 [binder, in UniMath.MoreFoundations.PartA]
e_z:44 [binder, in UniMath.MoreFoundations.PartA]
e_z:33 [binder, in UniMath.MoreFoundations.PartA]
e_x:25 [binder, in UniMath.MoreFoundations.PartA]
e_y:22 [binder, in UniMath.MoreFoundations.PartA]
e_y:13 [binder, in UniMath.MoreFoundations.PartA]
e_fun:105 [binder, in UniMath.Combinatorics.WellFoundedRelations]
e_el:133 [binder, in UniMath.Combinatorics.FiniteSequences]
e_len:129 [binder, in UniMath.Combinatorics.FiniteSequences]
e_comm [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
e'':1295 [binder, in UniMath.Foundations.PartA]
e'':1296 [binder, in UniMath.Foundations.PartA]
e'':220 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
e'':292 [binder, in UniMath.HomologicalAlgebra.Complexes]
e'':325 [binder, in UniMath.HomologicalAlgebra.Complexes]
e':1291 [binder, in UniMath.Foundations.PartA]
e':13 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
e':147 [binder, in UniMath.MoreFoundations.PartA]
E':167 [binder, in UniMath.CategoryTheory.limits.equalizers]
E':167 [binder, in UniMath.CategoryTheory.limits.coequalizers]
E':173 [binder, in UniMath.CategoryTheory.limits.equalizers]
E':173 [binder, in UniMath.CategoryTheory.limits.coequalizers]
E':179 [binder, in UniMath.CategoryTheory.limits.equalizers]
E':179 [binder, in UniMath.CategoryTheory.limits.coequalizers]
E':185 [binder, in UniMath.CategoryTheory.limits.equalizers]
E':185 [binder, in UniMath.CategoryTheory.limits.coequalizers]
e':19 [binder, in UniMath.CategoryTheory.Core.Setcategories]
E':191 [binder, in UniMath.CategoryTheory.limits.equalizers]
E':197 [binder, in UniMath.CategoryTheory.limits.equalizers]
e':219 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
e':298 [binder, in UniMath.HomologicalAlgebra.Complexes]
e':333 [binder, in UniMath.HomologicalAlgebra.Complexes]
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e:49 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
e:49 [binder, in UniMath.CategoryTheory.limits.products]
e:491 [binder, in UniMath.CategoryTheory.LocalizingClass]
e:494 [binder, in UniMath.NumberSystems.Integers]
e:495 [binder, in UniMath.NumberSystems.Integers]
e:497 [binder, in UniMath.NumberSystems.Integers]
e:497 [binder, in UniMath.Foundations.PartA]
e:498 [binder, in UniMath.NumberSystems.Integers]
e:5 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
e:5 [binder, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
e:50 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
E:50 [binder, in UniMath.CategoryTheory.PseudoElements]
E:50 [binder, in UniMath.Ktheory.GrothendieckGroup]
e:50 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
e:50 [binder, in UniMath.Combinatorics.WellFoundedRelations]
e:50 [binder, in UniMath.Induction.W.Naturals]
e:500 [binder, in UniMath.NumberSystems.Integers]
e:501 [binder, in UniMath.CategoryTheory.Core.Functors]
e:501 [binder, in UniMath.NumberSystems.Integers]
e:502 [binder, in UniMath.CategoryTheory.Core.Functors]
e:503 [binder, in UniMath.CategoryTheory.Core.Functors]
e:503 [binder, in UniMath.Foundations.PartA]
e:504 [binder, in UniMath.CategoryTheory.Core.Functors]
e:504 [binder, in UniMath.NumberSystems.Integers]
e:505 [binder, in UniMath.CategoryTheory.Core.Functors]
e:506 [binder, in UniMath.CategoryTheory.Core.Functors]
e:507 [binder, in UniMath.CategoryTheory.Core.Functors]
e:508 [binder, in UniMath.CategoryTheory.Core.Functors]
e:509 [binder, in UniMath.NumberSystems.Integers]
e:51 [binder, in UniMath.CategoryTheory.Monads.MonadAlgebras]
E:51 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
e:51 [binder, in UniMath.CategoryTheory.limits.cokernels]
e:51 [binder, in UniMath.Combinatorics.GraphPaths]
e:51 [binder, in UniMath.Induction.W.Naturals]
e:512 [binder, in UniMath.Foundations.PartB]
e:512 [binder, in UniMath.NumberSystems.Integers]
e:512 [binder, in UniMath.Foundations.PartA]
e:515 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
e:516 [binder, in UniMath.NumberSystems.Integers]
e:518 [binder, in UniMath.Foundations.PartA]
e:52 [binder, in UniMath.CategoryTheory.ElementsOp]
e:52 [binder, in UniMath.Combinatorics.OrderedSets]
E:52 [binder, in UniMath.CategoryTheory.limits.Opp]
e:521 [binder, in UniMath.NumberSystems.Integers]
e:521 [binder, in UniMath.MoreFoundations.PartA]
e:524 [binder, in UniMath.Foundations.PartA]
e:526 [binder, in UniMath.NumberSystems.Integers]
E:527 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:53 [binder, in UniMath.CategoryTheory.opp_precat]
E:531 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:534 [binder, in UniMath.NumberSystems.Integers]
e:535 [binder, in UniMath.NumberSystems.Integers]
E:535 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:537 [binder, in UniMath.NumberSystems.Integers]
E:538 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:54 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
e:54 [binder, in UniMath.CategoryTheory.Monads.MonadAlgebras]
E:54 [binder, in UniMath.Ktheory.GrothendieckGroup]
e:54 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:543 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
E:543 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:55 [binder, in UniMath.Algebra.Domains_and_Fields]
e:55 [binder, in UniMath.Combinatorics.Graph]
e:55 [binder, in UniMath.Combinatorics.GraphPaths]
E:551 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:556 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
e:56 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
E:560 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:564 [binder, in UniMath.Foundations.NaturalNumbers]
e:565 [binder, in UniMath.NumberSystems.Integers]
e:566 [binder, in UniMath.Bicategories.Core.Bicat]
E:566 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:567 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
e:569 [binder, in UniMath.MoreFoundations.PartA]
E:57 [binder, in UniMath.CategoryTheory.limits.Opp]
e:57 [binder, in UniMath.Combinatorics.StandardFiniteSets]
e:570 [binder, in UniMath.Combinatorics.StandardFiniteSets]
E:570 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:571 [binder, in UniMath.NumberSystems.Integers]
e:576 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:576 [binder, in UniMath.Combinatorics.StandardFiniteSets]
e:577 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:578 [binder, in UniMath.Foundations.Sets]
e:58 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
e:58 [binder, in UniMath.Algebra.Groups]
E:58 [binder, in UniMath.CategoryTheory.limits.Opp]
E:58 [binder, in UniMath.Combinatorics.GraphPaths]
e:581 [binder, in UniMath.NumberSystems.Integers]
e:581 [binder, in UniMath.MoreFoundations.PartA]
e:585 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:588 [binder, in UniMath.Foundations.Sets]
e:59 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
e:59 [binder, in UniMath.Algebra.Monoids]
E:59 [binder, in UniMath.CategoryTheory.limits.Opp]
e:59 [binder, in UniMath.CategoryTheory.limits.graphs.zero]
e:59 [binder, in UniMath.Combinatorics.WellFoundedRelations]
e:593 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
e:594 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
e:594 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:597 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
e:599 [binder, in UniMath.Foundations.Sets]
e:6 [binder, in UniMath.CategoryTheory.Presheaf]
e:6 [binder, in UniMath.SubstitutionSystems.CCS_alt]
e:6 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
e:6 [binder, in UniMath.SubstitutionSystems.CCS]
e:6 [binder, in UniMath.MoreFoundations.PartA]
E:6 [binder, in UniMath.Combinatorics.GraphPaths]
E:60 [binder, in UniMath.Combinatorics.ZFstructures]
e:60 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
E:60 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
E:60 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
e:60 [binder, in UniMath.Induction.M.Limits]
e:60 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:601 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:603 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
e:605 [binder, in UniMath.Foundations.Sets]
e:608 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:609 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
e:61 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:61 [binder, in UniMath.CategoryTheory.limits.equalizers]
e:61 [binder, in UniMath.MoreFoundations.Univalence]
e:61 [binder, in UniMath.CategoryTheory.limits.coequalizers]
e:610 [binder, in UniMath.MoreFoundations.PathsOver]
e:610 [binder, in UniMath.Foundations.Sets]
e:611 [binder, in UniMath.Foundations.PartA]
e:612 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
e:613 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
e:615 [binder, in UniMath.HomologicalAlgebra.Complexes]
E:62 [binder, in UniMath.CategoryTheory.HorizontalComposition]
e:62 [binder, in UniMath.CategoryTheory.Monics]
e:62 [binder, in UniMath.CategoryTheory.limits.graphs.zero]
e:620 [binder, in UniMath.MoreFoundations.PathsOver]
e:622 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:626 [binder, in UniMath.Foundations.PartB]
e:627 [binder, in UniMath.Foundations.PartB]
e:629 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:63 [binder, in UniMath.MoreFoundations.NullHomotopies]
E:63 [binder, in UniMath.Ktheory.GrothendieckGroup]
e:63 [binder, in UniMath.Algebra.Groups]
e:63 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
e:63 [binder, in UniMath.CategoryTheory.Epis]
e:636 [binder, in UniMath.HomologicalAlgebra.Complexes]
e:643 [binder, in UniMath.HomologicalAlgebra.Complexes]
E:65 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
E:65 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
E:65 [binder, in UniMath.Combinatorics.GraphPaths]
e:650 [binder, in UniMath.MoreFoundations.PartA]
e:651 [binder, in UniMath.Foundations.PartA]
e:652 [binder, in UniMath.Foundations.PartB]
e:653 [binder, in UniMath.Foundations.PartB]
e:66 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:67 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
e:67 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
e:68 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
e:68 [binder, in UniMath.CategoryTheory.limits.zero]
e:68 [binder, in UniMath.CategoryTheory.limits.equalizers]
E:68 [binder, in UniMath.CategoryTheory.Monics]
e:68 [binder, in UniMath.MoreFoundations.Univalence]
e:68 [binder, in UniMath.CategoryTheory.limits.coequalizers]
e:69 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
e:69 [binder, in UniMath.CategoryTheory.Monics]
E:69 [binder, in UniMath.CategoryTheory.Epis]
e:7 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
E:7 [binder, in UniMath.Algebra.Modules.Quotient]
e:7 [binder, in UniMath.SubstitutionSystems.PCF_alt]
e:7 [binder, in UniMath.CategoryTheory.limits.equalizers]
e:7 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
e:7 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
e:7 [binder, in UniMath.CategoryTheory.limits.coequalizers]
e:7 [binder, in UniMath.Induction.M.Limits]
E:70 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
E:70 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
e:70 [binder, in UniMath.Algebra.Groups]
e:70 [binder, in UniMath.Combinatorics.GraphPaths]
e:70 [binder, in UniMath.CategoryTheory.Epis]
e:71 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
e:71 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
E:71 [binder, in UniMath.CategoryTheory.HorizontalComposition]
e:72 [binder, in UniMath.MoreFoundations.MoreEquivalences]
E:72 [binder, in UniMath.Combinatorics.GraphPaths]
e:72 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:721 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
e:722 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
e:723 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
e:724 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
e:725 [binder, in UniMath.MoreFoundations.PartA]
e:73 [binder, in UniMath.CategoryTheory.limits.zero]
e:73 [binder, in UniMath.CategoryTheory.limits.cats.limits]
e:73 [binder, in UniMath.MoreFoundations.Univalence]
e:73 [binder, in UniMath.MoreFoundations.Subtypes]
e:731 [binder, in UniMath.MoreFoundations.PartA]
E:739 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
E:74 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
E:74 [binder, in UniMath.CategoryTheory.Monics]
E:75 [binder, in UniMath.CategoryTheory.Abelian]
e:75 [binder, in UniMath.CategoryTheory.Monics]
E:75 [binder, in UniMath.CategoryTheory.Epis]
e:76 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
E:76 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
e:76 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
E:76 [binder, in UniMath.CategoryTheory.Additive]
e:76 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:76 [binder, in UniMath.CategoryTheory.Epis]
e:765 [binder, in UniMath.Foundations.PartA]
e:77 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
e:77 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:77 [binder, in UniMath.MoreFoundations.Nat]
E:78 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
e:78 [binder, in UniMath.MoreFoundations.MoreEquivalences]
E:78 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
e:78 [binder, in UniMath.MoreFoundations.Univalence]
E:78 [binder, in UniMath.Combinatorics.GraphPaths]
e:787 [binder, in UniMath.MoreFoundations.PartA]
e:79 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
e:79 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
e:79 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
e:793 [binder, in UniMath.Foundations.PartA]
e:799 [binder, in UniMath.Foundations.PartA]
E:8 [binder, in UniMath.Algebra.Modules.Quotient]
e:8 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
e:8 [binder, in UniMath.Algebra.Universal.EqAlgebras]
e:8 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
E:80 [binder, in UniMath.CategoryTheory.HorizontalComposition]
e:80 [binder, in UniMath.Combinatorics.StandardFiniteSets]
e:80 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:806 [binder, in UniMath.Foundations.PartA]
e:807 [binder, in UniMath.MoreFoundations.PartA]
E:81 [binder, in UniMath.CategoryTheory.Additive]
e:811 [binder, in UniMath.MoreFoundations.PartA]
e:812 [binder, in UniMath.Foundations.PartA]
e:82 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
E:82 [binder, in UniMath.Combinatorics.GraphPaths]
e:82 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
e:82 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
e:821 [binder, in UniMath.Foundations.PartA]
e:822 [binder, in UniMath.Foundations.PartA]
e:829 [binder, in UniMath.Foundations.PartA]
E:83 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
E:83 [binder, in UniMath.CategoryTheory.limits.equalizers]
E:83 [binder, in UniMath.CategoryTheory.limits.coequalizers]
e:83 [binder, in UniMath.MoreFoundations.Nat]
e:838 [binder, in UniMath.Foundations.PartA]
e:84 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:85 [binder, in UniMath.Algebra.Domains_and_Fields]
e:858 [binder, in UniMath.Foundations.PartA]
E:86 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
E:86 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
e:86 [binder, in UniMath.Algebra.RigsAndRings]
E:86 [binder, in UniMath.Combinatorics.GraphPaths]
E:86 [binder, in UniMath.CategoryTheory.Additive]
e:868 [binder, in UniMath.Bicategories.Core.Bicat]
e:87 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
e:87 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
e:87 [binder, in UniMath.CategoryTheory.Profunctors.Core]
e:877 [binder, in UniMath.Bicategories.Core.Bicat]
E:88 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
e:88 [binder, in UniMath.Foundations.PartB]
E:88 [binder, in UniMath.CategoryTheory.limits.equalizers]
e:88 [binder, in UniMath.Induction.M.Chains]
e:88 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
e:88 [binder, in UniMath.CategoryTheory.Profunctors.Core]
E:88 [binder, in UniMath.CategoryTheory.limits.coequalizers]
E:885 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
e:886 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
E:887 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
e:887 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:888 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
E:89 [binder, in UniMath.CategoryTheory.HorizontalComposition]
e:9 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
E:9 [binder, in UniMath.Algebra.Modules.Quotient]
e:9 [binder, in UniMath.CategoryTheory.limits.cats.limits]
e:9 [binder, in UniMath.MoreFoundations.Interval]
e:9 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:9 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
e:90 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:91 [binder, in UniMath.Algebra.Domains_and_Fields]
e:91 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:918 [binder, in UniMath.Bicategories.Core.Bicat]
e:92 [binder, in UniMath.Foundations.PartB]
E:93 [binder, in UniMath.CategoryTheory.limits.equalizers]
E:93 [binder, in UniMath.CategoryTheory.limits.coequalizers]
e:93 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:95 [binder, in UniMath.Induction.M.Chains]
e:958 [binder, in UniMath.Foundations.PartA]
e:96 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
e:96 [binder, in UniMath.Algebra.GroupAction]
e:96 [binder, in UniMath.Combinatorics.WellFoundedRelations]
e:964 [binder, in UniMath.Foundations.PartA]
e:97 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
e:97 [binder, in UniMath.Combinatorics.WellFoundedRelations]
e:970 [binder, in UniMath.Foundations.PartA]
e:972 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:976 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:976 [binder, in UniMath.Foundations.PartA]
E:98 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
e:98 [binder, in UniMath.CategoryTheory.limits.pushouts]
E:98 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
E:98 [binder, in UniMath.CategoryTheory.limits.equalizers]
e:98 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
E:98 [binder, in UniMath.CategoryTheory.limits.coequalizers]
e:980 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:985 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:99 [binder, in UniMath.MoreFoundations.PartA]
e:99 [binder, in UniMath.CategoryTheory.limits.pullbacks]
e₀:6 [binder, in UniMath.CategoryTheory.categories.Graph]
E₁ [abbreviation, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
E₁_to_E₂ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
E₁_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
E₁_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
e₁:10 [binder, in UniMath.CategoryTheory.categories.Graph]
e₁:174 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
e₁:19 [binder, in UniMath.Bicategories.Modifications.Examples.ApModification]
e₁:5 [binder, in UniMath.Bicategories.Modifications.Examples.ApModification]
e₁:886 [binder, in UniMath.MoreFoundations.PartA]
E₂ [abbreviation, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
E₂_to_E₁_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
E₂_to_E₁ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
e₂:175 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
e₂:20 [binder, in UniMath.Bicategories.Modifications.Examples.ApModification]
e₂:6 [binder, in UniMath.Bicategories.Modifications.Examples.ApModification]
e₂:889 [binder, in UniMath.MoreFoundations.PartA]

F

F [definition, in UniMath.AlgebraicGeometry.SheavesOfRings]
F [abbreviation, in UniMath.Induction.W.Fibered]
F [abbreviation, in UniMath.Induction.M.Core]
F [abbreviation, in UniMath.Induction.W.Uniqueness]
F [abbreviation, in UniMath.Induction.M.ComputationalM]
f [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
F [abbreviation, in UniMath.Induction.M.Uniqueness]
F [abbreviation, in UniMath.CategoryTheory.Adjunctions.Core]
F [abbreviation, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
F [abbreviation, in UniMath.CategoryTheory.exponentials]
f [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
F [abbreviation, in UniMath.Induction.W.Core]
FAa [definition, in UniMath.CategoryTheory.FunctorAlgebras]
factorial [definition, in UniMath.Foundations.NaturalNumbers]
factorization1 [lemma, in UniMath.CategoryTheory.Abelian]
factorization1_monic [definition, in UniMath.CategoryTheory.Abelian]
factorization1_epi [definition, in UniMath.CategoryTheory.Abelian]
factorization1_is_epi [lemma, in UniMath.CategoryTheory.Abelian]
factorization2 [definition, in UniMath.CategoryTheory.Abelian]
factorization2_epi [definition, in UniMath.CategoryTheory.Abelian]
factorization2_monic [definition, in UniMath.CategoryTheory.Abelian]
factorization2_is_monic [lemma, in UniMath.CategoryTheory.Abelian]
factor_through_squash [lemma, in UniMath.Foundations.Propositions]
factor_through_squash_hProp [lemma, in UniMath.MoreFoundations.Propositions]
factor_dep_through_squash [lemma, in UniMath.MoreFoundations.Propositions]
facts [section, in UniMath.CategoryTheory.limits.zero]
facts.C [variable, in UniMath.CategoryTheory.limits.zero]
fact0 [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
fact1 [lemma, in UniMath.SyntheticHomotopyTheory.Circle2]
fact2 [lemma, in UniMath.SyntheticHomotopyTheory.Circle2]
fact3 [lemma, in UniMath.SyntheticHomotopyTheory.Circle2]
fact4 [lemma, in UniMath.SyntheticHomotopyTheory.Circle2]
fact5 [lemma, in UniMath.SyntheticHomotopyTheory.Circle2]
faithful [definition, in UniMath.CategoryTheory.Core.Functors]
faithful_invertible [definition, in UniMath.Bicategories.Core.FullyFaithful]
faithful_1cell_weq_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
faithful_to_faithful_1cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
faithful_1cell_to_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
faithful_1cell_eq_cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
faithful_1cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
faithful_sub_precategory_inclusion [lemma, in UniMath.CategoryTheory.Subcategory.Full]
faithful_reflects_commutative_triangle [lemma, in UniMath.CategoryTheory.Core.Functors]
faithful_pr1_category [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
faithful_reflects_epis [lemma, in UniMath.CategoryTheory.EpiFacts]
faithful_reflects_mono [lemma, in UniMath.CategoryTheory.Monics]
faithful_hss_to_monad [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
faithful_hss_to_monad [lemma, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
faithF:403 [binder, in UniMath.CategoryTheory.Core.Functors]
faithG:405 [binder, in UniMath.CategoryTheory.Core.Functors]
false [constructor, in UniMath.Foundations.Preamble]
falsetonegtrue [definition, in UniMath.Foundations.PartA]
falseWitness [definition, in UniMath.MoreFoundations.DecidablePropositions]
fam [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
famhomotfun [definition, in UniMath.Foundations.PartA]
famhomothomothomot [definition, in UniMath.Foundations.PartA]
family_lub [definition, in UniMath.Algebra.FixedPointTheorems]
family_functor [definition, in UniMath.CategoryTheory.ProductCategory]
family_functor_data [definition, in UniMath.CategoryTheory.ProductCategory]
fam_counit [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_all_iso [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_iso [lemma, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_unit [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_unit_fun [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_unit_fun_fun [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_to_slice [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_to_slice_data [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_to_slice_mor [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_to_slice_fun [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fapp:11 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fapp:13 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
fapp:14 [binder, in UniMath.SubstitutionSystems.CCS_alt]
fapp:15 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fapp:15 [binder, in UniMath.SubstitutionSystems.STLC_alt]
fapp:17 [binder, in UniMath.SubstitutionSystems.STLC]
fapp:19 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fapp:19 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
fapp:21 [binder, in UniMath.SubstitutionSystems.CCS]
fapp:22 [binder, in UniMath.SubstitutionSystems.CCS_alt]
fapp:23 [binder, in UniMath.SubstitutionSystems.STLC_alt]
fapp:25 [binder, in UniMath.SubstitutionSystems.STLC]
fapp:25 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fapp:27 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
fapp:29 [binder, in UniMath.SubstitutionSystems.CCS]
fapp:31 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fapp:31 [binder, in UniMath.SubstitutionSystems.STLC_alt]
fapp:33 [binder, in UniMath.SubstitutionSystems.STLC]
fapp:39 [binder, in UniMath.SubstitutionSystems.STLC_alt]
fapp:49 [binder, in UniMath.SubstitutionSystems.STLC_alt]
fapp:5 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
fapp:7 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fapp:9 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
fap:11 [binder, in UniMath.CategoryTheory.limits.products]
Fa' [definition, in UniMath.CategoryTheory.FunctorAlgebras]
FA':114 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Fa':15 [binder, in UniMath.CategoryTheory.Chains.Adamek]
FA':45 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
FA':57 [binder, in UniMath.Induction.W.Naturals]
FA':70 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
FA:113 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
FA:40 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
FA:44 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
FA:56 [binder, in UniMath.Induction.W.Naturals]
FA:69 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
fbracket [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_for_LamE_algebra_on_Lam [definition, in UniMath.SubstitutionSystems.Lam]
fbracket_natural [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_τ [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_η [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_unique_target_pointwise [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_unique [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_unique_pointwise [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_for_LamE_algebra_on_Lam [definition, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
fbracket_natural [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Fcells:26 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
FComm1 [definition, in UniMath.CategoryTheory.FiveLemma]
FComm2 [definition, in UniMath.CategoryTheory.FiveLemma]
FComm3 [definition, in UniMath.CategoryTheory.FiveLemma]
FComm4 [definition, in UniMath.CategoryTheory.FiveLemma]
Fcomp:17 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
Fcomp:17 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
Fcomp:21 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Fcomp:21 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Fcomp:27 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
Fcomp:27 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
FC':20 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC':23 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC':26 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC':29 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC:10 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC:19 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC:22 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC:25 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC:28 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FDiff1 [definition, in UniMath.CategoryTheory.FiveLemma]
FDiff2 [definition, in UniMath.CategoryTheory.FiveLemma]
FDiff3 [definition, in UniMath.CategoryTheory.FiveLemma]
FDiff4 [definition, in UniMath.CategoryTheory.FiveLemma]
fd':195 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fd':203 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fD:105 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fD:106 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fd:127 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fd:134 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fd:141 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fd:194 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fd:202 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fD:47 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
fD:48 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
FEq1 [definition, in UniMath.CategoryTheory.FiveLemma]
FEq2 [definition, in UniMath.CategoryTheory.FiveLemma]
FEq3 [definition, in UniMath.CategoryTheory.FiveLemma]
FES:22 [binder, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
FES:28 [binder, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
FES:43 [binder, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
FEx1 [definition, in UniMath.CategoryTheory.FiveLemma]
FEx2 [definition, in UniMath.CategoryTheory.FiveLemma]
FEx3 [definition, in UniMath.CategoryTheory.FiveLemma]
FFdata:101 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FFdata:69 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
fff:114 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fff:122 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fff:129 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fff:138 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fff:147 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fff:157 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
FFF:21 [binder, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
FFF:27 [binder, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
fff:317 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
FFF:42 [binder, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
ffF:458 [binder, in UniMath.CategoryTheory.Core.Functors]
fff:464 [binder, in UniMath.CategoryTheory.Core.Functors]
ffgg [definition, in UniMath.Foundations.PartA]
ffG:460 [binder, in UniMath.CategoryTheory.Core.Functors]
FFinv_on_iso_is_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FFinv_transportf [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FFinv_on_iso_is_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FFinv_transportf [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ffi:131 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ffi:140 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ffi:149 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ffi:672 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ffi:677 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ffi:684 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
fforall:15 [binder, in UniMath.SubstitutionSystems.CCS_alt]
fforall:22 [binder, in UniMath.SubstitutionSystems.CCS]
fforall:23 [binder, in UniMath.SubstitutionSystems.CCS_alt]
fforall:30 [binder, in UniMath.SubstitutionSystems.CCS]
ff_is_inclusion_on_objects [lemma, in UniMath.CategoryTheory.Core.Functors]
ff_reflects_is_iso [lemma, in UniMath.CategoryTheory.Core.Functors]
FF_ff:1035 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff_essentially_surjective_to_split [lemma, in UniMath.CategoryTheory.Equivalences.Core]
FF_ff:258 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FF_split:257 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FF_ff:256 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF_split:255 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff_es_preserves_homsets [lemma, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
ff_es_homtype_property [lemma, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
ff_es_homtype_weq [lemma, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
ff_cart:29 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff'':225 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF':179 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff':18 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FF':188 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
FF':195 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff':20 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
ff':224 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff':255 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff':269 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff':30 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
ff':31 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff':33 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FF':334 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff':380 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff':477 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff':531 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff':66 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff':9 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
FF':943 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff':952 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF':953 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff':960 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF':963 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff':967 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff':971 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff':975 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff':979 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff':984 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff1:1138 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff1:1152 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff1:1257 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff1:1275 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff1:196 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff1:248 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff1:258 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff1:260 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff1:270 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff1:273 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff1:299 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff2:1139 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff2:1153 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff2:1258 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff2:1276 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff2:197 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff2:249 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff2:259 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff2:261 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff2:271 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff2:274 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff2:300 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff3:1140 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff3:1154 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:10 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
ff:10 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:1001 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:1003 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:101 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:101 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:101 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
FF:1010 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1016 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:102 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:102 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:102 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1020 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:1022 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1028 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:103 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:1034 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1041 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:105 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
ff:105 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:105 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:105 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:105 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ff:1053 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1057 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:1064 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1071 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:1078 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1085 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:1089 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:1098 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:11 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
ff:110 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:1104 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1108 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:111 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:1110 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:112 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:112 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:113 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:114 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:1142 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:115 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
FF:115 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:117 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1170 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:118 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:118 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:118 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:119 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:1190 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1194 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:12 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:12 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff:12 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:120 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:1206 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:121 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:1219 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:122 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
FF:123 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:123 [binder, in UniMath.Foundations.Propositions]
ff:123 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:123 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:1238 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:124 [binder, in UniMath.Foundations.Propositions]
ff:126 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:126 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:1274 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:128 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:128 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:129 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:129 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:129 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:1294 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:13 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ff:131 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
ff:1313 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:133 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:133 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:1334 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:135 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:1355 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:137 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:1372 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:138 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:1384 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:139 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:139 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:139 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:14 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:14 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
ff:140 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:1400 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:141 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:142 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:1426 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:144 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:145 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:146 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:1460 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:147 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:147 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:147 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:147 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:1471 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:148 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:1483 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:149 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:1497 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:151 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:1514 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:1519 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:152 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:1527 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:1529 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:153 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:1535 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:154 [binder, in UniMath.Algebra.FixedPointTheorems]
ff:154 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:154 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:1545 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:155 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:155 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:155 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FF:155 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:156 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:157 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:158 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:159 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:160 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:160 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:160 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:161 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:162 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:162 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:163 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:163 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:163 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:163 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:163 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:164 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
FF:165 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
FF:165 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:166 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:167 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:169 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:17 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:17 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:17 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
ff:17 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:170 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:170 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:171 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:171 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
FF:171 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:172 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
FF:174 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:175 [binder, in UniMath.Algebra.FixedPointTheorems]
ff:175 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:178 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF:178 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
FF:179 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:18 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:180 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:180 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:181 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:182 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:182 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:183 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:184 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:184 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:184 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:185 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:185 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
ff:185 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:189 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF:189 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:19 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
FF:19 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
FF:190 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:190 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:192 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:193 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:194 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:194 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
FF:196 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
FF:196 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:197 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:20 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
ff:20 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:201 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:201 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:202 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:202 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:203 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:206 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:21 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:21 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff:21 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:210 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:210 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:212 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:212 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:212 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:214 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:218 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:22 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
FF:221 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:222 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff:222 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:222 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:223 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:225 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:225 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:226 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:228 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:228 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:228 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:229 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:23 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
ff:23 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:230 [binder, in UniMath.Topology.Filters]
FF:230 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:234 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:235 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:235 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:235 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FF:235 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:236 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:236 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:237 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:237 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:238 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:238 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:238 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:24 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
FF:24 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:240 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:242 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:242 [binder, in UniMath.Foundations.PartD]
FF:242 [binder, in UniMath.CategoryTheory.Core.Functors]
ff:243 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:243 [binder, in UniMath.Foundations.UnivalenceAxiom]
ff:243 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:244 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:244 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:244 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:244 [binder, in UniMath.Topology.Filters]
ff:245 [binder, in UniMath.Foundations.PartD]
ff:245 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:246 [binder, in UniMath.Foundations.UnivalenceAxiom]
FF:246 [binder, in UniMath.Topology.Filters]
FF:247 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
FF:248 [binder, in UniMath.CategoryTheory.Core.Functors]
ff:249 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:249 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:25 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
ff:25 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:25 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
FF:250 [binder, in UniMath.Topology.Filters]
FF:252 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:254 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF:254 [binder, in UniMath.CategoryTheory.Core.Functors]
ff:254 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:254 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:254 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:254 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
FF:254 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:255 [binder, in UniMath.Topology.Filters]
ff:256 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:256 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
FF:256 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:258 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:26 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:26 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
ff:26 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
ff:26 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ff:260 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:260 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:261 [binder, in UniMath.CategoryTheory.Core.Functors]
ff:263 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:264 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
FF:266 [binder, in UniMath.CategoryTheory.Core.Functors]
ff:266 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:268 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:27 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
ff:27 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:270 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:270 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:271 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:273 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:274 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:275 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:275 [binder, in UniMath.CategoryTheory.Core.Functors]
ff:276 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:276 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:279 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:28 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:28 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:280 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:282 [binder, in UniMath.CategoryTheory.Core.Functors]
FF:282 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:283 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:284 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:284 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:285 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:287 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:288 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:289 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:289 [binder, in UniMath.CategoryTheory.Core.Functors]
ff:289 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:290 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:290 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:293 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:294 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FF:294 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:295 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:299 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:30 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:30 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:30 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
ff:300 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:301 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:301 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:304 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:305 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:305 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:306 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:307 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:309 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:309 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:31 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
ff:31 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:31 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:31 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
FF:310 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:311 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:311 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:312 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:314 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:315 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:315 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:317 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:319 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:32 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
ff:32 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FF:32 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ff:320 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:321 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:322 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:322 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:323 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:326 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:329 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:329 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:33 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:33 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff:330 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:332 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF:333 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:337 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:337 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:338 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:339 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:34 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:341 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:342 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:343 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:344 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:346 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:347 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:348 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:35 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:35 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
ff:35 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:351 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:353 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:355 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:355 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:356 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:36 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ff:361 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:364 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:364 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:365 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:366 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:366 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:37 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
FF:37 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ff:375 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:378 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:379 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:379 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:38 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:38 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:38 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
ff:39 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
FF:39 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ff:390 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:391 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:393 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:396 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:398 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:399 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:40 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:40 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
ff:401 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:408 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF:409 [binder, in UniMath.CategoryTheory.Core.Functors]
ff:41 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:41 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
FF:41 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ff:411 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:412 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:418 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:419 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:42 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
FF:422 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:423 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:426 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:438 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:440 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:446 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:45 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
ff:45 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:45 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
ff:45 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:45 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ff:45 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ff:459 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:46 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ff:469 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:47 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:473 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:476 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:478 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:48 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
ff:48 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
ff:48 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
FF:48 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FF:48 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
FF:49 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:491 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:496 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:496 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:505 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:508 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:51 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:51 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
ff:51 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:512 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:515 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:517 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:52 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:52 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
ff:522 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:528 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:529 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:53 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
ff:530 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:54 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:54 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:54 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ff:542 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:545 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:55 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:55 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
FF:55 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:557 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:56 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:56 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:569 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:57 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
ff:586 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:59 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
FF:6 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:6 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
FF:6 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FF:6 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:6 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:60 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
FF:60 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ff:601 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:61 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:61 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ff:61 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
FF:61 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ff:61 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
ff:61 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:612 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:62 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
ff:627 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:63 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:63 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:64 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:646 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:65 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:658 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:66 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:66 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ff:664 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:666 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:67 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
FF:67 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:675 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:682 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:689 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:690 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:695 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:7 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:7 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
ff:70 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:70 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:701 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:707 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:709 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:71 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:71 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
ff:723 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:734 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:74 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:74 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:75 [binder, in UniMath.CategoryTheory.Inductives.Lists]
ff:751 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:77 [binder, in UniMath.CategoryTheory.Inductives.Lists]
ff:77 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:770 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:78 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:78 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:78 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
FF:780 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:787 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:789 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:79 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:792 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:797 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:8 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
ff:8 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF:8 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ff:80 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:807 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:819 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:826 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:829 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:833 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:837 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:84 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:84 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:840 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:843 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:849 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:853 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:86 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:86 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:860 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:867 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:868 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:873 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:879 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:880 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:885 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:89 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:89 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
FF:893 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:897 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:9 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:90 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:902 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:909 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:91 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:91 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:918 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:925 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:93 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:933 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:933 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:94 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:94 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:942 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:951 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:952 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:959 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:96 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:962 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:966 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:970 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:971 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:974 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:977 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:978 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:98 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:983 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:984 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ff:99 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:99 [binder, in UniMath.CategoryTheory.Monics]
ff:990 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF:997 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF₁:1292 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF₁:141 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff₁:176 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FF₁:200 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff₁:209 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF₁:214 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
FF₁:226 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
FF₁:25 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
FF₁:272 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₁:294 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff₁:380 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF₁:42 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
FF₁:42 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
FF₁:441 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff₁:462 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff₁:482 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF₁:59 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
ff₁:65 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
FF₁:7 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₁:71 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
FF₁:8 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
FF₁:9 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
ff₁:915 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF₁:98 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₂:10 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
FF₂:1293 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
FF₂:142 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff₂:177 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FF₂:201 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff₂:210 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF₂:215 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
FF₂:227 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
FF₂:26 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
FF₂:273 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₂:295 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff₂:381 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF₂:43 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
FF₂:43 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
FF₂:442 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff₂:463 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff₂:483 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF₂:60 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
ff₂:66 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
FF₂:72 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
FF₂:8 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₂:9 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
ff₂:916 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF₂:99 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₃:100 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₃:274 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₃:443 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fginv [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
fginv_fginv [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
fginv_binopfun_homot [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
fginv_binopfun [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
fg_h:226 [binder, in UniMath.Folds.folds_pre_2_cat]
fg_h:92 [binder, in UniMath.Folds.folds_pre_2_cat]
fg_h:56 [binder, in UniMath.Folds.folds_precat]
fg':266 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
fg':269 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
fg:10 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
fg:10 [binder, in UniMath.CategoryTheory.limits.binproducts]
fg:11 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
FG:12 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
fg:138 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
fg:139 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
fg:198 [binder, in UniMath.CategoryTheory.limits.binproducts]
fg:200 [binder, in UniMath.CategoryTheory.limits.binproducts]
fg:224 [binder, in UniMath.Folds.folds_pre_2_cat]
fg:263 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
fg:264 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
fg:265 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
fg:268 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
fg:27 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fg:279 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
fg:281 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
FG:35 [binder, in UniMath.CategoryTheory.HorizontalComposition]
FG:36 [binder, in UniMath.CategoryTheory.HorizontalComposition]
fg:363 [binder, in UniMath.Foundations.PartD]
fg:37 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fg:39 [binder, in UniMath.Induction.M.ComputationalM]
fg:4 [binder, in UniMath.CategoryTheory.ArrowCategory]
fg:45 [binder, in UniMath.Induction.M.ComputationalM]
fg:456 [binder, in UniMath.CategoryTheory.limits.pullbacks]
FG:46 [binder, in UniMath.CategoryTheory.HorizontalComposition]
fg:46 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
FG:47 [binder, in UniMath.CategoryTheory.HorizontalComposition]
fg:5 [binder, in UniMath.CategoryTheory.ArrowCategory]
fg:54 [binder, in UniMath.Folds.folds_precat]
fg:55 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fg:66 [binder, in UniMath.Foundations.PartD]
fg:90 [binder, in UniMath.Folds.folds_pre_2_cat]
fh:108 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
fh:113 [binder, in UniMath.MoreFoundations.Univalence]
fh:114 [binder, in UniMath.MoreFoundations.Univalence]
fh:121 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
fH:13 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
fh:146 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
fh:173 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
fh:174 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
fh:39 [binder, in UniMath.MoreFoundations.Nat]
fiber [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Fiber [section, in UniMath.CategoryTheory.DisplayedCats.Constructions]
FiberBicategory [library]
FiberBicategory1 [library]
FiberBicategory2 [library]
FiberCategory [library]
Fibered [section, in UniMath.Induction.W.Fibered]
Fibered [library]
fibered_uniqueness [definition, in UniMath.Induction.W.Fibered]
fibered_alg2alg [definition, in UniMath.Induction.W.Fibered]
fibered_alg [definition, in UniMath.Induction.W.Fibered]
fibered_algebra_nat [definition, in UniMath.Induction.W.Naturals]
_ ⇒ _ [notation, in UniMath.Induction.W.Fibered]
FiberExt [definition, in UniMath.HomologicalAlgebra.MappingCone]
FiberExtComm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
FiberExtMor [definition, in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_Comm3H [lemma, in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_Comm3 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_Comm2H [lemma, in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_Comm2 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_is_z_isomorphism [definition, in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_inverses [lemma, in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_inverses' [lemma, in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_eq2 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_eq1 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
FiberOfBiequiv [section, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
FF [notation, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
GG [notation, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
FiberOfFunctor [section, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
fiberwise_univalent_2_0_to_disp_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
fiberwise_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
fiberwise_local_univalent_is_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
fiberwise_local_univalent [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
fiber_functor [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
fiber_is_functor [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
fiber_functor_data [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
fiber_binopeqrel [definition, in UniMath.Algebra.Monoids]
fiber_functor_ff [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_nat_trans [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_functor_data [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
Fiber_Functors.fix_context [section, in UniMath.CategoryTheory.DisplayedCats.Constructions]
Fiber_Functors [section, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_category [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_precategory [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_is_precategory [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_category_data [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_functor_from_cleaving [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fiber_functor_from_cleaving_data [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fiber_functor_from_cleaving.lift_f [variable, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fiber_functor_from_cleaving [section, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fiber_functor_ess_split_surj [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
fiber_equiv [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
fiber_is_left_adj [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
fiber_functor_ess_split_surj [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
fiber_ext.A [variable, in UniMath.HomologicalAlgebra.MappingCone]
fiber_ext [section, in UniMath.HomologicalAlgebra.MappingCone]
fiber_paths [definition, in UniMath.Foundations.PartA]
fiber_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_counit_iso [definition, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_counit_nat_iso [definition, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_counit [definition, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_counit_is_nat_trans [definition, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_unit_iso [definition, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_unit_nat_iso [definition, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_unit [definition, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_unit_is_nat_trans [definition, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
Fiber.H [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
Fiber.idto1 [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
Fiber.idto2 [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
fibration [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Fibration [library]
FibrationCleaving [library]
Fibrations [section, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Fibrations [library]
fibration_from_discrete_fibration [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fibseqg [definition, in UniMath.Foundations.PartA]
fibseqhf [definition, in UniMath.Foundations.PartA]
fibseqpr1 [definition, in UniMath.Foundations.PartA]
fibseqstr [definition, in UniMath.Foundations.PartA]
fibseqstrtocomplxstr [definition, in UniMath.Foundations.PartA]
fibseqstrtohfsqstr [lemma, in UniMath.Foundations.PartA]
fibseq1 [definition, in UniMath.Foundations.PartA]
fibseq1g [definition, in UniMath.Foundations.PartA]
fibseq2 [definition, in UniMath.Foundations.PartA]
fibseq2g [definition, in UniMath.Foundations.PartA]
fibseq3g [definition, in UniMath.Foundations.PartA]
fibX:35 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
fibX:40 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
fibY:36 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
fibY:41 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
Fid:15 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Fid:15 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
Fid:15 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Fid:15 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
Fid:9 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
Fid:9 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
Fields [library]
fill [definition, in UniMath.Combinatorics.MoreLists]
fillerEquation [lemma, in UniMath.MoreFoundations.PartA]
Filter [definition, in UniMath.Topology.Filters]
FilterBase [definition, in UniMath.Topology.Filters]
filterbase [definition, in UniMath.Topology.Filters]
filterbase [section, in UniMath.Topology.Filters]
FilterBase_le [lemma, in UniMath.Topology.Filters]
filterbase_le [lemma, in UniMath.Topology.Filters]
FilterBase_Generated_hypothesis [lemma, in UniMath.Topology.Filters]
FilterBase_Generated [lemma, in UniMath.Topology.Filters]
filterbase_generated_hypothesis [lemma, in UniMath.Topology.Filters]
filterbase_genetated [lemma, in UniMath.Topology.Filters]
filterbase_notempty [lemma, in UniMath.Topology.Filters]
filterbase_and [lemma, in UniMath.Topology.Filters]
filterbase_htrue [lemma, in UniMath.Topology.Filters]
filterbase_imply [lemma, in UniMath.Topology.Filters]
FilterDirprod [definition, in UniMath.Topology.Filters]
filterdirprod [definition, in UniMath.Topology.Filters]
filterdirprod [section, in UniMath.Topology.Filters]
filterdirprod_notempty [lemma, in UniMath.Topology.Filters]
filterdirprod_and [lemma, in UniMath.Topology.Filters]
filterdirprod_htrue [lemma, in UniMath.Topology.Filters]
filterdirprod_imply [lemma, in UniMath.Topology.Filters]
FilterDom [definition, in UniMath.Topology.Filters]
filterdom [definition, in UniMath.Topology.Filters]
filterdom [section, in UniMath.Topology.Filters]
filterdom_notempty [lemma, in UniMath.Topology.Filters]
filterdom_and [lemma, in UniMath.Topology.Filters]
filterdom_htrue [lemma, in UniMath.Topology.Filters]
filterdom_imply [lemma, in UniMath.Topology.Filters]
FilterGenerated [definition, in UniMath.Topology.Filters]
filtergenerated [definition, in UniMath.Topology.Filters]
filtergenerated [section, in UniMath.Topology.Filters]
FilterGenerated_inv [lemma, in UniMath.Topology.Filters]
FilterGenerated_correct [lemma, in UniMath.Topology.Filters]
filtergenerated_notempty [lemma, in UniMath.Topology.Filters]
filtergenerated_and [lemma, in UniMath.Topology.Filters]
filtergenerated_htrue [lemma, in UniMath.Topology.Filters]
filtergenerated_imply [lemma, in UniMath.Topology.Filters]
FilterIm [definition, in UniMath.Topology.Filters]
filterim [definition, in UniMath.Topology.Filters]
filterim [section, in UniMath.Topology.Filters]
FilterIm_incr [lemma, in UniMath.Topology.Filters]
filterim_notempty [lemma, in UniMath.Topology.Filters]
filterim_and [lemma, in UniMath.Topology.Filters]
filterim_htrue [lemma, in UniMath.Topology.Filters]
filterim_imply [lemma, in UniMath.Topology.Filters]
FilterIntersection [definition, in UniMath.Topology.Filters]
filterintersection [definition, in UniMath.Topology.Filters]
filterintersection [section, in UniMath.Topology.Filters]
FilterIntersection_glb [lemma, in UniMath.Topology.Filters]
filterintersection_notempty [lemma, in UniMath.Topology.Filters]
filterintersection_and [lemma, in UniMath.Topology.Filters]
filterintersection_htrue [lemma, in UniMath.Topology.Filters]
filterintersection_imply [lemma, in UniMath.Topology.Filters]
filterlim [definition, in UniMath.Topology.Filters]
filterlim_incr_2 [lemma, in UniMath.Topology.Filters]
filterlim_decr_1 [lemma, in UniMath.Topology.Filters]
filterlim_comp [lemma, in UniMath.Topology.Filters]
FilterNat [definition, in UniMath.Topology.Filters]
filternat [definition, in UniMath.Topology.Filters]
filternat [section, in UniMath.Topology.Filters]
filternat_notempty [lemma, in UniMath.Topology.Filters]
filternat_and [lemma, in UniMath.Topology.Filters]
filternat_htrue [lemma, in UniMath.Topology.Filters]
filternat_imply [lemma, in UniMath.Topology.Filters]
FilterPr1 [definition, in UniMath.Topology.Filters]
FilterPr2 [definition, in UniMath.Topology.Filters]
Filters [library]
FilterSubtype [definition, in UniMath.Topology.Filters]
filtersubtype [definition, in UniMath.Topology.Filters]
filtersubtype [section, in UniMath.Topology.Filters]
filtersubtype_notempty [lemma, in UniMath.Topology.Filters]
filtersubtype_and [lemma, in UniMath.Topology.Filters]
filtersubtype_htrue [lemma, in UniMath.Topology.Filters]
filtersubtype_imply [lemma, in UniMath.Topology.Filters]
FilterTop [definition, in UniMath.Topology.Filters]
filtertop [definition, in UniMath.Topology.Filters]
filtertop [section, in UniMath.Topology.Filters]
FilterTop_correct [lemma, in UniMath.Topology.Filters]
filtertop_notempty [lemma, in UniMath.Topology.Filters]
filtertop_and [lemma, in UniMath.Topology.Filters]
filtertop_htrue [lemma, in UniMath.Topology.Filters]
filtertop_imply [lemma, in UniMath.Topology.Filters]
filter_le [definition, in UniMath.Topology.Filters]
filter_const [lemma, in UniMath.Topology.Filters]
filter_notempty [lemma, in UniMath.Topology.Filters]
Filter_pty [section, in UniMath.Topology.Filters]
filter_forall [lemma, in UniMath.Topology.Filters]
filter_and [lemma, in UniMath.Topology.Filters]
filter_htrue [lemma, in UniMath.Topology.Filters]
filter_finite_intersection [lemma, in UniMath.Topology.Filters]
filter_imply [lemma, in UniMath.Topology.Filters]
Filter_def [section, in UniMath.Topology.Filters]
Final [section, in UniMath.Bicategories.Colimits.Final]
Final [library]
Final [library]
finalM [lemma, in UniMath.Induction.M.ComputationalM]
final_bicat_is_univalent_2 [definition, in UniMath.Bicategories.Core.Examples.Final]
final_bicat_is_univalent_2_0 [definition, in UniMath.Bicategories.Core.Examples.Final]
final_bicat_is_univalent_2_1 [definition, in UniMath.Bicategories.Core.Examples.Final]
final_bicat_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Examples.Final]
final_bicat_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.Final]
final_bicat [definition, in UniMath.Bicategories.Core.Examples.Final]
final_prebicat [definition, in UniMath.Bicategories.Core.Examples.Final]
final_bicat_laws [lemma, in UniMath.Bicategories.Core.Examples.Final]
final_prebicat_data [definition, in UniMath.Bicategories.Core.Examples.Final]
final_2_id_comp_struct [definition, in UniMath.Bicategories.Core.Examples.Final]
final_1_id_comp_cells [definition, in UniMath.Bicategories.Core.Examples.Final]
Final_Bicategory [section, in UniMath.Bicategories.Core.Examples.Final]
final_psfunctor_eq [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor_2cell [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor_2cell_is_modification [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor_2cell_data [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor_1cell [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor_1cell_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor_1cell_data [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
Final.C_is_univalent_2_1 [variable, in UniMath.Bicategories.Colimits.Final]
fincard [definition, in UniMath.Combinatorics.FiniteSets]
fincard_standardSubset [definition, in UniMath.Combinatorics.FiniteSets]
fincard_subset [definition, in UniMath.Combinatorics.FiniteSets]
FiniteDirectSums [definition, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
finitenessProperty [definition, in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSet [definition, in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSetDecidableEquality [definition, in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSetDecidableInequality [definition, in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSetDecidableLessThan [definition, in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSetDecidableOrdering [definition, in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSet_segment [definition, in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSet_isdec_ordering [lemma, in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSet_isdeceq [lemma, in UniMath.Combinatorics.OrderedSets]
FiniteSequences [library]
FiniteSet [definition, in UniMath.Combinatorics.FiniteSets]
FiniteSets [library]
FiniteSetSum [definition, in UniMath.Combinatorics.FiniteSets]
FiniteSet_to_hSet [definition, in UniMath.Combinatorics.FiniteSets]
FiniteStructure [definition, in UniMath.Combinatorics.OrderedSets]
finite_intersection_hProp [lemma, in UniMath.Topology.Prelim]
finite_intersection_append [lemma, in UniMath.Topology.Prelim]
finite_intersection_case [lemma, in UniMath.Topology.Prelim]
finite_intersection_and [lemma, in UniMath.Topology.Prelim]
finite_intersection_1 [lemma, in UniMath.Topology.Prelim]
finite_intersection_htrue [lemma, in UniMath.Topology.Prelim]
finite_intersection [definition, in UniMath.Topology.Prelim]
finite_subtype [definition, in UniMath.CategoryTheory.categories.FinSet]
FinOrdCoproducts [definition, in UniMath.CategoryTheory.limits.FinOrdCoproducts]
FinOrdCoproducts [library]
FinOrdCoproducts_from_Initial_and_BinCoproducts [lemma, in UniMath.CategoryTheory.limits.FinOrdCoproducts]
FinOrdCoproduct_criteria.C [variable, in UniMath.CategoryTheory.limits.FinOrdCoproducts]
FinOrdCoproduct_criteria [section, in UniMath.CategoryTheory.limits.FinOrdCoproducts]
FinOrdProducts [definition, in UniMath.CategoryTheory.limits.FinOrdProducts]
FinOrdProducts [library]
FinOrdProducts_from_Terminal_and_BinProducts [lemma, in UniMath.CategoryTheory.limits.FinOrdProducts]
FinOrdProduct_criteria.C [variable, in UniMath.CategoryTheory.limits.FinOrdProducts]
FinOrdProduct_criteria [section, in UniMath.CategoryTheory.limits.FinOrdProducts]
FinSet [definition, in UniMath.CategoryTheory.categories.FinSet]
FinSet [library]
FinSig [definition, in UniMath.SubstitutionSystems.MLTT79]
FinSigConstructors [definition, in UniMath.SubstitutionSystems.MLTT79]
FinSigElim [definition, in UniMath.SubstitutionSystems.MLTT79]
FinSigFun [definition, in UniMath.SubstitutionSystems.MLTT79]
finstruct [definition, in UniMath.Combinatorics.FiniteSets]
finstructonbool [definition, in UniMath.Combinatorics.FiniteSets]
finstructoncompl [definition, in UniMath.Combinatorics.FiniteSets]
finstructoncontr [definition, in UniMath.Combinatorics.FiniteSets]
finstructoncoprod [definition, in UniMath.Combinatorics.FiniteSets]
finstructoncoprodwithunit [definition, in UniMath.Combinatorics.FiniteSets]
finstructondecsubset [definition, in UniMath.Combinatorics.FiniteSets]
finstructondirprod [definition, in UniMath.Combinatorics.FiniteSets]
finstructonempty [definition, in UniMath.Combinatorics.FiniteSets]
finstructonempty2 [definition, in UniMath.Combinatorics.FiniteSets]
finstructonforall [definition, in UniMath.Combinatorics.FiniteSets]
finstructonfun [definition, in UniMath.Combinatorics.FiniteSets]
finstructonstn [definition, in UniMath.Combinatorics.FiniteSets]
finstructontotal2 [definition, in UniMath.Combinatorics.FiniteSets]
finstructonunit [definition, in UniMath.Combinatorics.FiniteSets]
finstructonweq [definition, in UniMath.Combinatorics.FiniteSets]
finstructToFunction [definition, in UniMath.Combinatorics.FiniteSets]
finstructweqb [definition, in UniMath.Combinatorics.FiniteSets]
finstructweqf [definition, in UniMath.Combinatorics.FiniteSets]
finsum [definition, in UniMath.NumberSystems.NaturalNumbersAlgebra]
finsum' [definition, in UniMath.Algebra.IteratedBinaryOperations]
finv [abbreviation, in UniMath.Bicategories.Core.EquivToAdjequiv]
fin:14 [binder, in UniMath.NumberSystems.NaturalNumbersAlgebra]
fin:140 [binder, in UniMath.Algebra.IteratedBinaryOperations]
fin:5 [binder, in UniMath.NumberSystems.Tests]
firstelement [definition, in UniMath.Combinatorics.StandardFiniteSets]
firstelement_le [lemma, in UniMath.Combinatorics.StandardFiniteSets]
firstValue [definition, in UniMath.Combinatorics.StandardFiniteSets]
first_triangle_law [lemma, in UniMath.Bicategories.Core.EquivToAdjequiv]
first_iso_on_functors [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
first_iso_nat_in_F [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
first_iso_nat_in_x [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
first_iso_on_sets [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
first_hexagon_eq [definition, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
fiso:32 [binder, in UniMath.CategoryTheory.Core.Isos]
FiveLemma [lemma, in UniMath.CategoryTheory.FiveLemma]
FiveLemma [library]
FiveLemma_isEpi [lemma, in UniMath.CategoryTheory.FiveLemma]
FiveLemma_isMonic [lemma, in UniMath.CategoryTheory.FiveLemma]
FiveRow [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffs [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffsEq [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffsEq_opp [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffsEq_opp3 [lemma, in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffsEq_opp2 [lemma, in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffsEq_opp1 [lemma, in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffs_opp [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowExacts [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowExacts_opp [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowMorphism [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowMorphism_opp [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowMorphism_Comms [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowMorphism_Mors [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowMors [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowMorsComm [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowMorsComm_opp [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowMors_opp [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowObs [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRowObs_opp [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRow_opp [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRow_Exacts [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRow_DiffsEq [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRow_Diffs [definition, in UniMath.CategoryTheory.FiveLemma]
FiveRow_Obs [definition, in UniMath.CategoryTheory.FiveLemma]
five_lemma [section, in UniMath.CategoryTheory.FiveLemma]
five_lemma_opp [section, in UniMath.CategoryTheory.FiveLemma]
five_lemma_data [section, in UniMath.CategoryTheory.FiveLemma]
fixacategory [section, in UniMath.CategoryTheory.FunctorAlgebras]
FixAFinal [section, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
FixALocallyGrpd [section, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
FixAMonoidalCategory [section, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
FixAMonoidalCategory.CAT [variable, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
_ #⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
_ ⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
FixAnInitial [section, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
FixDispTensor [section, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FixDispTensor.al [variable, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FixDispTensor.ar [variable, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
Fixedpoint [definition, in UniMath.Algebra.FixedPointTheorems]
FixedPointTheorems [library]
fixedpoint_property [definition, in UniMath.Algebra.FixedPointTheorems]
Fixedpoint:9 [binder, in UniMath.Algebra.FixedPointTheorems]
Fixpoints [section, in UniMath.Algebra.FixedPointTheorems]
fixpoint_for_monotone_on_dcpo [lemma, in UniMath.Algebra.FixedPointTheorems]
fixpoint_for_monotone_on_dcpo_statement [definition, in UniMath.Algebra.FixedPointTheorems]
fix_a_category.K [variable, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
∁ [notation, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
fix_a_category [section, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
fix_a_category.about_signatures.fix_a_θ.Strength_law_2_intensional [section, in UniMath.SubstitutionSystems.Signatures]
fix_a_category.about_signatures.fix_a_θ.Strength_law_1_intensional [section, in UniMath.SubstitutionSystems.Signatures]
fix_a_category.about_signatures.fix_a_θ.θ [variable, in UniMath.SubstitutionSystems.Signatures]
fix_a_category.about_signatures.fix_a_θ [section, in UniMath.SubstitutionSystems.Signatures]
fix_a_category.about_signatures [section, in UniMath.SubstitutionSystems.Signatures]
EndC [notation, in UniMath.SubstitutionSystems.Signatures]
Ptd [notation, in UniMath.SubstitutionSystems.Signatures]
fix_a_category [section, in UniMath.SubstitutionSystems.Signatures]
fix_a_category.def_hss.hssMor_equality.β' [variable, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.hssMor_equality.β [variable, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.hssMor_equality.T' [variable, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.hssMor_equality.T [variable, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.hssMor_equality [section, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.from_identity_to_hss.T0 [variable, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.from_identity_to_hss [section, in UniMath.SubstitutionSystems.SubstitutionSystems]
⦃ _ ⦄ [notation, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.Id_H [variable, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.θ [variable, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss [section, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.prep_hss.fix_a_prestrength [section, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.prep_hss.instantiate_with_identity [section, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.prep_hss.fix_a_pointed_functor [section, in UniMath.SubstitutionSystems.SubstitutionSystems]
_ ⊕ _ [notation, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.prep_hss [section, in UniMath.SubstitutionSystems.SubstitutionSystems]
EndC [notation, in UniMath.SubstitutionSystems.SubstitutionSystems]
Ptd [notation, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.CPEndC [variable, in UniMath.SubstitutionSystems.SubstitutionSystems]
EndC [notation, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category [section, in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_disp_adjunction.DispHomSetIso_from_Adjunction [section, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.εε [variable, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.ηη [variable, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.ε [variable, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.η [variable, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.GG [variable, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.FF [variable, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.G [variable, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.F [variable, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction [section, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
FI_is_univalent_2_1:32 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
fi:660 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
fk:220 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
flam:10 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
flam:12 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
flam:13 [binder, in UniMath.SubstitutionSystems.CCS_alt]
flam:14 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
flam:16 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
flam:18 [binder, in UniMath.SubstitutionSystems.STLC_alt]
flam:20 [binder, in UniMath.SubstitutionSystems.STLC]
flam:20 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
flam:20 [binder, in UniMath.SubstitutionSystems.CCS]
flam:20 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
flam:21 [binder, in UniMath.SubstitutionSystems.CCS_alt]
flam:26 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
flam:26 [binder, in UniMath.SubstitutionSystems.STLC_alt]
flam:28 [binder, in UniMath.SubstitutionSystems.STLC]
flam:28 [binder, in UniMath.SubstitutionSystems.CCS]
flam:28 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
flam:32 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
flam:34 [binder, in UniMath.SubstitutionSystems.STLC_alt]
flam:36 [binder, in UniMath.SubstitutionSystems.STLC]
flam:42 [binder, in UniMath.SubstitutionSystems.STLC_alt]
flam:52 [binder, in UniMath.SubstitutionSystems.STLC_alt]
flam:6 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
flam:8 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
flatmap [definition, in UniMath.Combinatorics.Maybe]
flatmap_ind [lemma, in UniMath.Combinatorics.Maybe]
flatmap_nothing [lemma, in UniMath.Combinatorics.Maybe]
flatmap_just [lemma, in UniMath.Combinatorics.Maybe]
FLATTEN [definition, in UniMath.SubstitutionSystems.Lam]
flatten [definition, in UniMath.CategoryTheory.Inductives.Trees]
flatten [definition, in UniMath.Combinatorics.Lists]
flatten [definition, in UniMath.Combinatorics.FiniteSequences]
flattenStep [lemma, in UniMath.Combinatorics.Lists]
flattenStep [definition, in UniMath.Combinatorics.FiniteSequences]
flattenStep' [definition, in UniMath.Combinatorics.FiniteSequences]
flattenUnorderedSequence [definition, in UniMath.Combinatorics.FiniteSequences]
flatten_partition [definition, in UniMath.Combinatorics.FiniteSequences]
flatten' [definition, in UniMath.Combinatorics.StandardFiniteSets]
Flat_Sig [definition, in UniMath.SubstitutionSystems.LamSignature]
Flat_θ_strength2_int [lemma, in UniMath.SubstitutionSystems.LamSignature]
Flat_θ_strength1_int [lemma, in UniMath.SubstitutionSystems.LamSignature]
Flat_θ [definition, in UniMath.SubstitutionSystems.LamSignature]
Flat_θ_data [definition, in UniMath.SubstitutionSystems.LamSignature]
Flat_H [definition, in UniMath.SubstitutionSystems.LamSignature]
Flat_Sig [definition, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
fld [definition, in UniMath.Algebra.Domains_and_Fields]
fldchoice [definition, in UniMath.Algebra.Domains_and_Fields]
fldfrac [definition, in UniMath.Algebra.Domains_and_Fields]
fldfracgt [definition, in UniMath.Algebra.Domains_and_Fields]
fldfracmultinvint [definition, in UniMath.Algebra.Domains_and_Fields]
fldfracmultinvintcomp [lemma, in UniMath.Algebra.Domains_and_Fields]
fldfracmultinv0 [definition, in UniMath.Algebra.Domains_and_Fields]
fldmultinv [definition, in UniMath.Algebra.Domains_and_Fields]
fldmultinvpair [definition, in UniMath.Algebra.Domains_and_Fields]
flds [library]
fldtointdom [definition, in UniMath.Algebra.Domains_and_Fields]
fld_univalent_category [definition, in UniMath.CategoryTheory.categories.flds]
fld_category_is_univalent [definition, in UniMath.CategoryTheory.categories.flds]
fld_category [definition, in UniMath.CategoryTheory.categories.flds]
fld_precategory_isweq [definition, in UniMath.CategoryTheory.categories.flds]
fld_equiv_weq_iso [definition, in UniMath.CategoryTheory.categories.flds]
fld_equiv_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.flds]
fld_iso_equiv_weq [definition, in UniMath.CategoryTheory.categories.flds]
fld_iso_equiv_is_equiv [lemma, in UniMath.CategoryTheory.categories.flds]
fld_equiv_iso [lemma, in UniMath.CategoryTheory.categories.flds]
fld_equiv_is_iso [lemma, in UniMath.CategoryTheory.categories.flds]
fld_iso_equiv [lemma, in UniMath.CategoryTheory.categories.flds]
fld_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.flds]
fld_precategory [definition, in UniMath.CategoryTheory.categories.flds]
fld_assoc [lemma, in UniMath.CategoryTheory.categories.flds]
fld_id_right [lemma, in UniMath.CategoryTheory.categories.flds]
fld_id_left [lemma, in UniMath.CategoryTheory.categories.flds]
fld_precategory_data [definition, in UniMath.CategoryTheory.categories.flds]
fld_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.flds]
fld_fun_space [definition, in UniMath.CategoryTheory.categories.flds]
fld_univalence [definition, in UniMath.Algebra.Domains_and_Fields]
fld_univalence_isweq [lemma, in UniMath.Algebra.Domains_and_Fields]
fld_univalence_map [definition, in UniMath.Algebra.Domains_and_Fields]
fld_univalence_weq2 [definition, in UniMath.Algebra.Domains_and_Fields]
fld_univalence_weq1 [definition, in UniMath.Algebra.Domains_and_Fields]
fld_to_monoid2 [definition, in UniMath.RealNumbers.Fields]
fld_to_monoid1 [definition, in UniMath.RealNumbers.Fields]
fld_to_gr1 [definition, in UniMath.RealNumbers.Fields]
fld_struct [section, in UniMath.RealNumbers.Fields]
fld_proj [section, in UniMath.RealNumbers.Fields]
flip [abbreviation, in UniMath.MoreFoundations.PartA]
flipsec [definition, in UniMath.MoreFoundations.PartA]
flipsec_weq [definition, in UniMath.MoreFoundations.PartA]
flip_iso [definition, in UniMath.CategoryTheory.exponentials]
fL:112 [binder, in UniMath.CategoryTheory.LatticeObject]
fmap_directed [definition, in UniMath.Algebra.FixedPointTheorems]
fmap_is_directed [definition, in UniMath.Algebra.FixedPointTheorems]
fmap_chain [definition, in UniMath.Algebra.FixedPointTheorems]
fmap_is_chain [definition, in UniMath.Algebra.FixedPointTheorems]
Fmor [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Fmor [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Fmor_univ [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Fmor_is_functor [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Fmor_data [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
FMor1 [definition, in UniMath.CategoryTheory.FiveLemma]
FMor2 [definition, in UniMath.CategoryTheory.FiveLemma]
FMor3 [definition, in UniMath.CategoryTheory.FiveLemma]
FMor4 [definition, in UniMath.CategoryTheory.FiveLemma]
FMor5 [definition, in UniMath.CategoryTheory.FiveLemma]
fM:111 [binder, in UniMath.CategoryTheory.LatticeObject]
Fm:21 [binder, in UniMath.CategoryTheory.Core.Functors]
fm:2379 [binder, in UniMath.Foundations.PartA]
fNat [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
fNat:141 [binder, in UniMath.CategoryTheory.limits.cats.limits]
fNat:146 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
fNat:153 [binder, in UniMath.CategoryTheory.limits.cats.limits]
fNat:158 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
fNat:166 [binder, in UniMath.CategoryTheory.limits.cats.limits]
fNat:171 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
fNat:183 [binder, in UniMath.CategoryTheory.limits.cats.limits]
fNat:186 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
fNat:188 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
fNat:198 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
fNat:211 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
fNat:228 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
fNat:442 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
fNat:453 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
fNat:465 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
fNat:481 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
Fobj [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
FOb1 [definition, in UniMath.CategoryTheory.FiveLemma]
FOb2 [definition, in UniMath.CategoryTheory.FiveLemma]
FOb3 [definition, in UniMath.CategoryTheory.FiveLemma]
FOb4 [definition, in UniMath.CategoryTheory.FiveLemma]
FOb5 [definition, in UniMath.CategoryTheory.FiveLemma]
Fob:738 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
Fob:818 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
foldleft [definition, in UniMath.Combinatorics.StandardFiniteSets]
foldr [definition, in UniMath.CategoryTheory.Inductives.Lists]
foldr [definition, in UniMath.CategoryTheory.Inductives.Trees]
foldr [definition, in UniMath.Combinatorics.GraphPaths]
foldr [definition, in UniMath.Combinatorics.Lists]
foldright [definition, in UniMath.Combinatorics.StandardFiniteSets]
foldr_cons [lemma, in UniMath.CategoryTheory.Inductives.Lists]
foldr_nil [lemma, in UniMath.CategoryTheory.Inductives.Lists]
foldr_map [definition, in UniMath.CategoryTheory.Inductives.Lists]
foldr_var [lemma, in UniMath.SubstitutionSystems.STLC]
foldr_map [definition, in UniMath.SubstitutionSystems.STLC]
foldr_map [definition, in UniMath.SubstitutionSystems.CCS_alt]
foldr_lam [lemma, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
foldr_app [lemma, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
foldr_var [lemma, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
foldr_map' [definition, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
foldr_map [definition, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
foldr_lam [lemma, in UniMath.SubstitutionSystems.STLC_alt]
foldr_app [lemma, in UniMath.SubstitutionSystems.STLC_alt]
foldr_var [lemma, in UniMath.SubstitutionSystems.STLC_alt]
foldr_map [definition, in UniMath.SubstitutionSystems.STLC_alt]
foldr_map [definition, in UniMath.SubstitutionSystems.CCS]
foldr_lam [lemma, in UniMath.SubstitutionSystems.LamFromBindingSig]
foldr_app [lemma, in UniMath.SubstitutionSystems.LamFromBindingSig]
foldr_var [lemma, in UniMath.SubstitutionSystems.LamFromBindingSig]
foldr_map [definition, in UniMath.SubstitutionSystems.LamFromBindingSig]
foldr_node [lemma, in UniMath.CategoryTheory.Inductives.Trees]
foldr_leaf [lemma, in UniMath.CategoryTheory.Inductives.Trees]
foldr_map [definition, in UniMath.CategoryTheory.Inductives.Trees]
foldr_concatenate [lemma, in UniMath.Combinatorics.Lists]
foldr_cons [lemma, in UniMath.Combinatorics.Lists]
foldr1 [definition, in UniMath.Combinatorics.Lists]
foldr1_concatenate [lemma, in UniMath.Combinatorics.Lists]
foldr1_cons [lemma, in UniMath.Combinatorics.Lists]
foldr1_cons_nil [lemma, in UniMath.Combinatorics.Lists]
folds_2_iso_implies_identity [lemma, in UniMath.Folds.folds_pre_2_cat]
folds_precat_implies_univalent.standardness [variable, in UniMath.Folds.folds_pre_2_cat]
folds_precat_implies_univalent.H [variable, in UniMath.Folds.folds_pre_2_cat]
folds_precat_implies_univalent.C [variable, in UniMath.Folds.folds_pre_2_cat]
folds_precat_implies_univalent [section, in UniMath.Folds.folds_pre_2_cat]
folds_iso_implies_E [lemma, in UniMath.Folds.folds_pre_2_cat]
folds_2_iso_id [definition, in UniMath.Folds.folds_pre_2_cat]
folds_iso [definition, in UniMath.Folds.folds_pre_2_cat]
folds_3_from_folds_2 [definition, in UniMath.Folds.folds_pre_2_cat]
folds_pre_2_cat [definition, in UniMath.Folds.folds_pre_2_cat]
folds_id_comp_from_folds_precat [definition, in UniMath.Folds.folds_pre_2_cat]
folds_pre_3_cat [definition, in UniMath.Folds.folds_pre_2_cat]
folds_ax_comp [definition, in UniMath.Folds.folds_pre_2_cat]
folds_ax_id [definition, in UniMath.Folds.folds_pre_2_cat]
folds_ob_mor_from_folds_id_comp [definition, in UniMath.Folds.folds_pre_2_cat]
folds_3_id_comp_eq [definition, in UniMath.Folds.folds_pre_2_cat]
folds_double_transport [definition, in UniMath.Folds.folds_pre_2_cat]
folds_3_morphisms [definition, in UniMath.Folds.folds_pre_2_cat]
folds_3_ob_mor [definition, in UniMath.Folds.folds_pre_2_cat]
folds_id_comp_from_folds_precat [definition, in UniMath.Folds.folds_precat]
folds_precat [definition, in UniMath.Folds.folds_precat]
folds_ax_T [definition, in UniMath.Folds.folds_precat]
folds_ax_I [definition, in UniMath.Folds.folds_precat]
folds_ob_mor_from_folds_id_comp [definition, in UniMath.Folds.folds_precat]
folds_id_T [definition, in UniMath.Folds.folds_precat]
folds_morphisms [definition, in UniMath.Folds.folds_precat]
folds_ob_mor [definition, in UniMath.Folds.folds_precat]
folds_iso_from_iso_iso_from_folds_iso [lemma, in UniMath.Folds.folds_isomorphism]
folds_iso_def.iso_from_folds_from_iso.i' [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.iso_from_folds_from_iso.hs [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.iso_from_folds_from_iso [section, in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_folds_iso_to_iso.i'inv [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_folds_iso_to_iso.i' [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_folds_iso_to_iso.i [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_folds_iso_to_iso.b [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_folds_iso_to_iso.a [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_folds_iso_to_iso [section, in UniMath.Folds.folds_isomorphism]
folds_iso_from_iso [definition, in UniMath.Folds.folds_isomorphism]
folds_iso_data_prop [lemma, in UniMath.Folds.folds_isomorphism]
folds_iso_data_from_z_iso [definition, in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_iso_to_folds_iso.f [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_iso_to_folds_iso.b [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_iso_to_folds_iso.a [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_iso_to_folds_iso [section, in UniMath.Folds.folds_isomorphism]
folds_iso_comp_prop [lemma, in UniMath.Folds.folds_isomorphism]
folds_iso_comp_data [definition, in UniMath.Folds.folds_isomorphism]
folds_iso_def.folds_iso_comp [section, in UniMath.Folds.folds_isomorphism]
folds_iso_def.folds_iso_inverse [section, in UniMath.Folds.folds_isomorphism]
folds_iso_equal [lemma, in UniMath.Folds.folds_isomorphism]
folds_iso_def.about_folds_isos.H [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.about_folds_isos.i' [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.about_folds_isos.i [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.about_folds_isos.fix_a_folds_iso.i [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def.about_folds_isos.fix_a_folds_iso [section, in UniMath.Folds.folds_isomorphism]
folds_iso_def.about_folds_isos [section, in UniMath.Folds.folds_isomorphism]
folds_iso_eq [lemma, in UniMath.Folds.folds_isomorphism]
folds_iso_data_from_folds_iso [definition, in UniMath.Folds.folds_isomorphism]
folds_iso [definition, in UniMath.Folds.folds_isomorphism]
folds_iso_prop [definition, in UniMath.Folds.folds_isomorphism]
ϕ∙ [notation, in UniMath.Folds.folds_isomorphism]
folds_iso_data [definition, in UniMath.Folds.folds_isomorphism]
id _ [notation, in UniMath.Folds.folds_isomorphism]
_ □ _ [notation, in UniMath.Folds.folds_isomorphism]
folds_iso_def.C [variable, in UniMath.Folds.folds_isomorphism]
folds_iso_def [section, in UniMath.Folds.folds_isomorphism]
folds_precat_from_precat_precat_from_folds_precat [lemma, in UniMath.Folds.from_precats_to_folds_and_back]
folds_precat_from_precat [definition, in UniMath.Folds.from_precats_to_folds_and_back]
folds_id_comp_from_precat_data [definition, in UniMath.Folds.from_precats_to_folds_and_back]
folds_precat [library]
folds_pre_2_cat [library]
folds_isomorphism [library]
foo [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
foo' [lemma, in UniMath.SubstitutionSystems.LiftingInitial]
forallnegtoneghexists [lemma, in UniMath.Foundations.Propositions]
foralltohfiber [definition, in UniMath.Foundations.PartD]
foralltototal [definition, in UniMath.Foundations.PartD]
forall_isotid [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
forall_Poset [definition, in UniMath.Algebra.FixedPointTheorems]
forall_map [definition, in UniMath.SubstitutionSystems.CCS_alt]
forall_source [definition, in UniMath.SubstitutionSystems.CCS_alt]
forall_hProp [definition, in UniMath.Foundations.Propositions]
forall_map [definition, in UniMath.SubstitutionSystems.CCS]
forall_source [definition, in UniMath.SubstitutionSystems.CCS]
forall_isotoid [lemma, in UniMath.CategoryTheory.Core.Univalence]
forall_hSet [definition, in UniMath.Foundations.Sets]
forget [definition, in UniMath.SubstitutionSystems.Signatures]
forget [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
forgetful_functor_from_ptd_as_strong_monoidal_functor [definition, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
forgetful_functor_from_ptd_as_strong_monoidal_functor_alt [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
forgetful_HSET [definition, in UniMath.CategoryTheory.categories.HSET.Structures]
forgetfunctor_RelMonad [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
forgetfunctor_Monad [definition, in UniMath.CategoryTheory.Monads.Monads]
forgetfunctor_Kleisli [definition, in UniMath.CategoryTheory.Monads.KTriples]
forgetKleisli_faithful [lemma, in UniMath.CategoryTheory.Monads.KTriples]
ForgetLModFunctor [section, in UniMath.CategoryTheory.Monads.LModules]
forgetMonad_faithful [lemma, in UniMath.CategoryTheory.Monads.Monads]
forgetRelMonad_faithful [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
forget_unit_structure_faithful [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
forget_unit_property_adds_properties [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
forget_free_is_T [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
forget_Alg [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
forget_Alg_data [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
forget_algebras [definition, in UniMath.CategoryTheory.FunctorAlgebras]
forget_algebras_data [definition, in UniMath.CategoryTheory.FunctorAlgebras]
forget_from_trafotargetbicat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
forget_from_trafotarget [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
forms_equivalence_disc_fib [lemma, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
forms_equivalence [definition, in UniMath.CategoryTheory.Equivalences.Core]
forms_cocone [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
forms_cone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
form_equivalence_unkleislify [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
form_adjunction_eps_eta [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
form_adjunction_eta_eps [lemma, in UniMath.CategoryTheory.slicecat]
form_adjunction_inv [lemma, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
form_adjunctionFG_left_from_partial [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
form_adjunctionFG [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
form_adjunction [definition, in UniMath.CategoryTheory.Adjunctions.Core]
form_adjunction' [definition, in UniMath.CategoryTheory.Adjunctions.Core]
form_equiv_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
form_disp_adjunction [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
form_equiv_inv_adjunction_data [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
form_equiv_GGεη [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
form_equiv_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
form_disp_adjunction_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
form_equiv [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
form_adjunction_functor_cat_swap [lemma, in UniMath.CategoryTheory.Adjunctions.Examples]
form_adjunction_eta'_eps' [lemma, in UniMath.CategoryTheory.exponentials]
fourth_iso_on_functors [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
fourth_iso_nat_in_F [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
fourth_iso_nat_in_x [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
fourth_iso_on_sets [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
four_rec [definition, in UniMath.SubstitutionSystems.MLTT79]
Fo:10 [binder, in UniMath.CategoryTheory.CategoryEquality]
Fo:18 [binder, in UniMath.CategoryTheory.CategoryEquality]
Fo:23 [binder, in UniMath.CategoryTheory.CategoryEquality]
Fo:33 [binder, in UniMath.CategoryTheory.CategoryEquality]
Fo:41 [binder, in UniMath.CategoryTheory.CategoryEquality]
Fo:6 [binder, in UniMath.CategoryTheory.CategoryEquality]
fPi:10 [binder, in UniMath.SubstitutionSystems.CCS_alt]
fPi:17 [binder, in UniMath.SubstitutionSystems.CCS]
fPi:18 [binder, in UniMath.SubstitutionSystems.CCS_alt]
fPi:25 [binder, in UniMath.SubstitutionSystems.CCS]
fpmap [definition, in UniMath.Foundations.PartA]
fProof:12 [binder, in UniMath.SubstitutionSystems.CCS_alt]
fProof:19 [binder, in UniMath.SubstitutionSystems.CCS]
fProof:20 [binder, in UniMath.SubstitutionSystems.CCS_alt]
fProof:27 [binder, in UniMath.SubstitutionSystems.CCS]
fProp:11 [binder, in UniMath.SubstitutionSystems.CCS_alt]
fProp:18 [binder, in UniMath.SubstitutionSystems.CCS]
fProp:19 [binder, in UniMath.SubstitutionSystems.CCS_alt]
fProp:26 [binder, in UniMath.SubstitutionSystems.CCS]
fps [definition, in UniMath.PAdics.fps]
fps [library]
fpsapart [definition, in UniMath.PAdics.fps]
fpsapartisbinopapartmultl [lemma, in UniMath.PAdics.fps]
fpsapartisbinopapartmultr [lemma, in UniMath.PAdics.fps]
fpsapartisbinopapartplusl [lemma, in UniMath.PAdics.fps]
fpsapartisbinopapartplusr [lemma, in UniMath.PAdics.fps]
fpsapart0 [definition, in UniMath.PAdics.fps]
fpscommring [definition, in UniMath.PAdics.fps]
fpsiscommring [lemma, in UniMath.PAdics.fps]
fpsminus [definition, in UniMath.PAdics.fps]
fpsone [definition, in UniMath.PAdics.fps]
fpsplus [definition, in UniMath.PAdics.fps]
fpsring [definition, in UniMath.PAdics.fps]
fpsshift [definition, in UniMath.PAdics.fps]
fpsshiftandmult [lemma, in UniMath.PAdics.fps]
fpstimes [definition, in UniMath.PAdics.fps]
fpszero [definition, in UniMath.PAdics.fps]
frac [library]
Fractions [section, in UniMath.Algebra.Groups]
FRDE:145 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:149 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:153 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:157 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:161 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:35 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:38 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:41 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:44 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:47 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:53 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:57 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:61 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:65 [binder, in UniMath.CategoryTheory.FiveLemma]
FRDE:68 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:141 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:144 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:148 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:152 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:156 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:160 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:19 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:21 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:23 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:25 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:27 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:29 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:34 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:37 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:40 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:43 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:46 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:52 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:56 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:60 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:64 [binder, in UniMath.CategoryTheory.FiveLemma]
FRD:67 [binder, in UniMath.CategoryTheory.FiveLemma]
FreeAlgebras [section, in UniMath.Algebra.Universal.FreeAlgebras]
FreeAlgebras [library]
free_forgetful_are_adjoints [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
free_Alg [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
free_Alg_data [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
free_Algebra [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
free_algebra [definition, in UniMath.Algebra.Universal.FreeAlgebras]
free_abgr_extend_funcomp [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgrfun_setquotpr [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgrfun [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_universal_property [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_extend_comp [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_extend_homot [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_extend [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_unit [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_pr [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr' [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_hrel_univ [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_hrel_intro [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_hrel [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_extend_funcomp [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_grfun_setquotpr [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_grfun [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_universal_property [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_extend_comp [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_extend_homot [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_extend [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_unit [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_pr [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr' [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_hrel_univ [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_hrel_in_rev [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_hrel_in [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_hrel [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_extend_funcomp [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoidfun_setquotpr [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoidfun [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_universal_property [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_extend_comp [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_extend_homot [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_extend [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_unit [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_pr [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid' [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_hrel_univ [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_hrel_intro [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_hrel [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoidfun_comp_homot [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid_extend_funcomp [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoidfun_homot_extend [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoidfun [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid_universal_property [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid_extend_comp [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid_extend_homot [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid_extend [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid_unit [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
Free_Monoids_and_Groups [library]
FRE:162 [binder, in UniMath.CategoryTheory.FiveLemma]
FRE:54 [binder, in UniMath.CategoryTheory.FiveLemma]
FRE:58 [binder, in UniMath.CategoryTheory.FiveLemma]
FRE:62 [binder, in UniMath.CategoryTheory.FiveLemma]
FRE:69 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMC:111 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMC:115 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMC:119 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMC:123 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMC:130 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMC:173 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMs:100 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMs:103 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMs:110 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMs:114 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMs:118 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMs:122 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMs:126 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMs:129 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMs:85 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMs:88 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMs:91 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMs:94 [binder, in UniMath.CategoryTheory.FiveLemma]
FRMs:97 [binder, in UniMath.CategoryTheory.FiveLemma]
FRM:133 [binder, in UniMath.CategoryTheory.FiveLemma]
FRM:136 [binder, in UniMath.CategoryTheory.FiveLemma]
FRM:168 [binder, in UniMath.CategoryTheory.FiveLemma]
FRM:172 [binder, in UniMath.CategoryTheory.FiveLemma]
FRM:177 [binder, in UniMath.CategoryTheory.FiveLemma]
FRM:181 [binder, in UniMath.CategoryTheory.FiveLemma]
FRM:189 [binder, in UniMath.CategoryTheory.FiveLemma]
FRM:196 [binder, in UniMath.CategoryTheory.FiveLemma]
FromAcyclicComplexFromObject [definition, in UniMath.HomologicalAlgebra.Complexes]
FromAcyclicComplexFromObject_Eq [lemma, in UniMath.HomologicalAlgebra.Complexes]
FromAcyclicComplexFromObject_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
FromAcyclicComplexFromObject_comm_eq2 [lemma, in UniMath.HomologicalAlgebra.Complexes]
FromAcyclicComplexFromObject_comm_eq1 [lemma, in UniMath.HomologicalAlgebra.Complexes]
FromAcyclicComplexFromObject_mors [definition, in UniMath.HomologicalAlgebra.Complexes]
FromBindingSigsToMonads_Summary [library]
FromBinDirectSum [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
FromBinDirectSumFormula [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
FromBinDirectSumFormulaUnique [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
FromBinDirectSumsEq [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
FromBinDirectSumUnique [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
fromBranch_hsubtype [lemma, in UniMath.Combinatorics.ZFstructures]
fromcoconusf [definition, in UniMath.Foundations.PartA]
fromcompltodisjoint [definition, in UniMath.Foundations.PartC]
fromcompltoii1x [definition, in UniMath.Foundations.PartC]
fromcompltoii2y [definition, in UniMath.Foundations.PartC]
fromdsubtypesdirprodcarrier [definition, in UniMath.Foundations.Sets]
fromempty [definition, in UniMath.Foundations.PartA]
fromemptysec [definition, in UniMath.MoreFoundations.PartA]
fromgterm [abbreviation, in UniMath.Algebra.Universal.Terms]
fromgtermstep [abbreviation, in UniMath.Algebra.Universal.Terms]
fromneganddecx [lemma, in UniMath.Foundations.PartC]
fromneganddecy [lemma, in UniMath.Foundations.PartC]
fromnegcoprod [lemma, in UniMath.Foundations.Propositions]
fromnegcoprod_prop [lemma, in UniMath.Foundations.Propositions]
fromPathOverIdpath [definition, in UniMath.MoreFoundations.PathsOver]
fromstn0 [definition, in UniMath.Combinatorics.Vectors]
fromstn0 [abbreviation, in UniMath.Combinatorics.FiniteSequences]
fromsubquot [definition, in UniMath.Foundations.Sets]
fromterm [definition, in UniMath.Algebra.Universal.VTerms]
fromterm [definition, in UniMath.Algebra.Universal.Terms]
fromtermstep [lemma, in UniMath.Algebra.Universal.VTerms]
fromtermstep [lemma, in UniMath.Algebra.Universal.Terms]
fromtermstep' [lemma, in UniMath.Algebra.Universal.VTerms]
fromtotal2overcoprod [definition, in UniMath.Foundations.PartA]
fromtotal2overunit [definition, in UniMath.Foundations.PartA]
FromZeroIsMono [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
from_matrix_entry_assoc [lemma, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_matrix_entry [lemma, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_matrix [definition, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_col_entry [lemma, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_col [definition, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_row_entry [lemma, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_row [definition, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_Coequalizer_to_Coequalizer [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
from_Pushout_to_Pushout [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
from_Pushout_to_Pushout [definition, in UniMath.CategoryTheory.limits.pushouts]
from_BinCoproduct_to_BinCoproduct [definition, in UniMath.CategoryTheory.limits.bincoproducts]
R-mod( _ , _ ) (module_scope) [notation, in UniMath.Algebra.Modules.Quotient]
from_submodule [section, in UniMath.Algebra.Modules.Quotient]
from_section_functor [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
from_lifted_functor [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
from_Equalizer_to_Equalizer [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
from_Kernel_to_Kernel_is_iso [lemma, in UniMath.CategoryTheory.limits.kernels]
from_Kernel_to_Kernel [definition, in UniMath.CategoryTheory.limits.kernels]
from_Coproduct_to_Coproduct [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
from_op_op_to_op [definition, in UniMath.CategoryTheory.opp_precat]
from_opp_opp_to_opp [definition, in UniMath.CategoryTheory.opp_precat]
from_opp_to_opp_opp [definition, in UniMath.CategoryTheory.opp_precat]
from_Cokernel_to_Cokernel [definition, in UniMath.CategoryTheory.limits.cokernels]
from_Equalizer_to_Equalizer [definition, in UniMath.CategoryTheory.limits.equalizers]
from_colimHSET [definition, in UniMath.CategoryTheory.categories.HSET.Colimits]
from_cobase_eqrel [definition, in UniMath.CategoryTheory.categories.HSET.Colimits]
from_cobase_rel [definition, in UniMath.CategoryTheory.categories.HSET.Colimits]
from_cobase [definition, in UniMath.CategoryTheory.categories.HSET.Colimits]
from_fully_faithful_and_ess_surj_to_equivalence.HS [variable, in UniMath.CategoryTheory.Equivalences.Core]
from_fully_faithful_and_ess_surj_to_equivalence.HF [variable, in UniMath.CategoryTheory.Equivalences.Core]
from_fully_faithful_and_ess_surj_to_equivalence.F [variable, in UniMath.CategoryTheory.Equivalences.Core]
from_fully_faithful_and_ess_surj_to_equivalence.HA [variable, in UniMath.CategoryTheory.Equivalences.Core]
from_fully_faithful_and_ess_surj_to_equivalence.B [variable, in UniMath.CategoryTheory.Equivalences.Core]
from_fully_faithful_and_ess_surj_to_equivalence.A [variable, in UniMath.CategoryTheory.Equivalences.Core]
from_fully_faithful_and_ess_surj_to_equivalence [section, in UniMath.CategoryTheory.Equivalences.Core]
from_total2 [definition, in UniMath.MoreFoundations.PartA]
from_Pullback_to_Pullback [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
from_Pullback_to_Pullback [definition, in UniMath.CategoryTheory.limits.pullbacks]
from_equiv_to_fully_faithful.H [variable, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
from_equiv_to_fully_faithful.F [variable, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
from_equiv_to_fully_faithful.B [variable, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
from_equiv_to_fully_faithful.A [variable, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
from_equiv_to_fully_faithful [section, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
from_Coequalizer_to_Coequalizer [definition, in UniMath.CategoryTheory.limits.coequalizers]
from_folds_to_precats.C [variable, in UniMath.Folds.from_precats_to_folds_and_back]
from_folds_to_precats [section, in UniMath.Folds.from_precats_to_folds_and_back]
from_precats_to_folds.hs [variable, in UniMath.Folds.from_precats_to_folds_and_back]
from_precats_to_folds.C [variable, in UniMath.Folds.from_precats_to_folds_and_back]
from_precats_to_folds.data.hsC [variable, in UniMath.Folds.from_precats_to_folds_and_back]
from_precats_to_folds.data.C [variable, in UniMath.Folds.from_precats_to_folds_and_back]
from_precats_to_folds.data [section, in UniMath.Folds.from_precats_to_folds_and_back]
from_precats_to_folds [section, in UniMath.Folds.from_precats_to_folds_and_back]
from_BinCoproduct_to_BinCoproduct [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
from_nat_functor_eq [lemma, in UniMath.Induction.W.Naturals]
from_terminal_isMonic [lemma, in UniMath.CategoryTheory.limits.terminal]
from_precats_to_folds_and_back [library]
FRO:10 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:11 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:12 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:13 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:138 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:140 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:143 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:147 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:151 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:155 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:159 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:18 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:20 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:22 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:24 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:26 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:28 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:33 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:36 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:39 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:42 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:45 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:51 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:55 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:59 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:63 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:66 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:7 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:8 [binder, in UniMath.CategoryTheory.FiveLemma]
FRO:9 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:101 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:108 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:112 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:116 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:120 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:124 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:127 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:131 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:134 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:166 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:170 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:175 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:179 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:187 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:194 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:74 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:76 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:83 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:86 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:89 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:92 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:95 [binder, in UniMath.CategoryTheory.FiveLemma]
FR1:98 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:102 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:109 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:113 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:117 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:121 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:125 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:128 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:132 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:135 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:167 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:171 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:176 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:180 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:188 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:195 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:75 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:77 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:84 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:87 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:90 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:93 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:96 [binder, in UniMath.CategoryTheory.FiveLemma]
FR2:99 [binder, in UniMath.CategoryTheory.FiveLemma]
FR:164 [binder, in UniMath.CategoryTheory.FiveLemma]
FR:70 [binder, in UniMath.CategoryTheory.FiveLemma]
FR:71 [binder, in UniMath.CategoryTheory.FiveLemma]
FR:72 [binder, in UniMath.CategoryTheory.FiveLemma]
FR:73 [binder, in UniMath.CategoryTheory.FiveLemma]
fs:156 [binder, in UniMath.Combinatorics.FiniteSets]
fs:175 [binder, in UniMath.Combinatorics.FiniteSets]
fs:1893 [binder, in UniMath.Foundations.PartA]
fs:1900 [binder, in UniMath.Foundations.PartA]
fs:1909 [binder, in UniMath.Foundations.PartA]
fs:1928 [binder, in UniMath.Foundations.PartA]
fs:1942 [binder, in UniMath.Foundations.PartA]
fs:1950 [binder, in UniMath.Foundations.PartA]
fs:1958 [binder, in UniMath.Foundations.PartA]
fs:1968 [binder, in UniMath.Foundations.PartA]
fs:1977 [binder, in UniMath.Foundations.PartA]
fs:228 [binder, in UniMath.Combinatorics.FiniteSets]
fs:261 [binder, in UniMath.Combinatorics.FiniteSets]
fs:270 [binder, in UniMath.Foundations.PartB]
fs:39 [binder, in UniMath.Combinatorics.FiniteSets]
fs:414 [binder, in UniMath.Foundations.PartC]
fs:421 [binder, in UniMath.Foundations.PartC]
fs:57 [binder, in UniMath.Foundations.PartB]
fs:59 [binder, in UniMath.Combinatorics.FiniteSets]
fs:66 [binder, in UniMath.Foundations.PartB]
fulfil_Bourbaki_Witt_fixpoint_theorem [lemma, in UniMath.Algebra.FixedPointTheorems]
fulfil_fixpoint_for_monotone_on_dcpo [lemma, in UniMath.Algebra.FixedPointTheorems]
fulfil_Tarski_fixpoint_theorem [lemma, in UniMath.Algebra.FixedPointTheorems]
full [definition, in UniMath.CategoryTheory.Core.Functors]
Full [library]
fullF:429 [binder, in UniMath.CategoryTheory.Core.Functors]
fullG:431 [binder, in UniMath.CategoryTheory.Core.Functors]
fullsub [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
FullSub [library]
fullsubbicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
FullSubBicat [section, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
FullSubBicat.C [variable, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
FullSubBicat.P [variable, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
fullsub_left_adjoint_equivalence_is_bicat_left_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
fullsub_left_adjoint_equivalence_to_bicat_left_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
fullsub_is_invertible_2cell_to_bicat_is_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
fullsub_to_cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
fullsub_to_mor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
FullyFaithful [section, in UniMath.CategoryTheory.Subcategory.Full]
FullyFaithful [library]
FullyFaithful [library]
fully_faithful_inv_nat_trans [definition, in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_inv_is_nat_trans [definition, in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_inv_nat_trans_data [definition, in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_invertible [definition, in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell_weq_fully_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_to_fully_faithful_1cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell_to_fully_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell_inv_map_eq [definition, in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell_inv_map [definition, in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell_eq [definition, in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_sub_precategory_inclusion [lemma, in UniMath.CategoryTheory.Subcategory.Full]
fully_faithful_commutative_triangle_weq [lemma, in UniMath.CategoryTheory.Core.Functors]
fully_faithful_implies_full_and_faithful [lemma, in UniMath.CategoryTheory.Core.Functors]
fully_faithful_conservative [lemma, in UniMath.CategoryTheory.Core.Functors]
fully_faithful_reflects_iso_proof [lemma, in UniMath.CategoryTheory.Core.Functors]
fully_faithful_inv_comp [lemma, in UniMath.CategoryTheory.Core.Functors]
fully_faithful_inv_identity [lemma, in UniMath.CategoryTheory.Core.Functors]
fully_faithful_inv_hom_is_inv [lemma, in UniMath.CategoryTheory.Core.Functors]
fully_faithful_inv_hom [definition, in UniMath.CategoryTheory.Core.Functors]
fully_faithful [definition, in UniMath.CategoryTheory.Core.Functors]
fully_faithful_pr1_category [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
fully_faithful_reord1_functor [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
fully_faithful_from_equivalence [lemma, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
fully_faithful_reflects_all_limits [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
full_spec [lemma, in UniMath.Bicategories.Core.EquivToAdjequiv]
full_sub_cat.C' [variable, in UniMath.CategoryTheory.Subcategory.Full]
full_sub_cat.C [variable, in UniMath.CategoryTheory.Subcategory.Full]
full_sub_cat [section, in UniMath.CategoryTheory.Subcategory.Full]
full_img_functor_data [definition, in UniMath.CategoryTheory.Subcategory.Full]
full_img_functor_obj [definition, in UniMath.CategoryTheory.Subcategory.Full]
full_img_sub_precategory [definition, in UniMath.CategoryTheory.Subcategory.Full]
full_sub_precategory_inclusion [lemma, in UniMath.CategoryTheory.Subcategory.Full]
full_sub_category [definition, in UniMath.CategoryTheory.Subcategory.Full]
full_sub_precategory [definition, in UniMath.CategoryTheory.Subcategory.Full]
full_image [definition, in UniMath.Bicategories.Core.Examples.Image]
full_and_faithful_implies_fully_faithful [lemma, in UniMath.CategoryTheory.Core.Functors]
full_and_faithful [definition, in UniMath.CategoryTheory.Core.Functors]
full_pr1_category [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
full_subcat [section, in UniMath.CategoryTheory.DisplayedCats.Constructions]
full_subcat_nat_trans_is_iso [definition, in UniMath.CategoryTheory.Adjunctions.Restriction]
funcomp [definition, in UniMath.Foundations.PartA]
funcomp_assoc [lemma, in UniMath.Foundations.PartA]
funcontr [definition, in UniMath.Foundations.UnivalenceAxiom]
funcontrAxiom [axiom, in UniMath.Foundations.UnivalenceAxiom]
funcontrFromUnivalence [definition, in UniMath.Foundations.UnivalenceAxiom]
funcontrStatement [definition, in UniMath.Foundations.UnivalenceAxiom]
funcontrtwice [lemma, in UniMath.Foundations.UnivalenceAxiom]
funcontrUAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
functionToHVec [definition, in UniMath.Algebra.Universal.HVectors]
functionToList [definition, in UniMath.Combinatorics.Lists]
functionToList' [definition, in UniMath.Combinatorics.Lists]
functionToSequence [definition, in UniMath.Combinatorics.FiniteSequences]
functionToUnorderedSequence [definition, in UniMath.Combinatorics.FiniteSequences]
Function_Posets [section, in UniMath.Algebra.FixedPointTheorems]
function_to_functor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
function_to_functor_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
function_to_functor_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
functor [definition, in UniMath.CategoryTheory.Core.Functors]
Functor [section, in UniMath.CategoryTheory.DisplayedCats.Constructions]
FunctorAlg [abbreviation, in UniMath.CategoryTheory.FunctorAlgebras]
FunctorAlgebras [library]
FunctorAlg_saturated [section, in UniMath.CategoryTheory.FunctorAlgebras]
functorBinaryProduct [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorBinaryProduct_map_eqn [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorBinaryProduct_eqn [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorBinarySum [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorBinarySum_map_eqn [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorBinarySum_eqn [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
FunctorCategory [library]
FunctorCategory [library]
FunctorcategoryPullbacks [definition, in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_comm [lemma, in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_nat_trans2 [definition, in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_is_nat_trans2 [lemma, in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_nat_trans1 [definition, in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_is_nat_trans1 [lemma, in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_functor [definition, in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_isfunctor [lemma, in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_eq [lemma, in UniMath.CategoryTheory.limits.pullbacks]
functorcategoryright_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
functorcategoryright_map_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
functorcategoryright_map_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
functorcategoryTerminalObject [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
FunctorCoalgebras [library]
functorColimits [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
FunctorComposition [section, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
FunctorComposition.F [variable, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
FunctorComposition.G [variable, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
FunctorFromEmpty [section, in UniMath.CategoryTheory.categories.StandardCategories]
functorial_composition_as_hcomp_functor_datawise [lemma, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
functorial_composition_as_hcomp_functor [lemma, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
functorial_composition_legacy_ok [lemma, in UniMath.CategoryTheory.HorizontalComposition]
functorial_composition_post_pre [lemma, in UniMath.CategoryTheory.HorizontalComposition]
functorial_composition_pre_post [lemma, in UniMath.CategoryTheory.HorizontalComposition]
functorial_composition [definition, in UniMath.CategoryTheory.HorizontalComposition]
functorial_composition_data [definition, in UniMath.CategoryTheory.HorizontalComposition]
functorial_composition_legacy [definition, in UniMath.CategoryTheory.HorizontalComposition]
functorial_composition_legacy_data [definition, in UniMath.CategoryTheory.HorizontalComposition]
FunctorLaws [section, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
FunctorLaws [section, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
FunctorLaws.F [variable, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
FunctorLaws.F [variable, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
functorLimits [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorMvOp [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functorOp [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functorOpEmb [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functorOpIso [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functorOp' [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
FunctorPrecatMorToNatTrans [definition, in UniMath.CategoryTheory.GrothendieckTopos]
FunctorPrecatObToFunctor [definition, in UniMath.CategoryTheory.GrothendieckTopos]
functorRmOp [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functors [section, in UniMath.CategoryTheory.ProductCategory]
functors [section, in UniMath.CategoryTheory.limits.coproducts]
functors [section, in UniMath.CategoryTheory.Core.Functors]
functors [section, in UniMath.CategoryTheory.limits.bincoproducts]
functors [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
Functors [library]
FunctorsDisplayed [section, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
functors_on_iso_with_inv [section, in UniMath.CategoryTheory.Core.Functors]
functors.Constant_Functor.d [variable, in UniMath.CategoryTheory.Core.Functors]
functors.Constant_Functor.D [variable, in UniMath.CategoryTheory.Core.Functors]
functors.Constant_Functor.C [variable, in UniMath.CategoryTheory.Core.Functors]
functors.Constant_Functor [section, in UniMath.CategoryTheory.Core.Functors]
functors.functors_and_idtoiso.HD [variable, in UniMath.CategoryTheory.Core.Functors]
functors.functors_and_idtoiso.HC [variable, in UniMath.CategoryTheory.Core.Functors]
functors.functors_and_idtoiso.F [variable, in UniMath.CategoryTheory.Core.Functors]
functors.functors_and_idtoiso.D [variable, in UniMath.CategoryTheory.Core.Functors]
functors.functors_and_idtoiso.C [variable, in UniMath.CategoryTheory.Core.Functors]
functors.functors_and_idtoiso [section, in UniMath.CategoryTheory.Core.Functors]
_ ⟶ _ (cat) [notation, in UniMath.CategoryTheory.Core.Functors]
# _ (cat) [notation, in UniMath.CategoryTheory.Core.Functors]
# _ (cat) [notation, in UniMath.CategoryTheory.Core.Functors]
FunctorToLocalization [definition, in UniMath.CategoryTheory.LocalizingClass]
FunctorToLocalization_is_iso [definition, in UniMath.CategoryTheory.LocalizingClass]
FunctorToLocalization_comp [lemma, in UniMath.CategoryTheory.LocalizingClass]
FunctorToUnit [section, in UniMath.CategoryTheory.categories.StandardCategories]
functorWithStructures [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_iso_pointwise_if_iso' [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
functor_from_relmodule [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
functor_data_from_relmodule [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
Functor_from_RelModule [section, in UniMath.CategoryTheory.Monads.RelativeModules]
functor_from_catiso [definition, in UniMath.CategoryTheory.catiso]
functor_with_μ_from_adjunction [definition, in UniMath.CategoryTheory.Monads.Monads]
functor_data_from_raw_Monad_data [definition, in UniMath.CategoryTheory.Monads.Monads]
functor_with_μ_from_Monad_data [definition, in UniMath.CategoryTheory.Monads.Monads]
functor_from_functor_with_μ [definition, in UniMath.CategoryTheory.Monads.Monads]
functor_with_μ [definition, in UniMath.CategoryTheory.Monads.Monads]
functor_data_from_bifunctor_ob_mor_cell [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
functor_on_morphisms_add [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
functor_full_img_essentially_surjective [lemma, in UniMath.CategoryTheory.Subcategory.Full]
functor_full_img_factorization_ob [lemma, in UniMath.CategoryTheory.Subcategory.Full]
functor_full_img_fully_faithful_if_fun_is [lemma, in UniMath.CategoryTheory.Subcategory.Full]
functor_full_img [definition, in UniMath.CategoryTheory.Subcategory.Full]
functor_from_empty [definition, in UniMath.CategoryTheory.categories.StandardCategories]
functor_from_empty_data [definition, in UniMath.CategoryTheory.categories.StandardCategories]
functor_to_unit [definition, in UniMath.CategoryTheory.categories.StandardCategories]
functor_to_unit_data [definition, in UniMath.CategoryTheory.categories.StandardCategories]
functor_path_pregroupoid [lemma, in UniMath.CategoryTheory.categories.StandardCategories]
functor_of_kleisli_triple [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
functor_laws_of_kleisli_triple [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
functor_data_of_kleisli_triple [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
functor_kleislify [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
functor_data_kleislify [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
functor_unkleislify [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
functor_data_unkleislify [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
functor_into_product_weq [lemma, in UniMath.CategoryTheory.ProductCategory]
functor_precat_coproduct_cocone [definition, in UniMath.CategoryTheory.limits.coproducts]
functor_on_inv_from_z_iso' [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_on_z_iso [definition, in UniMath.CategoryTheory.Core.Functors]
functor_is_inverse_in_precat_inv_from_iso [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_on_is_z_isomorphism [definition, in UniMath.CategoryTheory.Core.Functors]
functor_on_is_inverse_in_precat [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_assoc [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_identity_right [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_identity_left [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_equalities [section, in UniMath.CategoryTheory.Core.Functors]
functor_on_iso_iso_from_ff_reflection [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_on_iso_iso_from_fully_faithful_reflection [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_identity [definition, in UniMath.CategoryTheory.Core.Functors]
functor_identity_data [definition, in UniMath.CategoryTheory.Core.Functors]
functor_composite [definition, in UniMath.CategoryTheory.Core.Functors]
functor_composite_data [definition, in UniMath.CategoryTheory.Core.Functors]
functor_on_inv_from_iso [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_on_inv_from_iso' [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_on_iso_inv [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_on_iso [definition, in UniMath.CategoryTheory.Core.Functors]
functor_on_iso_is_iso [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_on_is_iso_is_iso [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_id_id [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_comp [definition, in UniMath.CategoryTheory.Core.Functors]
functor_id [definition, in UniMath.CategoryTheory.Core.Functors]
functor_eq_eq_from_functor_ob_eq [definition, in UniMath.CategoryTheory.Core.Functors]
functor_data_from_functor [definition, in UniMath.CategoryTheory.Core.Functors]
functor_isaset [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_eq [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_data_eq [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_data_eq_prf [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_compax [definition, in UniMath.CategoryTheory.Core.Functors]
functor_idax [definition, in UniMath.CategoryTheory.Core.Functors]
functor_on_morphisms [definition, in UniMath.CategoryTheory.Core.Functors]
functor_on_objects [definition, in UniMath.CategoryTheory.Core.Functors]
functor_data_constr [definition, in UniMath.CategoryTheory.Core.Functors]
functor_data_isaset [lemma, in UniMath.CategoryTheory.Core.Functors]
functor_data [definition, in UniMath.CategoryTheory.Core.Functors]
functor_compose [definition, in UniMath.CategoryTheory.whiskering]
functor_from [definition, in UniMath.CategoryTheory.rezk_completion]
functor_precat_coproduct_cocone [definition, in UniMath.CategoryTheory.limits.bincoproducts]
Functor_eq [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
Functor_eq_weq [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
Functor_eq_map_isweq [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
Functor_eq_map [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
functor_lifting [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
# _ (mor_disp_scope) [notation, in UniMath.CategoryTheory.DisplayedCats.Core]
Functor_Lifting [section, in UniMath.CategoryTheory.DisplayedCats.Core]
π [notation, in UniMath.CategoryTheory.DisplayedCats.Examples]
functor_alg_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
functor_alg_id [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
functor_alg_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
functor_alg_ob [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
functor_algebras [section, in UniMath.CategoryTheory.DisplayedCats.Examples]
functor_data_eq_from_nat_trans [lemma, in UniMath.CategoryTheory.Core.NaturalTransformations]
functor_cancel_pw [lemma, in UniMath.CategoryTheory.FunctorCategory]
functor_comp_pw [lemma, in UniMath.CategoryTheory.FunctorCategory]
functor_eq_from_functor_iso_idtoiso [lemma, in UniMath.CategoryTheory.FunctorCategory]
functor_eq_from_functor_iso [definition, in UniMath.CategoryTheory.FunctorCategory]
functor_iso_pointwise_if_iso [definition, in UniMath.CategoryTheory.FunctorCategory]
functor_iso_from_pointwise_iso [definition, in UniMath.CategoryTheory.FunctorCategory]
functor_iso_if_pointwise_iso [lemma, in UniMath.CategoryTheory.FunctorCategory]
functor_composite_as_ob [definition, in UniMath.CategoryTheory.FunctorCategory]
functor_identity_as_ob [definition, in UniMath.CategoryTheory.FunctorCategory]
functor_category [definition, in UniMath.CategoryTheory.FunctorCategory]
functor_category_has_homsets [lemma, in UniMath.CategoryTheory.FunctorCategory]
functor_precategory [definition, in UniMath.CategoryTheory.FunctorCategory]
functor_precategory_data [definition, in UniMath.CategoryTheory.FunctorCategory]
functor_precategory_ob_mor [definition, in UniMath.CategoryTheory.FunctorCategory]
functor_from_opp_opp_to_opp [definition, in UniMath.CategoryTheory.opp_precat]
functor_from_opp_to_opp_opp [definition, in UniMath.CategoryTheory.opp_precat]
functor_opp_composite [lemma, in UniMath.CategoryTheory.opp_precat]
functor_opp_identity [lemma, in UniMath.CategoryTheory.opp_precat]
functor_opp [definition, in UniMath.CategoryTheory.opp_precat]
functor_opp_data [definition, in UniMath.CategoryTheory.opp_precat]
functor_is_iso_is_iso [lemma, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
functor_preShvs_to_Disc_Fibs [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
functor_data_preShv_Disc_fibs [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
functor_Disc_Fibs_to_preShvs [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
functor_in_precomp_option_iter_Signature_ok [lemma, in UniMath.SubstitutionSystems.BindingSigToMonad]
functor_fix_snd_arg [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg_mor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg_ob [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg.d [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg.F [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg.E [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg.D [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg.C [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg_mor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg_ob [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg.c [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg.F [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg.E [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg.D [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg.C [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_in_MultiSortedSigToSignature_ok [lemma, in UniMath.SubstitutionSystems.MultiSorted_alt]
functor_in_Sig_hat_exp_functor_list_ok [lemma, in UniMath.SubstitutionSystems.MultiSorted_alt]
functor_in_Sig_exp_functor_list_ok [lemma, in UniMath.SubstitutionSystems.MultiSorted_alt]
functor_in_Sig_exp_functor_ok [lemma, in UniMath.SubstitutionSystems.MultiSorted_alt]
functor_composite_functor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_identity_arrow [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_identity_object [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_op_op_eq [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_rm_op_op_eq [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_op_rm_op_eq [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_to_opp_opp [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_on_comp [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_on_id [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_mor_application [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_object_application [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Functor_compose [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Functor_identity [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Functor_mor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Functor_obj [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Functor_obmor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_precat_product_cone [definition, in UniMath.CategoryTheory.limits.products]
functor_data_from_bifunctor_ob_mor_cell [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
functor_total_cat_univalent [lemma, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
functor_disp_cat_univalent [lemma, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
functor_total_cat [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
functor_disp_cat [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
functor_pointwise [definition, in UniMath.CategoryTheory.limits.cats.limits]
functor_ptd_forget_alt [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
functor_deriv [definition, in UniMath.CategoryTheory.Monads.Derivative]
functor_of_kleisli_iso [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
functor_of_kleisli_comm_nat_iso [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
functor_of_kleisli_comm [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
functor_of_right_adjoint_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
functor_of_right_adjoint_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
functor_preserves_split_epi [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
functor_preserves_merely_split_epi [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
functor_preserves_split_monic [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
functor_preserves_merely_split_monic [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
functor_on_square.ff_es_functor_preserves_pb.X [variable, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.ff_es_functor_preserves_pb.H [variable, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.ff_es_functor_preserves_pb.FF [variable, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.ff_es_functor_preserves_pb.Fes [variable, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.ff_es_functor_preserves_pb.Fff [variable, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.ff_es_functor_preserves_pb.hsD [variable, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.ff_es_functor_preserves_pb [section, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.isPullback_if_functor_on_square_is.X [variable, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square [definition, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.isPullback_if_functor_on_square_is.H [variable, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.isPullback_if_functor_on_square_is.Fff [variable, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.isPullback_if_functor_on_square_is [section, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.F [variable, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.hsC [variable, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.D [variable, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.C [variable, in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square [section, in UniMath.CategoryTheory.limits.pullbacks]
functor_from_LModule_data [definition, in UniMath.CategoryTheory.Monads.LModules]
functor_cat_swap_id [definition, in UniMath.CategoryTheory.Adjunctions.Examples]
functor_cat_swap [lemma, in UniMath.CategoryTheory.Adjunctions.Examples]
functor_cat_swap_nat_trans [lemma, in UniMath.CategoryTheory.Adjunctions.Examples]
functor_swap [lemma, in UniMath.CategoryTheory.Adjunctions.Examples]
[ _ , _ ] [notation, in UniMath.CategoryTheory.Adjunctions.Examples]
functor_swap [section, in UniMath.CategoryTheory.Adjunctions.Examples]
functor_from_equivalence_is_essentially_surjective [lemma, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
functor_with_mu_from_hss [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
functor_ptd_forget [definition, in UniMath.CategoryTheory.PointedFunctors]
functor_from_ptd_obj [definition, in UniMath.CategoryTheory.PointedFunctors]
functor_Under_precategories_mor [definition, in UniMath.CategoryTheory.UnderCategories]
functor_cComma_mor [definition, in UniMath.CategoryTheory.CommaCategories]
functor_in_MultiSortedSigToSignature_ok [lemma, in UniMath.SubstitutionSystems.MultiSorted]
functor_in_Sig_hat_exp_functor_list_ok [lemma, in UniMath.SubstitutionSystems.MultiSorted]
functor_in_Sig_exp_functor_list_ok [lemma, in UniMath.SubstitutionSystems.MultiSorted]
functor_in_Sig_exp_functor_ok [lemma, in UniMath.SubstitutionSystems.MultiSorted]
functor_precat_binproduct_cone [definition, in UniMath.CategoryTheory.limits.binproducts]
Functor.C [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
Functor.C' [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
Functor.D [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
Functor.D' [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
Functor.FunctorsC'C [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
functtransportb [lemma, in UniMath.Foundations.PartA]
functtransportf [lemma, in UniMath.Foundations.PartA]
func_functor_from [definition, in UniMath.CategoryTheory.rezk_completion]
fundamental_bigroupoid_is_univalent_2 [definition, in UniMath.Bicategories.Core.Examples.TwoType]
fundamental_bigroupoid_is_univalent_2_0 [definition, in UniMath.Bicategories.Core.Examples.TwoType]
fundamental_bigroupoid_is_univalent_2_1 [definition, in UniMath.Bicategories.Core.Examples.TwoType]
fundamental_bigroupoid_1cell_adj_equiv [definition, in UniMath.Bicategories.Core.Examples.TwoType]
fundamental_bigroupoid_1cell_equivalence [definition, in UniMath.Bicategories.Core.Examples.TwoType]
fundamental_groupoid_2cell_iso [definition, in UniMath.Bicategories.Core.Examples.TwoType]
fundamental_bigroupoid [definition, in UniMath.Bicategories.Core.Examples.TwoType]
funeqpaths [lemma, in UniMath.CategoryTheory.PreAdditive]
funextcontr [definition, in UniMath.Foundations.UnivalenceAxiom]
funextcontrAxiom [axiom, in UniMath.Foundations.UnivalenceAxiom]
funextcontrStatement [definition, in UniMath.Foundations.UnivalenceAxiom]
funextcontrStatementFromUnivalence [definition, in UniMath.Foundations.UnivalenceAxiom]
funextcontrUAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
funextempty [definition, in UniMath.Foundations.UnivalenceAxiom]
funextemptyAxiom [axiom, in UniMath.Foundations.UnivalenceAxiom]
funextemptyFromUnivalence [definition, in UniMath.Foundations.UnivalenceAxiom]
funextemptyStatement [definition, in UniMath.Foundations.UnivalenceAxiom]
funextemptyUAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
funextfun [definition, in UniMath.Foundations.UnivalenceAxiom]
funextfunImplication [lemma, in UniMath.Foundations.UnivalenceAxiom]
funextfunPreliminaryUAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
funextfunStatement [definition, in UniMath.Foundations.UnivalenceAxiom]
funextsec [definition, in UniMath.Foundations.UnivalenceAxiom]
funextsecImplication [lemma, in UniMath.Foundations.UnivalenceAxiom]
funextsecStatement [definition, in UniMath.Foundations.UnivalenceAxiom]
funextsecweqFromUnivalence [definition, in UniMath.Foundations.UnivalenceAxiom]
funextsec_toforallpaths [lemma, in UniMath.MoreFoundations.Univalence]
funextsec2 [definition, in UniMath.MoreFoundations.Interval]
funext_section [definition, in UniMath.AlgebraicGeometry.Spec]
funfibtototal [definition, in UniMath.MoreFoundations.MoreEquivalences]
funfromcoprodtoprod [definition, in UniMath.Foundations.PartD]
funhomot [definition, in UniMath.Foundations.PartA]
funhomotsec [definition, in UniMath.Foundations.PartA]
funset [definition, in UniMath.MoreFoundations.PartA]
funspace_isaset [lemma, in UniMath.MoreFoundations.Propositions]
funtoprodtoprod [definition, in UniMath.Foundations.PartD]
funtranspos [definition, in UniMath.Foundations.PartC]
funtranspos0 [definition, in UniMath.Foundations.PartC]
fun_gt [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
fun_lt [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Fun1 [definition, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
Fun1_functor_data [definition, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
Fun2 [definition, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
Fun2_functor_data [definition, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
Fun3 [definition, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
Fun3_functor_data [definition, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
fusion_law [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration]
fusion_law [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
fusion_law [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
fvar:10 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fvar:12 [binder, in UniMath.SubstitutionSystems.STLC_alt]
fvar:12 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
fvar:14 [binder, in UniMath.SubstitutionSystems.STLC]
fvar:14 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fvar:16 [binder, in UniMath.SubstitutionSystems.CCS]
fvar:17 [binder, in UniMath.SubstitutionSystems.CCS_alt]
fvar:18 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fvar:18 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
fvar:20 [binder, in UniMath.SubstitutionSystems.STLC_alt]
fvar:22 [binder, in UniMath.SubstitutionSystems.STLC]
fvar:24 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fvar:24 [binder, in UniMath.SubstitutionSystems.CCS]
fvar:26 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
fvar:28 [binder, in UniMath.SubstitutionSystems.STLC_alt]
fvar:30 [binder, in UniMath.SubstitutionSystems.STLC]
fvar:30 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fvar:36 [binder, in UniMath.SubstitutionSystems.STLC_alt]
fvar:4 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
fvar:46 [binder, in UniMath.SubstitutionSystems.STLC_alt]
fvar:6 [binder, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fvar:8 [binder, in UniMath.SubstitutionSystems.LamFromBindingSig]
fvar:9 [binder, in UniMath.SubstitutionSystems.CCS_alt]
fw:2389 [binder, in UniMath.Foundations.PartA]
fw:2400 [binder, in UniMath.Foundations.PartA]
FX [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
fx0:230 [binder, in UniMath.Combinatorics.FiniteSets]
fx0:233 [binder, in UniMath.Combinatorics.FiniteSets]
fx0:264 [binder, in UniMath.Combinatorics.FiniteSets]
fx0:267 [binder, in UniMath.Combinatorics.FiniteSets]
fX:11 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fx:14 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fX:15 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fx:1603 [binder, in UniMath.Foundations.PartA]
Fx:162 [binder, in UniMath.Topology.Filters]
fX:17 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
Fx:183 [binder, in UniMath.Topology.Filters]
Fx:187 [binder, in UniMath.Topology.Filters]
fX:23 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fX:33 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fx:43 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fX:43 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fx:47 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
FX:5 [binder, in UniMath.SubstitutionSystems.Signatures]
fx:52 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fX:52 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fx:521 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
fx:522 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
fx:57 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
FX:6 [binder, in UniMath.SubstitutionSystems.Signatures]
fX:6 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fY:12 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fy:15 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fy:1604 [binder, in UniMath.Foundations.PartA]
Fy:167 [binder, in UniMath.Topology.Filters]
Fy:184 [binder, in UniMath.Topology.Filters]
Fy:188 [binder, in UniMath.Topology.Filters]
fY:24 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fY:34 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fy:44 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fY:44 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fy:48 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fy:53 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fY:53 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fy:58 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fY:7 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fZ:25 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fZ:35 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F_local_equiv:33 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f_prog:463 [binder, in UniMath.Algebra.FixedPointTheorems]
f_prog:457 [binder, in UniMath.Algebra.FixedPointTheorems]
f_monot:443 [binder, in UniMath.Algebra.FixedPointTheorems]
f_monot:39 [binder, in UniMath.Algebra.FixedPointTheorems]
f_and_f_G:453 [binder, in UniMath.CategoryTheory.Core.Functors]
f_and_f_F:451 [binder, in UniMath.CategoryTheory.Core.Functors]
f_gh:227 [binder, in UniMath.Folds.folds_pre_2_cat]
f_gh:93 [binder, in UniMath.Folds.folds_pre_2_cat]
F_compute2 [definition, in UniMath.CategoryTheory.FunctorAlgebras]
F_compute1 [definition, in UniMath.CategoryTheory.FunctorAlgebras]
f_gh:57 [binder, in UniMath.Folds.folds_precat]
f_is_z_iso:30 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
f_is_iso:22 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
F_is_functor [definition, in UniMath.CategoryTheory.Adjunctions.Core]
F_data [definition, in UniMath.CategoryTheory.Adjunctions.Core]
f_is_z_iso:10 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
f_is_z_iso:103 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f_is_iso:77 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f_is_iso:67 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
F_CoAlg [abbreviation, in UniMath.CategoryTheory.FunctorCoalgebras]
f_to_s [abbreviation, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
F' [abbreviation, in UniMath.CategoryTheory.exponentials]
F''':38 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f''1:348 [binder, in UniMath.CategoryTheory.PreAdditive]
F'':1223 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
F'':1239 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
F'':17 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f'':217 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f'':253 [binder, in UniMath.Foundations.PartA]
F'':26 [binder, in UniMath.CategoryTheory.PointedFunctors]
f'':28 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
F'':318 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
F'':37 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f'':46 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
f'':55 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
f'':64 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
f'':73 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
f'1:337 [binder, in UniMath.CategoryTheory.PreAdditive]
f'1:347 [binder, in UniMath.CategoryTheory.PreAdditive]
f':10 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f':1003 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f':1049 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f':105 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
F':105 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
F':105 [binder, in UniMath.Topology.Filters]
f':107 [binder, in UniMath.CategoryTheory.Core.Univalence]
f':108 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F':11 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
f':11 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f':11 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f':110 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
F':1117 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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f1:208 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f1:21 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
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f1:225 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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f1:231 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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f1:24 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f1:240 [binder, in UniMath.CategoryTheory.limits.cokernels]
f1:246 [binder, in UniMath.CategoryTheory.Core.Isos]
f1:248 [binder, in UniMath.CategoryTheory.limits.cokernels]
f1:248 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f1:250 [binder, in UniMath.CategoryTheory.categories.abgrs]
f1:251 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f1:252 [binder, in UniMath.CategoryTheory.PreAdditive]
f1:255 [binder, in UniMath.CategoryTheory.Abelian]
f1:261 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f1:264 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
f1:266 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f1:269 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f1:27 [binder, in UniMath.CategoryTheory.Morphisms]
f1:275 [binder, in UniMath.CategoryTheory.Abelian]
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f1:292 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f1:300 [binder, in UniMath.CategoryTheory.limits.pushouts]
f1:306 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f1:313 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f1:314 [binder, in UniMath.CategoryTheory.Core.Isos]
f1:328 [binder, in UniMath.HomologicalAlgebra.Triangulated]
F1:33 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
f1:33 [binder, in UniMath.CategoryTheory.limits.zero]
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f1:347 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f1:36 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
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F1:405 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f1:410 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f1:414 [binder, in UniMath.CategoryTheory.PreAdditive]
F1:418 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f1:427 [binder, in UniMath.CategoryTheory.PreAdditive]
f1:429 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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f1:467 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f1:47 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
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F1:497 [binder, in UniMath.CategoryTheory.Core.Functors]
f1:5 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
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f1:523 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f1:543 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f1:544 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f1:55 [binder, in UniMath.Bicategories.Core.Bicat]
f1:55 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
f1:55 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
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f1:58 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
f1:59 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f1:60 [binder, in UniMath.CategoryTheory.Monics]
F1:61 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
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F1:65 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f1:65 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
F1:70 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f1:70 [binder, in UniMath.HomologicalAlgebra.KA]
f1:703 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f1:71 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f1:715 [binder, in UniMath.CategoryTheory.LocalizingClass]
f1:716 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f1:729 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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f1:761 [binder, in UniMath.Bicategories.Core.Bicat]
f1:77 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f1:771 [binder, in UniMath.Bicategories.Core.Bicat]
f1:78 [binder, in UniMath.CategoryTheory.FiveLemma]
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f1:826 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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f2:127 [binder, in UniMath.Bicategories.Core.Bicat]
F2:133 [binder, in UniMath.CategoryTheory.limits.cats.limits]
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F2:145 [binder, in UniMath.CategoryTheory.limits.cats.limits]
F2:148 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
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f2:173 [binder, in UniMath.Foundations.UnivalenceAxiom]
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f2:209 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f2:214 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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f2:226 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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f2:232 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f2:233 [binder, in UniMath.CategoryTheory.limits.cokernels]
f2:234 [binder, in UniMath.CategoryTheory.Abelian]
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f2:241 [binder, in UniMath.CategoryTheory.limits.cokernels]
f2:247 [binder, in UniMath.CategoryTheory.Core.Isos]
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f2:249 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f2:25 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f2:251 [binder, in UniMath.CategoryTheory.categories.abgrs]
f2:252 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f2:253 [binder, in UniMath.CategoryTheory.PreAdditive]
f2:256 [binder, in UniMath.CategoryTheory.Abelian]
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f2:28 [binder, in UniMath.CategoryTheory.Morphisms]
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f2:301 [binder, in UniMath.CategoryTheory.limits.pushouts]
f2:307 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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f2:348 [binder, in UniMath.HomologicalAlgebra.Triangulated]
F2:36 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
f2:37 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
f2:373 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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f2:468 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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F2:498 [binder, in UniMath.CategoryTheory.Core.Functors]
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f2:545 [binder, in UniMath.CategoryTheory.limits.pullbacks]
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f2:56 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f2:57 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
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F2:66 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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f3:775 [binder, in UniMath.Bicategories.Core.Bicat]
f3:786 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f3:80 [binder, in UniMath.CategoryTheory.FiveLemma]
f3:800 [binder, in UniMath.Bicategories.Core.Bicat]
f3:828 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f3:870 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f3:912 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f3:954 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f3:96 [binder, in UniMath.HomologicalAlgebra.KA]
f3:996 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f4':126 [binder, in UniMath.HomologicalAlgebra.KA]
f4:118 [binder, in UniMath.HomologicalAlgebra.KA]
F4:140 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F4:147 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f4:17 [binder, in UniMath.CategoryTheory.FiveLemma]
f4:586 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f4:603 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f4:81 [binder, in UniMath.CategoryTheory.FiveLemma]
f5:82 [binder, in UniMath.CategoryTheory.FiveLemma]
f:10 [binder, in UniMath.CategoryTheory.categories.Type.Core]
F:10 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
F:10 [binder, in UniMath.CategoryTheory.Monads.Monads]
F:10 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
f:10 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:10 [binder, in UniMath.Bicategories.Core.YonedaLemma]
f:10 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:10 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
f:10 [binder, in UniMath.CategoryTheory.Subcategory.Full]
F:10 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:10 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:10 [binder, in UniMath.Bicategories.Core.AdjointUnique]
f:10 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:10 [binder, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
f:10 [binder, in UniMath.CategoryTheory.Core.Isos]
f:10 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
f:10 [binder, in UniMath.CategoryTheory.categories.HSET.Slice]
f:10 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
f:10 [binder, in UniMath.CategoryTheory.Subcategory.Core]
f:10 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:10 [binder, in UniMath.CategoryTheory.Monics]
f:10 [binder, in UniMath.CategoryTheory.limits.products]
f:10 [binder, in UniMath.MoreFoundations.PartA]
f:10 [binder, in UniMath.MoreFoundations.Univalence]
F:10 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
f:10 [binder, in UniMath.CategoryTheory.Inductives.Trees]
f:10 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
F:10 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
f:10 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:10 [binder, in UniMath.SyntheticHomotopyTheory.Test]
f:10 [binder, in UniMath.Foundations.PartA]
f:10 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:10 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:10 [binder, in UniMath.CategoryTheory.limits.terminal]
f:100 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
f:100 [binder, in UniMath.CategoryTheory.Core.Isos]
f:100 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:100 [binder, in UniMath.Folds.folds_precat]
f:100 [binder, in UniMath.Algebra.Dcpo]
f:100 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
F:100 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:100 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:100 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:100 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:100 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:1002 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1002 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1002 [binder, in UniMath.Algebra.BinaryOperations]
f:1005 [binder, in UniMath.Foundations.PartA]
f:1006 [binder, in UniMath.Algebra.BinaryOperations]
F:1007 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1008 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:101 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
f:101 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:101 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:101 [binder, in UniMath.CategoryTheory.Monads.Monads]
f:101 [binder, in UniMath.Bicategories.Core.Bicat]
F:101 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:101 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:101 [binder, in UniMath.Algebra.Monoids]
f:101 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:101 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:101 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:101 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
F:101 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:101 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:101 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:101 [binder, in UniMath.Algebra.RigsAndRings]
f:101 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:101 [binder, in UniMath.Combinatorics.WellFoundedRelations]
F:101 [binder, in UniMath.CategoryTheory.Monads.LModules]
f:101 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:101 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:1011 [binder, in UniMath.Algebra.BinaryOperations]
f:1011 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1015 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1015 [binder, in UniMath.Algebra.BinaryOperations]
f:1016 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1017 [binder, in UniMath.Foundations.Sets]
F:1019 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1019 [binder, in UniMath.Algebra.BinaryOperations]
f:102 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:102 [binder, in UniMath.CategoryTheory.Inductives.Lists]
f:102 [binder, in UniMath.Folds.folds_pre_2_cat]
f:102 [binder, in UniMath.Foundations.Propositions]
f:102 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
F:102 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:102 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:102 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:102 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:102 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:102 [binder, in UniMath.Foundations.PartC]
f:102 [binder, in UniMath.CategoryTheory.Morphisms]
f:102 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:1020 [binder, in UniMath.Bicategories.Core.Bicat]
f:1023 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1023 [binder, in UniMath.Algebra.BinaryOperations]
f:1027 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1027 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1029 [binder, in UniMath.Algebra.BinaryOperations]
F:103 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:103 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
F:103 [binder, in UniMath.CategoryTheory.catiso]
f:103 [binder, in UniMath.Combinatorics.OrderedSets]
f:103 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:103 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:103 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:103 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:103 [binder, in UniMath.CategoryTheory.PseudoElements]
f:103 [binder, in UniMath.CategoryTheory.limits.kernels]
f:103 [binder, in UniMath.CategoryTheory.PreAdditive]
f:103 [binder, in UniMath.CategoryTheory.limits.Opp]
F:103 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:103 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:103 [binder, in UniMath.Topology.Filters]
f:103 [binder, in UniMath.Combinatorics.FiniteSequences]
f:103 [binder, in UniMath.MoreFoundations.NegativePropositions]
f:103 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:1030 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1031 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:1031 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1033 [binder, in UniMath.Bicategories.Core.Bicat]
f:1033 [binder, in UniMath.Algebra.BinaryOperations]
f:1035 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1038 [binder, in UniMath.Bicategories.Core.Bicat]
f:1039 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1039 [binder, in UniMath.Algebra.BinaryOperations]
f:104 [binder, in UniMath.CategoryTheory.Monads.Monads]
f:104 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:104 [binder, in UniMath.Algebra.Monoids]
f:104 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
F:104 [binder, in UniMath.CategoryTheory.Core.Functors]
F:104 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:104 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
f:104 [binder, in UniMath.Algebra.Modules.Multimodules]
f:104 [binder, in UniMath.CategoryTheory.slicecat]
f:104 [binder, in UniMath.Bicategories.Core.Univalence]
f:104 [binder, in UniMath.Algebra.RigsAndRings]
F:104 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
f:104 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:104 [binder, in UniMath.Topology.Filters]
f:104 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:104 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:104 [binder, in UniMath.CategoryTheory.Additive]
f:104 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:104 [binder, in UniMath.CategoryTheory.Core.Categories]
f:1040 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1043 [binder, in UniMath.Bicategories.Core.Bicat]
f:1043 [binder, in UniMath.Algebra.BinaryOperations]
f:1045 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1047 [binder, in UniMath.Algebra.BinaryOperations]
f:1048 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1048 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:105 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
F:105 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:105 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:105 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:105 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
f:105 [binder, in UniMath.Foundations.Propositions]
f:105 [binder, in UniMath.CategoryTheory.Core.Isos]
f:105 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:105 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:105 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
f:105 [binder, in UniMath.CategoryTheory.limits.products]
F:105 [binder, in UniMath.Bicategories.Modifications.Modification]
f:105 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:105 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:1051 [binder, in UniMath.Algebra.BinaryOperations]
f:1055 [binder, in UniMath.Algebra.BinaryOperations]
f:1056 [binder, in UniMath.Bicategories.Core.Bicat]
f:1059 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:106 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:106 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:106 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
f:106 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:106 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:106 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:106 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:106 [binder, in UniMath.Bicategories.Core.Strictness]
f:106 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
F:106 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:106 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
F:106 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:106 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
F:106 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:106 [binder, in UniMath.CategoryTheory.Core.Univalence]
F:106 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:106 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:106 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:106 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:106 [binder, in UniMath.CategoryTheory.Monads.KTriples]
f:1061 [binder, in UniMath.Bicategories.Core.Bicat]
f:1064 [binder, in UniMath.Foundations.PartA]
f:107 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:107 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:107 [binder, in UniMath.CategoryTheory.Inductives.Lists]
f:107 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:107 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
F:107 [binder, in UniMath.CategoryTheory.catiso]
f:107 [binder, in UniMath.Combinatorics.Vectors]
f:107 [binder, in UniMath.Algebra.FixedPointTheorems]
f:107 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:107 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:107 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:107 [binder, in UniMath.Folds.folds_pre_2_cat]
f:107 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:107 [binder, in UniMath.CategoryTheory.PreAdditive]
f:107 [binder, in UniMath.Algebra.RigsAndRings]
f:107 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:107 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:1070 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1070 [binder, in UniMath.Foundations.Sets]
f:1070 [binder, in UniMath.Foundations.PartA]
F:1075 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1076 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1078 [binder, in UniMath.Foundations.Sets]
f:1079 [binder, in UniMath.Foundations.PartA]
f:108 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:108 [binder, in UniMath.Algebra.Monoids]
F:108 [binder, in UniMath.CategoryTheory.Core.Functors]
f:108 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:108 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:108 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:108 [binder, in UniMath.CategoryTheory.limits.Opp]
f:108 [binder, in UniMath.CategoryTheory.Monads.Derivative]
f:108 [binder, in UniMath.Combinatorics.FiniteSequences]
F:108 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:108 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:108 [binder, in UniMath.CategoryTheory.Core.Categories]
F:1086 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:109 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
f:109 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
F:109 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F:109 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:109 [binder, in UniMath.CategoryTheory.categories.abgrs]
F:109 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:109 [binder, in UniMath.CategoryTheory.PseudoElements]
f:109 [binder, in UniMath.Foundations.Propositions]
F:109 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:109 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:109 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:109 [binder, in UniMath.Algebra.Modules.Multimodules]
f:109 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:109 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:109 [binder, in UniMath.Algebra.GroupAction]
f:109 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:109 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:109 [binder, in UniMath.Topology.Filters]
f:109 [binder, in UniMath.CategoryTheory.Additive]
f:109 [binder, in UniMath.Algebra.IteratedBinaryOperations]
f:109 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:109 [binder, in UniMath.CategoryTheory.Morphisms]
f:1091 [binder, in UniMath.Foundations.PartA]
f:1092 [binder, in UniMath.Foundations.Sets]
F:1095 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1097 [binder, in UniMath.Foundations.Sets]
f:1098 [binder, in UniMath.Foundations.PartA]
f:1099 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:11 [binder, in UniMath.MoreFoundations.NullHomotopies]
f:11 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
f:11 [binder, in UniMath.Algebra.Modules.Core]
F:11 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:11 [binder, in UniMath.Combinatorics.Maybe]
f:11 [binder, in UniMath.PAdics.z_mod_p]
f:11 [binder, in UniMath.MoreFoundations.PartD]
F:11 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:11 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:11 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
F:11 [binder, in UniMath.CategoryTheory.CategoryEquality]
f:11 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:11 [binder, in UniMath.Bicategories.Core.Examples.OneTypes]
f:11 [binder, in UniMath.SubstitutionSystems.Lam]
f:11 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
f:11 [binder, in UniMath.Algebra.Tests]
F:11 [binder, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
f:11 [binder, in UniMath.Bicategories.WkCatEnrichment.Cat]
f:11 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
F:11 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
F:11 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:11 [binder, in UniMath.CategoryTheory.limits.Opp]
f:11 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:11 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:11 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:11 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:11 [binder, in UniMath.PAdics.fps]
f:11 [binder, in UniMath.Combinatorics.WellFoundedRelations]
f:11 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
F:11 [binder, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
f:11 [binder, in UniMath.CategoryTheory.UnderCategories]
f:11 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
F:11 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:11 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
f:11 [binder, in UniMath.CategoryTheory.Epis]
f:11 [binder, in UniMath.Bicategories.Core.Unitors]
F:11 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
f:11 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:11 [binder, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
f:11 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
f:11 [binder, in UniMath.Induction.W.Naturals]
f:11 [binder, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:110 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
f:110 [binder, in UniMath.CategoryTheory.Monads.Monads]
f:110 [binder, in UniMath.Bicategories.Core.Bicat]
f:110 [binder, in UniMath.CategoryTheory.whiskering]
f:110 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
f:110 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
F:110 [binder, in UniMath.CategoryTheory.FunctorCategory]
F:110 [binder, in UniMath.CategoryTheory.opp_precat]
f:110 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:110 [binder, in UniMath.CategoryTheory.slicecat]
f:110 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
F:110 [binder, in UniMath.Topology.Filters]
f:110 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:110 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:110 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:110 [binder, in UniMath.CategoryTheory.limits.binproducts]
F:1101 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1105 [binder, in UniMath.Foundations.Sets]
f:1105 [binder, in UniMath.Foundations.PartA]
F:1107 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:111 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:111 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
F:111 [binder, in UniMath.CategoryTheory.Subcategory.Full]
F:111 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:111 [binder, in UniMath.Algebra.FixedPointTheorems]
f:111 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:111 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:111 [binder, in UniMath.CategoryTheory.PreAdditive]
f:111 [binder, in UniMath.MoreFoundations.Univalence]
f:111 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:111 [binder, in UniMath.Combinatorics.WellFoundedRelations]
f:111 [binder, in UniMath.Foundations.PartC]
f:111 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:1113 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1114 [binder, in UniMath.Foundations.Sets]
F:1118 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:112 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:112 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:112 [binder, in UniMath.Algebra.Monoids]
f:112 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:112 [binder, in UniMath.Algebra.Universal.HVectors]
f:112 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:112 [binder, in UniMath.Foundations.Propositions]
f:112 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:112 [binder, in UniMath.Algebra.RigsAndRings]
F:112 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:112 [binder, in UniMath.Bicategories.Modifications.Modification]
f:112 [binder, in UniMath.Combinatorics.Lists]
f:112 [binder, in UniMath.Combinatorics.FiniteSequences]
f:112 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:1122 [binder, in UniMath.Foundations.Sets]
f:1122 [binder, in UniMath.Foundations.PartA]
F:113 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
F:113 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:113 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:113 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:113 [binder, in UniMath.CategoryTheory.limits.Opp]
f:113 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
F:1130 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1131 [binder, in UniMath.Foundations.Sets]
f:1134 [binder, in UniMath.Foundations.PartA]
f:1139 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:114 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:114 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:114 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:114 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:114 [binder, in UniMath.Folds.folds_pre_2_cat]
f:114 [binder, in UniMath.CategoryTheory.Core.Isos]
f:114 [binder, in UniMath.Bicategories.Core.Univalence]
F:114 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:114 [binder, in UniMath.CategoryTheory.Core.Univalence]
f:114 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:114 [binder, in UniMath.Topology.Filters]
f:114 [binder, in UniMath.CategoryTheory.Additive]
f:114 [binder, in UniMath.CategoryTheory.Monads.LModules]
f:114 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:114 [binder, in UniMath.Foundations.PartA]
f:114 [binder, in UniMath.CategoryTheory.Monads.KTriples]
f:114 [binder, in UniMath.CategoryTheory.Core.Categories]
f:1143 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:1146 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1146 [binder, in UniMath.Foundations.Sets]
f:115 [binder, in UniMath.CategoryTheory.Monads.Monads]
f:115 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:115 [binder, in UniMath.Algebra.FixedPointTheorems]
f:115 [binder, in UniMath.Algebra.Monoids]
F:115 [binder, in UniMath.CategoryTheory.Core.Functors]
f:115 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:115 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:115 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:115 [binder, in UniMath.CategoryTheory.PseudoElements]
f:115 [binder, in UniMath.Foundations.Propositions]
f:115 [binder, in UniMath.Algebra.Modules.Multimodules]
f:115 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:115 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
f:115 [binder, in UniMath.Algebra.RigsAndRings]
f:115 [binder, in UniMath.CategoryTheory.limits.products]
F:115 [binder, in UniMath.CategoryTheory.limits.cats.limits]
F:115 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
f:115 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:115 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:115 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:115 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:1150 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1152 [binder, in UniMath.Foundations.PartA]
f:1154 [binder, in UniMath.Foundations.Sets]
F:1156 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1156 [binder, in UniMath.Foundations.PartA]
f:1158 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1159 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:116 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:116 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:116 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:116 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:116 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:116 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:116 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:116 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:1160 [binder, in UniMath.Foundations.Sets]
f:1161 [binder, in UniMath.Foundations.PartA]
f:1165 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:1166 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1166 [binder, in UniMath.Foundations.PartA]
f:117 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:117 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:117 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:117 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:117 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:117 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:117 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:117 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:117 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:117 [binder, in UniMath.Combinatorics.Lists]
f:117 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:117 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:1170 [binder, in UniMath.Foundations.Sets]
f:1171 [binder, in UniMath.Foundations.PartA]
f:1178 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:1178 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1178 [binder, in UniMath.Foundations.PartA]
f:118 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:118 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
F:118 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:118 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:118 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:118 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:118 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:118 [binder, in UniMath.Algebra.RigsAndRings]
f:118 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:118 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:1182 [binder, in UniMath.Foundations.Sets]
f:1184 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1187 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1188 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1189 [binder, in UniMath.Foundations.PartA]
f:119 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:119 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:119 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:119 [binder, in UniMath.Algebra.FixedPointTheorems]
f:119 [binder, in UniMath.MoreFoundations.MoreEquivalences]
F:119 [binder, in UniMath.CategoryTheory.Core.Functors]
f:119 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:119 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:119 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:119 [binder, in UniMath.Foundations.Propositions]
F:119 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:119 [binder, in UniMath.CategoryTheory.FunctorCategory]
F:119 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:119 [binder, in UniMath.Bicategories.Core.Univalence]
f:119 [binder, in UniMath.CategoryTheory.PreAdditive]
f:119 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:119 [binder, in UniMath.CategoryTheory.limits.pullbacks]
F:119 [binder, in UniMath.CategoryTheory.Monads.LModules]
f:1193 [binder, in UniMath.Foundations.PartA]
F:1194 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1196 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:12 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
F:12 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
f:12 [binder, in UniMath.CategoryTheory.Inductives.Lists]
f:12 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f:12 [binder, in UniMath.CategoryTheory.Elements]
f:12 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
F:12 [binder, in UniMath.CategoryTheory.catiso]
f:12 [binder, in UniMath.CategoryTheory.ElementsOp]
F:12 [binder, in UniMath.CategoryTheory.Monads.Monads]
f:12 [binder, in UniMath.CategoryTheory.category_binops]
f:12 [binder, in UniMath.Bicategories.Core.YonedaLemma]
f:12 [binder, in UniMath.CategoryTheory.limits.graphs.kernels]
F:12 [binder, in UniMath.Bicategories.Core.Examples.Image]
f:12 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f:12 [binder, in UniMath.MoreFoundations.Sets]
f:12 [binder, in UniMath.CategoryTheory.limits.graphs.cokernels]
f:12 [binder, in UniMath.Algebra.FixedPointTheorems]
f:12 [binder, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
f:12 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:12 [binder, in UniMath.MoreFoundations.AxiomOfChoice]
f:12 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:12 [binder, in UniMath.Bicategories.Core.Strictness]
f:12 [binder, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
f:12 [binder, in UniMath.CategoryTheory.coslicecat]
f:12 [binder, in UniMath.CategoryTheory.SetValuedFunctors]
f:12 [binder, in UniMath.Bicategories.PseudoFunctors.Representable]
f:12 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
f:12 [binder, in UniMath.CategoryTheory.slicecat]
f:12 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:12 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:12 [binder, in UniMath.CategoryTheory.ShortExactSequences]
f:12 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
f:12 [binder, in UniMath.Folds.folds_isomorphism]
f:12 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:12 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:12 [binder, in UniMath.CategoryTheory.NNO]
f:12 [binder, in UniMath.Bicategories.Core.Examples.OpCellBicat]
f:12 [binder, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
f:12 [binder, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
f:12 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:12 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
F:12 [binder, in UniMath.CategoryTheory.Profunctors.Core]
f:12 [binder, in UniMath.Bicategories.Core.TransportLaws]
f:12 [binder, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
F:12 [binder, in UniMath.CategoryTheory.PointedFunctors]
F:12 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
F:12 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:12 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
f:12 [binder, in UniMath.CategoryTheory.limits.terminal]
F:120 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:120 [binder, in UniMath.CategoryTheory.Monads.Monads]
f:120 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:120 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
F:120 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:120 [binder, in UniMath.CategoryTheory.Core.Isos]
f:120 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:120 [binder, in UniMath.Algebra.Modules.Multimodules]
F:120 [binder, in UniMath.CategoryTheory.HorizontalComposition]
f:120 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:120 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:120 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
F:120 [binder, in UniMath.CategoryTheory.Morphisms]
f:1203 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1203 [binder, in UniMath.Foundations.PartA]
f:1205 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1209 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:121 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:121 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
f:121 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:121 [binder, in UniMath.Algebra.Monoids]
f:121 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:121 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:121 [binder, in UniMath.CategoryTheory.PseudoElements]
F:121 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:121 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:121 [binder, in UniMath.Algebra.GroupAction]
F:121 [binder, in UniMath.CategoryTheory.HorizontalComposition]
f:121 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
F:121 [binder, in UniMath.Bicategories.Modifications.Modification]
f:121 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
f:121 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:121 [binder, in UniMath.CategoryTheory.Additive]
f:121 [binder, in UniMath.Foundations.PartC]
f:121 [binder, in UniMath.Foundations.PartA]
f:121 [binder, in UniMath.CategoryTheory.Monads.KTriples]
f:1210 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1211 [binder, in UniMath.Foundations.PartA]
f:1218 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1219 [binder, in UniMath.Foundations.PartA]
F:122 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:122 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:122 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:122 [binder, in UniMath.Foundations.PartB]
F:122 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:122 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:122 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:122 [binder, in UniMath.CategoryTheory.Core.Univalence]
f:122 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:122 [binder, in UniMath.Combinatorics.Lists]
f:122 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:122 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:122 [binder, in UniMath.Combinatorics.FiniteSequences]
f:122 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:122 [binder, in UniMath.CategoryTheory.Core.Categories]
F:1225 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1226 [binder, in UniMath.Foundations.PartA]
f:1229 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:123 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:123 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:123 [binder, in UniMath.CategoryTheory.Core.Functors]
f:123 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:123 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F:123 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:123 [binder, in UniMath.Bicategories.Core.Univalence]
f:123 [binder, in UniMath.CategoryTheory.PreAdditive]
f:123 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:123 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
F:123 [binder, in UniMath.Algebra.Dcpo]
f:123 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:1233 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:124 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:124 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:124 [binder, in UniMath.Foundations.PartD]
f:124 [binder, in UniMath.Algebra.FixedPointTheorems]
f:124 [binder, in UniMath.Algebra.Monoids]
f:124 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:124 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:124 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:124 [binder, in UniMath.CategoryTheory.limits.Opp]
F:124 [binder, in UniMath.CategoryTheory.Morphisms]
f:124 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
F:1241 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1243 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1245 [binder, in UniMath.Algebra.BinaryOperations]
f:1249 [binder, in UniMath.Algebra.BinaryOperations]
f:125 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:125 [binder, in UniMath.CategoryTheory.limits.pushouts]
F:125 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F:125 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:125 [binder, in UniMath.Algebra.GroupAction]
F:125 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:125 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:125 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F:1254 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:1254 [binder, in UniMath.Algebra.BinaryOperations]
f:1258 [binder, in UniMath.Algebra.BinaryOperations]
F:126 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:126 [binder, in UniMath.CategoryTheory.Abelian]
f:126 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:126 [binder, in UniMath.MoreFoundations.Sets]
f:126 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:126 [binder, in UniMath.Combinatorics.OrderedSets]
F:126 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:126 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:126 [binder, in UniMath.CategoryTheory.PseudoElements]
f:126 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:126 [binder, in UniMath.Algebra.Modules.Multimodules]
f:126 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:126 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:126 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:126 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
F:126 [binder, in UniMath.Topology.Filters]
f:126 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:126 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:1264 [binder, in UniMath.Algebra.BinaryOperations]
F:1267 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:127 [binder, in UniMath.CategoryTheory.Abelian]
f:127 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:127 [binder, in UniMath.Algebra.Monoids]
f:127 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
F:127 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:127 [binder, in UniMath.CategoryTheory.opp_precat]
f:127 [binder, in UniMath.CategoryTheory.limits.cokernels]
F:127 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:127 [binder, in UniMath.CategoryTheory.PreAdditive]
f:127 [binder, in UniMath.CategoryTheory.ShortExactSequences]
f:127 [binder, in UniMath.CategoryTheory.limits.products]
f:127 [binder, in UniMath.CategoryTheory.Additive]
f:127 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:127 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:1270 [binder, in UniMath.Algebra.BinaryOperations]
f:128 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:128 [binder, in UniMath.CategoryTheory.Abelian]
f:128 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:128 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:128 [binder, in UniMath.Foundations.Propositions]
f:128 [binder, in UniMath.CategoryTheory.Core.Isos]
f:128 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:128 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
f:128 [binder, in UniMath.Bicategories.Core.Univalence]
f:128 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:128 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:128 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:128 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:1285 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:129 [binder, in UniMath.CategoryTheory.Abelian]
f:129 [binder, in UniMath.Combinatorics.Vectors]
f:129 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:129 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:129 [binder, in UniMath.CategoryTheory.Core.Functors]
f:129 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
F:129 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:129 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:129 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:129 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:129 [binder, in UniMath.Algebra.GroupAction]
f:129 [binder, in UniMath.CategoryTheory.Core.Univalence]
F:129 [binder, in UniMath.Topology.Filters]
F:129 [binder, in UniMath.Algebra.Dcpo]
f:129 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:129 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:129 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:13 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
f:13 [binder, in UniMath.Bicategories.Core.FullyFaithful]
F:13 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
f:13 [binder, in UniMath.Algebra.Modules.Core]
f:13 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
f:13 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:13 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
F:13 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:13 [binder, in UniMath.MoreFoundations.Equivalences]
f:13 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
f:13 [binder, in UniMath.Folds.folds_pre_2_cat]
f:13 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:13 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:13 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
f:13 [binder, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
f:13 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
f:13 [binder, in UniMath.Bicategories.Core.Examples.Final]
f:13 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
F:13 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:13 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
f:13 [binder, in UniMath.CategoryTheory.Inductives.Trees]
F:13 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:13 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
F:13 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:13 [binder, in UniMath.CategoryTheory.CommaCategories]
f:13 [binder, in UniMath.Bicategories.Core.Examples.OpMorBicat]
F:13 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
F:13 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
F:13 [binder, in UniMath.SubstitutionSystems.MultiSorted]
f:13 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:13 [binder, in UniMath.Algebra.Universal.SortedTypes]
f:13 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
f:13 [binder, in UniMath.CategoryTheory.DisplayedCats.SIP]
f:130 [binder, in UniMath.CategoryTheory.Inductives.Lists]
f:130 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:130 [binder, in UniMath.CategoryTheory.Abelian]
f:130 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:130 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:130 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:130 [binder, in UniMath.Algebra.FixedPointTheorems]
f:130 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:130 [binder, in UniMath.CategoryTheory.opp_precat]
f:130 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:130 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
F:130 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:130 [binder, in UniMath.CategoryTheory.Morphisms]
f:1303 [binder, in UniMath.Foundations.PartA]
f:1304 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1306 [binder, in UniMath.Foundations.PartA]
f:1309 [binder, in UniMath.Foundations.PartA]
f:131 [binder, in UniMath.CategoryTheory.Abelian]
F:131 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
F:131 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:131 [binder, in UniMath.Algebra.Modules.Multimodules]
f:131 [binder, in UniMath.CategoryTheory.PreAdditive]
f:131 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:1312 [binder, in UniMath.Foundations.PartA]
f:132 [binder, in UniMath.CategoryTheory.Inductives.Lists]
f:132 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:132 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:132 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:132 [binder, in UniMath.Algebra.Monoids]
f:132 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
F:132 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:132 [binder, in UniMath.MoreFoundations.MoreEquivalences]
F:132 [binder, in UniMath.CategoryTheory.Core.Functors]
f:132 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:132 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:132 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:132 [binder, in UniMath.Bicategories.Modifications.Modification]
f:132 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:1323 [binder, in UniMath.Algebra.BinaryOperations]
f:1325 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1325 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:133 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:133 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:133 [binder, in UniMath.Foundations.Propositions]
f:133 [binder, in UniMath.CategoryTheory.Core.Isos]
f:133 [binder, in UniMath.Bicategories.Core.Univalence]
f:133 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:133 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:133 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:133 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
f:133 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:133 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:133 [binder, in UniMath.CategoryTheory.Additive]
f:133 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:1332 [binder, in UniMath.Foundations.PartA]
f:1334 [binder, in UniMath.Algebra.BinaryOperations]
f:134 [binder, in UniMath.Combinatorics.OrderedSets]
f:134 [binder, in UniMath.Foundations.PartB]
f:134 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:134 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:134 [binder, in UniMath.CategoryTheory.PseudoElements]
F:134 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:134 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
F:134 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:134 [binder, in UniMath.CategoryTheory.ShortExactSequences]
f:134 [binder, in UniMath.CategoryTheory.limits.Opp]
F:134 [binder, in UniMath.Algebra.Dcpo]
f:1343 [binder, in UniMath.Foundations.PartA]
f:1346 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1349 [binder, in UniMath.Algebra.BinaryOperations]
f:135 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:135 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:135 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:135 [binder, in UniMath.Algebra.Monoids]
f:135 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:135 [binder, in UniMath.CategoryTheory.Core.Functors]
f:135 [binder, in UniMath.Algebra.Universal.HVectors]
f:135 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
F:135 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:135 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:135 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:135 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
F:135 [binder, in UniMath.Topology.Filters]
f:135 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:135 [binder, in UniMath.Combinatorics.WellFoundedRelations]
f:135 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
f:1354 [binder, in UniMath.Foundations.PartA]
f:136 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:136 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:136 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:136 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:136 [binder, in UniMath.Algebra.FixedPointTheorems]
f:136 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:136 [binder, in UniMath.Foundations.Propositions]
f:136 [binder, in UniMath.Algebra.Modules.Multimodules]
F:136 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:136 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:136 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:136 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
f:1360 [binder, in UniMath.Algebra.BinaryOperations]
f:1364 [binder, in UniMath.Foundations.PartA]
f:1367 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:137 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:137 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:137 [binder, in UniMath.CategoryTheory.Monads.Monads]
f:137 [binder, in UniMath.Combinatorics.Vectors]
f:137 [binder, in UniMath.MoreFoundations.Sets]
F:137 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:137 [binder, in UniMath.Bicategories.Core.Strictness]
f:137 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:137 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:137 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:137 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:137 [binder, in UniMath.CategoryTheory.Core.Univalence]
f:137 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:137 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:1373 [binder, in UniMath.Foundations.PartA]
f:1379 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:138 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F:138 [binder, in UniMath.CategoryTheory.Core.Functors]
f:138 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:138 [binder, in UniMath.CategoryTheory.Core.Isos]
f:138 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:138 [binder, in UniMath.Combinatorics.Lists]
f:138 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:138 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:1384 [binder, in UniMath.Foundations.PartA]
f:1389 [binder, in UniMath.Foundations.PartA]
f:139 [binder, in UniMath.Algebra.Monoids]
f:139 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:139 [binder, in UniMath.Bicategories.Core.Strictness]
f:139 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:139 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:139 [binder, in UniMath.CategoryTheory.opp_precat]
f:139 [binder, in UniMath.CategoryTheory.PreAdditive]
F:139 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:139 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:139 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
F:139 [binder, in UniMath.Algebra.Dcpo]
f:139 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:139 [binder, in UniMath.CategoryTheory.Additive]
f:139 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:139 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:1392 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1394 [binder, in UniMath.Foundations.PartA]
f:14 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
f:14 [binder, in UniMath.MoreFoundations.NullHomotopies]
f:14 [binder, in UniMath.CategoryTheory.categories.rings]
F:14 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:14 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f:14 [binder, in UniMath.CategoryTheory.categories.setwith2binops]
f:14 [binder, in UniMath.CategoryTheory.categories.grs]
F:14 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
f:14 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:14 [binder, in UniMath.CategoryTheory.categories.flds]
f:14 [binder, in UniMath.Combinatorics.Maybe]
f:14 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:14 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
f:14 [binder, in UniMath.CategoryTheory.limits.graphs.terminal]
f:14 [binder, in UniMath.Bicategories.Core.Bicat]
f:14 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:14 [binder, in UniMath.CategoryTheory.yoneda]
f:14 [binder, in UniMath.CategoryTheory.limits.initial]
f:14 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:14 [binder, in UniMath.CategoryTheory.Monads.MonadAlgebras]
f:14 [binder, in UniMath.CategoryTheory.precomp_fully_faithful]
f:14 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:14 [binder, in UniMath.CategoryTheory.PseudoElements]
f:14 [binder, in UniMath.CategoryTheory.CategoriesWithBinOps]
f:14 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
f:14 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:14 [binder, in UniMath.Algebra.Groups]
f:14 [binder, in UniMath.CategoryTheory.categories.HSET.Slice]
f:14 [binder, in UniMath.Bicategories.Colimits.Final]
f:14 [binder, in UniMath.Bicategories.Core.Univalence]
f:14 [binder, in UniMath.CategoryTheory.PreAdditive]
f:14 [binder, in UniMath.Bicategories.PseudoFunctors.Yoneda]
f:14 [binder, in UniMath.HomologicalAlgebra.KA]
f:14 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:14 [binder, in UniMath.CategoryTheory.categories.commrigs]
f:14 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:14 [binder, in UniMath.Bicategories.Discreteness]
f:14 [binder, in UniMath.CategoryTheory.categories.rigs]
f:14 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
F:14 [binder, in UniMath.Topology.Filters]
F:14 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:14 [binder, in UniMath.SyntheticHomotopyTheory.Test]
f:14 [binder, in UniMath.CategoryTheory.categories.monoids]
f:14 [binder, in UniMath.CategoryTheory.categories.intdoms]
f:14 [binder, in UniMath.CategoryTheory.UnderCategories]
f:14 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
f:14 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
f:14 [binder, in UniMath.Combinatorics.VectorsTests]
F:14 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:14 [binder, in UniMath.MoreFoundations.Nat]
f:14 [binder, in UniMath.CategoryTheory.SimplicialSets]
f:14 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:14 [binder, in UniMath.CategoryTheory.categories.commrings]
f:14 [binder, in UniMath.CategoryTheory.categories.abmonoids]
f:140 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
F:140 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:140 [binder, in UniMath.Foundations.PartB]
f:140 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:140 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:140 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:140 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:140 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
f:140 [binder, in UniMath.Bicategories.Core.Univalence]
f:140 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:140 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
F:140 [binder, in UniMath.Bicategories.Modifications.Modification]
f:140 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
f:140 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:1400 [binder, in UniMath.Foundations.PartA]
f:1405 [binder, in UniMath.Foundations.PartA]
f:141 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:141 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:141 [binder, in UniMath.CategoryTheory.Core.Functors]
f:141 [binder, in UniMath.Algebra.GroupAction]
f:141 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:141 [binder, in UniMath.Algebra.IteratedBinaryOperations]
f:1415 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:142 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:142 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:142 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:142 [binder, in UniMath.Algebra.Monoids]
f:142 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:142 [binder, in UniMath.Bicategories.Core.Strictness]
f:142 [binder, in UniMath.Algebra.Modules.Multimodules]
f:142 [binder, in UniMath.CategoryTheory.slicecat]
f:142 [binder, in UniMath.Algebra.GroupAction]
F:142 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:142 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:142 [binder, in UniMath.Foundations.Sets]
f:142 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:142 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:142 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:1420 [binder, in UniMath.Algebra.BinaryOperations]
f:1421 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1424 [binder, in UniMath.Foundations.PartA]
f:1427 [binder, in UniMath.Algebra.BinaryOperations]
f:1429 [binder, in UniMath.Foundations.PartA]
f:143 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:143 [binder, in UniMath.Bicategories.Core.Strictness]
F:143 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:143 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:143 [binder, in UniMath.CategoryTheory.limits.Opp]
f:1434 [binder, in UniMath.Foundations.PartA]
f:1436 [binder, in UniMath.Algebra.BinaryOperations]
f:1439 [binder, in UniMath.Algebra.BinaryOperations]
f:144 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:144 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:144 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:144 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:144 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:144 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:144 [binder, in UniMath.Folds.folds_pre_2_cat]
f:144 [binder, in UniMath.Bicategories.Core.Strictness]
f:144 [binder, in UniMath.CategoryTheory.Core.Isos]
f:144 [binder, in UniMath.CategoryTheory.PreAdditive]
F:144 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:144 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:144 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:144 [binder, in UniMath.CategoryTheory.Core.Univalence]
f:1442 [binder, in UniMath.Algebra.BinaryOperations]
f:1448 [binder, in UniMath.Algebra.BinaryOperations]
f:145 [binder, in UniMath.Bicategories.Core.Bicat]
f:145 [binder, in UniMath.Algebra.Monoids]
f:145 [binder, in UniMath.MoreFoundations.MoreEquivalences]
F:145 [binder, in UniMath.CategoryTheory.Core.Functors]
f:145 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:145 [binder, in UniMath.Bicategories.Core.Strictness]
f:145 [binder, in UniMath.Bicategories.Core.Univalence]
F:145 [binder, in UniMath.Algebra.Dcpo]
f:145 [binder, in UniMath.CategoryTheory.Additive]
f:1451 [binder, in UniMath.Algebra.BinaryOperations]
f:1454 [binder, in UniMath.Algebra.BinaryOperations]
f:1455 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:146 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:146 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
F:146 [binder, in UniMath.CategoryTheory.catiso]
F:146 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:146 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:146 [binder, in UniMath.Bicategories.Core.Strictness]
f:146 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
F:146 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:146 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:146 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:146 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
F:146 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:146 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:146 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:1462 [binder, in UniMath.Algebra.BinaryOperations]
f:1466 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1467 [binder, in UniMath.Algebra.BinaryOperations]
f:147 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:147 [binder, in UniMath.CategoryTheory.categories.abgrs]
F:147 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:147 [binder, in UniMath.Foundations.PartB]
f:147 [binder, in UniMath.CategoryTheory.whiskering]
f:147 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:147 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
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f:147 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:147 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:1471 [binder, in UniMath.Algebra.BinaryOperations]
f:1474 [binder, in UniMath.Algebra.BinaryOperations]
f:1478 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:148 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:148 [binder, in UniMath.CategoryTheory.Core.Functors]
f:148 [binder, in UniMath.CategoryTheory.PreAdditive]
F:148 [binder, in UniMath.CategoryTheory.limits.products]
F:148 [binder, in UniMath.Bicategories.Modifications.Modification]
f:148 [binder, in UniMath.Combinatorics.Lists]
f:148 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:148 [binder, in UniMath.CategoryTheory.Core.Categories]
f:1480 [binder, in UniMath.Algebra.BinaryOperations]
f:1483 [binder, in UniMath.Algebra.BinaryOperations]
f:1486 [binder, in UniMath.Algebra.BinaryOperations]
f:149 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:149 [binder, in UniMath.Folds.folds_pre_2_cat]
f:149 [binder, in UniMath.Bicategories.Core.Strictness]
F:149 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:149 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:149 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:149 [binder, in UniMath.CategoryTheory.limits.Opp]
f:149 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:149 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:149 [binder, in UniMath.Foundations.PartA]
f:149 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:1490 [binder, in UniMath.Algebra.BinaryOperations]
f:1494 [binder, in UniMath.Algebra.BinaryOperations]
f:1494 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1497 [binder, in UniMath.Algebra.BinaryOperations]
F:15 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
f:15 [binder, in UniMath.CategoryTheory.categories.Type.Core]
f:15 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:15 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:15 [binder, in UniMath.Algebra.Modules.Core]
f:15 [binder, in UniMath.NumberSystems.NaturalNumbersAlgebra]
F:15 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
F:15 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:15 [binder, in UniMath.CategoryTheory.Subcategory.Full]
F:15 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:15 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:15 [binder, in UniMath.Algebra.FixedPointTheorems]
f:15 [binder, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
f:15 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:15 [binder, in UniMath.CategoryTheory.ProductCategory]
F:15 [binder, in UniMath.Induction.W.Uniqueness]
f:15 [binder, in UniMath.Algebra.Universal.HVectors]
f:15 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:15 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:15 [binder, in UniMath.CategoryTheory.covyoneda]
f:15 [binder, in UniMath.CategoryTheory.Core.Isos]
f:15 [binder, in UniMath.Bicategories.Core.Examples.OneTypes]
f:15 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:15 [binder, in UniMath.SubstitutionSystems.Lam]
f:15 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F:15 [binder, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
f:15 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
F:15 [binder, in UniMath.CategoryTheory.Chains.Cochains]
F:15 [binder, in UniMath.Induction.M.Uniqueness]
F:15 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
f:15 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:15 [binder, in UniMath.MoreFoundations.StructureIdentity]
F:15 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:15 [binder, in UniMath.CategoryTheory.limits.Opp]
f:15 [binder, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
f:15 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
F:15 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:15 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
F:15 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
F:15 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:15 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:15 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
F:15 [binder, in UniMath.CategoryTheory.PointedFunctors]
F:15 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
F:15 [binder, in UniMath.SubstitutionSystems.MultiSorted]
f:15 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
f:15 [binder, in UniMath.Induction.W.Naturals]
f:15 [binder, in UniMath.CategoryTheory.limits.terminal]
f:15 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
F:150 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:150 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:150 [binder, in UniMath.CategoryTheory.catiso]
F:150 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:150 [binder, in UniMath.Bicategories.Core.Bicat]
f:150 [binder, in UniMath.Foundations.PartD]
f:150 [binder, in UniMath.Algebra.FixedPointTheorems]
f:150 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:150 [binder, in UniMath.CategoryTheory.limits.pushouts]
F:150 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:150 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:150 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:150 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:150 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:150 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:150 [binder, in UniMath.Topology.Filters]
F:150 [binder, in UniMath.Algebra.Dcpo]
f:150 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:1503 [binder, in UniMath.Algebra.BinaryOperations]
f:1506 [binder, in UniMath.Algebra.BinaryOperations]
f:1509 [binder, in UniMath.Algebra.BinaryOperations]
f:151 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:151 [binder, in UniMath.MoreFoundations.Equivalences]
F:151 [binder, in UniMath.CategoryTheory.Core.Functors]
f:151 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:151 [binder, in UniMath.CategoryTheory.Core.Isos]
f:151 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:151 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:151 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:151 [binder, in UniMath.Foundations.Sets]
f:151 [binder, in UniMath.CategoryTheory.Additive]
f:151 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:1510 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1511 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1512 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1514 [binder, in UniMath.Algebra.BinaryOperations]
f:1517 [binder, in UniMath.Algebra.BinaryOperations]
f:1517 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:152 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
f:152 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:152 [binder, in UniMath.CategoryTheory.LocalizingClass]
F:152 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:152 [binder, in UniMath.MoreFoundations.MoreEquivalences]
f:152 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:152 [binder, in UniMath.Bicategories.Core.Strictness]
f:152 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
f:1521 [binder, in UniMath.Algebra.BinaryOperations]
f:1525 [binder, in UniMath.Algebra.BinaryOperations]
f:1526 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1528 [binder, in UniMath.Algebra.BinaryOperations]
f:1528 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:153 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:153 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:153 [binder, in UniMath.Algebra.Universal.HVectors]
F:153 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:153 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:153 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:153 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:153 [binder, in UniMath.CategoryTheory.Core.Categories]
f:1530 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:1533 [binder, in UniMath.Foundations.Sets]
f:1537 [binder, in UniMath.Foundations.Sets]
F:154 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
F:154 [binder, in UniMath.CategoryTheory.catiso]
f:154 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:154 [binder, in UniMath.Foundations.PartB]
f:154 [binder, in UniMath.CategoryTheory.Core.Functors]
f:154 [binder, in UniMath.Folds.folds_pre_2_cat]
f:154 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:154 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
F:154 [binder, in UniMath.Topology.Filters]
f:154 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
f:154 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:1540 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1542 [binder, in UniMath.Algebra.BinaryOperations]
f:1546 [binder, in UniMath.Algebra.BinaryOperations]
f:1547 [binder, in UniMath.Foundations.Sets]
f:155 [binder, in UniMath.CategoryTheory.Monads.Monads]
f:155 [binder, in UniMath.Bicategories.Core.Bicat]
F:155 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:155 [binder, in UniMath.Bicategories.Core.Strictness]
f:155 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:155 [binder, in UniMath.CategoryTheory.limits.equalizers]
F:155 [binder, in UniMath.Bicategories.Modifications.Modification]
f:155 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:155 [binder, in UniMath.Algebra.Dcpo]
f:155 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:155 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:1550 [binder, in UniMath.Algebra.BinaryOperations]
f:1552 [binder, in UniMath.Foundations.Sets]
f:1554 [binder, in UniMath.Algebra.BinaryOperations]
f:1558 [binder, in UniMath.Algebra.BinaryOperations]
f:156 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f:156 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:156 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:156 [binder, in UniMath.MoreFoundations.Sets]
f:156 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:156 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:156 [binder, in UniMath.CategoryTheory.PseudoElements]
f:156 [binder, in UniMath.CategoryTheory.Core.Isos]
F:156 [binder, in UniMath.CategoryTheory.FunctorCategory]
F:156 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:156 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
f:156 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:156 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F:156 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:1562 [binder, in UniMath.Algebra.BinaryOperations]
f:1566 [binder, in UniMath.Algebra.BinaryOperations]
F:157 [binder, in UniMath.CategoryTheory.Monads.Monads]
f:157 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
F:157 [binder, in UniMath.CategoryTheory.Core.Functors]
f:157 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:157 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:157 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
F:157 [binder, in UniMath.CategoryTheory.Core.Univalence]
f:157 [binder, in UniMath.CategoryTheory.Additive]
f:157 [binder, in UniMath.CategoryTheory.Core.Categories]
f:1570 [binder, in UniMath.Algebra.BinaryOperations]
F:1572 [binder, in UniMath.Foundations.Sets]
f:1574 [binder, in UniMath.Algebra.BinaryOperations]
f:1578 [binder, in UniMath.Algebra.BinaryOperations]
F:1578 [binder, in UniMath.Foundations.Sets]
f:158 [binder, in UniMath.Algebra.Modules.Core]
f:158 [binder, in UniMath.Algebra.FixedPointTheorems]
F:158 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:158 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:158 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
f:158 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:158 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:158 [binder, in UniMath.CategoryTheory.limits.products]
f:158 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:158 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:158 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:158 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:1582 [binder, in UniMath.Algebra.BinaryOperations]
f:1586 [binder, in UniMath.Algebra.BinaryOperations]
f:159 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:159 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:159 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:159 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:159 [binder, in UniMath.Foundations.PartD]
F:159 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:159 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:159 [binder, in UniMath.Bicategories.Colimits.Products]
f:159 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:159 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:16 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
f:16 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:16 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
f:16 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration]
f:16 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
F:16 [binder, in UniMath.CategoryTheory.catiso]
F:16 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
f:16 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:16 [binder, in UniMath.CategoryTheory.limits.graphs.kernels]
f:16 [binder, in UniMath.Combinatorics.Vectors]
F:16 [binder, in UniMath.Bicategories.Core.Examples.Image]
F:16 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:16 [binder, in UniMath.CategoryTheory.limits.graphs.cokernels]
f:16 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:16 [binder, in UniMath.Induction.W.Uniqueness]
f:16 [binder, in UniMath.MoreFoundations.AxiomOfChoice]
f:16 [binder, in UniMath.CategoryTheory.precomp_fully_faithful]
f:16 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:16 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:16 [binder, in UniMath.CategoryTheory.limits.kernels]
F:16 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
f:16 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:16 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:16 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:16 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
f:16 [binder, in UniMath.Bicategories.BicatOfBicategory]
f:16 [binder, in UniMath.CategoryTheory.categories.HSET.Slice]
f:16 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
f:16 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
f:16 [binder, in UniMath.Induction.M.Uniqueness]
f:16 [binder, in UniMath.CategoryTheory.Subobjects]
F:16 [binder, in UniMath.CategoryTheory.Equivalences.Core]
f:16 [binder, in UniMath.Folds.folds_isomorphism]
f:16 [binder, in UniMath.CategoryTheory.limits.graphs.initial]
F:16 [binder, in UniMath.Bicategories.Modifications.Modification]
f:16 [binder, in UniMath.CategoryTheory.limits.cones]
F:16 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:16 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
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F:16 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:16 [binder, in UniMath.Topology.Filters]
F:16 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:16 [binder, in UniMath.PAdics.fps]
f:16 [binder, in UniMath.CategoryTheory.Profunctors.Core]
f:16 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:16 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:16 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
F:16 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
f:16 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:16 [binder, in UniMath.CategoryTheory.Morphisms]
f:160 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:160 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:160 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:160 [binder, in UniMath.CategoryTheory.Core.Functors]
f:160 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:160 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:160 [binder, in UniMath.Bicategories.Core.Strictness]
f:160 [binder, in UniMath.CategoryTheory.opp_precat]
F:160 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:160 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:160 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:1603 [binder, in UniMath.Foundations.Sets]
f:161 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
F:161 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:161 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:161 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:161 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
F:161 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:161 [binder, in UniMath.Algebra.Modules.Multimodules]
f:161 [binder, in UniMath.CategoryTheory.slicecat]
f:161 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:161 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:161 [binder, in UniMath.Algebra.Dcpo]
f:1617 [binder, in UniMath.Foundations.PartA]
f:162 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:162 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:162 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:162 [binder, in UniMath.Bicategories.Core.Strictness]
f:162 [binder, in UniMath.CategoryTheory.limits.kernels]
F:162 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:162 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:162 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:162 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:162 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:162 [binder, in UniMath.Bicategories.Modifications.Modification]
f:162 [binder, in UniMath.CategoryTheory.Core.Univalence]
F:162 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:162 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:1624 [binder, in UniMath.Foundations.PartA]
f:163 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f:163 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
F:163 [binder, in UniMath.CategoryTheory.Core.Functors]
f:163 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
F:163 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:163 [binder, in UniMath.Folds.folds_pre_2_cat]
f:163 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:163 [binder, in UniMath.Algebra.GroupAction]
f:163 [binder, in UniMath.CategoryTheory.Core.Categories]
f:164 [binder, in UniMath.Algebra.Modules.Core]
f:164 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:164 [binder, in UniMath.MoreFoundations.Equivalences]
f:164 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:164 [binder, in UniMath.Bicategories.Core.Strictness]
f:164 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:164 [binder, in UniMath.CategoryTheory.PseudoElements]
F:164 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:164 [binder, in UniMath.CategoryTheory.Core.Isos]
f:164 [binder, in UniMath.CategoryTheory.opp_precat]
f:164 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:164 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:164 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
F:164 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:164 [binder, in UniMath.Bicategories.Colimits.Products]
f:164 [binder, in UniMath.CategoryTheory.Additive]
f:164 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:164 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:165 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:165 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:165 [binder, in UniMath.Bicategories.Core.Bicat]
f:165 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:165 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:165 [binder, in UniMath.Bicategories.Core.Strictness]
f:165 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:165 [binder, in UniMath.Combinatorics.FiniteSets]
F:165 [binder, in UniMath.Bicategories.Modifications.Modification]
f:165 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
f:165 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:166 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:166 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:166 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:166 [binder, in UniMath.CategoryTheory.Core.Functors]
f:166 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:166 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:166 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
F:167 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:167 [binder, in UniMath.Foundations.PartD]
F:167 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
F:167 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:167 [binder, in UniMath.Foundations.UnivalenceAxiom]
F:167 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:167 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:167 [binder, in UniMath.Algebra.GroupAction]
F:167 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:167 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:167 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:168 [binder, in UniMath.Algebra.Modules.Core]
F:168 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:168 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:168 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:168 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:168 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:168 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:168 [binder, in UniMath.CategoryTheory.PseudoElements]
F:168 [binder, in UniMath.Foundations.Propositions]
F:168 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:168 [binder, in UniMath.Bicategories.Core.Univalence]
F:168 [binder, in UniMath.CategoryTheory.Core.Univalence]
F:168 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:168 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:1687 [binder, in UniMath.Foundations.PartA]
f:169 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:169 [binder, in UniMath.CategoryTheory.Abelian]
f:169 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:169 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:169 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:169 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
F:169 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:169 [binder, in UniMath.CategoryTheory.limits.kernels]
f:169 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:169 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:169 [binder, in UniMath.Bicategories.Colimits.Products]
f:169 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:17 [binder, in UniMath.AlgebraicGeometry.SheavesOfRings]
f:17 [binder, in UniMath.CategoryTheory.categories.rings]
f:17 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
f:17 [binder, in UniMath.CategoryTheory.Inductives.Lists]
f:17 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
f:17 [binder, in UniMath.CategoryTheory.categories.setwith2binops]
f:17 [binder, in UniMath.CategoryTheory.categories.grs]
f:17 [binder, in UniMath.MoreFoundations.Tactics]
f:17 [binder, in UniMath.CategoryTheory.categories.flds]
f:17 [binder, in UniMath.CategoryTheory.category_binops]
f:17 [binder, in UniMath.CategoryTheory.limits.graphs.terminal]
F:17 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:17 [binder, in UniMath.Bicategories.Core.Bicat]
f:17 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:17 [binder, in UniMath.Foundations.PartB]
f:17 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:17 [binder, in UniMath.CategoryTheory.limits.initial]
F:17 [binder, in UniMath.CategoryTheory.whiskering]
f:17 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:17 [binder, in UniMath.CategoryTheory.Monads.MonadAlgebras]
f:17 [binder, in UniMath.Bicategories.Core.AdjointUnique]
f:17 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
F:17 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:17 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:17 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:17 [binder, in UniMath.Bicategories.Modifications.Examples.ApModification]
f:17 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
f:17 [binder, in UniMath.CategoryTheory.HorizontalComposition]
f:17 [binder, in UniMath.CategoryTheory.categories.commrigs]
f:17 [binder, in UniMath.CategoryTheory.Monics]
f:17 [binder, in UniMath.MoreFoundations.Interval]
f:17 [binder, in UniMath.MoreFoundations.Univalence]
f:17 [binder, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
f:17 [binder, in UniMath.CategoryTheory.categories.rigs]
f:17 [binder, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
f:17 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
F:17 [binder, in UniMath.CategoryTheory.Adjunctions.Examples]
f:17 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:17 [binder, in UniMath.CategoryTheory.categories.monoids]
f:17 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
f:17 [binder, in UniMath.CategoryTheory.categories.intdoms]
F:17 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
F:17 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:17 [binder, in UniMath.Bicategories.Core.Unitors]
f:17 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:17 [binder, in UniMath.CategoryTheory.categories.commrings]
f:17 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
f:17 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
f:17 [binder, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:17 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
f:17 [binder, in UniMath.CategoryTheory.Monads.KTriples]
f:17 [binder, in UniMath.CategoryTheory.categories.abmonoids]
f:170 [binder, in UniMath.CategoryTheory.Abelian]
f:170 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:170 [binder, in UniMath.Bicategories.Core.Bicat]
f:170 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:170 [binder, in UniMath.Bicategories.Core.Strictness]
f:170 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:170 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:170 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
F:170 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:170 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:170 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:1703 [binder, in UniMath.Foundations.PartA]
f:171 [binder, in UniMath.CategoryTheory.Abelian]
F:171 [binder, in UniMath.CategoryTheory.catiso]
f:171 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:171 [binder, in UniMath.Algebra.FixedPointTheorems]
f:171 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:171 [binder, in UniMath.Folds.folds_pre_2_cat]
f:171 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:171 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
f:171 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:171 [binder, in UniMath.CategoryTheory.Core.Categories]
f:1711 [binder, in UniMath.Foundations.PartA]
f:172 [binder, in UniMath.CategoryTheory.Abelian]
f:172 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:172 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:172 [binder, in UniMath.Bicategories.Core.Strictness]
F:172 [binder, in UniMath.Bicategories.Modifications.Modification]
f:173 [binder, in UniMath.CategoryTheory.Abelian]
f:173 [binder, in UniMath.Algebra.Modules.Core]
f:173 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:173 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:173 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:173 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
F:173 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:173 [binder, in UniMath.CategoryTheory.PseudoElements]
f:173 [binder, in UniMath.CategoryTheory.Core.Isos]
f:173 [binder, in UniMath.CategoryTheory.limits.kernels]
f:173 [binder, in UniMath.CategoryTheory.Core.Univalence]
f:174 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:174 [binder, in UniMath.CategoryTheory.Abelian]
F:174 [binder, in UniMath.Foundations.Propositions]
F:174 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:174 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:174 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:174 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
F:174 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:174 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:175 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
F:175 [binder, in UniMath.CategoryTheory.catiso]
f:175 [binder, in UniMath.Bicategories.Core.Bicat]
f:175 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:175 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:175 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
F:175 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
F:175 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:175 [binder, in UniMath.Bicategories.Core.Univalence]
f:175 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:175 [binder, in UniMath.Bicategories.Colimits.Products]
F:175 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:175 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:176 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:176 [binder, in UniMath.MoreFoundations.Equivalences]
f:176 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:176 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:176 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:176 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:176 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:176 [binder, in UniMath.Algebra.Dcpo]
f:176 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:176 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:176 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:177 [binder, in UniMath.Algebra.Modules.Core]
f:177 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:177 [binder, in UniMath.Foundations.PartB]
f:177 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:177 [binder, in UniMath.CategoryTheory.limits.kernels]
f:177 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:177 [binder, in UniMath.CategoryTheory.limits.Opp]
f:177 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:178 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
F:178 [binder, in UniMath.CategoryTheory.catiso]
f:178 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:178 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:178 [binder, in UniMath.Algebra.Universal.HVectors]
f:178 [binder, in UniMath.CategoryTheory.PseudoElements]
F:178 [binder, in UniMath.Foundations.Propositions]
f:178 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:178 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
F:178 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
F:178 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:178 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:178 [binder, in UniMath.Algebra.Dcpo]
f:179 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:179 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:179 [binder, in UniMath.Algebra.FixedPointTheorems]
F:179 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:179 [binder, in UniMath.CategoryTheory.ShortExactSequences]
F:179 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:179 [binder, in UniMath.CategoryTheory.limits.cats.limits]
F:18 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
f:18 [binder, in UniMath.MoreFoundations.NullHomotopies]
f:18 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
f:18 [binder, in UniMath.Combinatorics.Maybe]
F:18 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
f:18 [binder, in UniMath.PAdics.z_mod_p]
F:18 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:18 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:18 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f:18 [binder, in UniMath.Algebra.Monoids]
F:18 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
f:18 [binder, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
F:18 [binder, in UniMath.CategoryTheory.Core.Functors]
f:18 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
f:18 [binder, in UniMath.CategoryTheory.precomp_fully_faithful]
f:18 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:18 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:18 [binder, in UniMath.Bicategories.Core.Examples.OneTypes]
F:18 [binder, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
f:18 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
f:18 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:18 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
f:18 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:18 [binder, in UniMath.Bicategories.Core.Examples.OpCellBicat]
f:18 [binder, in UniMath.CategoryTheory.Inductives.Trees]
f:18 [binder, in UniMath.Combinatorics.Lists]
F:18 [binder, in UniMath.Topology.Filters]
F:18 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
f:18 [binder, in UniMath.CategoryTheory.Profunctors.Core]
f:18 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
f:18 [binder, in UniMath.CategoryTheory.Epis]
F:18 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:180 [binder, in UniMath.Bicategories.Colimits.Pullback]
f:180 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:180 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
F:180 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:180 [binder, in UniMath.CategoryTheory.Core.Isos]
F:180 [binder, in UniMath.CategoryTheory.FunctorCategory]
F:180 [binder, in UniMath.CategoryTheory.limits.products]
f:181 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
F:181 [binder, in UniMath.CategoryTheory.Core.Functors]
f:181 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:181 [binder, in UniMath.CategoryTheory.limits.kernels]
f:181 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:181 [binder, in UniMath.Bicategories.Colimits.Products]
f:181 [binder, in UniMath.MoreFoundations.PartA]
f:181 [binder, in UniMath.CategoryTheory.limits.Opp]
f:181 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:1814 [binder, in UniMath.Foundations.PartA]
f:182 [binder, in UniMath.Algebra.Modules.Core]
f:182 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:182 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:182 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:182 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:182 [binder, in UniMath.Bicategories.Core.Strictness]
F:182 [binder, in UniMath.Foundations.Propositions]
F:182 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:182 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:182 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:182 [binder, in UniMath.HomologicalAlgebra.Triangulated]
F:182 [binder, in UniMath.CategoryTheory.limits.products]
f:182 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
F:182 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:182 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:182 [binder, in UniMath.CategoryTheory.Core.Categories]
f:183 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
f:183 [binder, in UniMath.CategoryTheory.Abelian]
f:183 [binder, in UniMath.CategoryTheory.PseudoElements]
f:183 [binder, in UniMath.Bicategories.Core.Univalence]
f:183 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:183 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
F:183 [binder, in UniMath.Algebra.Dcpo]
f:183 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
F:184 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:184 [binder, in UniMath.Bicategories.Core.Bicat]
f:184 [binder, in UniMath.CategoryTheory.Core.Functors]
f:184 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
F:184 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:184 [binder, in UniMath.CategoryTheory.limits.Opp]
f:184 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:184 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:1847 [binder, in UniMath.Foundations.PartA]
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f:185 [binder, in UniMath.CategoryTheory.limits.kernels]
f:185 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:185 [binder, in UniMath.Combinatorics.FiniteSets]
F:185 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:185 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:1854 [binder, in UniMath.Foundations.PartA]
f:186 [binder, in UniMath.Bicategories.Colimits.Pullback]
f:186 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:186 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:186 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
F:186 [binder, in UniMath.CategoryTheory.FunctorCategory]
F:186 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:186 [binder, in UniMath.CategoryTheory.limits.cokernels]
F:186 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:186 [binder, in UniMath.MoreFoundations.PartA]
f:186 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:186 [binder, in UniMath.Foundations.PartC]
f:186 [binder, in UniMath.CategoryTheory.Core.Categories]
f:186 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:1862 [binder, in UniMath.Foundations.PartA]
f:1869 [binder, in UniMath.Foundations.PartA]
f:187 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:187 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:187 [binder, in UniMath.Foundations.PartB]
F:187 [binder, in UniMath.CategoryTheory.Core.Functors]
f:187 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:187 [binder, in UniMath.CategoryTheory.Core.Isos]
f:187 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:187 [binder, in UniMath.Bicategories.Colimits.Products]
f:187 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:187 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:187 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:1876 [binder, in UniMath.Foundations.PartA]
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f:188 [binder, in UniMath.Folds.folds_pre_2_cat]
f:188 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:188 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:188 [binder, in UniMath.Bicategories.Core.Univalence]
f:188 [binder, in UniMath.CategoryTheory.limits.Opp]
f:188 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:1883 [binder, in UniMath.Foundations.PartA]
f:189 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
f:189 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:189 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
F:189 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:189 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:189 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:189 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:189 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:189 [binder, in UniMath.CategoryTheory.limits.kernels]
f:189 [binder, in UniMath.HomologicalAlgebra.Triangulated]
F:189 [binder, in UniMath.CategoryTheory.limits.cats.limits]
F:189 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:189 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
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f:1897 [binder, in UniMath.Foundations.PartA]
f:19 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
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F:19 [binder, in UniMath.CategoryTheory.catiso]
F:19 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:19 [binder, in UniMath.Combinatorics.Vectors]
f:19 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
f:19 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:19 [binder, in UniMath.Algebra.FixedPointTheorems]
f:19 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:19 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:19 [binder, in UniMath.Bicategories.Core.Strictness]
f:19 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:19 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:19 [binder, in UniMath.Ktheory.GrothendieckGroup]
f:19 [binder, in UniMath.CategoryTheory.Core.Isos]
f:19 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:19 [binder, in UniMath.CategoryTheory.coslicecat]
f:19 [binder, in UniMath.CategoryTheory.slicecat]
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f:19 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
f:19 [binder, in UniMath.Bicategories.PseudoFunctors.Yoneda]
f:19 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
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f:19 [binder, in UniMath.CategoryTheory.limits.graphs.initial]
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f:19 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:19 [binder, in UniMath.Algebra.Dcpo]
f:19 [binder, in UniMath.SyntheticHomotopyTheory.Test]
f:19 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
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F:19 [binder, in UniMath.CategoryTheory.PointedFunctors]
f:19 [binder, in UniMath.Bicategories.Core.Examples.OpMorBicat]
F:19 [binder, in UniMath.SubstitutionSystems.MultiSorted]
f:19 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
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f:190 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:190 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:190 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:190 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
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f:190 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
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f:191 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:191 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:191 [binder, in UniMath.Bicategories.Core.Univalence]
f:191 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
F:191 [binder, in UniMath.Topology.Filters]
f:191 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
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f:192 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:192 [binder, in UniMath.Bicategories.Core.Bicat]
f:192 [binder, in UniMath.Foundations.PartD]
f:192 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:192 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:192 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
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f:1925 [binder, in UniMath.Foundations.PartA]
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f:193 [binder, in UniMath.Bicategories.Colimits.Pullback]
f:193 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:193 [binder, in UniMath.Folds.folds_pre_2_cat]
f:193 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:193 [binder, in UniMath.CategoryTheory.FunctorCategory]
F:193 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:193 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
F:193 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:193 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:193 [binder, in UniMath.Combinatorics.WellOrderedSets]
f:193 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:1939 [binder, in UniMath.Foundations.PartA]
f:194 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:194 [binder, in UniMath.CategoryTheory.Core.Functors]
f:194 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:194 [binder, in UniMath.CategoryTheory.PseudoElements]
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f:194 [binder, in UniMath.Bicategories.Core.Univalence]
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f:194 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:194 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
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f:194 [binder, in UniMath.Combinatorics.FiniteSequences]
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f:195 [binder, in UniMath.Bicategories.Core.Strictness]
f:195 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
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f:1955 [binder, in UniMath.Foundations.PartA]
f:196 [binder, in UniMath.CategoryTheory.limits.pushouts]
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f:196 [binder, in UniMath.CategoryTheory.limits.kernels]
f:196 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
f:196 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:196 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:196 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:1965 [binder, in UniMath.Foundations.PartA]
f:197 [binder, in UniMath.Bicategories.Core.Bicat]
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F:197 [binder, in UniMath.CategoryTheory.Core.Functors]
f:197 [binder, in UniMath.Bicategories.Core.Strictness]
F:197 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:197 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:197 [binder, in UniMath.Bicategories.Core.Univalence]
f:197 [binder, in UniMath.HomologicalAlgebra.Complexes]
F:197 [binder, in UniMath.Topology.Filters]
f:197 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:197 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:1974 [binder, in UniMath.Foundations.PartA]
f:198 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:198 [binder, in UniMath.Folds.folds_pre_2_cat]
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f:198 [binder, in UniMath.CategoryTheory.Core.Isos]
f:198 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:198 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:198 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
F:198 [binder, in UniMath.CategoryTheory.limits.cats.limits]
F:198 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:198 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:198 [binder, in UniMath.Foundations.PartA]
f:199 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:199 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:199 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:199 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:199 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
F:2 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
F:2 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration]
F:2 [binder, in UniMath.CategoryTheory.Presheaf]
f:2 [binder, in UniMath.Algebra.Modules.Core]
F:2 [binder, in UniMath.CategoryTheory.Monads.Monads]
F:2 [binder, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
F:2 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
F:2 [binder, in UniMath.CategoryTheory.SetValuedFunctors]
F:2 [binder, in UniMath.Topology.Filters]
F:2 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
f:2 [binder, in UniMath.SyntheticHomotopyTheory.Test]
F:2 [binder, in UniMath.CategoryTheory.PointedFunctors]
F:2 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
f:2 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
f:2 [binder, in UniMath.Induction.W.Naturals]
F:2 [binder, in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
f:20 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
F:20 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:20 [binder, in UniMath.Induction.W.Fibered]
f:20 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:20 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:20 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
f:20 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:20 [binder, in UniMath.Bicategories.Core.YonedaLemma]
f:20 [binder, in UniMath.CategoryTheory.limits.graphs.kernels]
f:20 [binder, in UniMath.CategoryTheory.limits.graphs.terminal]
f:20 [binder, in UniMath.Bicategories.Core.Bicat]
F:20 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:20 [binder, in UniMath.MoreFoundations.Sets]
f:20 [binder, in UniMath.CategoryTheory.limits.graphs.cokernels]
f:20 [binder, in UniMath.CategoryTheory.categories.modules]
f:20 [binder, in UniMath.Bicategories.Core.Adjunctions]
F:20 [binder, in UniMath.CategoryTheory.ProductCategory]
f:20 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:20 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:20 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:20 [binder, in UniMath.CategoryTheory.Monads.MonadAlgebras]
f:20 [binder, in UniMath.CategoryTheory.covyoneda]
f:20 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:20 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
f:20 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:20 [binder, in UniMath.SubstitutionSystems.Lam]
f:20 [binder, in UniMath.CategoryTheory.limits.FinOrdCoproducts]
f:20 [binder, in UniMath.CategoryTheory.categories.HSET.Slice]
f:20 [binder, in UniMath.Bicategories.WkCatEnrichment.Cat]
F:20 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:20 [binder, in UniMath.CategoryTheory.ShortExactSequences]
F:20 [binder, in UniMath.CategoryTheory.Equivalences.Core]
f:20 [binder, in UniMath.CategoryTheory.Monics]
f:20 [binder, in UniMath.CategoryTheory.LatticeObject]
f:20 [binder, in UniMath.CategoryTheory.limits.FinOrdProducts]
f:20 [binder, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
f:20 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:20 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
F:20 [binder, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
F:20 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:20 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:20 [binder, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:20 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
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F:200 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
F:200 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:200 [binder, in UniMath.Topology.Filters]
f:200 [binder, in UniMath.CategoryTheory.Core.Categories]
f:201 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:201 [binder, in UniMath.CategoryTheory.categories.abgrs]
F:201 [binder, in UniMath.CategoryTheory.Core.Functors]
f:201 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
F:201 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:201 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:201 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:201 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:201 [binder, in UniMath.PAdics.fps]
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f:202 [binder, in UniMath.Algebra.Modules.Core]
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f:203 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:204 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:204 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:204 [binder, in UniMath.Bicategories.Core.Bicat]
f:204 [binder, in UniMath.CategoryTheory.PseudoElements]
f:204 [binder, in UniMath.CategoryTheory.limits.kernels]
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f:205 [binder, in UniMath.Algebra.Monoids]
f:205 [binder, in UniMath.Foundations.PartB]
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f:205 [binder, in UniMath.Folds.folds_pre_2_cat]
f:205 [binder, in UniMath.Bicategories.Core.Strictness]
f:205 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:205 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:205 [binder, in UniMath.CategoryTheory.limits.equalizers]
F:205 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
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f:205 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
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f:205 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:205 [binder, in UniMath.Foundations.PartA]
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f:206 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:206 [binder, in UniMath.CategoryTheory.Core.Isos]
f:206 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:206 [binder, in UniMath.Topology.Filters]
f:206 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:207 [binder, in UniMath.CategoryTheory.categories.abgrs]
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f:207 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:207 [binder, in UniMath.CategoryTheory.PreAdditive]
f:207 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
f:207 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:207 [binder, in UniMath.Algebra.Dcpo]
f:207 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:208 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:208 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:208 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:208 [binder, in UniMath.Algebra.Monoids]
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f:208 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:208 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
f:208 [binder, in UniMath.Bicategories.Core.Univalence]
f:208 [binder, in UniMath.CategoryTheory.ShortExactSequences]
f:208 [binder, in UniMath.CategoryTheory.limits.Opp]
f:208 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:208 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:209 [binder, in UniMath.Foundations.PartD]
f:209 [binder, in UniMath.Bicategories.Core.Strictness]
F:209 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:209 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:209 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:209 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:209 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:209 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:209 [binder, in UniMath.Algebra.Dcpo]
f:209 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:209 [binder, in UniMath.CategoryTheory.Core.Categories]
f:2090 [binder, in UniMath.Foundations.PartA]
f:2098 [binder, in UniMath.Foundations.PartA]
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f:21 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
f:21 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:21 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
F:21 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:21 [binder, in UniMath.Algebra.Monoids]
f:21 [binder, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
f:21 [binder, in UniMath.Foundations.PartB]
f:21 [binder, in UniMath.CategoryTheory.limits.initial]
f:21 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:21 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
f:21 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:21 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:21 [binder, in UniMath.CategoryTheory.opp_precat]
f:21 [binder, in UniMath.CategoryTheory.limits.zero]
f:21 [binder, in UniMath.CategoryTheory.coslicecat]
f:21 [binder, in UniMath.CategoryTheory.limits.FinOrdCoproducts]
f:21 [binder, in UniMath.Bicategories.Colimits.Final]
f:21 [binder, in UniMath.Bicategories.Discreteness]
F:21 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:21 [binder, in UniMath.CategoryTheory.limits.FinOrdProducts]
f:21 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
F:21 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
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F:21 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
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f:21 [binder, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
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f:215 [binder, in UniMath.CategoryTheory.PseudoElements]
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f:216 [binder, in UniMath.Algebra.Modules.Core]
f:216 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:216 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:216 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:216 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:216 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:216 [binder, in UniMath.CategoryTheory.limits.cats.limits]
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f:216 [binder, in UniMath.CategoryTheory.Core.Categories]
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F:217 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:217 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:217 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:217 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:217 [binder, in UniMath.Foundations.PartA]
f:217 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
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f:218 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:219 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:219 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:219 [binder, in UniMath.Foundations.PartD]
F:219 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:219 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:219 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:219 [binder, in UniMath.Algebra.GroupAction]
f:219 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:219 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:219 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:2193 [binder, in UniMath.Foundations.PartA]
f:22 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
f:22 [binder, in UniMath.AlgebraicGeometry.SheavesOfRings]
f:22 [binder, in UniMath.CategoryTheory.categories.rings]
f:22 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
f:22 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
F:22 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
f:22 [binder, in UniMath.CategoryTheory.Elements]
f:22 [binder, in UniMath.CategoryTheory.categories.setwith2binops]
f:22 [binder, in UniMath.CategoryTheory.categories.grs]
F:22 [binder, in UniMath.CategoryTheory.catiso]
f:22 [binder, in UniMath.CategoryTheory.categories.flds]
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f:22 [binder, in UniMath.MoreFoundations.Equivalences]
f:22 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:22 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
f:22 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:22 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
F:22 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:22 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
f:22 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:22 [binder, in UniMath.CategoryTheory.coslicecat]
f:22 [binder, in UniMath.CategoryTheory.limits.FinOrdCoproducts]
f:22 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
f:22 [binder, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
f:22 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:22 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:22 [binder, in UniMath.CategoryTheory.categories.commrigs]
f:22 [binder, in UniMath.Folds.folds_isomorphism]
f:22 [binder, in UniMath.CategoryTheory.limits.graphs.initial]
F:22 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:22 [binder, in UniMath.CategoryTheory.LatticeObject]
f:22 [binder, in UniMath.MoreFoundations.Univalence]
F:22 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
f:22 [binder, in UniMath.CategoryTheory.limits.FinOrdProducts]
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f:22 [binder, in UniMath.Combinatorics.Lists]
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f:22 [binder, in UniMath.CategoryTheory.categories.monoids]
f:22 [binder, in UniMath.CategoryTheory.categories.intdoms]
f:22 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
F:22 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
F:22 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
f:22 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:22 [binder, in UniMath.CategoryTheory.categories.commrings]
F:22 [binder, in UniMath.Foundations.Tests]
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f:2200 [binder, in UniMath.Foundations.PartA]
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f:221 [binder, in UniMath.Folds.folds_pre_2_cat]
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F:221 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:221 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:2211 [binder, in UniMath.Foundations.PartA]
f:2216 [binder, in UniMath.Foundations.PartA]
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F:222 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:222 [binder, in UniMath.CategoryTheory.PseudoElements]
F:222 [binder, in UniMath.CategoryTheory.FunctorCategory]
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f:222 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
f:222 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
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f:223 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:223 [binder, in UniMath.CategoryTheory.limits.cats.limits]
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f:224 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:224 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
f:224 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
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f:225 [binder, in UniMath.Algebra.Modules.Core]
f:225 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:225 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:225 [binder, in UniMath.CategoryTheory.PreAdditive]
F:225 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:225 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
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f:2253 [binder, in UniMath.Foundations.PartA]
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f:226 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
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f:228 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:228 [binder, in UniMath.Algebra.Universal.Terms]
f:228 [binder, in UniMath.Foundations.UnivalenceAxiom]
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f:23 [binder, in UniMath.MoreFoundations.NullHomotopies]
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F:23 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:23 [binder, in UniMath.CategoryTheory.category_binops]
f:23 [binder, in UniMath.Bicategories.Core.YonedaLemma]
f:23 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:23 [binder, in UniMath.Bicategories.Core.Bicat]
F:23 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
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F:23 [binder, in UniMath.Induction.W.Uniqueness]
f:23 [binder, in UniMath.CategoryTheory.Monads.MonadAlgebras]
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f:23 [binder, in UniMath.Induction.M.ComputationalM]
f:23 [binder, in UniMath.CategoryTheory.Core.Isos]
f:23 [binder, in UniMath.Folds.folds_precat]
f:23 [binder, in UniMath.CategoryTheory.limits.FinOrdCoproducts]
f:23 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
f:23 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
F:23 [binder, in UniMath.CategoryTheory.Chains.Cochains]
f:23 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
f:23 [binder, in UniMath.CategoryTheory.HorizontalComposition]
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f:23 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
f:23 [binder, in UniMath.HomologicalAlgebra.KA]
f:23 [binder, in UniMath.CategoryTheory.Monics]
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f:23 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
f:23 [binder, in UniMath.Bicategories.Modifications.Modification]
F:23 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:23 [binder, in UniMath.CategoryTheory.limits.FinOrdProducts]
f:23 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
F:23 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:23 [binder, in UniMath.Topology.Filters]
f:23 [binder, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
f:23 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:23 [binder, in UniMath.Algebra.Dcpo]
F:23 [binder, in UniMath.CategoryTheory.PointedFunctors]
F:23 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
F:23 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
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f:23 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:23 [binder, in UniMath.MoreFoundations.Nat]
f:23 [binder, in UniMath.Paradoxes.GirardsParadox]
f:230 [binder, in UniMath.Algebra.Modules.Core]
f:230 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:230 [binder, in UniMath.Bicategories.Core.Bicat]
f:230 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:230 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
f:230 [binder, in UniMath.Bicategories.Core.Univalence]
F:230 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
F:230 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:230 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:230 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:230 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
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F:231 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:231 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
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f:231 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:2310 [binder, in UniMath.Foundations.PartA]
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f:232 [binder, in UniMath.Bicategories.Core.Strictness]
F:232 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:232 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:232 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
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f:233 [binder, in UniMath.CategoryTheory.Core.Isos]
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F:233 [binder, in UniMath.Topology.Filters]
f:233 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:233 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:233 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:234 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:234 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:234 [binder, in UniMath.Foundations.PartD]
f:234 [binder, in UniMath.Algebra.Monoids]
f:234 [binder, in UniMath.CategoryTheory.ShortExactSequences]
f:235 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:235 [binder, in UniMath.Folds.folds_pre_2_cat]
f:235 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:235 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:235 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:235 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
F:235 [binder, in UniMath.Topology.Filters]
f:235 [binder, in UniMath.Foundations.PartA]
f:235 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:235 [binder, in UniMath.CategoryTheory.Core.Categories]
f:2359 [binder, in UniMath.Foundations.PartA]
f:236 [binder, in UniMath.Algebra.Modules.Core]
f:236 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:236 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:236 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:236 [binder, in UniMath.Bicategories.Core.Univalence]
f:236 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:236 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:236 [binder, in UniMath.CategoryTheory.limits.Opp]
f:236 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:236 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:236 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:237 [binder, in UniMath.CategoryTheory.Core.Functors]
f:237 [binder, in UniMath.CategoryTheory.limits.pushouts]
F:237 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:237 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:237 [binder, in UniMath.Combinatorics.StandardFiniteSets]
F:237 [binder, in UniMath.Topology.Filters]
f:237 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:237 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:2375 [binder, in UniMath.Foundations.PartA]
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f:238 [binder, in UniMath.CategoryTheory.PseudoElements]
f:238 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
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f:239 [binder, in UniMath.CategoryTheory.ShortExactSequences]
F:239 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:239 [binder, in UniMath.Topology.Filters]
f:239 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:24 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
F:24 [binder, in UniMath.AlgebraicGeometry.SheavesOfRings]
f:24 [binder, in UniMath.CategoryTheory.Inductives.Lists]
f:24 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:24 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:24 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f:24 [binder, in UniMath.Bicategories.Transformations.Examples.Whiskering]
f:24 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
f:24 [binder, in UniMath.CategoryTheory.limits.graphs.kernels]
F:24 [binder, in UniMath.CategoryTheory.Subcategory.Full]
f:24 [binder, in UniMath.MoreFoundations.Sets]
f:24 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
f:24 [binder, in UniMath.CategoryTheory.limits.graphs.cokernels]
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f:24 [binder, in UniMath.Induction.W.Uniqueness]
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f:24 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F:24 [binder, in UniMath.CategoryTheory.CategoryEquality]
f:24 [binder, in UniMath.CategoryTheory.covyoneda]
f:24 [binder, in UniMath.CategoryTheory.limits.kernels]
f:24 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:24 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:24 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:24 [binder, in UniMath.CategoryTheory.slicecat]
f:24 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:24 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:24 [binder, in UniMath.Induction.M.Uniqueness]
f:24 [binder, in UniMath.HomologicalAlgebra.Triangulated]
F:24 [binder, in UniMath.CategoryTheory.Equivalences.Core]
f:24 [binder, in UniMath.CategoryTheory.LatticeObject]
f:24 [binder, in UniMath.Bicategories.Core.Examples.OpCellBicat]
F:24 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:24 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
f:24 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:24 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:24 [binder, in UniMath.Algebra.Dcpo]
f:24 [binder, in UniMath.Foundations.Sets]
f:24 [binder, in UniMath.CategoryTheory.limits.graphs.zero]
F:24 [binder, in UniMath.CategoryTheory.PointedFunctors]
f:24 [binder, in UniMath.CategoryTheory.Epis]
f:24 [binder, in UniMath.Bicategories.Core.Unitors]
f:24 [binder, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:24 [binder, in UniMath.CategoryTheory.DisplayedCats.SIP]
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F:240 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:240 [binder, in UniMath.Folds.folds_pre_2_cat]
f:240 [binder, in UniMath.Bicategories.Core.Strictness]
F:240 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
F:240 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:240 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:240 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:240 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:240 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
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f:241 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:241 [binder, in UniMath.Bicategories.Core.Bicat]
F:241 [binder, in UniMath.CategoryTheory.Core.Functors]
f:241 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:241 [binder, in UniMath.Foundations.PartA]
f:241 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:2414 [binder, in UniMath.Foundations.PartA]
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f:242 [binder, in UniMath.Bicategories.Core.Univalence]
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f:242 [binder, in UniMath.CategoryTheory.Core.Categories]
f:2425 [binder, in UniMath.Foundations.PartA]
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F:243 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:243 [binder, in UniMath.Algebra.Groups]
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f:243 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
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f:244 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:244 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f:244 [binder, in UniMath.CategoryTheory.ShortExactSequences]
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f:2445 [binder, in UniMath.Foundations.PartA]
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f:245 [binder, in UniMath.CategoryTheory.PseudoElements]
F:245 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:245 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:245 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:245 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:2454 [binder, in UniMath.Foundations.PartA]
f:246 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:246 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:246 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:246 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:246 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
f:246 [binder, in UniMath.MoreFoundations.PartA]
f:246 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:2463 [binder, in UniMath.Foundations.PartA]
f:2469 [binder, in UniMath.Foundations.PartA]
f:247 [binder, in UniMath.Algebra.Modules.Core]
f:247 [binder, in UniMath.Bicategories.Core.Bicat]
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f:247 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
F:247 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:247 [binder, in UniMath.Bicategories.Core.Univalence]
F:247 [binder, in UniMath.CategoryTheory.limits.cats.limits]
F:247 [binder, in UniMath.Topology.Filters]
f:247 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:247 [binder, in UniMath.Foundations.PartC]
f:247 [binder, in UniMath.Foundations.PartA]
f:247 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:2475 [binder, in UniMath.Foundations.PartA]
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f:248 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:248 [binder, in UniMath.Combinatorics.FiniteSets]
f:248 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:2482 [binder, in UniMath.Foundations.PartA]
F:249 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:249 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:249 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
F:249 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:249 [binder, in UniMath.Bicategories.Core.AdjointUnique]
f:249 [binder, in UniMath.CategoryTheory.limits.kernels]
F:249 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:249 [binder, in UniMath.Algebra.Groups]
f:249 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:249 [binder, in UniMath.CategoryTheory.ShortExactSequences]
f:249 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:249 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:249 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:249 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:2492 [binder, in UniMath.Foundations.PartA]
F:25 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
F:25 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:25 [binder, in UniMath.AlgebraicGeometry.SheavesOfRings]
F:25 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:25 [binder, in UniMath.CategoryTheory.Presheaf]
f:25 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f:25 [binder, in UniMath.Algebra.RigsAndRings.Ideals]
f:25 [binder, in UniMath.CategoryTheory.ElementsOp]
f:25 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
F:25 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:25 [binder, in UniMath.MoreFoundations.Equivalences]
f:25 [binder, in UniMath.CategoryTheory.categories.modules]
f:25 [binder, in UniMath.MoreFoundations.AxiomOfChoice]
F:25 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:25 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:25 [binder, in UniMath.CategoryTheory.limits.zero]
f:25 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:25 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
f:25 [binder, in UniMath.CategoryTheory.PreAdditive]
f:25 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
f:25 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:25 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
F:25 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
F:25 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
F:25 [binder, in UniMath.Topology.Filters]
f:25 [binder, in UniMath.Algebra.IteratedBinaryOperations]
f:25 [binder, in UniMath.SyntheticHomotopyTheory.Test]
f:25 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
f:25 [binder, in UniMath.Bicategories.Core.Examples.OpMorBicat]
f:25 [binder, in UniMath.CategoryTheory.SimplicialSets]
F:25 [binder, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
f:25 [binder, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
f:25 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:25 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:250 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:250 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:250 [binder, in UniMath.CategoryTheory.PreAdditive]
F:250 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
F:250 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:250 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:2503 [binder, in UniMath.Foundations.PartA]
f:251 [binder, in UniMath.Algebra.Modules.Core]
f:251 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:251 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:251 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:251 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:251 [binder, in UniMath.Topology.Filters]
f:251 [binder, in UniMath.Foundations.PartA]
f:251 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:2513 [binder, in UniMath.Foundations.PartA]
f:2519 [binder, in UniMath.Foundations.PartA]
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F:252 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:252 [binder, in UniMath.Algebra.Groups]
f:252 [binder, in UniMath.CategoryTheory.limits.Opp]
F:252 [binder, in UniMath.Topology.Filters]
f:2525 [binder, in UniMath.Foundations.PartA]
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f:253 [binder, in UniMath.CategoryTheory.slicecat]
f:253 [binder, in UniMath.Bicategories.Core.Univalence]
f:253 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
F:253 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:253 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:253 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:2532 [binder, in UniMath.Foundations.PartA]
f:254 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
f:254 [binder, in UniMath.Algebra.Monoids]
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f:254 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
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f:254 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:254 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:2549 [binder, in UniMath.Foundations.PartA]
f:255 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
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f:255 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:255 [binder, in UniMath.CategoryTheory.PseudoElements]
f:255 [binder, in UniMath.Algebra.Groups]
f:255 [binder, in UniMath.CategoryTheory.PreAdditive]
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f:255 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
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f:256 [binder, in UniMath.Algebra.Modules.Core]
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f:256 [binder, in UniMath.CategoryTheory.limits.kernels]
f:256 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:256 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:2562 [binder, in UniMath.Foundations.PartA]
f:2567 [binder, in UniMath.Foundations.PartA]
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f:257 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:257 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:257 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:257 [binder, in UniMath.Foundations.UnivalenceAxiom]
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f:257 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:257 [binder, in UniMath.CategoryTheory.limits.Opp]
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f:257 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
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f:2574 [binder, in UniMath.Foundations.PartA]
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f:258 [binder, in UniMath.CategoryTheory.categories.abgrs]
F:258 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:258 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:258 [binder, in UniMath.Algebra.Groups]
f:258 [binder, in UniMath.CategoryTheory.PreAdditive]
F:258 [binder, in UniMath.Topology.Topology]
f:258 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:258 [binder, in UniMath.Topology.Filters]
f:258 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:2580 [binder, in UniMath.Foundations.PartA]
f:2589 [binder, in UniMath.Foundations.PartA]
f:259 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:259 [binder, in UniMath.Bicategories.Core.Bicat]
f:259 [binder, in UniMath.Foundations.PartD]
f:259 [binder, in UniMath.Algebra.Monoids]
f:259 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:259 [binder, in UniMath.CategoryTheory.PreAdditive]
f:259 [binder, in UniMath.Algebra.GroupAction]
f:259 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:259 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:259 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:2595 [binder, in UniMath.Foundations.PartA]
f:26 [binder, in UniMath.MoreFoundations.NullHomotopies]
f:26 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
f:26 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
f:26 [binder, in UniMath.Bicategories.Core.YonedaLemma]
f:26 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
f:26 [binder, in UniMath.Bicategories.Core.Bicat]
f:26 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:26 [binder, in UniMath.Algebra.Monoids]
f:26 [binder, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
F:26 [binder, in UniMath.CategoryTheory.whiskering]
f:26 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:26 [binder, in UniMath.Induction.M.ComputationalM]
F:26 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:26 [binder, in UniMath.Folds.folds_precat]
f:26 [binder, in UniMath.Bicategories.PseudoFunctors.Representable]
f:26 [binder, in UniMath.Bicategories.BicatOfBicategory]
f:26 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
f:26 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
F:26 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:26 [binder, in UniMath.Bicategories.Modifications.Modification]
f:26 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
f:26 [binder, in UniMath.Algebra.Modules.Examples]
F:26 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:26 [binder, in UniMath.CategoryTheory.Profunctors.Core]
f:26 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
f:26 [binder, in UniMath.CategoryTheory.UnderCategories]
f:26 [binder, in UniMath.SubstitutionSystems.LiftingInitial]
f:26 [binder, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
F:260 [binder, in UniMath.CategoryTheory.Core.Functors]
f:260 [binder, in UniMath.CategoryTheory.PseudoElements]
f:260 [binder, in UniMath.Foundations.PartA]
f:2601 [binder, in UniMath.Foundations.PartA]
f:2609 [binder, in UniMath.Foundations.PartA]
f:261 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:261 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:261 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:261 [binder, in UniMath.Topology.Topology]
f:261 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
f:261 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
F:261 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:2618 [binder, in UniMath.Foundations.PartA]
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f:262 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:262 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:262 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:262 [binder, in UniMath.CategoryTheory.PreAdditive]
f:262 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:262 [binder, in UniMath.CategoryTheory.limits.Opp]
f:262 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
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f:263 [binder, in UniMath.CategoryTheory.limits.kernels]
F:263 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:263 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:263 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
f:263 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:263 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:263 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:2636 [binder, in UniMath.Foundations.PartA]
f:264 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:264 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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f:264 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:264 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:264 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
F:264 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:2645 [binder, in UniMath.Foundations.PartA]
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f:265 [binder, in UniMath.Bicategories.Core.Bicat]
F:265 [binder, in UniMath.CategoryTheory.Core.Functors]
f:265 [binder, in UniMath.Algebra.GroupAction]
F:265 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:265 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
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f:266 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:266 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:266 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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f:267 [binder, in UniMath.Algebra.FixedPointTheorems]
f:267 [binder, in UniMath.Foundations.PartB]
f:267 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:267 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:267 [binder, in UniMath.CategoryTheory.PreAdditive]
f:267 [binder, in UniMath.Foundations.PartA]
f:267 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:2678 [binder, in UniMath.Foundations.PartA]
F:268 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
F:268 [binder, in UniMath.Topology.Topology]
f:268 [binder, in UniMath.CategoryTheory.limits.Opp]
f:268 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:268 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:269 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:269 [binder, in UniMath.CategoryTheory.PseudoElements]
F:269 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:269 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:269 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
f:269 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:2697 [binder, in UniMath.Foundations.PartA]
f:27 [binder, in UniMath.CategoryTheory.categories.rings]
f:27 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:27 [binder, in UniMath.CategoryTheory.Elements]
f:27 [binder, in UniMath.CategoryTheory.categories.setwith2binops]
f:27 [binder, in UniMath.CategoryTheory.categories.grs]
f:27 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:27 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:27 [binder, in UniMath.CategoryTheory.categories.flds]
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F:27 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:27 [binder, in UniMath.CategoryTheory.yoneda]
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F:27 [binder, in UniMath.CategoryTheory.Core.Functors]
f:27 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:27 [binder, in UniMath.Ktheory.GrothendieckGroup]
F:27 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:27 [binder, in UniMath.CategoryTheory.Core.Isos]
f:27 [binder, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
f:27 [binder, in UniMath.Bicategories.Core.Examples.OneTypes]
f:27 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:27 [binder, in UniMath.Bicategories.WkCatEnrichment.Cat]
f:27 [binder, in UniMath.Bicategories.Core.Univalence]
f:27 [binder, in UniMath.CategoryTheory.categories.commrigs]
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f:27 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:27 [binder, in UniMath.Folds.folds_isomorphism]
f:27 [binder, in UniMath.Bicategories.Discreteness]
f:27 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
f:27 [binder, in UniMath.CategoryTheory.categories.rigs]
F:27 [binder, in UniMath.Topology.Filters]
f:27 [binder, in UniMath.CategoryTheory.limits.graphs.zero]
f:27 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:27 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
f:27 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:27 [binder, in UniMath.CategoryTheory.categories.monoids]
f:27 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:27 [binder, in UniMath.CategoryTheory.categories.intdoms]
f:27 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
F:27 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:27 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:27 [binder, in UniMath.CategoryTheory.categories.commrings]
f:27 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
f:27 [binder, in UniMath.Foundations.Tests]
f:27 [binder, in UniMath.CategoryTheory.categories.abmonoids]
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f:270 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:270 [binder, in UniMath.Algebra.FixedPointTheorems]
f:270 [binder, in UniMath.CategoryTheory.Core.Functors]
f:270 [binder, in UniMath.CategoryTheory.limits.kernels]
f:270 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:270 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:270 [binder, in UniMath.Combinatorics.StandardFiniteSets]
F:270 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:270 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:271 [binder, in UniMath.Algebra.Modules.Core]
f:271 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:271 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:2711 [binder, in UniMath.Foundations.PartA]
f:272 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:272 [binder, in UniMath.Bicategories.Core.Bicat]
f:272 [binder, in UniMath.CategoryTheory.PreAdditive]
F:272 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:272 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
F:272 [binder, in UniMath.Topology.Topology]
f:2721 [binder, in UniMath.Foundations.PartA]
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f:273 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:273 [binder, in UniMath.Algebra.GroupAction]
f:273 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:274 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:274 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:274 [binder, in UniMath.Foundations.PartB]
F:274 [binder, in UniMath.CategoryTheory.Core.Functors]
f:274 [binder, in UniMath.CategoryTheory.Core.Isos]
F:274 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:274 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:2740 [binder, in UniMath.Foundations.PartA]
f:275 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
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F:276 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:276 [binder, in UniMath.Topology.Topology]
f:276 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
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F:276 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:2763 [binder, in UniMath.Foundations.PartA]
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f:277 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:277 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:277 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:277 [binder, in UniMath.CategoryTheory.limits.kernels]
f:277 [binder, in UniMath.CategoryTheory.PreAdditive]
f:277 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:277 [binder, in UniMath.Combinatorics.FiniteSequences]
f:277 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:277 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:278 [binder, in UniMath.CategoryTheory.Core.Functors]
f:278 [binder, in UniMath.CategoryTheory.PseudoElements]
F:278 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:278 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:278 [binder, in UniMath.MoreFoundations.PartA]
f:279 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:279 [binder, in UniMath.Bicategories.Core.Bicat]
f:279 [binder, in UniMath.CategoryTheory.Core.Isos]
f:279 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:279 [binder, in UniMath.Topology.Topology]
f:279 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
f:279 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
F:28 [binder, in UniMath.AlgebraicGeometry.SheavesOfRings]
F:28 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:28 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:28 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:28 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
f:28 [binder, in UniMath.CategoryTheory.category_binops]
f:28 [binder, in UniMath.CategoryTheory.limits.graphs.kernels]
f:28 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:28 [binder, in UniMath.CategoryTheory.limits.graphs.cokernels]
f:28 [binder, in UniMath.Algebra.FixedPointTheorems]
f:28 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
f:28 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:28 [binder, in UniMath.CategoryTheory.Monads.MonadAlgebras]
f:28 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:28 [binder, in UniMath.CategoryTheory.opp_precat]
f:28 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
f:28 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:28 [binder, in UniMath.CategoryTheory.ShortExactSequences]
f:28 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F:28 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:28 [binder, in UniMath.CategoryTheory.limits.cones]
F:28 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:28 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
F:28 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
f:28 [binder, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
f:28 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
F:28 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:28 [binder, in UniMath.Algebra.Dcpo]
f:28 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:28 [binder, in UniMath.PAdics.fps]
f:28 [binder, in UniMath.AlgebraicGeometry.Spec]
f:28 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:28 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:28 [binder, in UniMath.Bicategories.Colimits.Initial]
f:28 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
f:28 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:28 [binder, in UniMath.SubstitutionSystems.LiftingInitial]
f:280 [binder, in UniMath.CategoryTheory.limits.cokernels]
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f:280 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:280 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:280 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:281 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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F:281 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
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F:282 [binder, in UniMath.Topology.Filters]
F:282 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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f:282 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:283 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
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f:284 [binder, in UniMath.Topology.Topology]
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f:285 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
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f:285 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
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f:286 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:286 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
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f:286 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
f:286 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:286 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:287 [binder, in UniMath.CategoryTheory.Abelian]
f:287 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:287 [binder, in UniMath.CategoryTheory.PseudoElements]
f:287 [binder, in UniMath.CategoryTheory.Core.Isos]
f:287 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:287 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F:288 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:288 [binder, in UniMath.CategoryTheory.Abelian]
f:288 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:288 [binder, in UniMath.Bicategories.Core.Bicat]
F:288 [binder, in UniMath.CategoryTheory.Core.Functors]
f:288 [binder, in UniMath.CategoryTheory.limits.pushouts]
F:288 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:289 [binder, in UniMath.Algebra.Modules.Core]
f:289 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:289 [binder, in UniMath.Algebra.Groups]
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f:289 [binder, in UniMath.Topology.Topology]
f:289 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:289 [binder, in UniMath.Foundations.PartC]
f:289 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:29 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
f:29 [binder, in UniMath.MoreFoundations.NullHomotopies]
F:29 [binder, in UniMath.AlgebraicGeometry.SheavesOfRings]
F:29 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
f:29 [binder, in UniMath.CategoryTheory.Presheaf]
F:29 [binder, in UniMath.CategoryTheory.catiso]
f:29 [binder, in UniMath.Bicategories.Core.YonedaLemma]
f:29 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:29 [binder, in UniMath.Combinatorics.Vectors]
f:29 [binder, in UniMath.CategoryTheory.categories.StandardCategories]
f:29 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:29 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:29 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:29 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:29 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:29 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:29 [binder, in UniMath.Bicategories.Core.Strictness]
f:29 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:29 [binder, in UniMath.CategoryTheory.CategoryEquality]
F:29 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
F:29 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:29 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:29 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
F:29 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
f:29 [binder, in UniMath.HomologicalAlgebra.KA]
F:29 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:29 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
f:29 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:29 [binder, in UniMath.MoreFoundations.QuotientSet]
F:29 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:29 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
F:29 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:29 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:29 [binder, in UniMath.Topology.Filters]
f:29 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:29 [binder, in UniMath.Algebra.Dcpo]
f:29 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
f:29 [binder, in UniMath.CategoryTheory.Profunctors.Core]
F:29 [binder, in UniMath.CategoryTheory.PointedFunctors]
F:29 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
f:29 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:29 [binder, in UniMath.CategoryTheory.Monads.KTriples]
f:29 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
F:290 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:290 [binder, in UniMath.Topology.Topology]
f:290 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:290 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:290 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:290 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:291 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:291 [binder, in UniMath.CategoryTheory.limits.kernels]
f:291 [binder, in UniMath.Combinatorics.StandardFiniteSets]
F:291 [binder, in UniMath.Topology.Filters]
F:291 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:291 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:292 [binder, in UniMath.CategoryTheory.Abelian]
f:292 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:292 [binder, in UniMath.Algebra.FixedPointTheorems]
F:292 [binder, in UniMath.CategoryTheory.Core.Functors]
f:292 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:292 [binder, in UniMath.CategoryTheory.Core.Isos]
f:292 [binder, in UniMath.Algebra.Groups]
f:292 [binder, in UniMath.CategoryTheory.PreAdditive]
f:292 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:292 [binder, in UniMath.Foundations.PartA]
f:293 [binder, in UniMath.Algebra.Modules.Core]
f:293 [binder, in UniMath.Bicategories.Core.Bicat]
f:293 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:293 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:294 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:294 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:294 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:294 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:295 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:295 [binder, in UniMath.Topology.Topology]
F:295 [binder, in UniMath.Topology.Filters]
f:295 [binder, in UniMath.Foundations.PartC]
f:296 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
F:296 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:296 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:296 [binder, in UniMath.CategoryTheory.Core.Functors]
f:296 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:296 [binder, in UniMath.Topology.Topology]
f:296 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:296 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:297 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:297 [binder, in UniMath.Algebra.Modules.Core]
f:297 [binder, in UniMath.Algebra.FixedPointTheorems]
f:297 [binder, in UniMath.Foundations.PartB]
F:297 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:297 [binder, in UniMath.CategoryTheory.limits.kernels]
f:297 [binder, in UniMath.Algebra.Groups]
f:297 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:297 [binder, in UniMath.CategoryTheory.limits.Opp]
F:297 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:297 [binder, in UniMath.Foundations.PartA]
f:297 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:298 [binder, in UniMath.CategoryTheory.Abelian]
f:298 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:298 [binder, in UniMath.Bicategories.Core.Bicat]
f:298 [binder, in UniMath.CategoryTheory.Core.Isos]
f:298 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
F:299 [binder, in UniMath.CategoryTheory.Core.Functors]
F:299 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:299 [binder, in UniMath.Bicategories.Colimits.Products]
f:299 [binder, in UniMath.CategoryTheory.limits.pullbacks]
F:3 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
f:3 [binder, in UniMath.MoreFoundations.NullHomotopies]
F:3 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
F:3 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
F:3 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
F:3 [binder, in UniMath.CategoryTheory.catiso]
f:3 [binder, in UniMath.Bicategories.Core.Examples.Initial]
F:3 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
F:3 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
F:3 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
F:3 [binder, in UniMath.Bicategories.Core.Examples.Image]
f:3 [binder, in UniMath.MoreFoundations.Sets]
f:3 [binder, in UniMath.MoreFoundations.DecidablePropositions]
F:3 [binder, in UniMath.CategoryTheory.Core.Functors]
f:3 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
F:3 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
F:3 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:3 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:3 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:3 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:3 [binder, in UniMath.Bicategories.Modifications.Examples.ApModification]
F:3 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:3 [binder, in UniMath.Bicategories.Core.Examples.Final]
F:3 [binder, in UniMath.CategoryTheory.Chains.Adamek]
F:3 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
F:3 [binder, in UniMath.CategoryTheory.limits.cats.limits]
F:3 [binder, in UniMath.Bicategories.Modifications.Modification]
f:3 [binder, in UniMath.MoreFoundations.PartA]
F:3 [binder, in UniMath.CategoryTheory.Adjunctions.Restriction]
f:3 [binder, in UniMath.Tactics.Nat_Tactics]
F:3 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
f:3 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
f:3 [binder, in UniMath.PAdics.fps]
F:3 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
f:3 [binder, in UniMath.Bicategories.Core.TransportLaws]
F:3 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
F:3 [binder, in UniMath.CategoryTheory.PointedFunctors]
F:3 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
F:3 [binder, in UniMath.CategoryTheory.RightKanExtension]
f:3 [binder, in UniMath.CategoryTheory.SimplicialSets]
f:3 [binder, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
f:30 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
F:30 [binder, in UniMath.AlgebraicGeometry.SheavesOfRings]
f:30 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
f:30 [binder, in UniMath.Bicategories.BicategoryOfBicat]
f:30 [binder, in UniMath.CategoryTheory.ElementsOp]
f:30 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
F:30 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F:30 [binder, in UniMath.CategoryTheory.Subcategory.Full]
f:30 [binder, in UniMath.MoreFoundations.Equivalences]
f:30 [binder, in UniMath.Algebra.Monoids]
f:30 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:30 [binder, in UniMath.Induction.M.ComputationalM]
f:30 [binder, in UniMath.CategoryTheory.SetValuedFunctors]
f:30 [binder, in UniMath.Folds.folds_precat]
f:30 [binder, in UniMath.CategoryTheory.slicecat]
f:30 [binder, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
f:30 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:30 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:30 [binder, in UniMath.Bicategories.Core.Examples.OpCellBicat]
f:30 [binder, in UniMath.MoreFoundations.PartA]
F:30 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:30 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
F:30 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:30 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:30 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:30 [binder, in UniMath.CategoryTheory.limits.graphs.zero]
f:30 [binder, in UniMath.CategoryTheory.Profunctors.Core]
F:30 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
f:30 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
F:30 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
f:30 [binder, in UniMath.MoreFoundations.Nat]
f:30 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
f:30 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
f:300 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:300 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f:300 [binder, in UniMath.Foundations.PartA]
f:301 [binder, in UniMath.CategoryTheory.Abelian]
f:301 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:301 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:301 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:301 [binder, in UniMath.Topology.Topology]
F:301 [binder, in UniMath.Topology.Filters]
f:302 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:302 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:302 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:302 [binder, in UniMath.Algebra.Groups]
f:302 [binder, in UniMath.CategoryTheory.PreAdditive]
F:302 [binder, in UniMath.Topology.Topology]
f:302 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:303 [binder, in UniMath.Algebra.Modules.Core]
f:303 [binder, in UniMath.Algebra.Monoids]
f:303 [binder, in UniMath.CategoryTheory.Core.Functors]
f:303 [binder, in UniMath.CategoryTheory.Core.Isos]
f:303 [binder, in UniMath.CategoryTheory.limits.kernels]
f:303 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:303 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:303 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:303 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:304 [binder, in UniMath.CategoryTheory.Abelian]
F:304 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:304 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:304 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:304 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:305 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:305 [binder, in UniMath.Algebra.Groups]
f:305 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:306 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:306 [binder, in UniMath.CategoryTheory.Core.Functors]
f:306 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:306 [binder, in UniMath.Bicategories.Colimits.Products]
f:306 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:306 [binder, in UniMath.Foundations.PartC]
f:306 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:307 [binder, in UniMath.CategoryTheory.Abelian]
f:307 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:307 [binder, in UniMath.Topology.Topology]
f:307 [binder, in UniMath.CategoryTheory.limits.Opp]
f:307 [binder, in UniMath.Foundations.PartA]
f:308 [binder, in UniMath.Algebra.Modules.Core]
f:308 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:308 [binder, in UniMath.Bicategories.Core.Bicat]
f:308 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:308 [binder, in UniMath.CategoryTheory.Core.Isos]
f:308 [binder, in UniMath.Algebra.Groups]
F:308 [binder, in UniMath.Topology.Topology]
f:308 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:309 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:309 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:309 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:309 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:309 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:309 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:309 [binder, in UniMath.HomologicalAlgebra.Complexes]
F:309 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:309 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:309 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:31 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:31 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
f:31 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
F:31 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
F:31 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:31 [binder, in UniMath.Combinatorics.Vectors]
f:31 [binder, in UniMath.Bicategories.Core.Bicat]
f:31 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:31 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
f:31 [binder, in UniMath.CategoryTheory.Core.Isos]
F:31 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:31 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:31 [binder, in UniMath.Bicategories.Core.Examples.OneTypes]
f:31 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:31 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:31 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
F:31 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
f:31 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F:31 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:31 [binder, in UniMath.MoreFoundations.Univalence]
F:31 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:31 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:31 [binder, in UniMath.Topology.Filters]
f:31 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:31 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:31 [binder, in UniMath.Bicategories.Core.Examples.OpMorBicat]
F:31 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
f:31 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:31 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:31 [binder, in UniMath.SubstitutionSystems.LiftingInitial]
f:31 [binder, in UniMath.Foundations.Tests]
f:31 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
f:31 [binder, in UniMath.CategoryTheory.Core.Categories]
f:310 [binder, in UniMath.CategoryTheory.Abelian]
f:310 [binder, in UniMath.CategoryTheory.Core.Functors]
f:310 [binder, in UniMath.CategoryTheory.limits.kernels]
f:310 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:311 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:311 [binder, in UniMath.Foundations.PartB]
f:311 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:311 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:311 [binder, in UniMath.Topology.Topology]
f:311 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:311 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:311 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:312 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:312 [binder, in UniMath.Algebra.Monoids]
f:312 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:312 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:313 [binder, in UniMath.CategoryTheory.Abelian]
f:313 [binder, in UniMath.Algebra.Modules.Core]
f:313 [binder, in UniMath.Bicategories.Core.Bicat]
f:313 [binder, in UniMath.Foundations.PartD]
F:313 [binder, in UniMath.CategoryTheory.Core.Functors]
f:313 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:313 [binder, in UniMath.Algebra.Groups]
f:313 [binder, in UniMath.CategoryTheory.PreAdditive]
f:313 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:313 [binder, in UniMath.Foundations.PartC]
f:314 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:314 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:314 [binder, in UniMath.Foundations.PartA]
f:315 [binder, in UniMath.Algebra.GroupAction]
f:315 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:315 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:316 [binder, in UniMath.CategoryTheory.Abelian]
f:316 [binder, in UniMath.Algebra.Monoids]
F:316 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:316 [binder, in UniMath.CategoryTheory.limits.Opp]
F:316 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:316 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:317 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:317 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:317 [binder, in UniMath.CategoryTheory.limits.kernels]
f:317 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:317 [binder, in UniMath.Topology.Topology]
f:317 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:317 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:317 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:318 [binder, in UniMath.Algebra.Modules.Core]
f:318 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:318 [binder, in UniMath.Bicategories.Core.Bicat]
f:318 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:318 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:318 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:318 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:319 [binder, in UniMath.CategoryTheory.Abelian]
f:319 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:319 [binder, in UniMath.Algebra.Monoids]
F:319 [binder, in UniMath.CategoryTheory.Core.Functors]
f:319 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:319 [binder, in UniMath.CategoryTheory.PreAdditive]
F:319 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:319 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
f:32 [binder, in UniMath.CategoryTheory.categories.rings]
f:32 [binder, in UniMath.CategoryTheory.categories.setwith2binops]
f:32 [binder, in UniMath.CategoryTheory.categories.grs]
f:32 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
f:32 [binder, in UniMath.CategoryTheory.categories.flds]
f:32 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:32 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:32 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f:32 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:32 [binder, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
F:32 [binder, in UniMath.CategoryTheory.Core.Functors]
f:32 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
F:32 [binder, in UniMath.CategoryTheory.Chains.Chains]
f:32 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
f:32 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:32 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
f:32 [binder, in UniMath.CategoryTheory.PreAdditive]
f:32 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:32 [binder, in UniMath.CategoryTheory.categories.commrigs]
F:32 [binder, in UniMath.CategoryTheory.Equivalences.Core]
F:32 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:32 [binder, in UniMath.Folds.folds_isomorphism]
f:32 [binder, in UniMath.CategoryTheory.Core.Univalence]
F:32 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:32 [binder, in UniMath.CategoryTheory.categories.rigs]
F:32 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:32 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:32 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:32 [binder, in UniMath.SyntheticHomotopyTheory.Test]
f:32 [binder, in UniMath.CategoryTheory.categories.monoids]
f:32 [binder, in UniMath.CategoryTheory.categories.intdoms]
f:32 [binder, in UniMath.CategoryTheory.UnderCategories]
F:32 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
F:32 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
f:32 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:32 [binder, in UniMath.CategoryTheory.categories.commrings]
f:32 [binder, in UniMath.CategoryTheory.categories.abmonoids]
F:320 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
F:320 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:320 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:320 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:320 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:321 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:321 [binder, in UniMath.Foundations.PartB]
f:321 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
f:321 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:322 [binder, in UniMath.CategoryTheory.Abelian]
f:322 [binder, in UniMath.Algebra.Modules.Core]
f:322 [binder, in UniMath.Algebra.Monoids]
f:322 [binder, in UniMath.CategoryTheory.limits.Opp]
f:322 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:322 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:322 [binder, in UniMath.Foundations.PartC]
f:323 [binder, in UniMath.CategoryTheory.Core.Functors]
f:323 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:323 [binder, in UniMath.CategoryTheory.Core.Isos]
F:323 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:323 [binder, in UniMath.MoreFoundations.PathsOver]
f:324 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:324 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:324 [binder, in UniMath.CategoryTheory.limits.kernels]
f:324 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:325 [binder, in UniMath.CategoryTheory.Abelian]
f:325 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:325 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:325 [binder, in UniMath.Topology.Topology]
f:325 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:326 [binder, in UniMath.Algebra.Modules.Core]
F:326 [binder, in UniMath.CategoryTheory.Core.Functors]
f:326 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:326 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:326 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:326 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
F:326 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:326 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:326 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:327 [binder, in UniMath.Bicategories.Core.Bicat]
f:327 [binder, in UniMath.Algebra.FixedPointTheorems]
f:327 [binder, in UniMath.Algebra.Monoids]
f:327 [binder, in UniMath.Foundations.PartB]
f:327 [binder, in UniMath.CategoryTheory.Core.Isos]
f:327 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:327 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:328 [binder, in UniMath.CategoryTheory.Abelian]
f:328 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:328 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:328 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:329 [binder, in UniMath.CategoryTheory.Abelian]
f:329 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:329 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:329 [binder, in UniMath.Topology.Topology]
f:329 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:329 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:33 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
F:33 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:33 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration]
f:33 [binder, in UniMath.MoreFoundations.NullHomotopies]
f:33 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:33 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:33 [binder, in UniMath.CategoryTheory.category_binops]
F:33 [binder, in UniMath.CategoryTheory.Subcategory.Full]
f:33 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:33 [binder, in UniMath.Algebra.FixedPointTheorems]
f:33 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:33 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:33 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:33 [binder, in UniMath.Induction.M.ComputationalM]
F:33 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
F:33 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
f:33 [binder, in UniMath.CategoryTheory.Monics]
f:33 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
f:33 [binder, in UniMath.CategoryTheory.limits.cones]
f:33 [binder, in UniMath.Bicategories.Discreteness]
F:33 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:33 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:33 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
f:33 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
F:33 [binder, in UniMath.CategoryTheory.Profunctors.Core]
f:33 [binder, in UniMath.Foundations.PartC]
f:33 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
F:33 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
f:33 [binder, in UniMath.SubstitutionSystems.LiftingInitial]
f:33 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:33 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
f:33 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
f:33 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
f:330 [binder, in UniMath.CategoryTheory.Abelian]
f:330 [binder, in UniMath.Algebra.Modules.Core]
f:330 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:330 [binder, in UniMath.CategoryTheory.Core.Functors]
f:330 [binder, in UniMath.CategoryTheory.limits.kernels]
F:330 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:330 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:331 [binder, in UniMath.CategoryTheory.Abelian]
f:331 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:331 [binder, in UniMath.Algebra.Monoids]
F:331 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:331 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:332 [binder, in UniMath.CategoryTheory.Abelian]
f:332 [binder, in UniMath.Algebra.FixedPointTheorems]
f:332 [binder, in UniMath.Foundations.PartB]
F:332 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:332 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:332 [binder, in UniMath.Algebra.RigsAndRings]
f:332 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:332 [binder, in UniMath.Foundations.PartC]
f:332 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
F:333 [binder, in UniMath.CategoryTheory.Core.Functors]
f:333 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:333 [binder, in UniMath.Topology.Topology]
f:333 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:333 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:334 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:334 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:334 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
f:334 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:335 [binder, in UniMath.CategoryTheory.Abelian]
f:335 [binder, in UniMath.Bicategories.Core.Bicat]
f:335 [binder, in UniMath.Algebra.Monoids]
f:335 [binder, in UniMath.CategoryTheory.Core.Isos]
f:335 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:335 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
F:335 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:335 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:336 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:336 [binder, in UniMath.CategoryTheory.Core.Functors]
f:336 [binder, in UniMath.CategoryTheory.limits.kernels]
F:336 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
f:337 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:337 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:337 [binder, in UniMath.Bicategories.Colimits.Products]
f:338 [binder, in UniMath.CategoryTheory.Abelian]
f:338 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:338 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:338 [binder, in UniMath.Foundations.PartB]
F:338 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:338 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:339 [binder, in UniMath.Algebra.Modules.Core]
f:339 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:339 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
F:339 [binder, in UniMath.CategoryTheory.Core.Functors]
f:339 [binder, in UniMath.CategoryTheory.Core.Isos]
f:339 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:339 [binder, in UniMath.Algebra.RigsAndRings]
f:339 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
F:339 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
f:339 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:34 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
F:34 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
F:34 [binder, in UniMath.CategoryTheory.catiso]
f:34 [binder, in UniMath.CategoryTheory.ElementsOp]
f:34 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:34 [binder, in UniMath.MoreFoundations.Sets]
F:34 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:34 [binder, in UniMath.Algebra.Monoids]
f:34 [binder, in UniMath.CategoryTheory.yoneda]
f:34 [binder, in UniMath.CategoryTheory.limits.coproducts]
F:34 [binder, in UniMath.CategoryTheory.whiskering]
f:34 [binder, in UniMath.CategoryTheory.Monads.MonadAlgebras]
f:34 [binder, in UniMath.Bicategories.Core.Strictness]
f:34 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:34 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F:34 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:34 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:34 [binder, in UniMath.CategoryTheory.slicecat]
f:34 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:34 [binder, in UniMath.Bicategories.Core.Univalence]
F:34 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
f:34 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
F:34 [binder, in UniMath.Bicategories.Modifications.Modification]
F:34 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:34 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:34 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:34 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
F:34 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:34 [binder, in UniMath.CategoryTheory.limits.graphs.zero]
f:34 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:34 [binder, in UniMath.PAdics.fps]
f:34 [binder, in UniMath.Combinatorics.FiniteSequences]
f:34 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:34 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
F:34 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:34 [binder, in UniMath.CategoryTheory.Epis]
f:34 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
F:34 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
f:34 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:34 [binder, in UniMath.Algebra.Universal.SortedTypes]
f:340 [binder, in UniMath.Bicategories.Core.Bicat]
f:340 [binder, in UniMath.Topology.Topology]
f:340 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:341 [binder, in UniMath.CategoryTheory.Abelian]
f:341 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:341 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:341 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:341 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:341 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:342 [binder, in UniMath.CategoryTheory.Core.Functors]
f:342 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:343 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:343 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:343 [binder, in UniMath.Algebra.RigsAndRings]
f:343 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:343 [binder, in UniMath.Foundations.PartC]
f:343 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:344 [binder, in UniMath.CategoryTheory.Abelian]
f:344 [binder, in UniMath.Algebra.GroupAction]
f:344 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:345 [binder, in UniMath.Algebra.Modules.Core]
f:345 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:345 [binder, in UniMath.CategoryTheory.Core.Isos]
F:345 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:345 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:345 [binder, in UniMath.CategoryTheory.PreAdditive]
f:345 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:345 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:346 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:346 [binder, in UniMath.CategoryTheory.Core.Functors]
f:346 [binder, in UniMath.CategoryTheory.limits.kernels]
f:346 [binder, in UniMath.Algebra.RigsAndRings]
f:346 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:347 [binder, in UniMath.CategoryTheory.Abelian]
f:347 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:347 [binder, in UniMath.Bicategories.Core.Bicat]
f:347 [binder, in UniMath.Foundations.PartB]
f:347 [binder, in UniMath.Topology.Topology]
f:347 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:348 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:348 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:348 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:349 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:349 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:349 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:349 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:35 [binder, in UniMath.Induction.W.Fibered]
F:35 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:35 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
F:35 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
f:35 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
F:35 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
F:35 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:35 [binder, in UniMath.MoreFoundations.Equivalences]
f:35 [binder, in UniMath.Bicategories.Core.Adjunctions]
F:35 [binder, in UniMath.CategoryTheory.ProductCategory]
f:35 [binder, in UniMath.MoreFoundations.MoreEquivalences]
f:35 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:35 [binder, in UniMath.Induction.M.ComputationalM]
F:35 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:35 [binder, in UniMath.CategoryTheory.SetValuedFunctors]
f:35 [binder, in UniMath.CategoryTheory.limits.equalizers]
F:35 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:35 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:35 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:35 [binder, in UniMath.Combinatorics.FiniteSets]
f:35 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:35 [binder, in UniMath.CategoryTheory.ShortExactSequences]
F:35 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:35 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
F:35 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:35 [binder, in UniMath.CategoryTheory.limits.Opp]
F:35 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
F:35 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:35 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:35 [binder, in UniMath.Algebra.Dcpo]
F:35 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:35 [binder, in UniMath.Foundations.PartA]
f:35 [binder, in UniMath.CategoryTheory.limits.coequalizers]
F:35 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:35 [binder, in UniMath.Bicategories.Core.Unitors]
F:35 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
f:35 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
f:35 [binder, in UniMath.CategoryTheory.Monads.KTriples]
f:35 [binder, in UniMath.CategoryTheory.Core.Categories]
f:350 [binder, in UniMath.CategoryTheory.Abelian]
f:350 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:350 [binder, in UniMath.Foundations.PartB]
f:350 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:350 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:351 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:351 [binder, in UniMath.Algebra.RigsAndRings]
f:351 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:352 [binder, in UniMath.CategoryTheory.Core.Functors]
f:352 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:352 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:353 [binder, in UniMath.CategoryTheory.Abelian]
f:353 [binder, in UniMath.Foundations.PartB]
f:353 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:353 [binder, in UniMath.Topology.Topology]
f:353 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:353 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:353 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:354 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:354 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:354 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:354 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:355 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
F:355 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
F:355 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:355 [binder, in UniMath.Algebra.RigsAndRings]
f:355 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:356 [binder, in UniMath.CategoryTheory.Abelian]
f:356 [binder, in UniMath.Algebra.Modules.Core]
f:356 [binder, in UniMath.Bicategories.Core.Bicat]
f:356 [binder, in UniMath.CategoryTheory.Core.Functors]
f:356 [binder, in UniMath.CategoryTheory.limits.kernels]
f:356 [binder, in UniMath.Algebra.GroupAction]
f:356 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:357 [binder, in UniMath.Foundations.PartD]
f:357 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:358 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:358 [binder, in UniMath.Algebra.FixedPointTheorems]
f:358 [binder, in UniMath.CategoryTheory.PreAdditive]
f:359 [binder, in UniMath.Foundations.PartB]
f:359 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:359 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:36 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
f:36 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
f:36 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
f:36 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
f:36 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
f:36 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:36 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:36 [binder, in UniMath.CategoryTheory.Subcategory.Full]
f:36 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:36 [binder, in UniMath.Foundations.PartB]
f:36 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
F:36 [binder, in UniMath.CategoryTheory.Core.Functors]
f:36 [binder, in UniMath.Folds.folds_pre_2_cat]
f:36 [binder, in UniMath.CategoryTheory.Core.Isos]
f:36 [binder, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
f:36 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:36 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
F:36 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:36 [binder, in UniMath.CategoryTheory.Subcategory.Core]
f:36 [binder, in UniMath.HomologicalAlgebra.KA]
F:36 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
F:36 [binder, in UniMath.CategoryTheory.Equivalences.Core]
f:36 [binder, in UniMath.Folds.folds_isomorphism]
F:36 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F:36 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:36 [binder, in UniMath.Bicategories.Core.Examples.OpCellBicat]
F:36 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:36 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:36 [binder, in UniMath.Topology.Filters]
f:36 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
f:36 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:36 [binder, in UniMath.Induction.M.Limits]
F:36 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
F:36 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
F:36 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
f:36 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:36 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
f:36 [binder, in UniMath.Induction.W.Naturals]
f:360 [binder, in UniMath.Algebra.Modules.Core]
f:360 [binder, in UniMath.CategoryTheory.LocalizingClass]
F:360 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:360 [binder, in UniMath.Bicategories.Colimits.Products]
f:360 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:361 [binder, in UniMath.CategoryTheory.Core.Functors]
f:361 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
F:361 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:362 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:362 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:363 [binder, in UniMath.Foundations.PartB]
f:363 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:363 [binder, in UniMath.Algebra.GroupAction]
f:363 [binder, in UniMath.Topology.Topology]
f:363 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:363 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:365 [binder, in UniMath.Algebra.Modules.Core]
f:365 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:365 [binder, in UniMath.Bicategories.Core.Bicat]
F:365 [binder, in UniMath.Topology.Topology]
f:366 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:366 [binder, in UniMath.CategoryTheory.PreAdditive]
f:366 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:367 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
F:367 [binder, in UniMath.CategoryTheory.Core.Functors]
f:368 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:368 [binder, in UniMath.CategoryTheory.Core.Isos]
f:368 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
F:368 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
f:368 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:369 [binder, in UniMath.Algebra.Modules.Core]
f:369 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:369 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:369 [binder, in UniMath.CategoryTheory.limits.pullbacks]
F:37 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
f:37 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:37 [binder, in UniMath.CategoryTheory.categories.StandardCategories]
f:37 [binder, in UniMath.Algebra.Monoids]
f:37 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:37 [binder, in UniMath.Algebra.Modules.Quotient]
f:37 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
F:37 [binder, in UniMath.CategoryTheory.Chains.Chains]
F:37 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:37 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:37 [binder, in UniMath.Folds.folds_precat]
f:37 [binder, in UniMath.CategoryTheory.PreAdditive]
F:37 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
f:37 [binder, in UniMath.CategoryTheory.Groupoids]
f:37 [binder, in UniMath.CategoryTheory.Monics]
f:37 [binder, in UniMath.CategoryTheory.limits.products]
f:37 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
F:37 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
F:37 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:37 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:37 [binder, in UniMath.CategoryTheory.Profunctors.Core]
f:37 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:37 [binder, in UniMath.CategoryTheory.PointedFunctors]
F:37 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:37 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
f:37 [binder, in UniMath.Bicategories.Core.Examples.OpMorBicat]
f:37 [binder, in UniMath.MoreFoundations.Nat]
f:37 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
f:37 [binder, in UniMath.CategoryTheory.limits.terminal]
f:370 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:370 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:370 [binder, in UniMath.Algebra.GroupAction]
f:370 [binder, in UniMath.Topology.Topology]
f:371 [binder, in UniMath.Foundations.PartB]
f:371 [binder, in UniMath.CategoryTheory.PreAdditive]
F:372 [binder, in UniMath.CategoryTheory.Core.Functors]
F:372 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:373 [binder, in UniMath.Algebra.Modules.Core]
f:373 [binder, in UniMath.Bicategories.Core.Bicat]
f:373 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:373 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:374 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:374 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:375 [binder, in UniMath.CategoryTheory.PreAdditive]
f:375 [binder, in UniMath.Algebra.GroupAction]
f:375 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:376 [binder, in UniMath.Foundations.PartB]
f:376 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:376 [binder, in UniMath.Topology.Topology]
F:377 [binder, in UniMath.CategoryTheory.Core.Functors]
F:377 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:377 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:377 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:378 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:378 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:378 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:379 [binder, in UniMath.CategoryTheory.PreAdditive]
F:379 [binder, in UniMath.Topology.Topology]
F:38 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:38 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:38 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
f:38 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
f:38 [binder, in UniMath.Bicategories.Core.YonedaLemma]
f:38 [binder, in UniMath.Bicategories.Core.Bicat]
f:38 [binder, in UniMath.Algebra.FixedPointTheorems]
f:38 [binder, in UniMath.CategoryTheory.yoneda]
f:38 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
F:38 [binder, in UniMath.Ktheory.GrothendieckGroup]
F:38 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:38 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:38 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:38 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:38 [binder, in UniMath.CategoryTheory.slicecat]
f:38 [binder, in UniMath.Bicategories.BicatOfBicategory]
F:38 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
F:38 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
F:38 [binder, in UniMath.Topology.Filters]
f:38 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:38 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:38 [binder, in UniMath.Bicategories.Core.TransportLaws]
F:38 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
f:38 [binder, in UniMath.CategoryTheory.Epis]
f:38 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:38 [binder, in UniMath.CategoryTheory.Core.Categories]
f:380 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:381 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:381 [binder, in UniMath.Bicategories.Core.Bicat]
f:381 [binder, in UniMath.Foundations.PartB]
f:381 [binder, in UniMath.CategoryTheory.limits.pullbacks]
F:382 [binder, in UniMath.CategoryTheory.Core.Functors]
f:382 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:382 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:383 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:383 [binder, in UniMath.Foundations.PartA]
f:384 [binder, in UniMath.Bicategories.Core.Bicat]
f:384 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:384 [binder, in UniMath.CategoryTheory.Core.Isos]
f:384 [binder, in UniMath.CategoryTheory.PreAdditive]
f:385 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
F:385 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
f:385 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:386 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:386 [binder, in UniMath.CategoryTheory.Core.Functors]
f:386 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:387 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:387 [binder, in UniMath.Bicategories.Core.Bicat]
f:387 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:387 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:389 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:39 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
F:39 [binder, in UniMath.CategoryTheory.Subcategory.Full]
f:39 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
f:39 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:39 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:39 [binder, in UniMath.Folds.folds_pre_2_cat]
f:39 [binder, in UniMath.Foundations.Propositions]
F:39 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
F:39 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:39 [binder, in UniMath.CategoryTheory.limits.zero]
f:39 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
F:39 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
f:39 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
f:39 [binder, in UniMath.HomologicalAlgebra.KA]
f:39 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
F:39 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
f:39 [binder, in UniMath.CategoryTheory.limits.cones]
f:39 [binder, in UniMath.MoreFoundations.QuotientSet]
F:39 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:39 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:39 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:39 [binder, in UniMath.CategoryTheory.limits.graphs.zero]
f:39 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:39 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:39 [binder, in UniMath.PAdics.fps]
f:39 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
f:39 [binder, in UniMath.SubstitutionSystems.LiftingInitial]
F:390 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:390 [binder, in UniMath.Bicategories.Core.Bicat]
f:390 [binder, in UniMath.CategoryTheory.PreAdditive]
f:390 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:390 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:391 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:391 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:392 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:392 [binder, in UniMath.CategoryTheory.Core.Functors]
f:393 [binder, in UniMath.CategoryTheory.Core.Isos]
f:394 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:395 [binder, in UniMath.Bicategories.Core.Bicat]
f:395 [binder, in UniMath.CategoryTheory.Core.Functors]
f:395 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:395 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:396 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:396 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:396 [binder, in UniMath.CategoryTheory.PreAdditive]
f:396 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:396 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:396 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:398 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:398 [binder, in UniMath.CategoryTheory.categories.abgrs]
F:398 [binder, in UniMath.CategoryTheory.Core.Functors]
f:398 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:399 [binder, in UniMath.Foundations.PartB]
f:399 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:4 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
f:4 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
F:4 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:4 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
f:4 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:4 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
F:4 [binder, in UniMath.CategoryTheory.Monads.Monads]
F:4 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F:4 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
F:4 [binder, in UniMath.SubstitutionSystems.ModulesFromSignatures]
f:4 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:4 [binder, in UniMath.Bicategories.Core.Adjunctions]
F:4 [binder, in UniMath.CategoryTheory.whiskering]
f:4 [binder, in UniMath.Bicategories.Core.Strictness]
f:4 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:4 [binder, in UniMath.CategoryTheory.Core.Isos]
F:4 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
f:4 [binder, in UniMath.CategoryTheory.coslicecat]
f:4 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:4 [binder, in UniMath.CategoryTheory.SetValuedFunctors]
f:4 [binder, in UniMath.CategoryTheory.slicecat]
f:4 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:4 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
f:4 [binder, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
f:4 [binder, in UniMath.CategoryTheory.Groupoids]
f:4 [binder, in UniMath.CategoryTheory.Monics]
f:4 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:4 [binder, in UniMath.MoreFoundations.Subposets]
f:4 [binder, in UniMath.Bicategories.Core.Examples.OpCellBicat]
f:4 [binder, in UniMath.Bicategories.Discreteness]
f:4 [binder, in UniMath.CategoryTheory.limits.Opp]
f:4 [binder, in UniMath.MoreFoundations.Univalence]
f:4 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:4 [binder, in UniMath.CategoryTheory.Inductives.Trees]
f:4 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
F:4 [binder, in UniMath.CategoryTheory.Monads.LModules]
f:4 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:4 [binder, in UniMath.CategoryTheory.PointedFunctors]
f:4 [binder, in UniMath.Bicategories.Core.Examples.OpMorBicat]
f:4 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
f:4 [binder, in UniMath.Induction.W.Naturals]
F:4 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
F:4 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
f:40 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:40 [binder, in UniMath.Bicategories.BicategoryOfBicat]
f:40 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
F:40 [binder, in UniMath.CategoryTheory.categories.StandardCategories]
f:40 [binder, in UniMath.MoreFoundations.Equivalences]
f:40 [binder, in UniMath.Algebra.Monoids]
f:40 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
F:40 [binder, in UniMath.CategoryTheory.ProductCategory]
f:40 [binder, in UniMath.CategoryTheory.Core.Functors]
f:40 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
f:40 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:40 [binder, in UniMath.CategoryTheory.Core.Isos]
f:40 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:40 [binder, in UniMath.CategoryTheory.opp_precat]
F:40 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:40 [binder, in UniMath.Bicategories.WkCatEnrichment.Cat]
F:40 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:40 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
f:40 [binder, in UniMath.Algebra.RigsAndRings]
f:40 [binder, in UniMath.Folds.folds_isomorphism]
f:40 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:40 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
f:40 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:40 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:40 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:40 [binder, in UniMath.Foundations.PartA]
f:40 [binder, in UniMath.CategoryTheory.PointedFunctors]
F:40 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
F:40 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:40 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:40 [binder, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:40 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:400 [binder, in UniMath.CategoryTheory.PreAdditive]
f:400 [binder, in UniMath.MoreFoundations.PartA]
f:400 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:400 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:402 [binder, in UniMath.Bicategories.Core.Bicat]
F:402 [binder, in UniMath.CategoryTheory.Core.Functors]
f:402 [binder, in UniMath.CategoryTheory.Core.Isos]
f:402 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:403 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:403 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:403 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:404 [binder, in UniMath.CategoryTheory.PreAdditive]
f:405 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:405 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:406 [binder, in UniMath.Foundations.PartB]
F:406 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
f:406 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:406 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:407 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:407 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:408 [binder, in UniMath.Bicategories.Core.Bicat]
F:408 [binder, in UniMath.CategoryTheory.Core.Functors]
f:409 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:409 [binder, in UniMath.Algebra.FixedPointTheorems]
f:41 [binder, in UniMath.SubstitutionSystems.Signatures]
f:41 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
F:41 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:41 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
F:41 [binder, in UniMath.CategoryTheory.catiso]
f:41 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:41 [binder, in UniMath.CategoryTheory.LocalizingClass]
F:41 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:41 [binder, in UniMath.Foundations.PartB]
f:41 [binder, in UniMath.MoreFoundations.MoreEquivalences]
f:41 [binder, in UniMath.Bicategories.Core.Strictness]
f:41 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:41 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:41 [binder, in UniMath.Induction.M.ComputationalM]
f:41 [binder, in UniMath.CategoryTheory.limits.kernels]
F:41 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
F:41 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
F:41 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:41 [binder, in UniMath.Bicategories.Modifications.Modification]
f:41 [binder, in UniMath.Bicategories.Core.Examples.OpCellBicat]
f:41 [binder, in UniMath.MoreFoundations.PartA]
f:41 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
F:41 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:41 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
f:41 [binder, in UniMath.Algebra.Universal.Algebras]
f:41 [binder, in UniMath.Foundations.Sets]
f:41 [binder, in UniMath.CategoryTheory.Profunctors.Core]
f:41 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
F:41 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:41 [binder, in UniMath.Bicategories.Core.Unitors]
f:41 [binder, in UniMath.MoreFoundations.Nat]
f:410 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:410 [binder, in UniMath.Foundations.PartB]
f:410 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:411 [binder, in UniMath.CategoryTheory.Core.Isos]
f:411 [binder, in UniMath.CategoryTheory.PreAdditive]
f:411 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:411 [binder, in UniMath.Foundations.Sets]
f:411 [binder, in UniMath.Foundations.PartC]
f:411 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:411 [binder, in UniMath.Foundations.PartA]
f:412 [binder, in UniMath.MoreFoundations.PartA]
f:413 [binder, in UniMath.CategoryTheory.Core.Functors]
f:414 [binder, in UniMath.Foundations.PartB]
f:415 [binder, in UniMath.Bicategories.Core.Bicat]
f:415 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:415 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:416 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:416 [binder, in UniMath.Foundations.Sets]
F:417 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:418 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:418 [binder, in UniMath.Foundations.PartB]
F:418 [binder, in UniMath.CategoryTheory.Core.Functors]
f:418 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:418 [binder, in UniMath.Foundations.PartC]
f:419 [binder, in UniMath.CategoryTheory.Core.Isos]
F:42 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
f:42 [binder, in UniMath.MoreFoundations.NullHomotopies]
f:42 [binder, in UniMath.Induction.W.Fibered]
F:42 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
f:42 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:42 [binder, in UniMath.Bicategories.Core.Examples.Initial]
f:42 [binder, in UniMath.CategoryTheory.ElementsOp]
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f:42 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
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f:42 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
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f:430 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
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f:438 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
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F:44 [binder, in UniMath.CategoryTheory.categories.StandardCategories]
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f:44 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
F:44 [binder, in UniMath.CategoryTheory.CategoryEquality]
f:44 [binder, in UniMath.CategoryTheory.Core.Isos]
f:44 [binder, in UniMath.CategoryTheory.opp_precat]
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f:44 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:44 [binder, in UniMath.CategoryTheory.limits.equalizers]
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f:44 [binder, in UniMath.Bicategories.WkCatEnrichment.Cat]
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f:44 [binder, in UniMath.Combinatorics.Graph]
F:44 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
F:44 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:44 [binder, in UniMath.HomologicalAlgebra.KA]
f:44 [binder, in UniMath.CategoryTheory.Monics]
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f:44 [binder, in UniMath.Folds.folds_isomorphism]
f:44 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
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F:44 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:44 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:44 [binder, in UniMath.Algebra.Dcpo]
f:44 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:44 [binder, in UniMath.PAdics.fps]
f:44 [binder, in UniMath.CategoryTheory.limits.coequalizers]
F:44 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:44 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:44 [binder, in UniMath.Algebra.Universal.SortedTypes]
f:44 [binder, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
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f:441 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:441 [binder, in UniMath.Bicategories.Core.Bicat]
f:441 [binder, in UniMath.Algebra.FixedPointTheorems]
f:441 [binder, in UniMath.Foundations.Sets]
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f:444 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
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f:445 [binder, in UniMath.Bicategories.Core.Bicat]
f:445 [binder, in UniMath.Combinatorics.StandardFiniteSets]
F:446 [binder, in UniMath.CategoryTheory.Core.Functors]
f:447 [binder, in UniMath.Algebra.FixedPointTheorems]
f:448 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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f:449 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:45 [binder, in UniMath.SubstitutionSystems.Signatures]
f:45 [binder, in UniMath.CategoryTheory.Presheaf]
F:45 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
F:45 [binder, in UniMath.CategoryTheory.catiso]
f:45 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
f:45 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:45 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:45 [binder, in UniMath.CategoryTheory.ProductCategory]
f:45 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:45 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:45 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:45 [binder, in UniMath.Ktheory.GrothendieckGroup]
f:45 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:45 [binder, in UniMath.CategoryTheory.Subcategory.Core]
f:45 [binder, in UniMath.CategoryTheory.ShortExactSequences]
F:45 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:45 [binder, in UniMath.CategoryTheory.Core.Univalence]
f:45 [binder, in UniMath.Bicategories.Core.Examples.OpCellBicat]
F:45 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:45 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:45 [binder, in UniMath.CategoryTheory.limits.graphs.zero]
f:45 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:45 [binder, in UniMath.Foundations.PartA]
f:45 [binder, in UniMath.CategoryTheory.Epis]
f:45 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
f:45 [binder, in UniMath.SubstitutionSystems.LiftingInitial]
F:45 [binder, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
F:450 [binder, in UniMath.CategoryTheory.Core.Functors]
f:450 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:451 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:451 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:451 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:451 [binder, in UniMath.Foundations.PartC]
F:452 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:452 [binder, in UniMath.Bicategories.Core.Bicat]
f:452 [binder, in UniMath.Algebra.FixedPointTheorems]
f:454 [binder, in UniMath.CategoryTheory.PreAdditive]
f:454 [binder, in UniMath.CategoryTheory.limits.pullbacks]
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f:455 [binder, in UniMath.CategoryTheory.Core.Isos]
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f:457 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:457 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:457 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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f:457 [binder, in UniMath.CategoryTheory.PreAdditive]
f:457 [binder, in UniMath.Combinatorics.StandardFiniteSets]
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f:46 [binder, in UniMath.MoreFoundations.NullHomotopies]
F:46 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:46 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:46 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:46 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:46 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:46 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:46 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:46 [binder, in UniMath.Algebra.Monoids]
f:46 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:46 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
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f:46 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
f:46 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
F:46 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:46 [binder, in UniMath.CategoryTheory.limits.cones]
f:46 [binder, in UniMath.CategoryTheory.Inductives.Trees]
f:46 [binder, in UniMath.Combinatorics.GraphPaths]
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f:46 [binder, in UniMath.Algebra.Universal.Algebras]
f:46 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
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f:461 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
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f:47 [binder, in UniMath.Bicategories.Core.Examples.Initial]
f:47 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:47 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
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f:47 [binder, in UniMath.CategoryTheory.limits.pushouts]
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f:47 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
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f:47 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:47 [binder, in UniMath.Algebra.Dcpo]
f:47 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
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f:47 [binder, in UniMath.HomologicalAlgebra.MappingCone]
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f:471 [binder, in UniMath.CategoryTheory.limits.pullbacks]
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f:477 [binder, in UniMath.CategoryTheory.PreAdditive]
f:477 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
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f:478 [binder, in UniMath.Algebra.FixedPointTheorems]
f:478 [binder, in UniMath.Combinatorics.WellOrderedSets]
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f:479 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:48 [binder, in UniMath.CategoryTheory.catiso]
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f:48 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:48 [binder, in UniMath.MoreFoundations.Sets]
F:48 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:48 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
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F:48 [binder, in UniMath.CategoryTheory.Core.Functors]
f:48 [binder, in UniMath.CategoryTheory.limits.initial]
f:48 [binder, in UniMath.CategoryTheory.Core.Isos]
F:48 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:48 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:48 [binder, in UniMath.Bicategories.Core.Univalence]
F:48 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
F:48 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:48 [binder, in UniMath.CategoryTheory.Groupoids]
f:48 [binder, in UniMath.Algebra.RigsAndRings]
f:48 [binder, in UniMath.Bicategories.Modifications.Modification]
F:48 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:48 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
F:48 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:48 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
f:48 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:48 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:48 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:48 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:48 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
F:48 [binder, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
F:481 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:481 [binder, in UniMath.Algebra.FixedPointTheorems]
f:481 [binder, in UniMath.CategoryTheory.Core.Isos]
f:481 [binder, in UniMath.CategoryTheory.PreAdditive]
f:481 [binder, in UniMath.MoreFoundations.PartA]
F:481 [binder, in UniMath.Combinatorics.StandardFiniteSets]
F:481 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:482 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f:482 [binder, in UniMath.CategoryTheory.categories.abgrs]
F:482 [binder, in UniMath.CategoryTheory.Core.Functors]
F:483 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:483 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:483 [binder, in UniMath.Bicategories.Core.Bicat]
f:483 [binder, in UniMath.Algebra.FixedPointTheorems]
f:483 [binder, in UniMath.Foundations.PartA]
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f:484 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:484 [binder, in UniMath.Combinatorics.WellOrderedSets]
f:485 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:485 [binder, in UniMath.Algebra.FixedPointTheorems]
F:486 [binder, in UniMath.CategoryTheory.Core.Functors]
F:486 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:487 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F:487 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:487 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:487 [binder, in UniMath.Foundations.PartB]
f:487 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:487 [binder, in UniMath.Combinatorics.WellOrderedSets]
f:487 [binder, in UniMath.Foundations.PartC]
F:488 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:489 [binder, in UniMath.Algebra.FixedPointTheorems]
F:489 [binder, in UniMath.CategoryTheory.Core.Functors]
f:489 [binder, in UniMath.CategoryTheory.Core.Isos]
F:49 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:49 [binder, in UniMath.CategoryTheory.Presheaf]
f:49 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:49 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:49 [binder, in UniMath.Bicategories.Core.Bicat]
f:49 [binder, in UniMath.Algebra.Monoids]
f:49 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:49 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:49 [binder, in UniMath.Algebra.Modules.Quotient]
f:49 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:49 [binder, in UniMath.Ktheory.GrothendieckGroup]
f:49 [binder, in UniMath.Foundations.Propositions]
F:49 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:49 [binder, in UniMath.CategoryTheory.CategoryEquality]
f:49 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:49 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:49 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:49 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:49 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:49 [binder, in UniMath.Algebra.GroupAction]
f:49 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:49 [binder, in UniMath.Bicategories.Core.Examples.OpCellBicat]
f:49 [binder, in UniMath.Bicategories.Discreteness]
f:49 [binder, in UniMath.MoreFoundations.Univalence]
f:49 [binder, in UniMath.CategoryTheory.Inductives.Trees]
f:49 [binder, in UniMath.Combinatorics.Lists]
f:49 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:49 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:49 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:49 [binder, in UniMath.PAdics.fps]
f:49 [binder, in UniMath.MoreFoundations.Nat]
f:49 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:49 [binder, in UniMath.SubstitutionSystems.LiftingInitial]
f:49 [binder, in UniMath.Paradoxes.GirardsParadox]
f:490 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:490 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:490 [binder, in UniMath.Foundations.PartA]
F:491 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:491 [binder, in UniMath.Bicategories.Core.Bicat]
f:491 [binder, in UniMath.MoreFoundations.PartA]
f:492 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:492 [binder, in UniMath.Combinatorics.WellOrderedSets]
F:492 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:493 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:493 [binder, in UniMath.HomologicalAlgebra.MappingCone]
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f:494 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:494 [binder, in UniMath.MoreFoundations.PartA]
f:495 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:496 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:497 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:497 [binder, in UniMath.CategoryTheory.Core.Isos]
F:497 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:497 [binder, in UniMath.Foundations.PartC]
f:498 [binder, in UniMath.Combinatorics.WellOrderedSets]
f:499 [binder, in UniMath.Bicategories.Core.Bicat]
f:499 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:5 [binder, in UniMath.Bicategories.Core.UnivalenceOp]
f:5 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
F:5 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
f:5 [binder, in UniMath.CategoryTheory.Elements]
f:5 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
f:5 [binder, in UniMath.Bicategories.Colimits.Pullback]
f:5 [binder, in UniMath.CategoryTheory.ElementsOp]
F:5 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
f:5 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
F:5 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:5 [binder, in UniMath.CategoryTheory.limits.graphs.kernels]
f:5 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:5 [binder, in UniMath.CategoryTheory.Subcategory.Full]
F:5 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:5 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:5 [binder, in UniMath.CategoryTheory.limits.graphs.cokernels]
f:5 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:5 [binder, in UniMath.CategoryTheory.categories.Type.Structures]
f:5 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
F:5 [binder, in UniMath.CategoryTheory.Chains.Chains]
f:5 [binder, in UniMath.CategoryTheory.Monads.KleisliCategory]
f:5 [binder, in UniMath.Combinatorics.Tests]
F:5 [binder, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
f:5 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:5 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:5 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:5 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
f:5 [binder, in UniMath.CategoryTheory.PreAdditive]
f:5 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
f:5 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
F:5 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:5 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
F:5 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
f:5 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
F:5 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:5 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
F:5 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
f:5 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:5 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
F:5 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
F:5 [binder, in UniMath.CategoryTheory.Profunctors.Core]
F:5 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
f:5 [binder, in UniMath.CategoryTheory.limits.coequalizers]
F:5 [binder, in UniMath.CategoryTheory.PointedFunctors]
f:5 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
f:5 [binder, in UniMath.CategoryTheory.Epis]
F:5 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
f:5 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:5 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
F:5 [binder, in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
f:50 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:50 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
f:50 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:50 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
F:50 [binder, in UniMath.CategoryTheory.ProductCategory]
f:50 [binder, in UniMath.Bicategories.Core.Strictness]
f:50 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
F:50 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
F:50 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:50 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
F:50 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
f:50 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
f:50 [binder, in UniMath.HomologicalAlgebra.KA]
f:50 [binder, in UniMath.Folds.folds_isomorphism]
f:50 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
f:50 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:50 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:50 [binder, in UniMath.CategoryTheory.limits.Opp]
f:50 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
F:50 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:50 [binder, in UniMath.Algebra.Universal.Algebras]
f:50 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:50 [binder, in UniMath.CategoryTheory.limits.graphs.zero]
F:50 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:50 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:50 [binder, in UniMath.CategoryTheory.categories.monoids]
f:50 [binder, in UniMath.Bicategories.Core.Examples.OpMorBicat]
f:50 [binder, in UniMath.MoreFoundations.Nat]
f:50 [binder, in UniMath.CategoryTheory.Monads.KTriples]
f:50 [binder, in UniMath.CategoryTheory.Core.Categories]
f:500 [binder, in UniMath.CategoryTheory.LocalizingClass]
F:501 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
f:501 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:502 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:502 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
F:503 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:504 [binder, in UniMath.Bicategories.Core.Bicat]
f:504 [binder, in UniMath.CategoryTheory.Core.Isos]
f:504 [binder, in UniMath.MoreFoundations.PartA]
f:504 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:505 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:505 [binder, in UniMath.CategoryTheory.PreAdditive]
f:506 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:506 [binder, in UniMath.Foundations.PartB]
f:506 [binder, in UniMath.Foundations.PartC]
f:507 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:507 [binder, in UniMath.Combinatorics.WellOrderedSets]
F:508 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:51 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f:51 [binder, in UniMath.MoreFoundations.NullHomotopies]
F:51 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
F:51 [binder, in UniMath.CategoryTheory.catiso]
F:51 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:51 [binder, in UniMath.CategoryTheory.yoneda]
f:51 [binder, in UniMath.Combinatorics.OrderedSets]
f:51 [binder, in UniMath.Bicategories.Core.Adjunctions]
F:51 [binder, in UniMath.CategoryTheory.Core.Functors]
f:51 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:51 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
F:51 [binder, in UniMath.CategoryTheory.Chains.Chains]
f:51 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
f:51 [binder, in UniMath.CategoryTheory.opp_precat]
f:51 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:51 [binder, in UniMath.Folds.folds_precat]
f:51 [binder, in UniMath.Algebra.Modules.Multimodules]
f:51 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:51 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:51 [binder, in UniMath.CategoryTheory.PreAdditive]
f:51 [binder, in UniMath.CategoryTheory.Groupoids]
F:51 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:51 [binder, in UniMath.Bicategories.Modifications.Modification]
F:51 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:51 [binder, in UniMath.Topology.Filters]
f:51 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:51 [binder, in UniMath.Algebra.Dcpo]
f:510 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:510 [binder, in UniMath.CategoryTheory.PreAdditive]
f:511 [binder, in UniMath.Bicategories.Core.Bicat]
F:511 [binder, in UniMath.CategoryTheory.Core.Functors]
f:511 [binder, in UniMath.CategoryTheory.Core.Isos]
f:512 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:512 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:512 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:513 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:514 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:514 [binder, in UniMath.CategoryTheory.Core.Functors]
f:514 [binder, in UniMath.CategoryTheory.PreAdditive]
f:514 [binder, in UniMath.Foundations.PartC]
f:515 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:516 [binder, in UniMath.CategoryTheory.Core.Isos]
f:516 [binder, in UniMath.MoreFoundations.PartA]
f:516 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:517 [binder, in UniMath.Foundations.PartD]
f:518 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:518 [binder, in UniMath.Foundations.PartC]
f:519 [binder, in UniMath.Algebra.FixedPointTheorems]
F:519 [binder, in UniMath.CategoryTheory.Core.Functors]
f:519 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:52 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
F:52 [binder, in UniMath.Algebra.DivisionRig]
f:52 [binder, in UniMath.Combinatorics.ZFstructures]
f:52 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:52 [binder, in UniMath.Algebra.Monoids]
f:52 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:52 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:52 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:52 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:52 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:52 [binder, in UniMath.Folds.folds_pre_2_cat]
f:52 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:52 [binder, in UniMath.Induction.M.ComputationalM]
f:52 [binder, in UniMath.CategoryTheory.Core.Isos]
f:52 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
F:52 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:52 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:52 [binder, in UniMath.Bicategories.Core.Univalence]
f:52 [binder, in UniMath.CategoryTheory.ShortExactSequences]
F:52 [binder, in UniMath.CategoryTheory.Equivalences.Core]
f:52 [binder, in UniMath.Algebra.RigsAndRings]
f:52 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:52 [binder, in UniMath.CategoryTheory.limits.cones]
F:52 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:52 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:52 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:52 [binder, in UniMath.CategoryTheory.limits.graphs.zero]
f:52 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:52 [binder, in UniMath.Foundations.PartC]
f:52 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
F:52 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:52 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:52 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:520 [binder, in UniMath.Bicategories.Core.Bicat]
f:520 [binder, in UniMath.CategoryTheory.PreAdditive]
f:520 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:521 [binder, in UniMath.CategoryTheory.Core.Isos]
f:522 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:522 [binder, in UniMath.CategoryTheory.Core.Functors]
f:523 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:524 [binder, in UniMath.CategoryTheory.PreAdditive]
f:524 [binder, in UniMath.Foundations.PartC]
f:525 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:525 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:526 [binder, in UniMath.Bicategories.Core.Bicat]
f:526 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:528 [binder, in UniMath.Algebra.FixedPointTheorems]
F:528 [binder, in UniMath.CategoryTheory.Core.Functors]
f:529 [binder, in UniMath.CategoryTheory.Core.Functors]
f:529 [binder, in UniMath.CategoryTheory.Core.Isos]
F:529 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
f:53 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
F:53 [binder, in UniMath.Algebra.DivisionRig]
F:53 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F:53 [binder, in UniMath.CategoryTheory.categories.StandardCategories]
f:53 [binder, in UniMath.Foundations.PartD]
F:53 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:53 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:53 [binder, in UniMath.MoreFoundations.MoreEquivalences]
f:53 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:53 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:53 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:53 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:53 [binder, in UniMath.Ktheory.GrothendieckGroup]
f:53 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
f:53 [binder, in UniMath.CategoryTheory.Core.Univalence]
F:53 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:53 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:53 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
F:53 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
F:53 [binder, in UniMath.CategoryTheory.Profunctors.Core]
f:53 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
f:53 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:53 [binder, in UniMath.Paradoxes.GirardsParadox]
f:530 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:530 [binder, in UniMath.CategoryTheory.PreAdditive]
f:531 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:532 [binder, in UniMath.CategoryTheory.categories.abgrs]
F:532 [binder, in UniMath.CategoryTheory.Core.Functors]
f:533 [binder, in UniMath.Bicategories.Core.Bicat]
f:533 [binder, in UniMath.Foundations.PartD]
f:533 [binder, in UniMath.Foundations.PartB]
f:533 [binder, in UniMath.Foundations.PartA]
f:534 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:534 [binder, in UniMath.Algebra.RigsAndRings]
f:535 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:535 [binder, in UniMath.CategoryTheory.Core.Functors]
f:535 [binder, in UniMath.CategoryTheory.Core.Isos]
f:535 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:535 [binder, in UniMath.CategoryTheory.PreAdditive]
f:535 [binder, in UniMath.Foundations.PartC]
f:536 [binder, in UniMath.Foundations.PartD]
f:537 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
F:537 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:538 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:538 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:538 [binder, in UniMath.Foundations.PartB]
F:538 [binder, in UniMath.CategoryTheory.Core.Functors]
f:539 [binder, in UniMath.Foundations.PartD]
f:539 [binder, in UniMath.Foundations.PartC]
f:54 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:54 [binder, in UniMath.MoreFoundations.NullHomotopies]
f:54 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:54 [binder, in UniMath.CategoryTheory.Inductives.Lists]
F:54 [binder, in UniMath.Algebra.DivisionRig]
f:54 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:54 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
F:54 [binder, in UniMath.CategoryTheory.yoneda]
f:54 [binder, in UniMath.Foundations.PartB]
F:54 [binder, in UniMath.CategoryTheory.Core.Functors]
f:54 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
f:54 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
f:54 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:54 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:54 [binder, in UniMath.Combinatorics.Graph]
f:54 [binder, in UniMath.CategoryTheory.Monics]
f:54 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
f:54 [binder, in UniMath.Combinatorics.Lists]
F:54 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:54 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:54 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
f:54 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
f:540 [binder, in UniMath.Bicategories.Core.Bicat]
f:540 [binder, in UniMath.CategoryTheory.Core.Isos]
f:541 [binder, in UniMath.CategoryTheory.Core.Functors]
f:541 [binder, in UniMath.Algebra.RigsAndRings]
f:542 [binder, in UniMath.Foundations.PartD]
f:542 [binder, in UniMath.CategoryTheory.PreAdditive]
F:542 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:543 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:543 [binder, in UniMath.Foundations.PartB]
f:543 [binder, in UniMath.MoreFoundations.PartA]
f:543 [binder, in UniMath.Foundations.PartC]
f:544 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:544 [binder, in UniMath.Foundations.PartA]
f:545 [binder, in UniMath.CategoryTheory.Core.Isos]
f:547 [binder, in UniMath.Bicategories.Core.Bicat]
f:549 [binder, in UniMath.CategoryTheory.PreAdditive]
f:549 [binder, in UniMath.MoreFoundations.PartA]
f:549 [binder, in UniMath.Foundations.PartC]
f:55 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
F:55 [binder, in UniMath.Algebra.DivisionRig]
f:55 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:55 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:55 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:55 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:55 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:55 [binder, in UniMath.Algebra.GroupAction]
f:55 [binder, in UniMath.HomologicalAlgebra.KA]
f:55 [binder, in UniMath.Combinatorics.FiniteSets]
f:55 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:55 [binder, in UniMath.CategoryTheory.limits.products]
f:55 [binder, in UniMath.MoreFoundations.PartA]
f:55 [binder, in UniMath.CategoryTheory.limits.Opp]
f:55 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
F:55 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:55 [binder, in UniMath.Algebra.Universal.Algebras]
f:55 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:55 [binder, in UniMath.Topology.Filters]
f:55 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:55 [binder, in UniMath.PAdics.fps]
f:55 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:55 [binder, in UniMath.CategoryTheory.Epis]
f:550 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:550 [binder, in UniMath.Foundations.PartB]
f:550 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:551 [binder, in UniMath.Bicategories.Core.Bicat]
f:551 [binder, in UniMath.CategoryTheory.Core.Isos]
f:552 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:552 [binder, in UniMath.Algebra.RigsAndRings]
F:553 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:554 [binder, in UniMath.Foundations.PartD]
f:554 [binder, in UniMath.Foundations.PartB]
f:555 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:555 [binder, in UniMath.CategoryTheory.PreAdditive]
f:555 [binder, in UniMath.MoreFoundations.PartA]
f:555 [binder, in UniMath.Foundations.PartA]
f:557 [binder, in UniMath.Bicategories.Core.Bicat]
f:558 [binder, in UniMath.CategoryTheory.Core.Isos]
f:56 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F:56 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
F:56 [binder, in UniMath.Algebra.DivisionRig]
f:56 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:56 [binder, in UniMath.CategoryTheory.catiso]
f:56 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:56 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:56 [binder, in UniMath.CategoryTheory.yoneda]
f:56 [binder, in UniMath.CategoryTheory.Core.Isos]
f:56 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
F:56 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:56 [binder, in UniMath.Bicategories.Core.Univalence]
f:56 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
f:56 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
f:56 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:56 [binder, in UniMath.Algebra.RigsAndRings]
F:56 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:56 [binder, in UniMath.Bicategories.Discreteness]
f:56 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:56 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:56 [binder, in UniMath.Paradoxes.GirardsParadox]
f:56 [binder, in UniMath.CategoryTheory.Core.Categories]
f:561 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:561 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:562 [binder, in UniMath.Bicategories.Core.Bicat]
f:564 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:564 [binder, in UniMath.Algebra.FixedPointTheorems]
f:564 [binder, in UniMath.CategoryTheory.Core.Isos]
f:564 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:564 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:564 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:565 [binder, in UniMath.Algebra.FixedPointTheorems]
f:566 [binder, in UniMath.Algebra.FixedPointTheorems]
f:566 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:566 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:568 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:57 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:57 [binder, in UniMath.CategoryTheory.Inductives.Lists]
F:57 [binder, in UniMath.Algebra.DivisionRig]
f:57 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:57 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:57 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F:57 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:57 [binder, in UniMath.MoreFoundations.Equivalences]
f:57 [binder, in UniMath.Algebra.Monoids]
f:57 [binder, in UniMath.Combinatorics.OrderedSets]
f:57 [binder, in UniMath.Bicategories.Core.Strictness]
f:57 [binder, in UniMath.Induction.M.ComputationalM]
F:57 [binder, in UniMath.CategoryTheory.Chains.Chains]
f:57 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:57 [binder, in UniMath.SubstitutionSystems.STLC_alt]
f:57 [binder, in UniMath.Algebra.Modules.Multimodules]
f:57 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:57 [binder, in UniMath.CategoryTheory.PreAdditive]
f:57 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
F:57 [binder, in UniMath.CategoryTheory.HorizontalComposition]
f:57 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
F:57 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:57 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:57 [binder, in UniMath.Topology.Filters]
f:57 [binder, in UniMath.Algebra.Dcpo]
f:570 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:571 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:572 [binder, in UniMath.Bicategories.Core.Bicat]
f:573 [binder, in UniMath.Algebra.FixedPointTheorems]
f:573 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:576 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:576 [binder, in UniMath.MoreFoundations.PartA]
f:577 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:578 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:578 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:58 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:58 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:58 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:58 [binder, in UniMath.Algebra.Modules.Core]
f:58 [binder, in UniMath.Bicategories.Core.YonedaLemma]
f:58 [binder, in UniMath.CategoryTheory.yoneda]
f:58 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:58 [binder, in UniMath.CategoryTheory.Core.Functors]
f:58 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
F:58 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:58 [binder, in UniMath.Combinatorics.MoreLists]
f:58 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
F:58 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:58 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:58 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:58 [binder, in UniMath.CategoryTheory.Subcategory.Core]
F:58 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:58 [binder, in UniMath.CategoryTheory.Groupoids]
f:58 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:58 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:58 [binder, in UniMath.CategoryTheory.limits.cones]
f:58 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:58 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:58 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:58 [binder, in UniMath.CategoryTheory.limits.coequalizers]
F:58 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:58 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:58 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:58 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:58 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:580 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:580 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:580 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:581 [binder, in UniMath.CategoryTheory.Core.Isos]
f:581 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:582 [binder, in UniMath.Bicategories.Core.Bicat]
f:583 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:584 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:584 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:585 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:585 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:586 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:589 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:589 [binder, in UniMath.Combinatorics.StandardFiniteSets]
F:59 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:59 [binder, in UniMath.CategoryTheory.Presheaf]
F:59 [binder, in UniMath.Algebra.DivisionRig]
f:59 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
f:59 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
f:59 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:59 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:59 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:59 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:59 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:59 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:59 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:59 [binder, in UniMath.SubstitutionSystems.STLC_alt]
F:59 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
f:59 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
f:59 [binder, in UniMath.Algebra.RigsAndRings]
F:59 [binder, in UniMath.Bicategories.Modifications.Modification]
f:59 [binder, in UniMath.MoreFoundations.QuotientSet]
f:59 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:59 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:59 [binder, in UniMath.Combinatorics.Lists]
f:59 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:59 [binder, in UniMath.PAdics.fps]
f:59 [binder, in UniMath.CategoryTheory.Additive]
f:59 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
f:59 [binder, in UniMath.CategoryTheory.Profunctors.Core]
f:59 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:59 [binder, in UniMath.SubstitutionSystems.LiftingInitial]
f:59 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
f:59 [binder, in UniMath.CategoryTheory.Core.Categories]
f:590 [binder, in UniMath.MoreFoundations.PartA]
f:590 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:591 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:592 [binder, in UniMath.Bicategories.Core.Bicat]
f:594 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:596 [binder, in UniMath.Foundations.PartB]
f:596 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:597 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:599 [binder, in UniMath.Bicategories.Core.Bicat]
f:599 [binder, in UniMath.CategoryTheory.categories.abgrs]
F:6 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
f:6 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:6 [binder, in UniMath.CategoryTheory.Inductives.Lists]
f:6 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:6 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f:6 [binder, in UniMath.CategoryTheory.Elements]
f:6 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
F:6 [binder, in UniMath.CategoryTheory.catiso]
f:6 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:6 [binder, in UniMath.CategoryTheory.ElementsOp]
F:6 [binder, in UniMath.CategoryTheory.Monads.Monads]
f:6 [binder, in UniMath.CategoryTheory.categories.StandardCategories]
F:6 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:6 [binder, in UniMath.CategoryTheory.yoneda]
F:6 [binder, in UniMath.SubstitutionSystems.ModulesFromSignatures]
f:6 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:6 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:6 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:6 [binder, in UniMath.CategoryTheory.PseudoElements]
f:6 [binder, in UniMath.CategoryTheory.limits.kernels]
f:6 [binder, in UniMath.Combinatorics.Tests]
f:6 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:6 [binder, in UniMath.Bicategories.BicatOfBicategory]
f:6 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
F:6 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:6 [binder, in UniMath.CategoryTheory.ShortExactSequences]
f:6 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:6 [binder, in UniMath.MoreFoundations.QuotientSet]
f:6 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
F:6 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:6 [binder, in UniMath.PAdics.fps]
F:6 [binder, in UniMath.CategoryTheory.Monads.LModules]
f:6 [binder, in UniMath.CategoryTheory.UnderCategories]
f:6 [binder, in UniMath.Bicategories.Core.Unitors]
f:6 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:6 [binder, in UniMath.MoreFoundations.Nat]
f:6 [binder, in UniMath.NumberSystems.Tests]
f:6 [binder, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:6 [binder, in UniMath.CategoryTheory.Morphisms]
f:6 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
F:60 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:60 [binder, in UniMath.CategoryTheory.catiso]
f:60 [binder, in UniMath.Foundations.PartD]
f:60 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:60 [binder, in UniMath.Folds.folds_pre_2_cat]
f:60 [binder, in UniMath.Bicategories.Core.Strictness]
f:60 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F:60 [binder, in UniMath.CategoryTheory.Chains.Chains]
f:60 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
F:60 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
F:60 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
F:60 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:60 [binder, in UniMath.Bicategories.Core.Univalence]
F:60 [binder, in UniMath.CategoryTheory.Equivalences.Core]
f:60 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:60 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:60 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
F:60 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
f:60 [binder, in UniMath.Foundations.PartA]
f:60 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:600 [binder, in UniMath.CategoryTheory.Core.Isos]
f:600 [binder, in UniMath.MoreFoundations.PartA]
f:601 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:604 [binder, in UniMath.CategoryTheory.Core.Isos]
f:604 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:605 [binder, in UniMath.Bicategories.Core.Bicat]
f:606 [binder, in UniMath.MoreFoundations.PathsOver]
F:607 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:607 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:608 [binder, in UniMath.CategoryTheory.Core.Isos]
f:61 [binder, in UniMath.MoreFoundations.NullHomotopies]
f:61 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:61 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:61 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:61 [binder, in UniMath.Bicategories.Core.YonedaLemma]
f:61 [binder, in UniMath.MoreFoundations.Equivalences]
F:61 [binder, in UniMath.CategoryTheory.yoneda]
f:61 [binder, in UniMath.MoreFoundations.MoreEquivalences]
F:61 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:61 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:61 [binder, in UniMath.CategoryTheory.limits.cokernels]
F:61 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
f:61 [binder, in UniMath.Algebra.Modules.Submodule]
f:61 [binder, in UniMath.CategoryTheory.Core.Univalence]
f:61 [binder, in UniMath.CategoryTheory.limits.cones]
F:61 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:61 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:61 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:61 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:61 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
f:61 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:61 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
f:611 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:612 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:612 [binder, in UniMath.Bicategories.Core.Bicat]
f:612 [binder, in UniMath.CategoryTheory.Core.Isos]
f:613 [binder, in UniMath.CategoryTheory.categories.abgrs]
F:614 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:615 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:616 [binder, in UniMath.CategoryTheory.Core.Isos]
f:617 [binder, in UniMath.MoreFoundations.PathsOver]
f:618 [binder, in UniMath.Bicategories.Core.Bicat]
f:618 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:618 [binder, in UniMath.HomologicalAlgebra.Complexes]
F:619 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:619 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:62 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
f:62 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:62 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
F:62 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:62 [binder, in UniMath.Combinatorics.OrderedSets]
f:62 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
f:62 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:62 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:62 [binder, in UniMath.Ktheory.GrothendieckGroup]
f:62 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:62 [binder, in UniMath.CategoryTheory.opp_precat]
f:62 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:62 [binder, in UniMath.Algebra.Modules.Multimodules]
f:62 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
f:62 [binder, in UniMath.CategoryTheory.Groupoids]
f:62 [binder, in UniMath.CategoryTheory.ShortExactSequences]
f:62 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
f:62 [binder, in UniMath.Topology.Filters]
f:62 [binder, in UniMath.Algebra.Dcpo]
F:62 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:62 [binder, in UniMath.CategoryTheory.Profunctors.Core]
f:62 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
f:62 [binder, in UniMath.Paradoxes.GirardsParadox]
F:620 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:620 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:620 [binder, in UniMath.CategoryTheory.Core.Isos]
f:621 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:621 [binder, in UniMath.NumberSystems.Integers]
f:623 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:624 [binder, in UniMath.Bicategories.Core.Bicat]
f:625 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:625 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:625 [binder, in UniMath.HomologicalAlgebra.Complexes]
F:626 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:627 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:628 [binder, in UniMath.Bicategories.Core.Bicat]
f:628 [binder, in UniMath.CategoryTheory.categories.abgrs]
F:63 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
F:63 [binder, in UniMath.Algebra.DivisionRig]
f:63 [binder, in UniMath.CategoryTheory.catiso]
f:63 [binder, in UniMath.Bicategories.Core.YonedaLemma]
F:63 [binder, in UniMath.CategoryTheory.Subcategory.Full]
f:63 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:63 [binder, in UniMath.Foundations.PartB]
f:63 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:63 [binder, in UniMath.Folds.folds_pre_2_cat]
f:63 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:63 [binder, in UniMath.Foundations.Propositions]
f:63 [binder, in UniMath.Induction.M.ComputationalM]
f:63 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
f:63 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
F:63 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:63 [binder, in UniMath.CategoryTheory.PreAdditive]
F:63 [binder, in UniMath.CategoryTheory.HorizontalComposition]
f:63 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
F:63 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:63 [binder, in UniMath.CategoryTheory.limits.products]
f:63 [binder, in UniMath.CategoryTheory.limits.Opp]
f:63 [binder, in UniMath.MoreFoundations.Univalence]
F:63 [binder, in UniMath.Topology.Filters]
f:63 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:63 [binder, in UniMath.Combinatorics.WellFoundedRelations]
f:63 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:63 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
F:632 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:632 [binder, in UniMath.CategoryTheory.Core.Isos]
f:632 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:632 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:633 [binder, in UniMath.MoreFoundations.PathsOver]
f:635 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:636 [binder, in UniMath.Bicategories.Core.Bicat]
f:637 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:638 [binder, in UniMath.Foundations.PartB]
F:639 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:639 [binder, in UniMath.HomologicalAlgebra.Complexes]
f:64 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:64 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:64 [binder, in UniMath.Bicategories.Core.YonedaLemma]
f:64 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:64 [binder, in UniMath.CategoryTheory.Core.Functors]
f:64 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:64 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:64 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
F:64 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:64 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:64 [binder, in UniMath.Bicategories.Core.Univalence]
f:64 [binder, in UniMath.Algebra.RigsAndRings]
F:64 [binder, in UniMath.CategoryTheory.limits.cats.limits]
F:64 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:64 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:64 [binder, in UniMath.CategoryTheory.Additive]
F:64 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
F:64 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:64 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:64 [binder, in UniMath.CategoryTheory.Core.Categories]
f:640 [binder, in UniMath.Combinatorics.StandardFiniteSets]
F:641 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:642 [binder, in UniMath.Foundations.PartB]
f:643 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:643 [binder, in UniMath.Foundations.PartA]
f:644 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:644 [binder, in UniMath.MoreFoundations.PathsOver]
f:645 [binder, in UniMath.Bicategories.Core.Bicat]
f:646 [binder, in UniMath.Combinatorics.StandardFiniteSets]
F:648 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:649 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:649 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:65 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:65 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:65 [binder, in UniMath.Bicategories.Core.YonedaLemma]
f:65 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:65 [binder, in UniMath.Bicategories.Core.Bicat]
f:65 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:65 [binder, in UniMath.MoreFoundations.Equivalences]
f:65 [binder, in UniMath.Algebra.Monoids]
F:65 [binder, in UniMath.CategoryTheory.yoneda]
f:65 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:65 [binder, in UniMath.Bicategories.Core.Strictness]
F:65 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:65 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
F:65 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
f:65 [binder, in UniMath.Algebra.Modules.Submodule]
f:65 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
F:65 [binder, in UniMath.CategoryTheory.Equivalences.Core]
f:65 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
f:65 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:65 [binder, in UniMath.CategoryTheory.limits.cones]
f:65 [binder, in UniMath.Combinatorics.Lists]
f:65 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:65 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:65 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:65 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:65 [binder, in UniMath.SubstitutionSystems.LiftingInitial]
f:65 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
f:652 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:652 [binder, in UniMath.Foundations.PartD]
F:654 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:655 [binder, in UniMath.Foundations.PartD]
f:657 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:658 [binder, in UniMath.Bicategories.Core.Bicat]
f:658 [binder, in UniMath.Foundations.PartD]
f:659 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:659 [binder, in UniMath.MoreFoundations.PathsOver]
F:66 [binder, in UniMath.Algebra.DivisionRig]
f:66 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
F:66 [binder, in UniMath.CategoryTheory.catiso]
f:66 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:66 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:66 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:66 [binder, in UniMath.MoreFoundations.MoreEquivalences]
f:66 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:66 [binder, in UniMath.CategoryTheory.opp_precat]
F:66 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:66 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:66 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F:66 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:66 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:66 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:66 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:66 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:66 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:66 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:661 [binder, in UniMath.Foundations.PartD]
F:663 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:665 [binder, in UniMath.Bicategories.Core.Bicat]
f:666 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:666 [binder, in UniMath.Foundations.PartD]
f:668 [binder, in UniMath.Combinatorics.StandardFiniteSets]
f:67 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
f:67 [binder, in UniMath.CategoryTheory.ElementsOp]
F:67 [binder, in UniMath.CategoryTheory.Subcategory.Full]
F:67 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:67 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:67 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:67 [binder, in UniMath.Folds.folds_pre_2_cat]
f:67 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:67 [binder, in UniMath.Folds.folds_precat]
f:67 [binder, in UniMath.CategoryTheory.HorizontalComposition]
f:67 [binder, in UniMath.CategoryTheory.Monics]
f:67 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:67 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:67 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:67 [binder, in UniMath.Algebra.Dcpo]
f:67 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
f:67 [binder, in UniMath.Foundations.PartA]
f:67 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
f:670 [binder, in UniMath.Bicategories.Core.Bicat]
f:670 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:672 [binder, in UniMath.Foundations.PartD]
f:677 [binder, in UniMath.MoreFoundations.PathsOver]
f:678 [binder, in UniMath.Foundations.PartD]
f:679 [binder, in UniMath.Bicategories.Core.Bicat]
f:68 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:68 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:68 [binder, in UniMath.Combinatorics.OrderedSets]
f:68 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:68 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:68 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
F:68 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:68 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:68 [binder, in UniMath.Folds.folds_precat]
f:68 [binder, in UniMath.SubstitutionSystems.STLC_alt]
f:68 [binder, in UniMath.Algebra.Modules.Multimodules]
f:68 [binder, in UniMath.Bicategories.Core.Univalence]
f:68 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
F:68 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
f:68 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:68 [binder, in UniMath.CategoryTheory.ShortExactSequences]
f:68 [binder, in UniMath.Folds.folds_isomorphism]
f:68 [binder, in UniMath.CategoryTheory.Core.Univalence]
f:68 [binder, in UniMath.MoreFoundations.PartA]
f:68 [binder, in UniMath.Combinatorics.Lists]
f:68 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:68 [binder, in UniMath.Combinatorics.WellFoundedRelations]
f:68 [binder, in UniMath.SyntheticHomotopyTheory.Test]
f:68 [binder, in UniMath.CategoryTheory.Epis]
f:68 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:68 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
f:68 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
f:681 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:682 [binder, in UniMath.Foundations.PartD]
F:685 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:687 [binder, in UniMath.MoreFoundations.PathsOver]
f:688 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:688 [binder, in UniMath.Bicategories.Core.Bicat]
f:688 [binder, in UniMath.Foundations.PartD]
f:69 [binder, in UniMath.Bicategories.Core.Bicat]
f:69 [binder, in UniMath.MoreFoundations.Equivalences]
F:69 [binder, in UniMath.CategoryTheory.yoneda]
f:69 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
F:69 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:69 [binder, in UniMath.Induction.M.ComputationalM]
F:69 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:69 [binder, in UniMath.Folds.folds_precat]
f:69 [binder, in UniMath.Algebra.Modules.Submodule]
f:69 [binder, in UniMath.CategoryTheory.PreAdditive]
f:69 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
F:69 [binder, in UniMath.CategoryTheory.limits.cats.limits]
F:69 [binder, in UniMath.Bicategories.Modifications.Modification]
f:69 [binder, in UniMath.CategoryTheory.limits.cones]
f:69 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:69 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:69 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:69 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:69 [binder, in UniMath.CategoryTheory.Additive]
f:69 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:69 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
f:694 [binder, in UniMath.Foundations.PartD]
f:694 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:697 [binder, in UniMath.Bicategories.Core.Bicat]
f:699 [binder, in UniMath.Foundations.PartD]
f:7 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
f:7 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:7 [binder, in UniMath.CategoryTheory.Presheaf]
f:7 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f:7 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
f:7 [binder, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
F:7 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
F:7 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f:7 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:7 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
f:7 [binder, in UniMath.SubstitutionSystems.CCS_alt]
f:7 [binder, in UniMath.Bicategories.Core.Strictness]
F:7 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:7 [binder, in UniMath.CategoryTheory.coslicecat]
f:7 [binder, in UniMath.CategoryTheory.slicecat]
f:7 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:7 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
f:7 [binder, in UniMath.HomologicalAlgebra.Triangulated]
f:7 [binder, in UniMath.SubstitutionSystems.CCS]
f:7 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
f:7 [binder, in UniMath.Induction.PolynomialFunctors]
f:7 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
F:7 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:7 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
F:7 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
f:7 [binder, in UniMath.CategoryTheory.Inductives.Trees]
F:7 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:7 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:7 [binder, in UniMath.CategoryTheory.limits.pullbacks]
F:7 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
F:7 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:7 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
F:7 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
f:7 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:7 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:7 [binder, in UniMath.Induction.W.Naturals]
F:7 [binder, in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
f:70 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:70 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:70 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:70 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
f:70 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:70 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
f:70 [binder, in UniMath.Algebra.Monoids]
f:70 [binder, in UniMath.Foundations.PartB]
f:70 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:70 [binder, in UniMath.Foundations.Propositions]
f:70 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
F:70 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:70 [binder, in UniMath.Algebra.RigsAndRings]
F:70 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:70 [binder, in UniMath.MoreFoundations.Univalence]
f:70 [binder, in UniMath.Algebra.Dcpo]
F:70 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:70 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:700 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:700 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:706 [binder, in UniMath.Foundations.PartB]
f:706 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:708 [binder, in UniMath.Bicategories.Core.Bicat]
f:709 [binder, in UniMath.Foundations.PartB]
f:71 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
f:71 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
f:71 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:71 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:71 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:71 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:71 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:71 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:71 [binder, in UniMath.Algebra.Universal.HVectors]
f:71 [binder, in UniMath.CategoryTheory.Core.Isos]
f:71 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:71 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:71 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:71 [binder, in UniMath.SubstitutionSystems.STLC_alt]
F:71 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:71 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:71 [binder, in UniMath.CategoryTheory.limits.products]
f:71 [binder, in UniMath.Folds.folds_isomorphism]
f:71 [binder, in UniMath.CategoryTheory.limits.Opp]
f:71 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:71 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:71 [binder, in UniMath.CategoryTheory.Profunctors.Core]
F:71 [binder, in UniMath.Bicategories.Core.TransportLaws]
f:71 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
f:71 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
f:713 [binder, in UniMath.Foundations.PartB]
f:716 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:718 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:719 [binder, in UniMath.Bicategories.Core.Bicat]
F:72 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:72 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
f:72 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:72 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:72 [binder, in UniMath.Combinatorics.Vectors]
F:72 [binder, in UniMath.CategoryTheory.yoneda]
f:72 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:72 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:72 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:72 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:72 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
F:72 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
F:72 [binder, in UniMath.CategoryTheory.HorizontalComposition]
F:72 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:72 [binder, in UniMath.Topology.Filters]
f:72 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:72 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:72 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
f:72 [binder, in UniMath.CategoryTheory.limits.binproducts]
F:721 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:724 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:727 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:728 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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f:73 [binder, in UniMath.CategoryTheory.ElementsOp]
f:73 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:73 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:73 [binder, in UniMath.Bicategories.Core.Bicat]
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f:73 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
F:73 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:73 [binder, in UniMath.Folds.folds_pre_2_cat]
f:73 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:73 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
F:73 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:73 [binder, in UniMath.CategoryTheory.opp_precat]
F:73 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:73 [binder, in UniMath.Algebra.Modules.Multimodules]
f:73 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:73 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:73 [binder, in UniMath.CategoryTheory.ShortExactSequences]
f:73 [binder, in UniMath.Algebra.RigsAndRings]
f:73 [binder, in UniMath.CategoryTheory.Monics]
f:73 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:73 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:73 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
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F:73 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:73 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:73 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:73 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
f:73 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:73 [binder, in UniMath.CategoryTheory.Core.Categories]
f:73 [binder, in UniMath.CategoryTheory.Morphisms]
f:730 [binder, in UniMath.Bicategories.Core.Bicat]
F:731 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:732 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:733 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:735 [binder, in UniMath.Foundations.Sets]
f:735 [binder, in UniMath.HomologicalAlgebra.MappingCone]
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f:74 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:74 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:74 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:74 [binder, in UniMath.CategoryTheory.yoneda]
f:74 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:74 [binder, in UniMath.Induction.M.ComputationalM]
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f:74 [binder, in UniMath.Algebra.Modules.Submodule]
f:74 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
f:74 [binder, in UniMath.Algebra.GroupAction]
F:74 [binder, in UniMath.CategoryTheory.Equivalences.Core]
f:74 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:74 [binder, in UniMath.Combinatorics.Lists]
f:74 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:74 [binder, in UniMath.CategoryTheory.Additive]
f:74 [binder, in UniMath.CategoryTheory.Epis]
f:74 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
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f:741 [binder, in UniMath.Bicategories.Core.Bicat]
f:741 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:742 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:744 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:744 [binder, in UniMath.CategoryTheory.LocalizingClass]
F:744 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
F:748 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
F:749 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:75 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
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f:75 [binder, in UniMath.Foundations.PartD]
F:75 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:75 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:75 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:75 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:75 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
F:75 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:75 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:75 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:75 [binder, in UniMath.Algebra.Groups]
f:75 [binder, in UniMath.Folds.folds_precat]
f:75 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
f:75 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
F:75 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:75 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:75 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
F:75 [binder, in UniMath.Bicategories.Modifications.Modification]
f:75 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
f:75 [binder, in UniMath.Algebra.Dcpo]
f:75 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:75 [binder, in UniMath.Combinatorics.WellFoundedRelations]
f:75 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
F:75 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:751 [binder, in UniMath.Bicategories.Core.Bicat]
f:751 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:752 [binder, in UniMath.CategoryTheory.LocalizingClass]
F:754 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:756 [binder, in UniMath.Bicategories.Core.Bicat]
f:757 [binder, in UniMath.Foundations.PartA]
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f:759 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:76 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
f:76 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:76 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:76 [binder, in UniMath.Algebra.Monoids]
F:76 [binder, in UniMath.CategoryTheory.yoneda]
f:76 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:76 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:76 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:76 [binder, in UniMath.CategoryTheory.PseudoElements]
f:76 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
f:76 [binder, in UniMath.CategoryTheory.HorizontalComposition]
f:76 [binder, in UniMath.CategoryTheory.Subcategory.Core]
f:76 [binder, in UniMath.CategoryTheory.Groupoids]
f:76 [binder, in UniMath.Algebra.RigsAndRings]
f:76 [binder, in UniMath.Folds.folds_isomorphism]
F:76 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:76 [binder, in UniMath.CategoryTheory.Core.Univalence]
f:76 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:76 [binder, in UniMath.Topology.Filters]
f:76 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:761 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:762 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:762 [binder, in UniMath.Foundations.PartA]
F:765 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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f:768 [binder, in UniMath.Foundations.PartA]
F:77 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:77 [binder, in UniMath.Combinatorics.Vectors]
f:77 [binder, in UniMath.Bicategories.Core.Bicat]
f:77 [binder, in UniMath.MoreFoundations.Equivalences]
f:77 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:77 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:77 [binder, in UniMath.Bicategories.Core.Strictness]
f:77 [binder, in UniMath.CategoryTheory.Core.Isos]
f:77 [binder, in UniMath.PAdics.lemmas]
F:77 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:77 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:77 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:77 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
f:77 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
f:77 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
f:77 [binder, in UniMath.Folds.folds_isomorphism]
f:77 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:77 [binder, in UniMath.Topology.Filters]
f:77 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:77 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
f:77 [binder, in UniMath.CategoryTheory.limits.coequalizers]
F:77 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
f:77 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:77 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:77 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:77 [binder, in UniMath.CategoryTheory.Monads.KTriples]
f:770 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:771 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:772 [binder, in UniMath.Foundations.PartA]
f:775 [binder, in UniMath.CategoryTheory.LocalizingClass]
F:775 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:777 [binder, in UniMath.Foundations.PartA]
F:779 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:78 [binder, in UniMath.Combinatorics.ZFstructures]
f:78 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
F:78 [binder, in UniMath.CategoryTheory.catiso]
f:78 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:78 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:78 [binder, in UniMath.Bicategories.Core.Adjunctions]
F:78 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:78 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:78 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:78 [binder, in UniMath.CategoryTheory.opp_precat]
f:78 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
f:78 [binder, in UniMath.Algebra.Modules.Submodule]
f:78 [binder, in UniMath.Algebra.GroupAction]
f:78 [binder, in UniMath.CategoryTheory.limits.products]
f:78 [binder, in UniMath.Algebra.Dcpo]
f:78 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:78 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:78 [binder, in UniMath.Foundations.PartA]
f:78 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
F:780 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:780 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:782 [binder, in UniMath.Bicategories.Core.Bicat]
f:783 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:783 [binder, in UniMath.Foundations.PartA]
f:785 [binder, in UniMath.Bicategories.Core.Bicat]
F:786 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:788 [binder, in UniMath.Bicategories.Core.Bicat]
f:789 [binder, in UniMath.Foundations.PartA]
f:79 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
f:79 [binder, in UniMath.CategoryTheory.Abelian]
f:79 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:79 [binder, in UniMath.CategoryTheory.categories.abgrs]
F:79 [binder, in UniMath.CategoryTheory.yoneda]
f:79 [binder, in UniMath.Folds.folds_pre_2_cat]
f:79 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:79 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
f:79 [binder, in UniMath.CategoryTheory.PreAdditive]
F:79 [binder, in UniMath.CategoryTheory.Equivalences.Core]
f:79 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:79 [binder, in UniMath.CategoryTheory.limits.Opp]
f:79 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:79 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:79 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:79 [binder, in UniMath.CategoryTheory.Additive]
f:79 [binder, in UniMath.CategoryTheory.Profunctors.Core]
f:79 [binder, in UniMath.Combinatorics.WellFoundedRelations]
f:79 [binder, in UniMath.Foundations.PartC]
f:79 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:79 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:79 [binder, in UniMath.CategoryTheory.Core.Categories]
f:791 [binder, in UniMath.Bicategories.Core.Bicat]
F:791 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:791 [binder, in UniMath.Algebra.BinaryOperations]
F:796 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:796 [binder, in UniMath.Algebra.BinaryOperations]
f:796 [binder, in UniMath.Foundations.PartA]
f:798 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:799 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:8 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
F:8 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:8 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
F:8 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
f:8 [binder, in UniMath.MoreFoundations.NullHomotopies]
F:8 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
F:8 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
F:8 [binder, in UniMath.CategoryTheory.Monads.Monads]
F:8 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:8 [binder, in UniMath.CategoryTheory.limits.graphs.kernels]
F:8 [binder, in UniMath.Bicategories.Core.Examples.Image]
F:8 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:8 [binder, in UniMath.MoreFoundations.Sets]
f:8 [binder, in UniMath.CategoryTheory.limits.graphs.cokernels]
f:8 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:8 [binder, in UniMath.Bicategories.Core.Adjunctions]
F:8 [binder, in UniMath.CategoryTheory.Core.Functors]
f:8 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:8 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
F:8 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:8 [binder, in UniMath.SubstitutionSystems.PCF_alt]
f:8 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
f:8 [binder, in UniMath.CategoryTheory.coslicecat]
f:8 [binder, in UniMath.Bicategories.PseudoFunctors.Representable]
f:8 [binder, in UniMath.CategoryTheory.slicecat]
f:8 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
F:8 [binder, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
f:8 [binder, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
f:8 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
f:8 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
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f:8 [binder, in UniMath.Bicategories.Core.Examples.Final]
f:8 [binder, in UniMath.Folds.folds_isomorphism]
f:8 [binder, in UniMath.CategoryTheory.NNO]
f:8 [binder, in UniMath.Bicategories.Discreteness]
F:8 [binder, in UniMath.CategoryTheory.Adjunctions.Restriction]
f:8 [binder, in UniMath.CategoryTheory.limits.Opp]
f:8 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
f:8 [binder, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
f:8 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
F:8 [binder, in UniMath.CategoryTheory.Monads.LModules]
f:8 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
F:8 [binder, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
f:8 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
F:8 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:8 [binder, in UniMath.CategoryTheory.CommaCategories]
f:8 [binder, in UniMath.Combinatorics.VectorsTests]
f:8 [binder, in UniMath.CategoryTheory.SimplicialSets]
f:8 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:8 [binder, in UniMath.CategoryTheory.limits.binproducts]
F:80 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:80 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:80 [binder, in UniMath.CategoryTheory.Subcategory.Full]
f:80 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:80 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:80 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
F:80 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:80 [binder, in UniMath.Algebra.Modules.Multimodules]
f:80 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
F:80 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
F:80 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:80 [binder, in UniMath.Algebra.RigsAndRings]
f:80 [binder, in UniMath.Topology.Filters]
f:80 [binder, in UniMath.CategoryTheory.limits.binproducts]
f:801 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:802 [binder, in UniMath.Algebra.BinaryOperations]
f:802 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:802 [binder, in UniMath.Foundations.PartA]
f:805 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:806 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:806 [binder, in UniMath.Algebra.BinaryOperations]
f:808 [binder, in UniMath.Bicategories.Core.Bicat]
f:808 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:809 [binder, in UniMath.Foundations.PartA]
f:81 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
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f:81 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:81 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:81 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:81 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:81 [binder, in UniMath.Bicategories.Core.Bicat]
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f:81 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:81 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:81 [binder, in UniMath.CategoryTheory.PseudoElements]
F:81 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:81 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:81 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
f:81 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
F:81 [binder, in UniMath.CategoryTheory.HorizontalComposition]
F:81 [binder, in UniMath.CategoryTheory.Groupoids]
f:81 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:81 [binder, in UniMath.MoreFoundations.PartA]
f:81 [binder, in UniMath.Combinatorics.Lists]
F:81 [binder, in UniMath.Topology.Filters]
F:81 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:81 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:81 [binder, in UniMath.CategoryTheory.Epis]
f:81 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
f:811 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:813 [binder, in UniMath.Algebra.BinaryOperations]
f:813 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:814 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:814 [binder, in UniMath.MoreFoundations.PartA]
f:815 [binder, in UniMath.Foundations.PartA]
f:816 [binder, in UniMath.Algebra.BinaryOperations]
f:816 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:817 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:817 [binder, in UniMath.Foundations.Sets]
f:818 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:82 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f:82 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:82 [binder, in UniMath.Combinatorics.Vectors]
f:82 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
f:82 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:82 [binder, in UniMath.Bicategories.Core.Strictness]
f:82 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
F:82 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
f:82 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
f:82 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
F:82 [binder, in UniMath.Bicategories.Modifications.Modification]
f:82 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:82 [binder, in UniMath.Bicategories.Core.TransportLaws]
f:82 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:82 [binder, in UniMath.CategoryTheory.Morphisms]
f:822 [binder, in UniMath.Algebra.BinaryOperations]
f:822 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:823 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:823 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:825 [binder, in UniMath.Foundations.Sets]
F:826 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:828 [binder, in UniMath.Algebra.BinaryOperations]
f:828 [binder, in UniMath.MoreFoundations.PartA]
f:828 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:83 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:83 [binder, in UniMath.CategoryTheory.Subcategory.Full]
F:83 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:83 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:83 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:83 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:83 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
F:83 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:83 [binder, in UniMath.Folds.folds_precat]
F:83 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F:83 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:83 [binder, in UniMath.CategoryTheory.PreAdditive]
f:83 [binder, in UniMath.CategoryTheory.Monics]
f:83 [binder, in UniMath.CategoryTheory.LatticeObject]
f:83 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
f:83 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:83 [binder, in UniMath.Algebra.Dcpo]
f:83 [binder, in UniMath.CategoryTheory.Profunctors.Core]
f:83 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:83 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:83 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
f:83 [binder, in UniMath.CategoryTheory.Core.Categories]
f:830 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:830 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:830 [binder, in UniMath.Foundations.Sets]
f:833 [binder, in UniMath.Algebra.BinaryOperations]
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f:835 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:835 [binder, in UniMath.HomologicalAlgebra.MappingCone]
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f:837 [binder, in UniMath.Algebra.BinaryOperations]
f:837 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:837 [binder, in UniMath.Foundations.Sets]
f:84 [binder, in UniMath.CategoryTheory.Abelian]
f:84 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
F:84 [binder, in UniMath.CategoryTheory.catiso]
f:84 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:84 [binder, in UniMath.Foundations.PartD]
F:84 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
F:84 [binder, in UniMath.CategoryTheory.yoneda]
f:84 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:84 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:84 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:84 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
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f:84 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:84 [binder, in UniMath.CategoryTheory.limits.kernels]
f:84 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:84 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
F:84 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:84 [binder, in UniMath.Algebra.RigsAndRings]
F:84 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:84 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:84 [binder, in UniMath.CategoryTheory.limits.Opp]
f:84 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:84 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
f:84 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:84 [binder, in UniMath.CategoryTheory.Additive]
f:84 [binder, in UniMath.Foundations.PartA]
f:84 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
f:84 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:840 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:840 [binder, in UniMath.Algebra.BinaryOperations]
f:841 [binder, in UniMath.Bicategories.Core.Bicat]
f:842 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:844 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:846 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:846 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:846 [binder, in UniMath.Algebra.BinaryOperations]
f:846 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:846 [binder, in UniMath.MoreFoundations.PartA]
f:847 [binder, in UniMath.Foundations.Sets]
f:85 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:85 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:85 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:85 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:85 [binder, in UniMath.CategoryTheory.Core.Isos]
f:85 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
f:85 [binder, in UniMath.CategoryTheory.HorizontalComposition]
f:85 [binder, in UniMath.PAdics.padics]
f:85 [binder, in UniMath.CategoryTheory.Core.Univalence]
f:85 [binder, in UniMath.Topology.Filters]
f:85 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:85 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:850 [binder, in UniMath.Bicategories.Core.Bicat]
f:850 [binder, in UniMath.Algebra.BinaryOperations]
f:850 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:854 [binder, in UniMath.Algebra.BinaryOperations]
f:854 [binder, in UniMath.Foundations.Sets]
f:855 [binder, in UniMath.Foundations.Sets]
f:856 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:857 [binder, in UniMath.Algebra.BinaryOperations]
f:858 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:858 [binder, in UniMath.MoreFoundations.PartA]
f:859 [binder, in UniMath.Bicategories.Core.Bicat]
f:86 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
f:86 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:86 [binder, in UniMath.CategoryTheory.Subcategory.Full]
F:86 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
F:86 [binder, in UniMath.CategoryTheory.Core.Functors]
f:86 [binder, in UniMath.Algebra.Universal.HVectors]
f:86 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:86 [binder, in UniMath.Foundations.Propositions]
f:86 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:86 [binder, in UniMath.CategoryTheory.limits.equalizers]
F:86 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:86 [binder, in UniMath.CategoryTheory.LatticeObject]
f:86 [binder, in UniMath.Combinatorics.Lists]
f:86 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:86 [binder, in UniMath.Topology.Filters]
f:86 [binder, in UniMath.Algebra.IteratedBinaryOperations]
f:86 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:86 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:860 [binder, in UniMath.Foundations.Sets]
f:861 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:862 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:864 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
F:865 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:865 [binder, in UniMath.Algebra.BinaryOperations]
f:865 [binder, in UniMath.Foundations.PartA]
f:868 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:869 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:869 [binder, in UniMath.Bicategories.Core.Bicat]
f:869 [binder, in UniMath.Algebra.BinaryOperations]
f:869 [binder, in UniMath.Foundations.Sets]
f:869 [binder, in UniMath.Foundations.PartA]
f:87 [binder, in UniMath.Combinatorics.Vectors]
f:87 [binder, in UniMath.Bicategories.Core.Bicat]
F:87 [binder, in UniMath.CategoryTheory.yoneda]
f:87 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:87 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:87 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:87 [binder, in UniMath.Folds.folds_pre_2_cat]
f:87 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:87 [binder, in UniMath.CategoryTheory.PseudoElements]
F:87 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:87 [binder, in UniMath.CategoryTheory.opp_precat]
f:87 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:87 [binder, in UniMath.CategoryTheory.slicecat]
f:87 [binder, in UniMath.CategoryTheory.PreAdditive]
f:87 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:87 [binder, in UniMath.CategoryTheory.Monics]
f:87 [binder, in UniMath.CategoryTheory.limits.products]
f:87 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
F:87 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
f:87 [binder, in UniMath.CategoryTheory.Monads.LModules]
F:87 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:87 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
f:87 [binder, in UniMath.CategoryTheory.Monads.KTriples]
f:87 [binder, in UniMath.CategoryTheory.limits.binproducts]
F:870 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:870 [binder, in UniMath.MoreFoundations.PartA]
f:873 [binder, in UniMath.Algebra.BinaryOperations]
f:873 [binder, in UniMath.Foundations.PartA]
f:874 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:875 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:876 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:876 [binder, in UniMath.Algebra.BinaryOperations]
f:877 [binder, in UniMath.Foundations.Sets]
f:877 [binder, in UniMath.Foundations.PartA]
f:878 [binder, in UniMath.Bicategories.Core.Bicat]
f:88 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:88 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
F:88 [binder, in UniMath.CategoryTheory.catiso]
f:88 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
F:88 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:88 [binder, in UniMath.Folds.folds_precat]
f:88 [binder, in UniMath.Algebra.Modules.Multimodules]
f:88 [binder, in UniMath.Algebra.GroupAction]
f:88 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:88 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:88 [binder, in UniMath.Bicategories.Modifications.Modification]
f:88 [binder, in UniMath.MoreFoundations.Univalence]
f:88 [binder, in UniMath.MoreFoundations.Propositions]
f:88 [binder, in UniMath.Algebra.Dcpo]
f:88 [binder, in UniMath.Bicategories.Core.TransportLaws]
f:88 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:88 [binder, in UniMath.CategoryTheory.Morphisms]
f:880 [binder, in UniMath.MoreFoundations.PartA]
f:880 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:881 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:881 [binder, in UniMath.Foundations.PartA]
F:882 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:883 [binder, in UniMath.Foundations.Sets]
f:885 [binder, in UniMath.Bicategories.Core.Bicat]
f:885 [binder, in UniMath.Foundations.PartA]
f:886 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:887 [binder, in UniMath.Bicategories.Core.Bicat]
f:888 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:89 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:89 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
F:89 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f:89 [binder, in UniMath.CategoryTheory.Abelian]
f:89 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:89 [binder, in UniMath.CategoryTheory.Subcategory.Full]
f:89 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
F:89 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:89 [binder, in UniMath.CategoryTheory.limits.pushouts]
F:89 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:89 [binder, in UniMath.Bicategories.Core.Strictness]
f:89 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
f:89 [binder, in UniMath.Algebra.GroupAction]
F:89 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:89 [binder, in UniMath.Algebra.RigsAndRings]
F:89 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:89 [binder, in UniMath.CategoryTheory.limits.Opp]
f:89 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
F:89 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:89 [binder, in UniMath.CategoryTheory.Additive]
f:89 [binder, in UniMath.CategoryTheory.Epis]
f:89 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:89 [binder, in UniMath.CategoryTheory.Core.Categories]
F:890 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:890 [binder, in UniMath.Algebra.BinaryOperations]
f:890 [binder, in UniMath.Foundations.Sets]
f:890 [binder, in UniMath.Foundations.PartA]
f:892 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:895 [binder, in UniMath.Foundations.PartA]
f:897 [binder, in UniMath.Algebra.BinaryOperations]
f:897 [binder, in UniMath.MoreFoundations.PartA]
f:898 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:9 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
F:9 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:9 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
f:9 [binder, in UniMath.AlgebraicGeometry.SheavesOfRings]
f:9 [binder, in UniMath.CategoryTheory.categories.rings]
f:9 [binder, in UniMath.CategoryTheory.Inductives.Lists]
F:9 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
f:9 [binder, in UniMath.CategoryTheory.categories.HSET.Core]
f:9 [binder, in UniMath.CategoryTheory.Elements]
f:9 [binder, in UniMath.CategoryTheory.categories.setwith2binops]
f:9 [binder, in UniMath.CategoryTheory.categories.grs]
f:9 [binder, in UniMath.Algebra.Modules.Core]
F:9 [binder, in UniMath.CategoryTheory.catiso]
f:9 [binder, in UniMath.CategoryTheory.ElementsOp]
f:9 [binder, in UniMath.CategoryTheory.categories.flds]
f:9 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
f:9 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
f:9 [binder, in UniMath.CategoryTheory.category_binops]
f:9 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:9 [binder, in UniMath.Bicategories.Core.Bicat]
f:9 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:9 [binder, in UniMath.CategoryTheory.limits.coproducts]
f:9 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
F:9 [binder, in UniMath.CategoryTheory.whiskering]
f:9 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:9 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:9 [binder, in UniMath.CategoryTheory.EpiFacts]
f:9 [binder, in UniMath.Combinatorics.Tests]
f:9 [binder, in UniMath.CategoryTheory.opp_precat]
f:9 [binder, in UniMath.Bicategories.Core.Examples.OneTypes]
f:9 [binder, in UniMath.CategoryTheory.coslicecat]
f:9 [binder, in UniMath.SubstitutionSystems.Lam]
f:9 [binder, in UniMath.CategoryTheory.slicecat]
F:9 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:9 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
f:9 [binder, in UniMath.Algebra.Tests]
f:9 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:9 [binder, in UniMath.Bicategories.Core.Univalence]
f:9 [binder, in UniMath.CategoryTheory.PreAdditive]
f:9 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
f:9 [binder, in UniMath.Bicategories.PseudoFunctors.Yoneda]
f:9 [binder, in UniMath.CategoryTheory.categories.commrigs]
F:9 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
F:9 [binder, in UniMath.Bicategories.Modifications.Modification]
f:9 [binder, in UniMath.CategoryTheory.categories.Graph]
f:9 [binder, in UniMath.CategoryTheory.categories.rigs]
F:9 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:9 [binder, in UniMath.CategoryTheory.categories.monoids]
f:9 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
f:9 [binder, in UniMath.CategoryTheory.categories.intdoms]
F:9 [binder, in UniMath.CategoryTheory.PointedFunctors]
f:9 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:9 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
f:9 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
f:9 [binder, in UniMath.CategoryTheory.categories.commrings]
F:9 [binder, in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
f:9 [binder, in UniMath.CategoryTheory.categories.abmonoids]
F:90 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:90 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
F:90 [binder, in UniMath.Algebra.DivisionRig]
f:90 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:90 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:90 [binder, in UniMath.CategoryTheory.yoneda]
f:90 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:90 [binder, in UniMath.Foundations.Propositions]
f:90 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:90 [binder, in UniMath.CategoryTheory.opp_precat]
f:90 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f:90 [binder, in UniMath.Bicategories.Core.Univalence]
F:90 [binder, in UniMath.CategoryTheory.HorizontalComposition]
f:90 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
F:90 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:90 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:90 [binder, in UniMath.Combinatorics.Lists]
f:90 [binder, in UniMath.Topology.Filters]
f:90 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:90 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:90 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
f:90 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
f:900 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:904 [binder, in UniMath.Algebra.BinaryOperations]
f:906 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:906 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:907 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:907 [binder, in UniMath.Foundations.PartA]
f:909 [binder, in UniMath.Foundations.PartA]
f:91 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F:91 [binder, in UniMath.Algebra.DivisionRig]
f:91 [binder, in UniMath.CategoryTheory.categories.abgrs]
f:91 [binder, in UniMath.CategoryTheory.Core.Functors]
f:91 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:91 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
f:91 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:91 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
F:91 [binder, in UniMath.CategoryTheory.opp_precat]
f:91 [binder, in UniMath.CategoryTheory.limits.equalizers]
F:91 [binder, in UniMath.Bicategories.Colimits.Final]
F:91 [binder, in UniMath.CategoryTheory.Monics]
f:91 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:91 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
F:91 [binder, in UniMath.Topology.Filters]
f:91 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:91 [binder, in UniMath.Combinatorics.WellFoundedRelations]
f:91 [binder, in UniMath.CategoryTheory.limits.coequalizers]
f:91 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:911 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:911 [binder, in UniMath.Bicategories.Core.Bicat]
f:912 [binder, in UniMath.MoreFoundations.PartA]
f:912 [binder, in UniMath.Foundations.PartA]
f:914 [binder, in UniMath.Foundations.PartA]
f:915 [binder, in UniMath.Algebra.BinaryOperations]
f:916 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:916 [binder, in UniMath.Bicategories.Core.Bicat]
f:916 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:916 [binder, in UniMath.Foundations.PartA]
f:917 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:918 [binder, in UniMath.MoreFoundations.PartA]
f:919 [binder, in UniMath.Foundations.PartA]
f:92 [binder, in UniMath.CategoryTheory.Abelian]
f:92 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
F:92 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:92 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:92 [binder, in UniMath.Algebra.Monoids]
f:92 [binder, in UniMath.CategoryTheory.PseudoElements]
f:92 [binder, in UniMath.Folds.folds_precat]
F:92 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
F:92 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:92 [binder, in UniMath.Algebra.RigsAndRings]
F:92 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:92 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:92 [binder, in UniMath.Foundations.PartC]
f:92 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:922 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:923 [binder, in UniMath.Foundations.PartA]
F:924 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:924 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:925 [binder, in UniMath.Bicategories.Core.Bicat]
f:926 [binder, in UniMath.Algebra.BinaryOperations]
f:928 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:929 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:93 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:93 [binder, in UniMath.CategoryTheory.Inductives.Lists]
f:93 [binder, in UniMath.Bicategories.Core.FullyFaithful]
F:93 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:93 [binder, in UniMath.Combinatorics.Vectors]
f:93 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:93 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
f:93 [binder, in UniMath.Foundations.UnivalenceAxiom]
f:93 [binder, in UniMath.CategoryTheory.Core.Isos]
F:93 [binder, in UniMath.CategoryTheory.limits.cats.limits]
f:93 [binder, in UniMath.CategoryTheory.limits.cones]
f:93 [binder, in UniMath.MoreFoundations.Univalence]
f:93 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:93 [binder, in UniMath.Algebra.Dcpo]
f:93 [binder, in UniMath.Combinatorics.FiniteSequences]
f:93 [binder, in UniMath.CategoryTheory.Monads.LModules]
f:93 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:93 [binder, in UniMath.CategoryTheory.Morphisms]
f:931 [binder, in UniMath.Algebra.BinaryOperations]
f:932 [binder, in UniMath.Bicategories.Core.Bicat]
f:938 [binder, in UniMath.HomologicalAlgebra.MappingCone]
f:939 [binder, in UniMath.Bicategories.Core.Bicat]
f:94 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
f:94 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:94 [binder, in UniMath.Foundations.PartD]
F:94 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
F:94 [binder, in UniMath.CategoryTheory.FunctorCategory]
f:94 [binder, in UniMath.Algebra.Modules.Multimodules]
f:94 [binder, in UniMath.CategoryTheory.HorizontalComposition]
F:94 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:94 [binder, in UniMath.CategoryTheory.Additive]
F:94 [binder, in UniMath.CategoryTheory.Epis]
f:94 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
f:94 [binder, in UniMath.CategoryTheory.limits.binproducts]
F:940 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:942 [binder, in UniMath.Algebra.BinaryOperations]
f:946 [binder, in UniMath.Bicategories.Core.Bicat]
f:946 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:948 [binder, in UniMath.HomologicalAlgebra.MappingCone]
F:95 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
f:95 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:95 [binder, in UniMath.Bicategories.Core.Bicat]
F:95 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:95 [binder, in UniMath.Algebra.Monoids]
f:95 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:95 [binder, in UniMath.CategoryTheory.limits.pushouts]
f:95 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:95 [binder, in UniMath.Folds.folds_precat]
F:95 [binder, in UniMath.CategoryTheory.slicecat]
f:95 [binder, in UniMath.Bicategories.Colimits.Final]
f:95 [binder, in UniMath.CategoryTheory.PreAdditive]
f:95 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:95 [binder, in UniMath.CategoryTheory.limits.Opp]
f:95 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:95 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:95 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:95 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
F:950 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:951 [binder, in UniMath.Bicategories.Core.Bicat]
f:953 [binder, in UniMath.Algebra.BinaryOperations]
f:954 [binder, in UniMath.Bicategories.Core.Bicat]
f:957 [binder, in UniMath.Bicategories.Core.Bicat]
f:958 [binder, in UniMath.Algebra.BinaryOperations]
f:96 [binder, in UniMath.CategoryTheory.Inductives.Lists]
f:96 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:96 [binder, in UniMath.Foundations.PartB]
f:96 [binder, in UniMath.Bicategories.Core.Adjunctions]
f:96 [binder, in UniMath.CategoryTheory.limits.coproducts]
F:96 [binder, in UniMath.CategoryTheory.Core.Functors]
f:96 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
f:96 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
f:96 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:96 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
F:96 [binder, in UniMath.CategoryTheory.opp_precat]
f:96 [binder, in UniMath.CategoryTheory.limits.equalizers]
f:96 [binder, in UniMath.CategoryTheory.limits.products]
f:96 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:96 [binder, in UniMath.Topology.Filters]
f:96 [binder, in UniMath.CategoryTheory.limits.pullbacks]
f:96 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:96 [binder, in UniMath.Combinatorics.FiniteSequences]
f:96 [binder, in UniMath.CategoryTheory.limits.coequalizers]
F:96 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:96 [binder, in UniMath.CategoryTheory.Morphisms]
f:960 [binder, in UniMath.Bicategories.Core.Bicat]
F:960 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:963 [binder, in UniMath.Foundations.Sets]
f:964 [binder, in UniMath.Bicategories.Core.Bicat]
f:967 [binder, in UniMath.Algebra.BinaryOperations]
F:968 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:969 [binder, in UniMath.Bicategories.Core.Bicat]
f:97 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
F:97 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:97 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:97 [binder, in UniMath.Algebra.Universal.HVectors]
f:97 [binder, in UniMath.Bicategories.Core.Strictness]
f:97 [binder, in UniMath.Foundations.Propositions]
f:97 [binder, in UniMath.Bicategories.Colimits.Final]
f:97 [binder, in UniMath.Bicategories.Core.Univalence]
F:97 [binder, in UniMath.CategoryTheory.Subcategory.Core]
F:97 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
f:97 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
f:97 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:97 [binder, in UniMath.CategoryTheory.Core.Categories]
f:970 [binder, in UniMath.Foundations.Sets]
f:976 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:976 [binder, in UniMath.Algebra.BinaryOperations]
f:978 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:98 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:98 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:98 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
f:98 [binder, in UniMath.CategoryTheory.LocalizingClass]
f:98 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:98 [binder, in UniMath.CategoryTheory.categories.abgrs]
F:98 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
f:98 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:98 [binder, in UniMath.CategoryTheory.limits.cokernels]
f:98 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:98 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
f:98 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:98 [binder, in UniMath.Algebra.RigsAndRings]
F:98 [binder, in UniMath.CategoryTheory.Monics]
F:98 [binder, in UniMath.Bicategories.Modifications.Modification]
F:98 [binder, in UniMath.Topology.Filters]
f:98 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:98 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
f:98 [binder, in UniMath.CategoryTheory.Monads.KTriples]
F:981 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:981 [binder, in UniMath.Algebra.BinaryOperations]
f:984 [binder, in UniMath.Foundations.PartA]
f:985 [binder, in UniMath.Algebra.BinaryOperations]
f:987 [binder, in UniMath.Foundations.Sets]
f:988 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:989 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:989 [binder, in UniMath.Algebra.BinaryOperations]
f:99 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
f:99 [binder, in UniMath.CategoryTheory.Inductives.Lists]
F:99 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f:99 [binder, in UniMath.Combinatorics.Vectors]
f:99 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
f:99 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:99 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
F:99 [binder, in UniMath.CategoryTheory.opp_precat]
f:99 [binder, in UniMath.Algebra.Modules.Multimodules]
f:99 [binder, in UniMath.CategoryTheory.PreAdditive]
F:99 [binder, in UniMath.CategoryTheory.limits.cats.limits]
F:99 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:99 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:99 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
f:99 [binder, in UniMath.CategoryTheory.Additive]
f:99 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:99 [binder, in UniMath.CategoryTheory.Morphisms]
f:990 [binder, in UniMath.Foundations.PartA]
f:992 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:993 [binder, in UniMath.Algebra.BinaryOperations]
F:994 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f:995 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:996 [binder, in UniMath.Foundations.Sets]
f:997 [binder, in UniMath.Algebra.BinaryOperations]
F₀:16 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:17 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₀:17 [binder, in UniMath.Combinatorics.Graph]
F₀:187 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:194 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:20 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
f₀:22 [binder, in UniMath.Combinatorics.Graph]
F₀:23 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:25 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:3 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
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F₀:30 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:35 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:46 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:48 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:49 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:5 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F₀:5 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F₀:54 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:57 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:6 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:60 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:61 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:73 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:8 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:85 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:9 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁comm:144 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₁comm:158 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₁comm:172 [binder, in UniMath.Bicategories.Colimits.Pullback]
F₁':189 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁':196 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁':197 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₁':211 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₁':223 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:10 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
F₁:107 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f₁:107 [binder, in UniMath.Bicategories.Core.TransportLaws]
F₁:108 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₁:11 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁:112 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₁:118 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:119 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F₁:121 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₁:122 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f₁:123 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₁:125 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₁:1285 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
F₁:129 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
F₁:130 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₁:130 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:130 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f₁:131 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₁:134 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F₁:136 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f₁:137 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:138 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₁:139 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₁:140 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₁:140 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁:141 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f₁:143 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
F₁:145 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:146 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:147 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₁:148 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₁:152 [binder, in UniMath.Bicategories.Colimits.Pullback]
F₁:153 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₁:161 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:164 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f₁:165 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:166 [binder, in UniMath.Bicategories.Colimits.Pullback]
F₁:170 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:170 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f₁:172 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₁:174 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₁:178 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₁:179 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:18 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
F₁:180 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:181 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f₁:183 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₁:184 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
F₁:188 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₁:188 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:188 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₁:19 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:190 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:192 [binder, in UniMath.Bicategories.Colimits.Products]
f₁:192 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₁:195 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:195 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F₁:196 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:197 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₁:20 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
f₁:201 [binder, in UniMath.Bicategories.Colimits.Products]
f₁:202 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f₁:205 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₁:210 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:210 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₁:212 [binder, in UniMath.Bicategories.Colimits.Products]
f₁:221 [binder, in UniMath.Bicategories.Colimits.Products]
F₁:222 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:230 [binder, in UniMath.Bicategories.Colimits.Products]
f₁:239 [binder, in UniMath.Bicategories.Colimits.Products]
f₁:249 [binder, in UniMath.Bicategories.Colimits.Products]
f₁:25 [binder, in UniMath.Combinatorics.Graph]
f₁:253 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₁:259 [binder, in UniMath.Bicategories.Colimits.Products]
F₁:26 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁:265 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f₁:269 [binder, in UniMath.Bicategories.Colimits.Products]
f₁:279 [binder, in UniMath.Bicategories.Colimits.Products]
F₁:289 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f₁:289 [binder, in UniMath.Bicategories.Colimits.Products]
F₁:3 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
F₁:30 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
F₁:31 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:319 [binder, in UniMath.Bicategories.Colimits.Products]
f₁:329 [binder, in UniMath.Bicategories.Colimits.Products]
f₁:343 [binder, in UniMath.Bicategories.Colimits.Products]
f₁:344 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₁:36 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₁:37 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
f₁:371 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
F₁:38 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
F₁:4 [binder, in UniMath.Bicategories.Transformations.Examples.Whiskering]
F₁:4 [binder, in UniMath.Bicategories.Core.Examples.Groupoids]
F₁:40 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
F₁:40 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁:40 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
f₁:41 [binder, in UniMath.Bicategories.Core.YonedaLemma]
F₁:42 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₁:422 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₁:43 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
F₁:433 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f₁:44 [binder, in UniMath.Bicategories.Core.TransportLaws]
f₁:454 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f₁:474 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f₁:49 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:494 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₁:5 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
F₁:5 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f₁:53 [binder, in UniMath.Bicategories.Core.FullyFaithful]
F₁:53 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:54 [binder, in UniMath.Bicategories.Core.TransportLaws]
F₁:55 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f₁:55 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f₁:61 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₁:63 [binder, in UniMath.Bicategories.Core.TransportLaws]
f₁:65 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
F₁:66 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₁:66 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁:67 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f₁:7 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
F₁:74 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₁:77 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
F₁:78 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁:8 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F₁:8 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f₁:86 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f₁:9 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
F₁:90 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:906 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F₁:91 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F₁:94 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₁:97 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f₁:98 [binder, in UniMath.Bicategories.Core.TransportLaws]
f₁π₁:140 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₁π₁:154 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₁π₁:168 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₁π₂:141 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₁π₂:155 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₁π₂:169 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₂comm:145 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₂comm:159 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₂comm:173 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₂:10 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
F₂:108 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f₂:108 [binder, in UniMath.Bicategories.Core.TransportLaws]
F₂:109 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₂:113 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₂:119 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₂:120 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F₂:122 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₂:123 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f₂:124 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₂:126 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₂:1286 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
f₂:13 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
F₂:13 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F₂:13 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F₂:130 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
F₂:131 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₂:131 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f₂:132 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₂:135 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F₂:137 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f₂:138 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₂:139 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₂:140 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₂:141 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₂:142 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f₂:144 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
F₂:146 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:147 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₂:148 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₂:149 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₂:15 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
f₂:153 [binder, in UniMath.Bicategories.Colimits.Pullback]
F₂:154 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₂:162 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:165 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f₂:167 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₂:168 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F₂:171 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:171 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f₂:173 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₂:175 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₂:179 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₂:180 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F₂:181 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:182 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f₂:184 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₂:185 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
F₂:189 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:189 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₂:19 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
f₂:191 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₂:193 [binder, in UniMath.Bicategories.Colimits.Products]
f₂:193 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₂:196 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₂:198 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₂:199 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:202 [binder, in UniMath.Bicategories.Colimits.Products]
f₂:203 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f₂:206 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₂:21 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
f₂:211 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₂:213 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:213 [binder, in UniMath.Bicategories.Colimits.Products]
f₂:222 [binder, in UniMath.Bicategories.Colimits.Products]
F₂:225 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:231 [binder, in UniMath.Bicategories.Colimits.Products]
f₂:240 [binder, in UniMath.Bicategories.Colimits.Products]
F₂:25 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
f₂:250 [binder, in UniMath.Bicategories.Colimits.Products]
f₂:254 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₂:260 [binder, in UniMath.Bicategories.Colimits.Products]
F₂:266 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f₂:270 [binder, in UniMath.Bicategories.Colimits.Products]
f₂:280 [binder, in UniMath.Bicategories.Colimits.Products]
F₂:290 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f₂:290 [binder, in UniMath.Bicategories.Colimits.Products]
F₂:31 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f₂:320 [binder, in UniMath.Bicategories.Colimits.Products]
f₂:330 [binder, in UniMath.Bicategories.Colimits.Products]
f₂:344 [binder, in UniMath.Bicategories.Colimits.Products]
f₂:345 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₂:37 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₂:372 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
F₂:39 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
F₂:4 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
F₂:41 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f₂:42 [binder, in UniMath.Bicategories.Core.YonedaLemma]
f₂:423 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₂:43 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₂:434 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f₂:45 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
f₂:45 [binder, in UniMath.Bicategories.Core.TransportLaws]
f₂:455 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f₂:475 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f₂:495 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₂:5 [binder, in UniMath.Bicategories.Transformations.Examples.Whiskering]
F₂:5 [binder, in UniMath.Bicategories.Core.Examples.Groupoids]
f₂:50 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₂:54 [binder, in UniMath.Bicategories.Core.FullyFaithful]
f₂:55 [binder, in UniMath.Bicategories.Core.TransportLaws]
F₂:56 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f₂:56 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
F₂:6 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
F₂:6 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f₂:62 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₂:64 [binder, in UniMath.Bicategories.Core.TransportLaws]
f₂:66 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
F₂:67 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₂:68 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
F₂:75 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₂:78 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f₂:8 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
f₂:87 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f₂:907 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
F₂:92 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F₂:95 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₂:98 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f₂:99 [binder, in UniMath.Bicategories.Core.TransportLaws]
f₂π₁:142 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₂π₁:156 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₂π₁:170 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₂π₂:143 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₂π₂:157 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₂π₂:171 [binder, in UniMath.Bicategories.Colimits.Pullback]
f₃:109 [binder, in UniMath.Bicategories.Core.TransportLaws]
f₃:11 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
F₃:124 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
f₃:125 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₃:127 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₃:133 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₃:139 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₃:141 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₃:148 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₃:149 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₃:150 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₃:174 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₃:255 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₃:267 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F₃:32 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f₃:345 [binder, in UniMath.Bicategories.Colimits.Products]
f₃:346 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₃:38 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₃:435 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F₃:44 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₃:46 [binder, in UniMath.Bicategories.Core.TransportLaws]
f₃:496 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₃:63 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₃:76 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₃:93 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f₄:126 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₄:134 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₄:140 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₄:142 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₄:149 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₄:150 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₄:175 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₄:256 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₄:347 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₄:64 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]

G

g [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
G [abbreviation, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
G [definition, in UniMath.CategoryTheory.Adjunctions.Core]
g [definition, in UniMath.CategoryTheory.limits.pullbacks]
G [definition, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
g [abbreviation, in UniMath.CategoryTheory.categories.HSET.Structures]
gamma:12 [binder, in UniMath.CategoryTheory.whiskering]
gamma:131 [binder, in UniMath.CategoryTheory.whiskering]
gamma:134 [binder, in UniMath.CategoryTheory.whiskering]
gamma:136 [binder, in UniMath.CategoryTheory.FunctorCategory]
gamma:152 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
gamma:161 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
gamma:182 [binder, in UniMath.CategoryTheory.FunctorCategory]
gamma:20 [binder, in UniMath.CategoryTheory.whiskering]
gamma:29 [binder, in UniMath.CategoryTheory.whiskering]
gamma:37 [binder, in UniMath.CategoryTheory.whiskering]
gamma:406 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
gamma:419 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
gamma:51 [binder, in UniMath.CategoryTheory.whiskering]
gamma:59 [binder, in UniMath.CategoryTheory.whiskering]
gamma:68 [binder, in UniMath.CategoryTheory.whiskering]
gamma:76 [binder, in UniMath.CategoryTheory.whiskering]
gamma:94 [binder, in UniMath.CategoryTheory.whiskering]
gamma:97 [binder, in UniMath.CategoryTheory.whiskering]
gcd [definition, in UniMath.PAdics.z_mod_p]
gcdanddiv [lemma, in UniMath.PAdics.z_mod_p]
gcdandprime [lemma, in UniMath.PAdics.z_mod_p]
gcdand0 [lemma, in UniMath.PAdics.z_mod_p]
gcdiscommondiv [definition, in UniMath.PAdics.z_mod_p]
gcdisgreatest [definition, in UniMath.PAdics.z_mod_p]
gcdneq0 [lemma, in UniMath.PAdics.z_mod_p]
gcdpositive [lemma, in UniMath.PAdics.z_mod_p]
Gcomp:18 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
Gcomp:18 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
Gcomp:28 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
Gcomp:28 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
GC:70 [binder, in UniMath.Bicategories.Core.YonedaLemma]
generalized_option_functors.option_functor.one [variable, in UniMath.CategoryTheory.limits.bincoproducts]
generalized_option_functors.option_functor [section, in UniMath.CategoryTheory.limits.bincoproducts]
generalized_option_functors [section, in UniMath.CategoryTheory.limits.bincoproducts]
general_comma_categories.T [variable, in UniMath.CategoryTheory.CommaCategories]
general_comma_categories.S [variable, in UniMath.CategoryTheory.CommaCategories]
general_comma_categories [section, in UniMath.CategoryTheory.CommaCategories]
generated_binopeqrel_intro [lemma, in UniMath.Algebra.BinaryOperations]
generated_binopeqrel [definition, in UniMath.Algebra.BinaryOperations]
generated_binopeqrel_hrel [definition, in UniMath.Algebra.BinaryOperations]
generated_binophrel_intro [lemma, in UniMath.Algebra.BinaryOperations]
generated_binophrel [definition, in UniMath.Algebra.BinaryOperations]
generated_binophrel_hrel [definition, in UniMath.Algebra.BinaryOperations]
generated_free_gr_hrel_in_rev [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
generated_free_gr_hrel_in [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
GenMendlerIteration [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMendlerIteration [definition, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
GenMendlerIteration [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMendlerIteration [library]
GenMendlerIteration_alt [library]
GenMenIt [section, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt [section, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.AF [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.AF [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.chnF [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.cocone_μF [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.e [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.H [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.fusion_law [section, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.fusion_law.H [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.Φ [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.ψ' [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.IL' [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.HL' [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.L' [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.ψ [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.IL [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.HL [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.L [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.Yon' [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.Yon [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.X' [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.X [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law [section, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.inF [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.inF [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.is_left_adj_L' [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.is_left_adj_L [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.iter [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.L [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.L' [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.special_case.θ [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.special_case.ρ [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.special_case.G [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.special_case [section, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.general_case.ψ [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.general_case [section, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.ε [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.η [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.R [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.φ_inv [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.φ [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.is_left_adj_L [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.L [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.Yon [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.X [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle [section, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.special_case.θ [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.special_case.ρ [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.special_case.G [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.special_case [section, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.general_case.inF_inv [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.general_case.inF_iso [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.general_case.z [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.general_case.LchnF [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.general_case.ψ [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.general_case [section, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.Yon [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
L0 [notation, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.ILD [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.HL [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.IL [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.L [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.X [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle [section, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.X [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.X' [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.Yon [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.Yon' [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
0 [notation, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
⟨ _ , _ ⟩ [notation, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.Φ [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.μF [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.μF [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.μF_Initial [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.μF_Initial [variable, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.ψ [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.ψ' [variable, in UniMath.SubstitutionSystems.GenMendlerIteration]
geNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
geNonnegativeRationals_correct [lemma, in UniMath.RealNumbers.NonnegativeRationals]
geNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
genoption_DistributiveLaw [definition, in UniMath.SubstitutionSystems.SignatureExamples]
geteq [definition, in UniMath.Algebra.Universal.Equations]
get_eqn [definition, in UniMath.CategoryTheory.Elements]
get_el [definition, in UniMath.CategoryTheory.Elements]
get_ob [definition, in UniMath.CategoryTheory.Elements]
get_mor [definition, in UniMath.CategoryTheory.Elements]
get_eqn [definition, in UniMath.CategoryTheory.ElementsOp]
get_el [definition, in UniMath.CategoryTheory.ElementsOp]
get_ob [definition, in UniMath.CategoryTheory.ElementsOp]
get_mor [definition, in UniMath.CategoryTheory.ElementsOp]
geval [definition, in UniMath.Algebra.Universal.TermAlgebras]
gevalhom [definition, in UniMath.Algebra.Universal.TermAlgebras]
gevalstep [lemma, in UniMath.Algebra.Universal.TermAlgebras]
ge_leNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
GG [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
GG [definition, in UniMath.CategoryTheory.precomp_ess_surj]
GG_ax [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
GG_data [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg':107 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':123 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':134 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':225 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':286 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg':29 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':41 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
gg':41 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':51 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':62 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':74 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':80 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg':86 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg1:1295 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg1:184 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg1:229 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg1:244 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg1:250 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg1:262 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg1:272 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg1:286 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg2:1296 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg2:185 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg2:230 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg2:245 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg2:251 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg2:263 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg2:273 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg2:287 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:10 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
gg:100 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:1002 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:101 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:102 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
gg:1021 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:103 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:104 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:104 [binder, in UniMath.HomologicalAlgebra.MappingCone]
gg:1042 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:1058 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:106 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:106 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
gg:106 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:106 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
gg:1065 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:107 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
gg:107 [binder, in UniMath.HomologicalAlgebra.MappingCone]
gg:1086 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:11 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
gg:11 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:1109 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:114 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:115 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:116 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:116 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
gg:1171 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:119 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
gg:1195 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:12 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:120 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
gg:122 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
GG:122 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
gg:1220 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:123 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
gg:1239 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:1260 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:127 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:1278 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:129 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
gg:129 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
GG:129 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
GG:1295 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:130 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:130 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:130 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:1314 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:132 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
gg:133 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:1335 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:1356 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:136 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
gg:1373 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:1385 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:14 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
gg:140 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:1401 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:141 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
gg:142 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:1427 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:143 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
gg:145 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:1461 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:147 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:1472 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:1484 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:149 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
gg:1498 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:150 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:1515 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:152 [binder, in UniMath.HomologicalAlgebra.MappingCone]
gg:1520 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:153 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:1536 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:154 [binder, in UniMath.HomologicalAlgebra.MappingCone]
gg:1546 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:155 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
GG:156 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
GG:156 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:158 [binder, in UniMath.HomologicalAlgebra.MappingCone]
gg:159 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:159 [binder, in UniMath.HomologicalAlgebra.MappingCone]
gg:160 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:161 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
GG:161 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:163 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
GG:163 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
GG:166 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:167 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
gg:17 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:170 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:171 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:171 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:171 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:175 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:176 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
GG:18 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
GG:180 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:180 [binder, in UniMath.HomologicalAlgebra.MappingCone]
gg:181 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:181 [binder, in UniMath.HomologicalAlgebra.MappingCone]
gg:182 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:182 [binder, in UniMath.HomologicalAlgebra.MappingCone]
gg:183 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:185 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
GG:185 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:185 [binder, in UniMath.HomologicalAlgebra.MappingCone]
gg:186 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:188 [binder, in UniMath.CategoryTheory.PseudoElements]
gg:189 [binder, in UniMath.CategoryTheory.PseudoElements]
gg:190 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:193 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:194 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:198 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:198 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
GG:20 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
gg:202 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:202 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
gg:203 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:203 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:204 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:204 [binder, in UniMath.HomologicalAlgebra.MappingCone]
gg:205 [binder, in UniMath.HomologicalAlgebra.MappingCone]
gg:210 [binder, in UniMath.CategoryTheory.limits.kernels]
gg:211 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:211 [binder, in UniMath.CategoryTheory.limits.kernels]
gg:211 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
gg:211 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
gg:213 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:213 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:215 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:219 [binder, in UniMath.CategoryTheory.limits.cokernels]
gg:22 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:22 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:22 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg:22 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:220 [binder, in UniMath.CategoryTheory.limits.cokernels]
GG:222 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
gg:223 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:224 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:226 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
GG:226 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:227 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:23 [binder, in UniMath.CategoryTheory.ShortExactSequences]
gg:237 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
gg:238 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:24 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
gg:24 [binder, in UniMath.CategoryTheory.ShortExactSequences]
gg:241 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:245 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:246 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
GG:25 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:250 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:255 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:255 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
gg:259 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:26 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
GG:26 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
gg:260 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
GG:27 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
gg:27 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
gg:270 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:271 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:275 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:276 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:277 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:28 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:280 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:285 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:289 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
gg:289 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
GG:29 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
gg:290 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
gg:291 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
GG:295 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:296 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:299 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
gg:300 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
gg:301 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:302 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
GG:31 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
gg:310 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:312 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:315 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:32 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
gg:32 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:32 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
gg:320 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:323 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:324 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
GG:33 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
gg:330 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:338 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:339 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:34 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg:34 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
gg:345 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:349 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:35 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:35 [binder, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
gg:352 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg:354 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:355 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
gg:356 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:357 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
gg:357 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:36 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:362 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:365 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:367 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
gg:367 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:368 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
gg:369 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
gg:370 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
gg:376 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:38 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
gg:380 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:39 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:392 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:397 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg:399 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:40 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
gg:40 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:40 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg:409 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:41 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:41 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
gg:412 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:413 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:42 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
gg:420 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
GG:423 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:424 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:43 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
gg:439 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:441 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:458 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg:46 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:46 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
gg:46 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:460 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:464 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
GG:47 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
gg:479 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:48 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:484 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
GG:49 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
gg:497 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:497 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:50 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:51 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
gg:513 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:52 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:52 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:529 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:53 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:543 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:546 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:558 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:56 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:57 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
GG:57 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
gg:570 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:570 [binder, in UniMath.HomologicalAlgebra.Triangulated]
gg:571 [binder, in UniMath.HomologicalAlgebra.Triangulated]
gg:575 [binder, in UniMath.HomologicalAlgebra.Triangulated]
gg:576 [binder, in UniMath.HomologicalAlgebra.Triangulated]
gg:587 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:596 [binder, in UniMath.HomologicalAlgebra.Triangulated]
gg:597 [binder, in UniMath.HomologicalAlgebra.Triangulated]
gg:598 [binder, in UniMath.HomologicalAlgebra.Triangulated]
gg:599 [binder, in UniMath.HomologicalAlgebra.Triangulated]
gg:602 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:61 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:613 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:62 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:628 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:63 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
gg:647 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:65 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:66 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:665 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:67 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:676 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:68 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
gg:691 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:710 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:72 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
gg:724 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:73 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:735 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:752 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:771 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:79 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:79 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg:790 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:8 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
gg:80 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:808 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:81 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:81 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
GG:81 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
gg:82 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg:85 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:854 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:861 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:869 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:87 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:881 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:898 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:9 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
GG:9 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
gg:90 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:90 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
gg:903 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:919 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
gg:92 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:934 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:95 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:97 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
GGεη [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
GG₁:1275 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
GG₁:172 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
gg₁:195 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg₁:382 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg₁:427 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg₁:447 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg₁:917 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG₂:1276 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
GG₂:173 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
gg₂:196 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg₂:383 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg₂:428 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg₂:448 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg₂:918 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
GH [definition, in UniMath.SyntheticHomotopyTheory.Circle]
Ghat [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
Ghat [definition, in UniMath.SubstitutionSystems.LiftingInitial]
GHomotopy [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
gHomotopy [definition, in UniMath.SyntheticHomotopyTheory.Halfline]
GH_path3_comp2 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
GH_path3_comp1 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
GH_path3 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
GH_equations [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
GH_homotopy [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
GH_point [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
GH_to_cone [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
gh':91 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
GH:14 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
GH:19 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
gh:221 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
gh:225 [binder, in UniMath.Folds.folds_pre_2_cat]
GH:25 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
GH:29 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
GH:33 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
GH:37 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
gh:55 [binder, in UniMath.Folds.folds_precat]
gh:73 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
gh:90 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
gh:91 [binder, in UniMath.Folds.folds_pre_2_cat]
Gid:10 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
Gid:10 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
Gid:16 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
Gid:16 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
ginv [abbreviation, in UniMath.Bicategories.Core.EquivToAdjequiv]
girard [section, in UniMath.Paradoxes.GirardsParadox]
GirardsParadox [library]
girard.Flse [variable, in UniMath.Paradoxes.GirardsParadox]
glb:183 [binder, in UniMath.RealNumbers.Sets]
glb:185 [binder, in UniMath.RealNumbers.Sets]
glb:187 [binder, in UniMath.RealNumbers.Sets]
glb:196 [binder, in UniMath.Combinatorics.OrderedSets]
GlobalRan [definition, in UniMath.CategoryTheory.RightKanExtension]
GlobalRightKanExtensionExists [definition, in UniMath.CategoryTheory.RightKanExtension]
global_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
global_element_HSET_fun_weq [definition, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
global_element_HSET_comp [definition, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
global_element_HSET_paths_weq [definition, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
global_element_HSET [definition, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
glueSquares [lemma, in UniMath.CategoryTheory.limits.graphs.pushouts]
glueSquares [lemma, in UniMath.CategoryTheory.limits.graphs.pullbacks]
glueSquares [lemma, in UniMath.CategoryTheory.limits.pullbacks]
glue_sections [definition, in UniMath.AlgebraicGeometry.Spec]
gluing [definition, in UniMath.AlgebraicGeometry.SheavesOfRings]
gluing_structure_presheaf [lemma, in UniMath.AlgebraicGeometry.Spec]
gL:115 [binder, in UniMath.CategoryTheory.LatticeObject]
gmk:108 [binder, in UniMath.NumberSystems.RationalNumbers]
gmk:121 [binder, in UniMath.NumberSystems.Integers]
gmk:149 [binder, in UniMath.Foundations.NaturalNumbers]
gmn:113 [binder, in UniMath.NumberSystems.RationalNumbers]
gmn:126 [binder, in UniMath.NumberSystems.Integers]
gmn:154 [binder, in UniMath.Foundations.NaturalNumbers]
gM:114 [binder, in UniMath.CategoryTheory.LatticeObject]
gnm:107 [binder, in UniMath.NumberSystems.RationalNumbers]
gnm:112 [binder, in UniMath.NumberSystems.RationalNumbers]
gnm:120 [binder, in UniMath.NumberSystems.Integers]
gnm:125 [binder, in UniMath.NumberSystems.Integers]
gnm:133 [binder, in UniMath.NumberSystems.RationalNumbers]
gnm:137 [binder, in UniMath.NumberSystems.RationalNumbers]
gnm:146 [binder, in UniMath.NumberSystems.Integers]
gnm:148 [binder, in UniMath.Foundations.NaturalNumbers]
gnm:150 [binder, in UniMath.NumberSystems.Integers]
gnm:153 [binder, in UniMath.Foundations.NaturalNumbers]
gnm:174 [binder, in UniMath.Foundations.NaturalNumbers]
gnm:178 [binder, in UniMath.Foundations.NaturalNumbers]
Go [definition, in UniMath.CategoryTheory.precomp_ess_surj]
gpaths [definition, in UniMath.Combinatorics.GraphPaths]
gpaths_ind [lemma, in UniMath.Combinatorics.GraphPaths]
gpaths_of_length [definition, in UniMath.Combinatorics.GraphPaths]
gpd:13 [binder, in UniMath.CategoryTheory.Groupoids]
gpd:14 [binder, in UniMath.CategoryTheory.Groupoids]
gpd:9 [binder, in UniMath.CategoryTheory.Groupoids]
gr [definition, in UniMath.Algebra.Groups]
gradth [definition, in UniMath.Foundations.PartA]
graph [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
graph [definition, in UniMath.Combinatorics.Graph]
graph [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
Graph [library]
Graph [library]
GraphPaths [library]
graph_mor_comp_assoc [lemma, in UniMath.Combinatorics.Graph]
graph_mor_id_right [lemma, in UniMath.Combinatorics.Graph]
graph_mor_id_left [lemma, in UniMath.Combinatorics.Graph]
graph_mor_comp [definition, in UniMath.Combinatorics.Graph]
graph_mor_id [definition, in UniMath.Combinatorics.Graph]
graph_mor [definition, in UniMath.Combinatorics.Graph]
graph_has_edgesets [definition, in UniMath.Combinatorics.Graph]
graph_has_vertexset [definition, in UniMath.Combinatorics.Graph]
graph_from_precategory [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
graph_precategory [definition, in UniMath.CategoryTheory.categories.Graph]
graph_precategory_data [definition, in UniMath.CategoryTheory.categories.Graph]
graph_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.Graph]
graph_mor_eq [definition, in UniMath.CategoryTheory.categories.Graph]
GrCosets [section, in UniMath.Algebra.Groups]
grdirprod [definition, in UniMath.Algebra.Groups]
Greatest [section, in UniMath.Algebra.FixedPointTheorems]
GreatestLowerBound [definition, in UniMath.RealNumbers.Sets]
GreatestLowerBound [section, in UniMath.RealNumbers.Sets]
_ >= _ [notation, in UniMath.RealNumbers.Sets]
greatest_if_contains_sup [lemma, in UniMath.Algebra.FixedPointTheorems]
greatest_suchthat_property [definition, in UniMath.Algebra.FixedPointTheorems]
greatest_suchthat_is_greatest [definition, in UniMath.Algebra.FixedPointTheorems]
greatest_suchthat_satisfies [definition, in UniMath.Algebra.FixedPointTheorems]
greatest_suchthat [definition, in UniMath.Algebra.FixedPointTheorems]
greatest_is_greatest [definition, in UniMath.Algebra.FixedPointTheorems]
greatest_of_family_index [definition, in UniMath.Algebra.FixedPointTheorems]
greatest_of_family [definition, in UniMath.Algebra.FixedPointTheorems]
grfromgtunel [lemma, in UniMath.Algebra.Groups]
grfromltunel [lemma, in UniMath.Algebra.Groups]
grfrompathsxy [lemma, in UniMath.Algebra.Domains_and_Fields]
grfunfromunit [definition, in UniMath.Algebra.Groups]
grfunfromunit_ismonoidfun [lemma, in UniMath.Algebra.Groups]
grfuntounit [definition, in UniMath.Algebra.Groups]
grfuntounit_ismonoidfun [lemma, in UniMath.Algebra.Groups]
grinv [definition, in UniMath.Algebra.Groups]
grinvandmonoidfun [lemma, in UniMath.Algebra.Groups]
grinvinv [lemma, in UniMath.Algebra.Groups]
grinvmaponpathsinv [lemma, in UniMath.Algebra.Groups]
grinvop [lemma, in UniMath.Algebra.Groups]
grinvunel [lemma, in UniMath.Algebra.Groups]
grinv_is [definition, in UniMath.Algebra.BinaryOperations]
grinv_path_from_op_path [lemma, in UniMath.Algebra.Groups]
grlcan [lemma, in UniMath.Algebra.Groups]
grlinvax [definition, in UniMath.Algebra.Groups]
grlinvax_is [definition, in UniMath.Algebra.BinaryOperations]
GrothendieckGroup [library]
GrothendieckTopology [definition, in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopology_isGrothendieckTopology [definition, in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopology_COS [definition, in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopos [definition, in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopos [library]
GrothendieckTopos_equivalence [definition, in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopos_functor [definition, in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopos_GrothendieckTopology [definition, in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopos_category [definition, in UniMath.CategoryTheory.GrothendieckTopos]
group [module, in UniMath.CategoryTheory.DisplayedCats.Examples]
Group [library]
GroupAction [library]
groupoid [definition, in UniMath.CategoryTheory.Groupoids]
Groupoids [library]
Groupoids [library]
groupoid_to_pregroupoid [definition, in UniMath.CategoryTheory.Groupoids]
groupoid_is_pregroupoid [definition, in UniMath.CategoryTheory.Groupoids]
groupoid_to_category [definition, in UniMath.CategoryTheory.Groupoids]
Groups [library]
Groups_Tactics [library]
group_signature [definition, in UniMath.Algebra.Universal.Examples.Group]
group.disp_grp [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.e [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_hom_e [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_hom_mult [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_data [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_structure [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_inv_l [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_inv_r [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_e_l [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_e_r [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_assoc [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_structure_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_structure_data [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.inv [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.isaprop_is_grp_hom [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.is_grp_hom [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
group.mult [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
grpds [definition, in UniMath.Bicategories.Core.Examples.Groupoids]
grpds_univalent [definition, in UniMath.Bicategories.Core.Examples.Groupoids]
grpd_bicat_is_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.Groupoids]
grquot [definition, in UniMath.Algebra.Groups]
grquotinvcomp [lemma, in UniMath.Algebra.Groups]
grrcan [lemma, in UniMath.Algebra.Groups]
grrinvax [definition, in UniMath.Algebra.Groups]
grrinvax_is [definition, in UniMath.Algebra.BinaryOperations]
grs [library]
grtogtunel [lemma, in UniMath.Algebra.Groups]
grtoltunel [lemma, in UniMath.Algebra.Groups]
grtomonoid [definition, in UniMath.Algebra.Groups]
grtopathsxy [lemma, in UniMath.Algebra.Domains_and_Fields]
gr_univalent_category [definition, in UniMath.CategoryTheory.categories.grs]
gr_category_is_univalent [definition, in UniMath.CategoryTheory.categories.grs]
gr_category [definition, in UniMath.CategoryTheory.categories.grs]
gr_precategory_isweq [definition, in UniMath.CategoryTheory.categories.grs]
gr_equiv_weq_iso [definition, in UniMath.CategoryTheory.categories.grs]
gr_equiv_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.grs]
gr_iso_equiv_weq [definition, in UniMath.CategoryTheory.categories.grs]
gr_iso_equiv_is_equiv [lemma, in UniMath.CategoryTheory.categories.grs]
gr_equiv_iso [lemma, in UniMath.CategoryTheory.categories.grs]
gr_equiv_is_iso [lemma, in UniMath.CategoryTheory.categories.grs]
gr_iso_equiv [lemma, in UniMath.CategoryTheory.categories.grs]
gr_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.grs]
gr_precategory [definition, in UniMath.CategoryTheory.categories.grs]
gr_assoc [lemma, in UniMath.CategoryTheory.categories.grs]
gr_id_right [lemma, in UniMath.CategoryTheory.categories.grs]
gr_id_left [lemma, in UniMath.CategoryTheory.categories.grs]
gr_precategory_data [definition, in UniMath.CategoryTheory.categories.grs]
gr_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.grs]
gr_fun_space [definition, in UniMath.CategoryTheory.categories.grs]
gr_univalence [definition, in UniMath.Algebra.Groups]
gr_univalence_isweq [lemma, in UniMath.Algebra.Groups]
gr_univalence_map [definition, in UniMath.Algebra.Groups]
gr_univalence_weq3 [definition, in UniMath.Algebra.Groups]
gr_univalence_weq2 [definition, in UniMath.Algebra.Groups]
gr_univalence_weq1' [definition, in UniMath.Algebra.Groups]
gr_univalence_weq1 [definition, in UniMath.Algebra.Groups]
gr_of_monoid [definition, in UniMath.Algebra.Groups]
gr_D:41 [binder, in UniMath.CategoryTheory.Groupoids]
gr' [definition, in UniMath.Algebra.Groups]
gr'_to_monoid [definition, in UniMath.Algebra.Groups]
gr:115 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
gr:191 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
gterm [abbreviation, in UniMath.Algebra.Universal.Terms]
GTerm [module, in UniMath.Algebra.Universal.Examples.Bool]
gtermset [abbreviation, in UniMath.Algebra.Universal.Terms]
GTerm.bot [definition, in UniMath.Algebra.Universal.Examples.Bool]
GTerm.conj [definition, in UniMath.Algebra.Universal.Examples.Bool]
GTerm.disj [definition, in UniMath.Algebra.Universal.Examples.Bool]
GTerm.impl [definition, in UniMath.Algebra.Universal.Examples.Bool]
GTerm.neg [definition, in UniMath.Algebra.Universal.Examples.Bool]
GTerm.T [definition, in UniMath.Algebra.Universal.Examples.Bool]
GTerm.top [definition, in UniMath.Algebra.Universal.Examples.Bool]
gtNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
gtNonnegativeRationals_noteq [definition, in UniMath.RealNumbers.NonnegativeRationals]
gtNonnegativeRationals_correct [lemma, in UniMath.RealNumbers.NonnegativeRationals]
gtNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
gt:126 [binder, in UniMath.Algebra.Lattice]
gt:137 [binder, in UniMath.Algebra.Lattice]
GT:26 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
GT:27 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
GT:31 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
GT:37 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
GT:39 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
GT:41 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
GT:45 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
GT:46 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
GT:47 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
GT:48 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
guidedFamily [definition, in UniMath.Combinatorics.WellOrderedSets]
GuidedHomotopy [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
GuidedHomotopy [definition, in UniMath.SyntheticHomotopyTheory.Halfline]
GuidedSection [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
guided_WOSubset_total [lemma, in UniMath.Combinatorics.WellOrderedSets]
Guided_WOSubset [definition, in UniMath.Combinatorics.WellOrderedSets]
guided_by [definition, in UniMath.Combinatorics.WellFoundedRelations]
GX:48 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
GX:55 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
GX:63 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
GX:69 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
GY:49 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
GY:56 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
GY:64 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
GY:70 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
g_pw_lub:465 [binder, in UniMath.Algebra.FixedPointTheorems]
g_prog:458 [binder, in UniMath.Algebra.FixedPointTheorems]
g_pw_lub:445 [binder, in UniMath.Algebra.FixedPointTheorems]
g_monot:41 [binder, in UniMath.Algebra.FixedPointTheorems]
g_equiv:120 [binder, in UniMath.Bicategories.Core.Adjunctions]
g_is_z_iso:31 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
g_is_iso:23 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
G_is_functor [definition, in UniMath.CategoryTheory.Adjunctions.Core]
G_data [definition, in UniMath.CategoryTheory.Adjunctions.Core]
g_is_z_iso:11 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
g_is_z_iso:104 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
g_is_iso:78 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
g_is_iso:68 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
g''1:350 [binder, in UniMath.CategoryTheory.PreAdditive]
g'':16 [binder, in UniMath.NumberSystems.Tests]
g'':29 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
g'1:339 [binder, in UniMath.CategoryTheory.PreAdditive]
g'1:349 [binder, in UniMath.CategoryTheory.PreAdditive]
g':1013 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g':103 [binder, in UniMath.MoreFoundations.Propositions]
g':1034 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g':105 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g':106 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
g':11 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g':110 [binder, in UniMath.MoreFoundations.Propositions]
g':112 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
G':112 [binder, in UniMath.Topology.Filters]
g':1181 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g':12 [binder, in UniMath.Bicategories.Core.AdjointUnique]
g':12 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
g':120 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
g':128 [binder, in UniMath.Combinatorics.FiniteSequences]
g':133 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
g':136 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g':138 [binder, in UniMath.Combinatorics.FiniteSequences]
g':14 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
g':14 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
g':140 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
g':142 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g':142 [binder, in UniMath.CategoryTheory.limits.binproducts]
g':148 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
g':149 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g':15 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
G':15 [binder, in UniMath.CategoryTheory.exponentials]
g':15 [binder, in UniMath.NumberSystems.Tests]
g':150 [binder, in UniMath.MoreFoundations.Equivalences]
g':155 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
G':16 [binder, in UniMath.CategoryTheory.exponentials]
g':161 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g':161 [binder, in UniMath.MoreFoundations.Equivalences]
g':170 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
g':1706 [binder, in UniMath.Foundations.PartA]
g':1714 [binder, in UniMath.Foundations.PartA]
g':177 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
g':180 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
g':19 [binder, in UniMath.Bicategories.Core.AdjointUnique]
g':201 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
G':21 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
g':213 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
g':231 [binder, in UniMath.MoreFoundations.PartA]
g':2405 [binder, in UniMath.Foundations.PartA]
g':2417 [binder, in UniMath.Foundations.PartA]
g':2428 [binder, in UniMath.Foundations.PartA]
g':2439 [binder, in UniMath.Foundations.PartA]
g':2485 [binder, in UniMath.Foundations.PartA]
g':249 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
g':2495 [binder, in UniMath.Foundations.PartA]
g':2506 [binder, in UniMath.Foundations.PartA]
g':26 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g':2612 [binder, in UniMath.Foundations.PartA]
g':2621 [binder, in UniMath.Foundations.PartA]
g':2630 [binder, in UniMath.Foundations.PartA]
g':2639 [binder, in UniMath.Foundations.PartA]
g':2648 [binder, in UniMath.Foundations.PartA]
g':2657 [binder, in UniMath.Foundations.PartA]
g':2671 [binder, in UniMath.Foundations.PartA]
g':2681 [binder, in UniMath.Foundations.PartA]
g':269 [binder, in UniMath.Foundations.PartA]
g':27 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
g':27 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
g':2700 [binder, in UniMath.Foundations.PartA]
g':2714 [binder, in UniMath.Foundations.PartA]
g':2724 [binder, in UniMath.Foundations.PartA]
g':2743 [binder, in UniMath.Foundations.PartA]
g':278 [binder, in UniMath.Foundations.PartA]
g':279 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
g':28 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
g':281 [binder, in UniMath.CategoryTheory.Core.Isos]
g':297 [binder, in UniMath.CategoryTheory.PreAdditive]
g':307 [binder, in UniMath.CategoryTheory.PreAdditive]
g':324 [binder, in UniMath.CategoryTheory.PreAdditive]
g':33 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
g':351 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g':353 [binder, in UniMath.CategoryTheory.PreAdditive]
g':361 [binder, in UniMath.CategoryTheory.PreAdditive]
g':388 [binder, in UniMath.CategoryTheory.Core.Isos]
g':397 [binder, in UniMath.CategoryTheory.Core.Isos]
g':406 [binder, in UniMath.CategoryTheory.Core.Isos]
g':414 [binder, in UniMath.CategoryTheory.Core.Isos]
g':423 [binder, in UniMath.CategoryTheory.Core.Isos]
g':43 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
g':44 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
g':52 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
g':55 [binder, in UniMath.Folds.folds_pre_2_cat]
g':567 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g':57 [binder, in UniMath.CategoryTheory.Epis]
g':58 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
g':58 [binder, in UniMath.CategoryTheory.Epis]
g':581 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g':60 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
G':635 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
G':657 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
G':66 [binder, in UniMath.CategoryTheory.HorizontalComposition]
g':690 [binder, in UniMath.Foundations.PartD]
g':735 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
G':75 [binder, in UniMath.CategoryTheory.HorizontalComposition]
G':79 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
G':84 [binder, in UniMath.CategoryTheory.HorizontalComposition]
g':85 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g':92 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
G':93 [binder, in UniMath.CategoryTheory.HorizontalComposition]
g':98 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g0:10 [binder, in UniMath.Bicategories.Discreteness]
G0:132 [binder, in UniMath.CategoryTheory.FunctorCategory]
G0:179 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
g0:200 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
g0:205 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
G0:403 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
G0:415 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
g1'':10 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
g1'':20 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
g1':1014 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1':103 [binder, in UniMath.HomologicalAlgebra.KA]
g1':1056 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1':127 [binder, in UniMath.HomologicalAlgebra.KA]
g1':18 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
g1':762 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1':8 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
g1':804 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1':846 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1':85 [binder, in UniMath.HomologicalAlgebra.KA]
g1':888 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1':930 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1':972 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:1039 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:106 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
g1:111 [binder, in UniMath.Bicategories.Core.Bicat]
g1:113 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
g1:119 [binder, in UniMath.HomologicalAlgebra.KA]
g1:120 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
g1:1204 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g1:1209 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g1:128 [binder, in UniMath.Bicategories.Core.Bicat]
g1:1286 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g1:133 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
g1:138 [binder, in UniMath.Bicategories.Core.Bicat]
g1:148 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
G1:149 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
g1:16 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
g1:16 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
g1:163 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
g1:17 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
g1:177 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g1:211 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
g1:222 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
g1:223 [binder, in UniMath.MoreFoundations.PartA]
g1:237 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
g1:248 [binder, in UniMath.CategoryTheory.Core.Isos]
g1:266 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
g1:279 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g1:302 [binder, in UniMath.CategoryTheory.limits.pushouts]
g1:331 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:338 [binder, in UniMath.CategoryTheory.PreAdditive]
G1:34 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
g1:34 [binder, in UniMath.CategoryTheory.limits.zero]
g1:350 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:375 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:39 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
g1:394 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:413 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:416 [binder, in UniMath.CategoryTheory.PreAdditive]
g1:429 [binder, in UniMath.CategoryTheory.PreAdditive]
g1:432 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:451 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:470 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:48 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
g1:489 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:50 [binder, in UniMath.Bicategories.Core.Bicat]
g1:508 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:526 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:546 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:546 [binder, in UniMath.CategoryTheory.limits.pullbacks]
g1:6 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
G1:62 [binder, in UniMath.Combinatorics.Graph]
g1:65 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
g1:736 [binder, in UniMath.Foundations.Sets]
g1:745 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:75 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
g1:750 [binder, in UniMath.Foundations.Sets]
g1:763 [binder, in UniMath.Bicategories.Core.Bicat]
g1:772 [binder, in UniMath.Bicategories.Core.Bicat]
g1:787 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:797 [binder, in UniMath.Bicategories.Core.Bicat]
g1:809 [binder, in UniMath.Bicategories.Core.Bicat]
g1:81 [binder, in UniMath.HomologicalAlgebra.KA]
g1:828 [binder, in UniMath.Bicategories.Core.Bicat]
g1:829 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:871 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:909 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g1:91 [binder, in UniMath.CategoryTheory.LatticeObject]
g1:913 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:919 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g1:930 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g1:940 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g1:950 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g1:955 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g1:97 [binder, in UniMath.HomologicalAlgebra.KA]
g1:99 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
g1:997 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g2':1015 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g2':104 [binder, in UniMath.HomologicalAlgebra.KA]
g2':1057 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g2':128 [binder, in UniMath.HomologicalAlgebra.KA]
g2':763 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g2':805 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g2':847 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g2':86 [binder, in UniMath.HomologicalAlgebra.KA]
g2':889 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g2':931 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g2':973 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g2:100 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
g2:1040 [binder, in UniMath.HomologicalAlgebra.Triangulated]
g2:107 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
g2:112 [binder, in UniMath.Bicategories.Core.Bicat]
g2:114 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
g2:120 [binder, in UniMath.HomologicalAlgebra.KA]
g2:121 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
g2:1287 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g2:129 [binder, in UniMath.Bicategories.Core.Bicat]
g2:134 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
g2:139 [binder, in UniMath.Bicategories.Core.Bicat]
g2:149 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
G2:150 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
g2:164 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
g2:17 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
g2:178 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g2:18 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
g2:212 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
g2:223 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
g2:224 [binder, in UniMath.MoreFoundations.PartA]
g2:238 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
g2:249 [binder, in UniMath.CategoryTheory.Core.Isos]
g2:267 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
g2:280 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g2:303 [binder, in UniMath.CategoryTheory.limits.pushouts]
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g:49 [binder, in UniMath.CategoryTheory.limits.pullbacks]
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g:85 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
G:85 [binder, in UniMath.Algebra.GroupAction]
g:85 [binder, in UniMath.Algebra.RigsAndRings]
g:85 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
g:85 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
g:85 [binder, in UniMath.CategoryTheory.limits.pullbacks]
g:85 [binder, in UniMath.CategoryTheory.Additive]
g:85 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
g:851 [binder, in UniMath.Bicategories.Core.Bicat]
g:851 [binder, in UniMath.Algebra.BinaryOperations]
g:851 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g:857 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g:859 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
g:859 [binder, in UniMath.MoreFoundations.PartA]
G:86 [binder, in UniMath.Combinatorics.ZFstructures]
g:86 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
g:86 [binder, in UniMath.CategoryTheory.Core.Isos]
g:86 [binder, in UniMath.CategoryTheory.HorizontalComposition]
g:86 [binder, in UniMath.PAdics.padics]
g:86 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
g:860 [binder, in UniMath.Bicategories.Core.Bicat]
g:862 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g:863 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g:869 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g:87 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
G:87 [binder, in UniMath.Combinatorics.ZFstructures]
g:87 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
g:87 [binder, in UniMath.CategoryTheory.limits.equalizers]
G:87 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g:87 [binder, in UniMath.CategoryTheory.LatticeObject]
G:87 [binder, in UniMath.Topology.Filters]
g:87 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
g:87 [binder, in UniMath.CategoryTheory.limits.coequalizers]
g:870 [binder, in UniMath.Bicategories.Core.Bicat]
g:870 [binder, in UniMath.Algebra.BinaryOperations]
g:871 [binder, in UniMath.MoreFoundations.PartA]
g:875 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g:876 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g:879 [binder, in UniMath.Bicategories.Core.Bicat]
G:88 [binder, in UniMath.Combinatorics.ZFstructures]
g:88 [binder, in UniMath.Bicategories.Core.Bicat]
g:88 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
g:88 [binder, in UniMath.Algebra.Universal.HVectors]
g:88 [binder, in UniMath.Folds.folds_pre_2_cat]
g:88 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
g:88 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
G:88 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g:88 [binder, in UniMath.CategoryTheory.PreAdditive]
G:88 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
g:88 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
g:88 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
g:88 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
g:881 [binder, in UniMath.MoreFoundations.PartA]
g:881 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g:886 [binder, in UniMath.Bicategories.Core.Bicat]
g:887 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g:888 [binder, in UniMath.Bicategories.Core.Bicat]
g:889 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g:89 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
G:89 [binder, in UniMath.CategoryTheory.FunctorCategory]
g:89 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
g:89 [binder, in UniMath.Folds.folds_precat]
g:89 [binder, in UniMath.Algebra.Modules.Multimodules]
g:89 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
G:89 [binder, in UniMath.Bicategories.Modifications.Modification]
g:89 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
g:89 [binder, in UniMath.CategoryTheory.Morphisms]
g:893 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g:898 [binder, in UniMath.MoreFoundations.PartA]
g:899 [binder, in UniMath.HomologicalAlgebra.MappingCone]
g:9 [binder, in UniMath.Induction.W.Fibered]
g:9 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
g:9 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
g:9 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
G:9 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
G:9 [binder, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
G:9 [binder, in UniMath.Combinatorics.Graph]
g:9 [binder, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
g:9 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
g:9 [binder, in UniMath.Bicategories.Core.Examples.Final]
g:9 [binder, in UniMath.Bicategories.Discreteness]
G:9 [binder, in UniMath.CategoryTheory.Adjunctions.Restriction]
g:9 [binder, in UniMath.CategoryTheory.Profunctors.Core]
g:9 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
g:9 [binder, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
g:9 [binder, in UniMath.CategoryTheory.limits.binproducts]
g:90 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
G:90 [binder, in UniMath.Combinatorics.ZFstructures]
g:90 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
G:90 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
G:90 [binder, in UniMath.CategoryTheory.whiskering]
g:90 [binder, in UniMath.CategoryTheory.limits.pushouts]
G:90 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
g:90 [binder, in UniMath.Bicategories.Core.Strictness]
g:90 [binder, in UniMath.CategoryTheory.limits.cokernels]
G:90 [binder, in UniMath.Algebra.GroupAction]
g:90 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
g:90 [binder, in UniMath.CategoryTheory.Additive]
g:90 [binder, in UniMath.CategoryTheory.Core.Categories]
g:901 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
g:907 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g:91 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
g:91 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
G:91 [binder, in UniMath.CategoryTheory.whiskering]
g:91 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
g:91 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
g:91 [binder, in UniMath.Bicategories.Core.Univalence]
g:91 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
g:91 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
g:91 [binder, in UniMath.CategoryTheory.limits.pullbacks]
g:91 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
g:912 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g:912 [binder, in UniMath.Bicategories.Core.Bicat]
g:913 [binder, in UniMath.MoreFoundations.PartA]
g:917 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g:917 [binder, in UniMath.Bicategories.Core.Bicat]
g:917 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
g:919 [binder, in UniMath.MoreFoundations.PartA]
G:92 [binder, in UniMath.Combinatorics.ZFstructures]
g:92 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
g:92 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
g:92 [binder, in UniMath.Foundations.NaturalNumbers]
g:92 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
g:92 [binder, in UniMath.CategoryTheory.limits.equalizers]
G:92 [binder, in UniMath.Bicategories.Colimits.Final]
G:92 [binder, in UniMath.CategoryTheory.HorizontalComposition]
g:92 [binder, in UniMath.NumberSystems.Integers]
G:92 [binder, in UniMath.CategoryTheory.Monics]
G:92 [binder, in UniMath.Topology.Filters]
g:92 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
g:92 [binder, in UniMath.Combinatorics.WellFoundedRelations]
g:92 [binder, in UniMath.CategoryTheory.limits.coequalizers]
g:923 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g:925 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g:926 [binder, in UniMath.Bicategories.Core.Bicat]
g:93 [binder, in UniMath.CategoryTheory.PreAdditive]
g:93 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
G:93 [binder, in UniMath.Algebra.GroupAction]
G:93 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
g:93 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
g:93 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
g:93 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
g:933 [binder, in UniMath.Bicategories.Core.Bicat]
G:94 [binder, in UniMath.Combinatorics.ZFstructures]
G:94 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
g:94 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
g:94 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
g:94 [binder, in UniMath.CategoryTheory.Core.Isos]
g:94 [binder, in UniMath.CategoryTheory.Monads.LModules]
g:940 [binder, in UniMath.Bicategories.Core.Bicat]
g:947 [binder, in UniMath.Bicategories.Core.Bicat]
g:95 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
g:95 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
g:95 [binder, in UniMath.Foundations.UnivalenceAxiom]
g:95 [binder, in UniMath.CategoryTheory.limits.kernels]
G:95 [binder, in UniMath.CategoryTheory.FunctorCategory]
g:95 [binder, in UniMath.CategoryTheory.HorizontalComposition]
g:95 [binder, in UniMath.CategoryTheory.Equivalences.Core]
g:95 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
g:95 [binder, in UniMath.CategoryTheory.Additive]
g:95 [binder, in UniMath.AlgebraicGeometry.Spec]
G:95 [binder, in UniMath.CategoryTheory.Epis]
g:95 [binder, in UniMath.CategoryTheory.limits.binproducts]
g:96 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
g:96 [binder, in UniMath.Bicategories.Core.Bicat]
g:96 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
g:96 [binder, in UniMath.CategoryTheory.limits.pushouts]
g:96 [binder, in UniMath.Bicategories.Colimits.Final]
g:96 [binder, in UniMath.CategoryTheory.limits.Opp]
g:96 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
g:96 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
g:96 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
g:965 [binder, in UniMath.Bicategories.Core.Bicat]
G:97 [binder, in UniMath.Combinatorics.ZFstructures]
g:97 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g:97 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
g:97 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
g:97 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
g:97 [binder, in UniMath.CategoryTheory.limits.equalizers]
G:97 [binder, in UniMath.Algebra.GroupAction]
g:97 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
g:97 [binder, in UniMath.Topology.Filters]
g:97 [binder, in UniMath.CategoryTheory.limits.pullbacks]
g:97 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
g:97 [binder, in UniMath.CategoryTheory.limits.coequalizers]
G:97 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
g:97 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
g:970 [binder, in UniMath.Bicategories.Core.Bicat]
g:98 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
g:98 [binder, in UniMath.Bicategories.Core.Strictness]
g:98 [binder, in UniMath.Bicategories.Colimits.Final]
g:98 [binder, in UniMath.Bicategories.Core.Univalence]
G:98 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
g:98 [binder, in UniMath.CategoryTheory.Core.Categories]
g:986 [binder, in UniMath.Foundations.PartA]
g:99 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
g:99 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
g:99 [binder, in UniMath.CategoryTheory.limits.cokernels]
g:99 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
g:99 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
G:99 [binder, in UniMath.Bicategories.Modifications.Modification]
g:99 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
g:99 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
G:99 [binder, in UniMath.Topology.Filters]
g:99 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
g:99 [binder, in UniMath.CategoryTheory.Monads.KTriples]
g:992 [binder, in UniMath.Foundations.PartA]
g:995 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
Gθ [definition, in UniMath.SubstitutionSystems.SignatureExamples]
Gθ_Signature [definition, in UniMath.SubstitutionSystems.SignatureExamples]
Gθ_with_laws [definition, in UniMath.SubstitutionSystems.SignatureExamples]
Gθ_Strength2_int [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
Gθ_Strength1_int [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
Gθ_mor [definition, in UniMath.SubstitutionSystems.SignatureExamples]
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G₀:18 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₀:36 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₀:4 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
G₀:47 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
G₀:49 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₀:50 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
G₀:55 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
G₀:58 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
G₀:61 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
G₀:62 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₀:74 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₀:86 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₀:9 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
g₁:100 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₁:1023 [binder, in UniMath.Bicategories.Core.Bicat]
g₁:1026 [binder, in UniMath.Bicategories.Core.Bicat]
g₁:1046 [binder, in UniMath.Bicategories.Core.Bicat]
g₁:1049 [binder, in UniMath.Bicategories.Core.Bicat]
g₁:11 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
g₁:115 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₁:117 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
G₁:12 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:120 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
g₁:126 [binder, in UniMath.Bicategories.Core.FullyFaithful]
G₁:1268 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
g₁:128 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
G₁:13 [binder, in UniMath.Bicategories.Transformations.Examples.Whiskering]
G₁:131 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:135 [binder, in UniMath.Bicategories.Core.FullyFaithful]
G₁:141 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:144 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₁:145 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
g₁:16 [binder, in UniMath.Bicategories.Core.FullyFaithful]
G₁:165 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
g₁:166 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
g₁:177 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
g₁:181 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
g₁:188 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
g₁:194 [binder, in UniMath.Bicategories.Colimits.Products]
g₁:195 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₁:199 [binder, in UniMath.Bicategories.Core.FullyFaithful]
G₁:2 [binder, in UniMath.Bicategories.Core.Examples.Groupoids]
G₁:20 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:20 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
g₁:203 [binder, in UniMath.Bicategories.Colimits.Products]
g₁:214 [binder, in UniMath.Bicategories.Colimits.Products]
G₁:218 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₁:223 [binder, in UniMath.Bicategories.Colimits.Products]
G₁:227 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₁:232 [binder, in UniMath.Bicategories.Colimits.Products]
G₁:235 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₁:241 [binder, in UniMath.Bicategories.Colimits.Products]
g₁:251 [binder, in UniMath.Bicategories.Colimits.Products]
g₁:261 [binder, in UniMath.Bicategories.Colimits.Products]
g₁:271 [binder, in UniMath.Bicategories.Colimits.Products]
g₁:281 [binder, in UniMath.Bicategories.Colimits.Products]
g₁:291 [binder, in UniMath.Bicategories.Colimits.Products]
g₁:300 [binder, in UniMath.Bicategories.Colimits.Products]
g₁:307 [binder, in UniMath.Bicategories.Colimits.Products]
g₁:321 [binder, in UniMath.Bicategories.Colimits.Products]
g₁:331 [binder, in UniMath.Bicategories.Colimits.Products]
g₁:346 [binder, in UniMath.Bicategories.Colimits.Products]
g₁:373 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
G₁:41 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:419 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
g₁:424 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
g₁:439 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
g₁:44 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
g₁:51 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
G₁:54 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₁:58 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g₁:59 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
g₁:6 [binder, in UniMath.Bicategories.Core.FullyFaithful]
G₁:61 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
G₁:64 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
G₁:67 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:69 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
g₁:71 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
G₁:78 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
G₁:79 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:80 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
G₁:81 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
G₁:84 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g₁:89 [binder, in UniMath.Bicategories.Core.TransportLaws]
g₁:9 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
g₁:908 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
G₁:91 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:91 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
g₁:92 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
g₁:95 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₂:10 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
g₂:101 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₂:1024 [binder, in UniMath.Bicategories.Core.Bicat]
g₂:1027 [binder, in UniMath.Bicategories.Core.Bicat]
g₂:1047 [binder, in UniMath.Bicategories.Core.Bicat]
g₂:1050 [binder, in UniMath.Bicategories.Core.Bicat]
g₂:116 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₂:118 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
g₂:121 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
G₂:1269 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
g₂:127 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₂:129 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
g₂:136 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₂:14 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
G₂:14 [binder, in UniMath.Bicategories.Transformations.Examples.Whiskering]
g₂:145 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₂:146 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
G₂:16 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
G₂:166 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
g₂:169 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
g₂:17 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₂:178 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
g₂:182 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
g₂:189 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
g₂:195 [binder, in UniMath.Bicategories.Colimits.Products]
g₂:196 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₂:200 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₂:204 [binder, in UniMath.Bicategories.Colimits.Products]
g₂:21 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
g₂:215 [binder, in UniMath.Bicategories.Colimits.Products]
G₂:219 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₂:224 [binder, in UniMath.Bicategories.Colimits.Products]
G₂:228 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₂:233 [binder, in UniMath.Bicategories.Colimits.Products]
G₂:236 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₂:242 [binder, in UniMath.Bicategories.Colimits.Products]
g₂:252 [binder, in UniMath.Bicategories.Colimits.Products]
G₂:26 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
g₂:262 [binder, in UniMath.Bicategories.Colimits.Products]
g₂:272 [binder, in UniMath.Bicategories.Colimits.Products]
g₂:282 [binder, in UniMath.Bicategories.Colimits.Products]
g₂:292 [binder, in UniMath.Bicategories.Colimits.Products]
G₂:3 [binder, in UniMath.Bicategories.Core.Examples.Groupoids]
g₂:301 [binder, in UniMath.Bicategories.Colimits.Products]
g₂:308 [binder, in UniMath.Bicategories.Colimits.Products]
g₂:322 [binder, in UniMath.Bicategories.Colimits.Products]
g₂:332 [binder, in UniMath.Bicategories.Colimits.Products]
g₂:347 [binder, in UniMath.Bicategories.Colimits.Products]
g₂:374 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
g₂:420 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
g₂:425 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
g₂:440 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
g₂:46 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
g₂:52 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
G₂:59 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g₂:60 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
G₂:62 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
G₂:65 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g₂:7 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₂:70 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
g₂:72 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
G₂:79 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g₂:81 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
G₂:82 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
G₂:85 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g₂:90 [binder, in UniMath.Bicategories.Core.TransportLaws]
g₂:909 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
g₂:92 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
g₂:93 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
g₂:96 [binder, in UniMath.Bicategories.Core.FullyFaithful]
g₃:348 [binder, in UniMath.Bicategories.Colimits.Products]
g₃:94 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]

H

H [definition, in UniMath.SubstitutionSystems.Signatures]
H [definition, in UniMath.SubstitutionSystems.BinSumOfSignatures]
H [definition, in UniMath.SubstitutionSystems.BinProductOfSignatures]
H [definition, in UniMath.SubstitutionSystems.SumOfSignatures]
H [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Hab:12 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
Hab:15 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
Hadd:204 [binder, in UniMath.Algebra.Archimedean]
Hadd:227 [binder, in UniMath.Algebra.Archimedean]
Hadd:255 [binder, in UniMath.Algebra.Archimedean]
halfline [definition, in UniMath.SyntheticHomotopyTheory.Halfline]
Halfline [library]
halfline_map [definition, in UniMath.SyntheticHomotopyTheory.Halfline]
halfNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
Hand_y:170 [binder, in UniMath.Topology.Filters]
Hand_x:165 [binder, in UniMath.Topology.Filters]
Hand:117 [binder, in UniMath.Topology.Filters]
Hand:119 [binder, in UniMath.Topology.Topology]
Hand:138 [binder, in UniMath.Topology.Filters]
Hand:21 [binder, in UniMath.Topology.Filters]
Hand:236 [binder, in UniMath.Topology.Filters]
Hand:34 [binder, in UniMath.Topology.Filters]
Hand:359 [binder, in UniMath.Topology.Filters]
Hand:66 [binder, in UniMath.Topology.Filters]
Hap:89 [binder, in UniMath.RealNumbers.Reals]
Hap:91 [binder, in UniMath.RealNumbers.Reals]
Hap:93 [binder, in UniMath.RealNumbers.Reals]
Hap:95 [binder, in UniMath.RealNumbers.Reals]
Harch:206 [binder, in UniMath.Algebra.Archimedean]
hasBinCoproducts [definition, in UniMath.CategoryTheory.limits.bincoproducts]
hasBinCoproducts [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
hasBinDirectSums [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
hasBinProducts [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
hasBinProducts [definition, in UniMath.CategoryTheory.limits.binproducts]
hasBinProducts_WOSET [lemma, in UniMath.CategoryTheory.categories.wosets]
hasCoequalizers [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
hasCoequalizers [definition, in UniMath.CategoryTheory.limits.coequalizers]
hasCokernel [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
hasCokernels [definition, in UniMath.CategoryTheory.limits.cokernels]
hasColims [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
hasCoproducts [definition, in UniMath.CategoryTheory.limits.coproducts]
hasCoproducts [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
hasEqualizers [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
hasEqualizers [definition, in UniMath.CategoryTheory.limits.equalizers]
hasExponentials [definition, in UniMath.CategoryTheory.exponentials]
hasFinOrdCoproducts [definition, in UniMath.CategoryTheory.limits.FinOrdCoproducts]
hasFinOrdProducts [definition, in UniMath.CategoryTheory.limits.FinOrdProducts]
hasHom:15 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
hasInitial [definition, in UniMath.CategoryTheory.limits.initial]
hasInitial [definition, in UniMath.CategoryTheory.limits.graphs.initial]
hasKernel [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
hasKernels [definition, in UniMath.CategoryTheory.limits.kernels]
hasLargest [definition, in UniMath.Combinatorics.ZFstructures]
hasLims [definition, in UniMath.CategoryTheory.limits.cats.limits]
hasLims [definition, in UniMath.CategoryTheory.limits.graphs.limits]
hasNNO [definition, in UniMath.CategoryTheory.NNO]
hasProducts [definition, in UniMath.CategoryTheory.limits.products]
hasPullbacks [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
hasPullbacks [definition, in UniMath.CategoryTheory.limits.pullbacks]
hasPushouts [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
hasPushouts [definition, in UniMath.CategoryTheory.limits.pushouts]
hasSmallest [definition, in UniMath.Combinatorics.WellOrderedSets]
hasSmallest_WOSubset_plus_point [definition, in UniMath.Combinatorics.WellOrderedSets]
Hass:21 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
hasTerminal [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
hasTerminal [definition, in UniMath.CategoryTheory.limits.terminal]
hasuniquerepbranch [definition, in UniMath.Combinatorics.ZFstructures]
hasZero [definition, in UniMath.CategoryTheory.limits.zero]
hasZero [definition, in UniMath.CategoryTheory.limits.graphs.zero]
hasZeroObject [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
haszero_opp [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
has_disp_cellset_disp_presheaf_prebicat [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
has_homsets_ring_precategory [lemma, in UniMath.CategoryTheory.categories.rings]
has_unit [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
has_homsets_RelMonad [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
has_homsets_HSET [lemma, in UniMath.CategoryTheory.categories.HSET.Core]
has_homsets_cat_of_elems [lemma, in UniMath.CategoryTheory.Elements]
has_homsets_setwith2binop_precategory [lemma, in UniMath.CategoryTheory.categories.setwith2binops]
has_homsets_gr_precategory [lemma, in UniMath.CategoryTheory.categories.grs]
has_homsets_precategory_from_bicat_and_ob [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
has_homsets_RelModule_Precategory [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
has_pb_bicat_of_univ_cats [definition, in UniMath.Bicategories.Colimits.Pullback]
has_pb_ump_iso_comma [definition, in UniMath.Bicategories.Colimits.Pullback]
has_pb_one_types [definition, in UniMath.Bicategories.Colimits.Pullback]
has_pb_ump_one_types [definition, in UniMath.Bicategories.Colimits.Pullback]
has_pb [definition, in UniMath.Bicategories.Colimits.Pullback]
has_pb_ump_eq [definition, in UniMath.Bicategories.Colimits.Pullback]
has_pb_ump_2 [definition, in UniMath.Bicategories.Colimits.Pullback]
has_pb_ump_1 [definition, in UniMath.Bicategories.Colimits.Pullback]
has_pb_ump [definition, in UniMath.Bicategories.Colimits.Pullback]
has_homsets_cat_of_elems [lemma, in UniMath.CategoryTheory.ElementsOp]
has_homsets_Monad [lemma, in UniMath.CategoryTheory.Monads.Monads]
has_homsets_precategory_Monad [lemma, in UniMath.CategoryTheory.Monads.Monads]
has_homsets_fld_precategory [lemma, in UniMath.CategoryTheory.categories.flds]
has_homsets_BINOP [lemma, in UniMath.CategoryTheory.category_binops]
has_homsets_loc_precategory [lemma, in UniMath.CategoryTheory.LocalizingClass]
has_homsets_full_img_sub_precategory [lemma, in UniMath.CategoryTheory.Subcategory.Full]
has_homsets_full_sub_precategory [lemma, in UniMath.CategoryTheory.Subcategory.Full]
has_homsets_hom_data [lemma, in UniMath.Bicategories.Core.Bicat]
has_homsets_path_pregroupoid [definition, in UniMath.CategoryTheory.categories.StandardCategories]
has_homsets_abgr [lemma, in UniMath.CategoryTheory.categories.abgrs]
has_homsets_mod [definition, in UniMath.CategoryTheory.categories.modules]
has_homsets_product_precategory [definition, in UniMath.CategoryTheory.ProductCategory]
has_disp_cellset_sigma_prebicat [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
has_homsets_MonadAlg [lemma, in UniMath.CategoryTheory.Monads.MonadAlgebras]
has_magnitude [definition, in UniMath.Algebra.Matrix]
has_homsets_WOSET [lemma, in UniMath.CategoryTheory.categories.wosets]
has_homsets_wosetfun_precategory [lemma, in UniMath.CategoryTheory.categories.wosets]
has_homsets_FunctorAlg [lemma, in UniMath.CategoryTheory.FunctorAlgebras]
has_homsets_op [definition, in UniMath.CategoryTheory.opp_precat]
has_homsets_opp [lemma, in UniMath.CategoryTheory.opp_precat]
has_homsets_fiber_category [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
has_folds_homsets [definition, in UniMath.Folds.folds_precat]
has_disp_cellset [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
has_homsets_slice_precat [lemma, in UniMath.CategoryTheory.slicecat]
has_homsets_shSet_precategory [definition, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
has_bifinal [definition, in UniMath.Bicategories.Colimits.Final]
has_homsets_Quotcategory [lemma, in UniMath.CategoryTheory.PreAdditive]
has_homsets_precategory_hss [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
has_homsets_precat_of_discrete_fibs [lemma, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
has_edgesets [definition, in UniMath.Combinatorics.Graph]
has_vertexset [definition, in UniMath.Combinatorics.Graph]
has_homsets_Subobjectscategory [lemma, in UniMath.CategoryTheory.Subobjects]
has_homsets_carrier_of_subcategory [definition, in UniMath.CategoryTheory.Subcategory.Core]
has_homsets_commrig_precategory [lemma, in UniMath.CategoryTheory.categories.commrigs]
has_homsets_precategory_binproduct [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
has_homsets_subprecategory_of_monics [definition, in UniMath.CategoryTheory.Monics]
has_pb_bicat_of_univ_cats [definition, in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_univ_cats [definition, in UniMath.Bicategories.Colimits.Products]
has_binprod_one_types [definition, in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_one_types [definition, in UniMath.Bicategories.Colimits.Products]
has_binprod [definition, in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_binprod_cat_ump [definition, in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_2_cell_unique [definition, in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_2_cell_pr2 [definition, in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_2_cell_pr1 [definition, in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_2_cell [definition, in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_2 [definition, in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_1 [definition, in UniMath.Bicategories.Colimits.Products]
has_binprod_ump [definition, in UniMath.Bicategories.Colimits.Products]
has_homsets_base_precategory_ob_mor [lemma, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
has_homsets_CONE [lemma, in UniMath.CategoryTheory.limits.cones]
has_trivial_2cells_discrete_prebicat [lemma, in UniMath.Bicategories.Discreteness]
has_trivial_2cells_equality [definition, in UniMath.Bicategories.Discreteness]
has_trivial_2cells [definition, in UniMath.Bicategories.Discreteness]
has_homsets_graph [lemma, in UniMath.CategoryTheory.categories.Graph]
has_homsets_rig_precategory [lemma, in UniMath.CategoryTheory.categories.rigs]
has_homsets_ComplexPreCat_AbelianPreCat [lemma, in UniMath.HomologicalAlgebra.Complexes]
has_homsets_ComplexPreCat [lemma, in UniMath.HomologicalAlgebra.Complexes]
has_homsets_induced_precategory [lemma, in UniMath.CategoryTheory.Core.TransportMorphisms]
has_homcats [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
has_homsets_LModule [lemma, in UniMath.CategoryTheory.Monads.LModules]
has_homsets_monoid_precategory [lemma, in UniMath.CategoryTheory.categories.monoids]
has_homsets_intdom_precategory [lemma, in UniMath.CategoryTheory.categories.intdoms]
has_homsets_precategory_Ptd [lemma, in UniMath.CategoryTheory.PointedFunctors]
has_homsets_Under [lemma, in UniMath.CategoryTheory.UnderCategories]
has_homsets_coalgebra [lemma, in UniMath.CategoryTheory.FunctorCoalgebras]
has_homsets_comma_precat [lemma, in UniMath.CategoryTheory.CommaCategories]
has_homsets_cComma_precat [lemma, in UniMath.CategoryTheory.CommaCategories]
has_homsets_subprecategory_of_epis [definition, in UniMath.CategoryTheory.Epis]
has_biinitial [definition, in UniMath.Bicategories.Colimits.Initial]
has_homsets_precatDelta [definition, in UniMath.CategoryTheory.SimplicialSets]
has_homsets_commring_precategory [lemma, in UniMath.CategoryTheory.categories.commrings]
has_homsets_Kleisli [lemma, in UniMath.CategoryTheory.Monads.KTriples]
has_homsets_abmonoid_precategory [lemma, in UniMath.CategoryTheory.categories.abmonoids]
has_homsets [definition, in UniMath.CategoryTheory.Core.Categories]
has:106 [binder, in UniMath.Algebra.Matrix]
hat_functorSet [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
hat_exp_functor_list [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
hat_functor [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
hat_exp_functor_list [definition, in UniMath.SubstitutionSystems.MultiSorted]
hat_functor [definition, in UniMath.SubstitutionSystems.MultiSorted]
Ha' [definition, in UniMath.CategoryTheory.FunctorAlgebras]
Ha:117 [binder, in UniMath.MoreFoundations.Propositions]
Ha:299 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
HA:50 [binder, in UniMath.CategoryTheory.Equivalences.Core]
HA:58 [binder, in UniMath.CategoryTheory.Equivalences.Core]
HA:64 [binder, in UniMath.CategoryTheory.Equivalences.Core]
HA:73 [binder, in UniMath.CategoryTheory.Equivalences.Core]
HA:78 [binder, in UniMath.CategoryTheory.Equivalences.Core]
Hbase:386 [binder, in UniMath.Topology.Filters]
Hbot:108 [binder, in UniMath.CategoryTheory.LatticeObject]
Hbot:26 [binder, in UniMath.RealNumbers.NonnegativeReals]
HB_2_1:175 [binder, in UniMath.Bicategories.Colimits.Pullback]
HB_2_1:67 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
HB_2_1:63 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
HB_2_1:261 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HB_2_1:254 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HB_2_1:246 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HB_2_1:139 [binder, in UniMath.Bicategories.Colimits.Products]
HB_2_1:137 [binder, in UniMath.Bicategories.Colimits.Products]
HB_2_1:134 [binder, in UniMath.Bicategories.Colimits.Products]
HB_2_1:131 [binder, in UniMath.Bicategories.Colimits.Products]
HB_2_1:130 [binder, in UniMath.Bicategories.Colimits.Products]
hb_hcomp [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_rassoc [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_lassoc [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_linvunit [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_lunit [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_rinvunit [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_runit [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_vcomp [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_id2 [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_comp1 [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_id1 [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_cell [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_mor [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
HB_2_1:214 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB_2_0:213 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB_2_1:208 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB_2_1:203 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB_2_1:195 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB_2_1:176 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB_2_1:171 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB:101 [binder, in UniMath.Bicategories.Core.Univalence]
HB:104 [binder, in UniMath.Bicategories.Core.TransportLaws]
HB:106 [binder, in UniMath.Bicategories.Core.Univalence]
HB:117 [binder, in UniMath.Bicategories.Core.Strictness]
Hb:118 [binder, in UniMath.MoreFoundations.Propositions]
HB:123 [binder, in UniMath.Bicategories.Core.Strictness]
HB:126 [binder, in UniMath.Bicategories.Core.Strictness]
HB:1445 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
HB:1503 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
HB:188 [binder, in UniMath.Bicategories.Core.Strictness]
HB:19 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
HB:204 [binder, in UniMath.Bicategories.Core.Strictness]
HB:216 [binder, in UniMath.Bicategories.Core.Strictness]
HB:218 [binder, in UniMath.Bicategories.Core.Strictness]
HB:220 [binder, in UniMath.Bicategories.Core.Strictness]
HB:222 [binder, in UniMath.Bicategories.Core.Strictness]
HB:23 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
HB:236 [binder, in UniMath.Bicategories.Core.AdjointUnique]
HB:294 [binder, in UniMath.MoreFoundations.PartA]
HB:50 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
HB:51 [binder, in UniMath.CategoryTheory.Equivalences.Core]
HB:55 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
HB:59 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
HB:59 [binder, in UniMath.CategoryTheory.Equivalences.Core]
HB:69 [binder, in UniMath.Bicategories.Core.YonedaLemma]
HB:76 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
HB:79 [binder, in UniMath.Bicategories.Core.TransportLaws]
HB:84 [binder, in UniMath.Bicategories.Core.TransportLaws]
HB:87 [binder, in UniMath.Bicategories.Core.Univalence]
HB:94 [binder, in UniMath.Bicategories.Core.Univalence]
HB:94 [binder, in UniMath.Bicategories.Core.TransportLaws]
HB₂_2_1:30 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
HB₂_2_1:6 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
HB₂:3 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
Hccab:108 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hccab:93 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HccLM:319 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hcomm:112 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Hcomm:130 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
Hcomm:132 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Hcomm:162 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
Hcomm:192 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Hcomm:38 [binder, in UniMath.CategoryTheory.limits.pushouts]
Hcomm:39 [binder, in UniMath.CategoryTheory.limits.pullbacks]
hcomp [definition, in UniMath.Bicategories.Core.Bicat]
hcomp [definition, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
hcomp [definition, in UniMath.CategoryTheory.Core.TwoCategories]
hcomp_functor [definition, in UniMath.Bicategories.Core.Bicat]
hcomp_functor_data [definition, in UniMath.Bicategories.Core.Bicat]
hcomp_functor [section, in UniMath.Bicategories.Core.Bicat]
hcomp_vcomp [lemma, in UniMath.Bicategories.Core.Bicat]
hcomp_identity [lemma, in UniMath.Bicategories.Core.Bicat]
hcomp_identity_right [lemma, in UniMath.Bicategories.Core.Bicat]
hcomp_identity_left [lemma, in UniMath.Bicategories.Core.Bicat]
hcomp_rassoc [lemma, in UniMath.Bicategories.Core.Bicat]
hcomp_lassoc [lemma, in UniMath.Bicategories.Core.Bicat]
hcomp_hcomp' [lemma, in UniMath.Bicategories.Core.Bicat]
hcomp_vcomp [definition, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
hcomp_functor [definition, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
hcomp_functor_data [definition, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
hcomp_bicat_weq_bicat [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_bicat_to_hcomp_bicat [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_bicat [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicat [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicat_laws [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicat_data [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicat_2_id_comp_struct [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_precategory_data [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_precategory_id_comp [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_precategory_ob_mor [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_weq_prebicategory [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicategory [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_is_prebicategory [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicategory_data [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_runitor [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_lunitor [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_associator [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicategory_id_comp [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicategory_ob_hom [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_hcomp [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_hom_cat [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_data [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_laws [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_ob [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_data [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat [library]
hcomp' [definition, in UniMath.Bicategories.Core.Bicat]
hcomp' [definition, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
hcomp' [definition, in UniMath.CategoryTheory.Core.TwoCategories]
hconj [definition, in UniMath.Foundations.Propositions]
hconjtohdisj [lemma, in UniMath.Foundations.Propositions]
hconjtohdisj' [definition, in UniMath.Algebra.FixedPointTheorems]
hconj_equiv [definition, in UniMath.Algebra.FixedPointTheorems]
hconj_absorb_hdisj [lemma, in UniMath.MoreFoundations.Propositions]
hcons [definition, in UniMath.Algebra.Universal.HVectors]
hcons_paths [lemma, in UniMath.Algebra.Universal.HVectors]
HC_2_1:199 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC_2_1:190 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC_2_1:187 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC_2_1:112 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC_2_0:109 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC_2_1:263 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HC_2_0:262 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HC_2_1:255 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HC_2_1:247 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HC_2_1:239 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HC_1:94 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC_1:13 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC_1:3 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC0 [definition, in UniMath.Bicategories.Colimits.Final]
HC0 [definition, in UniMath.Bicategories.Colimits.Initial]
HC1 [definition, in UniMath.Bicategories.Colimits.Final]
HC1 [definition, in UniMath.Bicategories.Colimits.Initial]
HC1:426 [binder, in UniMath.Bicategories.Core.Bicat]
HC2:427 [binder, in UniMath.Bicategories.Core.Bicat]
Hc:10 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
HC:100 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:102 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:11 [binder, in UniMath.Bicategories.Colimits.Initial]
HC:11 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HC:119 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
HC:15 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:156 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
HC:17 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:19 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
HC:2 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HC:204 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC:207 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC:21 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
HC:210 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC:215 [binder, in UniMath.Bicategories.Core.AdjointUnique]
HC:221 [binder, in UniMath.Bicategories.Core.AdjointUnique]
HC:226 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HC:230 [binder, in UniMath.Bicategories.Core.AdjointUnique]
HC:233 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
HC:24 [binder, in UniMath.Bicategories.Core.Univalence]
HC:259 [binder, in UniMath.CategoryTheory.limits.cats.limits]
HC:264 [binder, in UniMath.CategoryTheory.limits.cats.limits]
HC:276 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
HC:280 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
HC:31 [binder, in UniMath.Bicategories.Core.Univalence]
HC:333 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HC:34 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
HC:344 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:346 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HC:349 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
HC:350 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:351 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
HC:355 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
HC:359 [binder, in UniMath.CategoryTheory.Core.Functors]
HC:359 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:36 [binder, in UniMath.Bicategories.Core.Univalence]
HC:362 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:365 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:368 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:371 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:405 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HC:417 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HC:418 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HC:419 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HC:420 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HC:43 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
HC:5 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:51 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
HC:536 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
HC:55 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
HC:60 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
HC:60 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
HC:62 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
HC:63 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
HC:7 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:75 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
HC:9 [binder, in UniMath.Bicategories.Colimits.Initial]
HC:92 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:96 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:98 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC₁:19 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
HC₂:20 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
HC₃:18 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
HC₃:21 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
hd [definition, in UniMath.Combinatorics.Vectors]
Hdec:6 [binder, in UniMath.RealNumbers.DecidableDedekindCuts]
hdisj [definition, in UniMath.Foundations.Propositions]
hdisjtoimpl [lemma, in UniMath.Foundations.Propositions]
hdisj_comm [definition, in UniMath.Algebra.FixedPointTheorems]
hdisj_monot' [definition, in UniMath.Algebra.FixedPointTheorems]
hdisj_monot [definition, in UniMath.Algebra.FixedPointTheorems]
hdisj_in2 [definition, in UniMath.Foundations.Propositions]
hdisj_in1 [definition, in UniMath.Foundations.Propositions]
hdisj_absorb_hconj [lemma, in UniMath.MoreFoundations.Propositions]
hdisj_impl_2 [lemma, in UniMath.MoreFoundations.Propositions]
hdisj_impl_1 [lemma, in UniMath.MoreFoundations.Propositions]
Hdom:122 [binder, in UniMath.Topology.Filters]
Hdom:133 [binder, in UniMath.Topology.Filters]
Hdom:143 [binder, in UniMath.Topology.Filters]
Hdom:158 [binder, in UniMath.Topology.Filters]
HDP:68 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
HDP:81 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
HD_2_1:48 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
HD_2_1:47 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
HD_2_1:34 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
HD_2_1:33 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
HD_2_1:83 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
HD_2_1:3 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
hd_vec_map [lemma, in UniMath.Combinatorics.Vectors]
HD_2_1:194 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
HD_2_1:83 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HD_2_1:70 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HD_2_1:209 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
HD_2_1:200 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
HD_2_1:193 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
HD_2_1:82 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD_2_1:77 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD_2_1:3 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD_2_1:48 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
HD_2_1:47 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
HD_2_1:35 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
HD_2_1:34 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
HD_2_1:35 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
HD_2_1:34 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
HD_2_1:4 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HD1:256 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:259 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:345 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:351 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:360 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:363 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:366 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:369 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:372 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:374 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:376 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:257 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:260 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:346 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:352 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:361 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:364 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:367 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:370 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:373 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:375 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:377 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD:104 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD:115 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
HD:120 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
HD:125 [binder, in UniMath.CategoryTheory.limits.coproducts]
HD:130 [binder, in UniMath.CategoryTheory.limits.coproducts]
HD:133 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HD:146 [binder, in UniMath.CategoryTheory.limits.products]
HD:1489 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
HD:149 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
HD:1502 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
HD:157 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
HD:167 [binder, in UniMath.CategoryTheory.limits.binproducts]
HD:20 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
HD:210 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
HD:211 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
HD:215 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD:218 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HD:22 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
HD:224 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
HD:225 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
HD:23 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HD:231 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HD:242 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
HD:244 [binder, in UniMath.Bicategories.Core.Univalence]
HD:248 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
HD:248 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
HD:268 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HD:3 [binder, in UniMath.CategoryTheory.CategoryEquality]
HD:300 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
HD:317 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
HD:319 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
HD:322 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
HD:350 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
HD:360 [binder, in UniMath.CategoryTheory.Core.Functors]
HD:4 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
HD:4 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD:49 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
HD:5 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
HD:5 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD:50 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
HD:57 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
HD:60 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
HD:61 [binder, in UniMath.CategoryTheory.CategoryEquality]
HD:65 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
HD:68 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
HD:68 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
HD:71 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
HD:78 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD:79 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD:83 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD:84 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
HD:84 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD:85 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
HD:94 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
HD₁_2_1:349 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HD₁_2:326 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_0:324 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_0:319 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_1:200 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_1:191 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_1:188 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_1:113 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_0:110 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_1:15 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HD₁:13 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HD₁:205 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁:208 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁:211 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁:348 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HD₁:38 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
HD₁:455 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HD₁:52 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
HD₂_2_1:353 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HD₂_2:327 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_0:325 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_0:320 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_1:201 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_1:192 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_1:189 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_1:114 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_0:111 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_1:20 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HD₂:18 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HD₂:206 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂:209 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂:212 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂:352 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HD₂:39 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
HD₂:440 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HD₂:53 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
head [definition, in UniMath.Combinatorics.MoreLists]
height [definition, in UniMath.Combinatorics.OrderedSets]
height_stn [definition, in UniMath.Combinatorics.OrderedSets]
hel [definition, in UniMath.Algebra.Universal.HVectors]
helper [lemma, in UniMath.Combinatorics.ZFstructures]
helper_B [definition, in UniMath.MoreFoundations.PartA]
helper_A [definition, in UniMath.MoreFoundations.PartA]
help_disp_left_adjoint_axioms [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
help_triangle_ε [lemma, in UniMath.Bicategories.Core.AdjointUnique]
help_triangle_η [lemma, in UniMath.Bicategories.Core.AdjointUnique]
help_equation [definition, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
help1 [lemma, in UniMath.Bicategories.Core.EquivToAdjequiv]
help2 [lemma, in UniMath.Bicategories.Core.EquivToAdjequiv]
help3 [lemma, in UniMath.Bicategories.Core.EquivToAdjequiv]
help₁ [lemma, in UniMath.Bicategories.Core.AdjointUnique]
help₂ [lemma, in UniMath.Bicategories.Core.AdjointUnique]
Hempty_y:171 [binder, in UniMath.Topology.Filters]
Hempty_x:166 [binder, in UniMath.Topology.Filters]
Hempty:118 [binder, in UniMath.Topology.Filters]
Hempty:139 [binder, in UniMath.Topology.Filters]
Hempty:238 [binder, in UniMath.Topology.Filters]
Hempty:35 [binder, in UniMath.Topology.Filters]
Hempty:360 [binder, in UniMath.Topology.Filters]
Hempty:67 [binder, in UniMath.Topology.Filters]
hequiv [definition, in UniMath.MoreFoundations.Notations]
heq_d:102 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
heq_d:93 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
Heq:104 [binder, in UniMath.Bicategories.Colimits.Pullback]
hereditary [definition, in UniMath.Combinatorics.WellFoundedRelations]
Herror:28 [binder, in UniMath.RealNumbers.NonnegativeReals]
heterogeneous_substitution_into_bracket [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
heterogeneous_substitution [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
hetsubst_from_hss [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
hexists [definition, in UniMath.Foundations.Propositions]
hexistsnegtonegforall [lemma, in UniMath.Foundations.Propositions]
hexists_open_neighborhood [lemma, in UniMath.AlgebraicGeometry.Topology]
Hexists:116 [binder, in UniMath.MoreFoundations.Propositions]
HE:105 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
hE:18 [binder, in UniMath.SubstitutionSystems.LamSignature]
hE:282 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hE:31 [binder, in UniMath.SubstitutionSystems.BinProductOfSignatures]
hE:9 [binder, in UniMath.SubstitutionSystems.LamSignature]
hfalse [definition, in UniMath.Foundations.Propositions]
hfalse_hdisj [lemma, in UniMath.MoreFoundations.Propositions]
Hfalse:361 [binder, in UniMath.Topology.Filters]
hffpmap2 [definition, in UniMath.Foundations.PartA]
Hff:1004 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
Hff:112 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hff:117 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hff:128 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
HFF:164 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
Hff:219 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hff:22 [binder, in UniMath.CategoryTheory.precomp_fully_faithful]
Hff:248 [binder, in UniMath.Topology.Filters]
Hff:256 [binder, in UniMath.Topology.Filters]
Hff:288 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Hff:295 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Hff:327 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
Hff:353 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hff:366 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hff:379 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hff:400 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hff:422 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HFF:424 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hff:507 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
Hff:61 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
Hff:75 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
Hff:978 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
Hff:991 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
Hfg1:93 [binder, in UniMath.CategoryTheory.LatticeObject]
Hfg2:94 [binder, in UniMath.CategoryTheory.LatticeObject]
hfg:300 [binder, in UniMath.Foundations.PartC]
hfg:301 [binder, in UniMath.Foundations.PartC]
Hfg:85 [binder, in UniMath.CategoryTheory.LatticeObject]
Hfg:88 [binder, in UniMath.CategoryTheory.LatticeObject]
hfiber [definition, in UniMath.Foundations.PartA]
hfiberbinop [definition, in UniMath.Algebra.BinaryOperations]
hfiberbinop_path [lemma, in UniMath.Algebra.BinaryOperations]
hfiberfpmap [definition, in UniMath.Foundations.PartA]
hfiberpr1 [definition, in UniMath.Foundations.PartA]
hfiberpr2 [definition, in UniMath.Foundations.PartA]
hfibersftogf [definition, in UniMath.Foundations.PartA]
hfibersgftog [definition, in UniMath.Foundations.PartA]
hfibersgtof' [definition, in UniMath.Foundations.PartA]
hfibersg'tof [definition, in UniMath.Foundations.PartA]
hfibershomotftog [lemma, in UniMath.Foundations.PartA]
hfibershomotgtof [lemma, in UniMath.Foundations.PartA]
hfibertocoprodofhfibers [lemma, in UniMath.Foundations.PartC]
hfibertoforall [definition, in UniMath.Foundations.PartD]
hfibertohfp [definition, in UniMath.Foundations.PartA]
hfibertosec [definition, in UniMath.Foundations.UnivalenceAxiom]
hfibertriangle1 [lemma, in UniMath.Foundations.PartA]
hfibertriangle1inv0 [lemma, in UniMath.Foundations.PartA]
hfibertriangle1inv0' [lemma, in UniMath.Foundations.PartA]
hfibertriangle1' [lemma, in UniMath.Foundations.PartA]
hfibertriangle2 [lemma, in UniMath.Foundations.PartA]
hfiber_functor [definition, in UniMath.CategoryTheory.categories.HSET.Slice]
hfiber_fun [definition, in UniMath.CategoryTheory.categories.HSET.Slice]
hfiber_is_pullback [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
hfiber_hSet_pr1 [definition, in UniMath.CategoryTheory.categories.HSET.Limits]
hfiber_hSet [definition, in UniMath.CategoryTheory.categories.HSET.Limits]
hfiber_hSet [definition, in UniMath.Foundations.Sets]
hfiber_comm [definition, in UniMath.Foundations.PartA]
hfiber_in_hfiber [lemma, in UniMath.CategoryTheory.categories.HSET.Structures]
hfib1:393 [binder, in UniMath.CategoryTheory.categories.abgrs]
hfib2:394 [binder, in UniMath.CategoryTheory.categories.abgrs]
hfib:404 [binder, in UniMath.CategoryTheory.categories.abgrs]
hfib:416 [binder, in UniMath.CategoryTheory.categories.abgrs]
hfib:427 [binder, in UniMath.CategoryTheory.categories.abgrs]
hfib:430 [binder, in UniMath.CategoryTheory.categories.abgrs]
hfib:432 [binder, in UniMath.CategoryTheory.categories.abgrs]
hfib:443 [binder, in UniMath.CategoryTheory.categories.abgrs]
hfib:445 [binder, in UniMath.CategoryTheory.categories.abgrs]
hfib:447 [binder, in UniMath.CategoryTheory.categories.abgrs]
hfib:455 [binder, in UniMath.CategoryTheory.categories.abgrs]
hfib:464 [binder, in UniMath.CategoryTheory.categories.abgrs]
hfp [definition, in UniMath.Foundations.PartA]
hfpg [definition, in UniMath.Foundations.PartA]
hfpg' [definition, in UniMath.Foundations.PartA]
hfpoverX [definition, in UniMath.Foundations.PartA]
hfpoverX' [definition, in UniMath.Foundations.PartA]
hfptohfiber [definition, in UniMath.Foundations.PartA]
hfp_HLevel [definition, in UniMath.MoreFoundations.PartA]
hfp_is_of_hlevel [definition, in UniMath.MoreFoundations.PartA]
hfp_right [definition, in UniMath.Foundations.PartA]
hfp_left [lemma, in UniMath.Foundations.PartA]
hfsqstr [definition, in UniMath.Foundations.PartA]
hfsqstrtocommsqstr [definition, in UniMath.Foundations.PartA]
hfsqstrtofibseqstr [lemma, in UniMath.Foundations.PartA]
Hf':31 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf':41 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
HF':81 [binder, in UniMath.CategoryTheory.Equivalences.Core]
hf1:893 [binder, in UniMath.Algebra.BinaryOperations]
hf1:900 [binder, in UniMath.Algebra.BinaryOperations]
hf2:894 [binder, in UniMath.Algebra.BinaryOperations]
hf2:901 [binder, in UniMath.Algebra.BinaryOperations]
hf:10 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Hf:100 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
Hf:108 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hf:113 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hf:113 [binder, in UniMath.CategoryTheory.LatticeObject]
HF:120 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:124 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hf:132 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
Hf:133 [binder, in UniMath.Bicategories.Core.FullyFaithful]
HF:133 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:135 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:14 [binder, in UniMath.Bicategories.Core.FullyFaithful]
HF:14 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:14 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
Hf:141 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HF:148 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:151 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:158 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:162 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:165 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
Hf:176 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hf:19 [binder, in UniMath.CategoryTheory.limits.cats.limits]
HF:199 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:20 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:205 [binder, in UniMath.Bicategories.Core.FullyFaithful]
HF:205 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
Hf:209 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hf:21 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
HF:214 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:217 [binder, in UniMath.Bicategories.Core.FullyFaithful]
HF:218 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:22 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
HF:226 [binder, in UniMath.Bicategories.Core.FullyFaithful]
HF:234 [binder, in UniMath.Bicategories.Core.FullyFaithful]
HF:234 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:238 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:241 [binder, in UniMath.Bicategories.Core.FullyFaithful]
HF:244 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:245 [binder, in UniMath.Bicategories.Core.FullyFaithful]
HF:248 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hf:25 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Hf:25 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:25 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
HF:25 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
HF:255 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hf:2577 [binder, in UniMath.Foundations.PartA]
hf:2584 [binder, in UniMath.Foundations.PartA]
hf:2585 [binder, in UniMath.Foundations.PartA]
HF:260 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hf:2649 [binder, in UniMath.Foundations.PartA]
hf:2658 [binder, in UniMath.Foundations.PartA]
hf:2672 [binder, in UniMath.Foundations.PartA]
hf:27 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
hf:2701 [binder, in UniMath.Foundations.PartA]
hf:2715 [binder, in UniMath.Foundations.PartA]
HF:272 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hf:2744 [binder, in UniMath.Foundations.PartA]
hf:2753 [binder, in UniMath.Foundations.PartA]
HF:276 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hf:2768 [binder, in UniMath.Foundations.PartA]
Hf:28 [binder, in UniMath.Bicategories.Core.Examples.OneTypes]
HF:292 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
HF:293 [binder, in UniMath.CategoryTheory.Core.Functors]
HF:300 [binder, in UniMath.CategoryTheory.Core.Functors]
HF:307 [binder, in UniMath.CategoryTheory.Core.Functors]
hf:31 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HF:314 [binder, in UniMath.CategoryTheory.Core.Functors]
Hf:32 [binder, in UniMath.Bicategories.Core.Examples.OneTypes]
HF:320 [binder, in UniMath.CategoryTheory.Core.Functors]
HF:327 [binder, in UniMath.CategoryTheory.Core.Functors]
HF:33 [binder, in UniMath.CategoryTheory.Equivalences.Core]
HF:343 [binder, in UniMath.CategoryTheory.Core.Functors]
Hf:344 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
HF:347 [binder, in UniMath.CategoryTheory.Core.Functors]
HF:347 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:353 [binder, in UniMath.CategoryTheory.Core.Functors]
HF:353 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:362 [binder, in UniMath.CategoryTheory.Core.Functors]
Hf:364 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HF:37 [binder, in UniMath.CategoryTheory.Equivalences.Core]
HF:373 [binder, in UniMath.CategoryTheory.Core.Functors]
HF:378 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:38 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
HF:386 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
HF:4 [binder, in UniMath.CategoryTheory.Chains.Adamek]
Hf:40 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
Hf:42 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
HF:43 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
hf:47 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Hf:48 [binder, in UniMath.Bicategories.Core.FullyFaithful]
HF:49 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
HF:5 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
Hf:50 [binder, in UniMath.MoreFoundations.Sets]
HF:53 [binder, in UniMath.CategoryTheory.Equivalences.Core]
HF:61 [binder, in UniMath.CategoryTheory.Equivalences.Core]
HF:62 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:66 [binder, in UniMath.CategoryTheory.Equivalences.Core]
Hf:67 [binder, in UniMath.Bicategories.Core.FullyFaithful]
HF:69 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
hF:70 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:71 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hf:74 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
hF:74 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:75 [binder, in UniMath.CategoryTheory.Equivalences.Core]
HF:80 [binder, in UniMath.CategoryTheory.Equivalences.Core]
HF:82 [binder, in UniMath.Bicategories.Core.FullyFaithful]
HF:85 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
HF:86 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hf₁:142 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hf₁:185 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hf₂:148 [binder, in UniMath.Bicategories.Core.FullyFaithful]
HGC:72 [binder, in UniMath.Bicategories.Core.YonedaLemma]
Hgg:354 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hgg:402 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HGG:425 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
HGG:478 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hg:101 [binder, in UniMath.AlgebraicGeometry.Spec]
Hg:116 [binder, in UniMath.CategoryTheory.LatticeObject]
HG:125 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:134 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:136 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hg:15 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
Hg:177 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hg:22 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
HG:235 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:239 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:245 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:249 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:256 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:261 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hg:27 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Hg:28 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Hg:29 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Hg:31 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
Hg:31 [binder, in UniMath.AlgebraicGeometry.Spec]
HG:348 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hg:35 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
HG:354 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hg:48 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Hg:49 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hg:51 [binder, in UniMath.MoreFoundations.Sets]
Hg:52 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
HG:63 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hg:75 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
hhd [definition, in UniMath.Algebra.Universal.HVectors]
HHf:28 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hhh:403 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hhh:423 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hhh:548 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
Hhk:438 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Hhk:445 [binder, in UniMath.CategoryTheory.limits.pullbacks]
HH_bind_bind_slice [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
HH1:144 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
HH1:159 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
HH2:145 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
HH2:160 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
hh:1059 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1087 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:111 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
hh:1110 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1172 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1196 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1221 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:13 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
hh:131 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
hh:1315 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1336 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1357 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1402 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:141 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
hh:146 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:151 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
hh:151 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
hh:1537 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1547 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:156 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
hh:160 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:163 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
hh:171 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
hh:172 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:182 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
hh:186 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
hh:187 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
hh:188 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
HH:19 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
hh:199 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
hh:203 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
hh:204 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
hh:212 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
hh:214 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
HH:223 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
hh:228 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HH:234 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
hh:246 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:251 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
hh:260 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:272 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:273 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
hh:277 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
HH:289 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
hh:339 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:343 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
hh:346 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
hh:357 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
hh:377 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
HH:38 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
hh:381 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:39 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
hh:393 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
hh:398 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
hh:400 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:413 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hh:414 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
hh:421 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
hh:442 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:46 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
hh:461 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:47 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
hh:47 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
hh:480 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:49 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
hh:498 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:53 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hh:540 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
hh:544 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:547 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
hh:559 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:588 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:6 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
HH:624 [binder, in UniMath.CategoryTheory.Core.Isos]
hh:629 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:636 [binder, in UniMath.CategoryTheory.Core.Isos]
hh:648 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:66 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HH:67 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
hh:69 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
HH:69 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
hh:692 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:7 [binder, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
hh:711 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:753 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:772 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:786 [binder, in UniMath.CategoryTheory.LocalizingClass]
HH:789 [binder, in UniMath.CategoryTheory.LocalizingClass]
hh:791 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:809 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:855 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:870 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:899 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:91 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
hh:935 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:96 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
hh:96 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HH:98 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
hh₁:49 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HH₁:56 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
hh₂:50 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HH₂:57 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
Hij:17 [binder, in UniMath.CategoryTheory.Chains.Chains]
Hij:22 [binder, in UniMath.CategoryTheory.Chains.Chains]
Hij:28 [binder, in UniMath.CategoryTheory.Chains.Chains]
himpl [definition, in UniMath.Foundations.Propositions]
Himpl:115 [binder, in UniMath.Topology.Topology]
Himpl:19 [binder, in UniMath.Topology.Filters]
Himp_y:168 [binder, in UniMath.Topology.Filters]
Himp_x:163 [binder, in UniMath.Topology.Filters]
Himp:115 [binder, in UniMath.Topology.Filters]
Himp:136 [binder, in UniMath.Topology.Filters]
Himp:232 [binder, in UniMath.Topology.Filters]
Himp:32 [binder, in UniMath.Topology.Filters]
Himp:64 [binder, in UniMath.Topology.Filters]
Hind:158 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
Hind:253 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
Hind:80 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
hinhand [definition, in UniMath.Foundations.Propositions]
hinhcoprod [lemma, in UniMath.Foundations.Propositions]
hinhfun [definition, in UniMath.Foundations.Propositions]
hinhfun2 [definition, in UniMath.Foundations.Propositions]
hinhimplinhdneg [definition, in UniMath.Foundations.Propositions]
hinhpr [definition, in UniMath.Foundations.Propositions]
hinhprinv [abbreviation, in UniMath.Foundations.Propositions]
hinhuniv [definition, in UniMath.Foundations.Propositions]
hinhunivcor1 [definition, in UniMath.Foundations.Propositions]
hinhuniv' [lemma, in UniMath.Topology.Prelim]
hinhuniv2 [definition, in UniMath.Foundations.Propositions]
hinhuniv2' [lemma, in UniMath.Topology.Prelim]
Hinnerpb:353 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Hinner:352 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Hirr:229 [binder, in UniMath.Algebra.Archimedean]
Hirr:257 [binder, in UniMath.Algebra.Archimedean]
HiSj:29 [binder, in UniMath.CategoryTheory.Chains.Chains]
His:240 [binder, in UniMath.Topology.Filters]
Hi:101 [binder, in UniMath.CategoryTheory.LatticeObject]
HI:15 [binder, in UniMath.CategoryTheory.Presheaf]
Hi:363 [binder, in UniMath.CategoryTheory.limits.pullbacks]
HI:45 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
Hi:77 [binder, in UniMath.CategoryTheory.LatticeObject]
Hjoin:106 [binder, in UniMath.CategoryTheory.LatticeObject]
Hjoin:82 [binder, in UniMath.CategoryTheory.LatticeObject]
hkp:43 [binder, in UniMath.CategoryTheory.CommaCategories]
hkp:46 [binder, in UniMath.CategoryTheory.CommaCategories]
hk:104 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
Hk:112 [binder, in UniMath.CategoryTheory.limits.cats.limits]
Hk:117 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
hk:132 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
Hk:144 [binder, in UniMath.CategoryTheory.limits.pushouts]
hk:145 [binder, in UniMath.CategoryTheory.limits.pushouts]
hk:148 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
Hk:149 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
hk:15 [binder, in UniMath.CategoryTheory.limits.pushouts]
Hk:158 [binder, in UniMath.CategoryTheory.limits.pullbacks]
hk:159 [binder, in UniMath.CategoryTheory.limits.pullbacks]
hk:16 [binder, in UniMath.CategoryTheory.limits.pullbacks]
hk:167 [binder, in UniMath.CategoryTheory.limits.pushouts]
HK:17 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
hk:177 [binder, in UniMath.CategoryTheory.limits.pushouts]
hk:178 [binder, in UniMath.CategoryTheory.limits.pushouts]
hk:178 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
hk:204 [binder, in UniMath.CategoryTheory.limits.pullbacks]
hk:214 [binder, in UniMath.CategoryTheory.limits.pullbacks]
hk:215 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Hk:24 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
hk:30 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
hk:30 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
Hk:37 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
Hk:37 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
hk:38 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
hk:38 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Hk:416 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
hk:42 [binder, in UniMath.CategoryTheory.limits.pushouts]
hk:43 [binder, in UniMath.CategoryTheory.limits.pushouts]
hk:43 [binder, in UniMath.CategoryTheory.limits.pullbacks]
hk:44 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Hk:48 [binder, in UniMath.CategoryTheory.limits.coproducts]
Hk:58 [binder, in UniMath.CategoryTheory.limits.products]
hk:61 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
Hk:61 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
hk:62 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
HL [lemma, in UniMath.SubstitutionSystems.ModulesFromSignatures]
Hleft:354 [binder, in UniMath.CategoryTheory.limits.pullbacks]
HLevel [definition, in UniMath.Foundations.HLevels]
hlevelntosn [lemma, in UniMath.Foundations.PartB]
hlevelretract [lemma, in UniMath.Foundations.PartB]
HLevels [library]
hlevel_precat_subtype [definition, in UniMath.CategoryTheory.categories.Cats]
hlevel_total2 [lemma, in UniMath.MoreFoundations.PartA]
Hlt:60 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hlt:61 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hl:190 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hl:266 [binder, in UniMath.Topology.Filters]
Hl:278 [binder, in UniMath.Topology.Filters]
Hl:289 [binder, in UniMath.Topology.Filters]
Hl:61 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hmeet:104 [binder, in UniMath.CategoryTheory.LatticeObject]
Hmeet:80 [binder, in UniMath.CategoryTheory.LatticeObject]
Hminus:28 [binder, in UniMath.RealNumbers.NonnegativeRationals]
Hmm:80 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
Hmorok [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Hmult:228 [binder, in UniMath.Algebra.Archimedean]
Hmult:256 [binder, in UniMath.Algebra.Archimedean]
HM_mod [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
Hm:117 [binder, in UniMath.Bicategories.Modifications.Modification]
hm:123 [binder, in UniMath.CategoryTheory.Monads.LModules]
Hm:127 [binder, in UniMath.Bicategories.Modifications.Modification]
hm:127 [binder, in UniMath.CategoryTheory.Monads.LModules]
hm:137 [binder, in UniMath.CategoryTheory.Monads.LModules]
Hm:145 [binder, in UniMath.Bicategories.Modifications.Modification]
Hm:160 [binder, in UniMath.Algebra.Archimedean]
Hm:172 [binder, in UniMath.Algebra.Archimedean]
Hm:195 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hm:204 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hm:216 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hm:227 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hm:236 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hm:245 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hm:56 [binder, in UniMath.Bicategories.Modifications.Modification]
Hm:76 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
HM:82 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
hneg [definition, in UniMath.Foundations.Propositions]
hnil [definition, in UniMath.Algebra.Universal.HVectors]
hnnq_gt [definition, in UniMath.RealNumbers.NonnegativeRationals]
hnnq_lt [definition, in UniMath.RealNumbers.NonnegativeRationals]
hnnq_ge [definition, in UniMath.RealNumbers.NonnegativeRationals]
hnnq_le [definition, in UniMath.RealNumbers.NonnegativeRationals]
hnnq_div [definition, in UniMath.RealNumbers.NonnegativeRationals]
hnnq_inv [definition, in UniMath.RealNumbers.NonnegativeRationals]
hnnq_mult [definition, in UniMath.RealNumbers.NonnegativeRationals]
hnnq_minus [definition, in UniMath.RealNumbers.NonnegativeRationals]
hnnq_plus [definition, in UniMath.RealNumbers.NonnegativeRationals]
hnnq_one [definition, in UniMath.RealNumbers.NonnegativeRationals]
hnnq_zero [definition, in UniMath.RealNumbers.NonnegativeRationals]
hnnq_set_to_hq [definition, in UniMath.RealNumbers.NonnegativeRationals]
hnnq_set [definition, in UniMath.RealNumbers.NonnegativeRationals]
hnot:22 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
hnot:30 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
hnot:41 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
Hn1:107 [binder, in UniMath.Algebra.Archimedean]
Hn2:109 [binder, in UniMath.Algebra.Archimedean]
Hn:162 [binder, in UniMath.Algebra.Archimedean]
Hn:174 [binder, in UniMath.Algebra.Archimedean]
hn:19 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
hn:22 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
Hn:389 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hn:391 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hn:409 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hn:411 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hok [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
holds [definition, in UniMath.Algebra.Universal.EqAlgebras]
Hom [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
hom [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Hom [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
hom [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
hom [definition, in UniMath.Bicategories.Core.Bicat]
Hom [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
hom [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
hom [definition, in UniMath.Algebra.Universal.Algebras]
homcat [definition, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
homcat [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
homcomp [definition, in UniMath.Algebra.Universal.Algebras]
HomDisplayedCategory [section, in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ •• _ [notation, in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ==>[ _ ] _ [notation, in UniMath.Bicategories.DisplayedBicats.DispBicat]
HomFamily [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
HomFunctors [section, in UniMath.CategoryTheory.categories.Type.Core]
homid [definition, in UniMath.Algebra.Universal.Algebras]
homnats [definition, in UniMath.Algebra.Universal.Examples.Tests]
homo [definition, in UniMath.Paradoxes.GirardsParadox]
homogeneous_case.strength_in_signature_is_a_relative_strength [section, in UniMath.SubstitutionSystems.Signatures]
homogeneous_case.relative_strength_instantiates_to_signature [section, in UniMath.SubstitutionSystems.Signatures]
homogeneous_case [section, in UniMath.SubstitutionSystems.Signatures]
homot [definition, in UniMath.Foundations.PartA]
homotcomp [definition, in UniMath.Foundations.PartA]
homotcoprodfcomp [definition, in UniMath.Foundations.PartA]
homotcoprodfhomot [definition, in UniMath.Foundations.PartA]
homotd3g [lemma, in UniMath.Foundations.PartA]
homotffggid [definition, in UniMath.Foundations.PartA]
homotfromtococonusf [lemma, in UniMath.Foundations.PartA]
homotfun [definition, in UniMath.Foundations.PartA]
homotfuntranspos2 [lemma, in UniMath.Foundations.PartC]
homothfiberretr [definition, in UniMath.Foundations.PartA]
homothfiber1 [definition, in UniMath.Foundations.PartA]
homothfiber2 [definition, in UniMath.Foundations.PartA]
homothomotsec_natural [definition, in UniMath.Bicategories.Modifications.Examples.ApModification]
homotinvweqweq [definition, in UniMath.Foundations.PartA]
homotinvweqweq_GH_comp [definition, in UniMath.SyntheticHomotopyTheory.Circle]
homotinvweqweq_comp_3 [definition, in UniMath.MoreFoundations.MoreEquivalences]
homotinvweqweq_comp [definition, in UniMath.MoreFoundations.MoreEquivalences]
homotinvweqweq' [definition, in UniMath.MoreFoundations.MoreEquivalences]
homotinvweqweq'_comp [definition, in UniMath.MoreFoundations.MoreEquivalences]
homotinvweqweq0 [definition, in UniMath.Foundations.PartA]
homotopy_uniqueness_principle [definition, in UniMath.Induction.W.Fibered]
homotrecomplfcomp [definition, in UniMath.Foundations.PartC]
homotrecomplfhomot [definition, in UniMath.Foundations.PartC]
homotrecomplfidfun [definition, in UniMath.Foundations.PartC]
homotrecomplnat [lemma, in UniMath.Foundations.PartC]
homotrefl [definition, in UniMath.Foundations.PartA]
homotsec [abbreviation, in UniMath.MoreFoundations.PartA]
homotsec_natural [definition, in UniMath.MoreFoundations.PartA]
homotsec_natural_natural [definition, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
homotsec_natural [definition, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
homottofromcoconusf [lemma, in UniMath.Foundations.PartA]
homottranspost2t1t1t2 [definition, in UniMath.Foundations.PartC]
homottranspos0t2t1t1t2 [definition, in UniMath.Foundations.PartC]
homotweqinv [lemma, in UniMath.Foundations.PartA]
homotweqinvweq [definition, in UniMath.Foundations.PartA]
homotweqinvweqweq [definition, in UniMath.Foundations.PartA]
homotweqinv' [lemma, in UniMath.Foundations.PartA]
homotweqoncomplcomp [definition, in UniMath.Foundations.PartC]
homot_hfp_one_type [definition, in UniMath.MoreFoundations.PartA]
homot_hfp [definition, in UniMath.MoreFoundations.PartA]
homot:109 [binder, in UniMath.CategoryTheory.Core.Isos]
HomPair [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
HomPairOp [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
HomPair_2 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
HomPair_1 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
HomSetIso_from_Adjunction.ε [variable, in UniMath.CategoryTheory.Adjunctions.Core]
HomSetIso_from_Adjunction.η [variable, in UniMath.CategoryTheory.Adjunctions.Core]
HomSetIso_from_Adjunction [section, in UniMath.CategoryTheory.Adjunctions.Core]
homsets_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
homsets:142 [binder, in UniMath.CategoryTheory.Core.Categories]
homset_conj'_after_conj'_inv [lemma, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj'_inv_after_conj' [lemma, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj_inv_after_conj [lemma, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj_after_conj_inv [lemma, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj'_after_conj_inv [lemma, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj_inv_after_conj' [lemma, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj'_natural_postcomp [lemma, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj'_natural_precomp [lemma, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj_inv_natural_postcomp [lemma, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj_inv_natural_precomp [lemma, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj [definition, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj'_inv [definition, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj' [definition, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj_inv [definition, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_property [definition, in UniMath.CategoryTheory.Core.Categories]
HomtypeProperties [section, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
homtype_hlevel [definition, in UniMath.CategoryTheory.Core.Setcategories]
Hom_add [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
hom_functor [definition, in UniMath.CategoryTheory.categories.Type.Core]
hom_functor_data [definition, in UniMath.CategoryTheory.categories.Type.Core]
Hom_add [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
hom_in_precat_from_hom_in_full_subcat [definition, in UniMath.CategoryTheory.Subcategory.Full]
hom_in_subcat_from_hom_in_precat [definition, in UniMath.CategoryTheory.Subcategory.Full]
hom_precategory [definition, in UniMath.Bicategories.Core.Bicat]
hom_data [definition, in UniMath.Bicategories.Core.Bicat]
hom_ob_mor [definition, in UniMath.Bicategories.Core.Bicat]
Hom_Spaces [section, in UniMath.Bicategories.Core.Bicat]
hom_weq:345 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
hom_inv [definition, in UniMath.CategoryTheory.Adjunctions.Core]
hom_natural_postcomp [definition, in UniMath.CategoryTheory.Adjunctions.Core]
hom_natural_precomp [definition, in UniMath.CategoryTheory.Adjunctions.Core]
hom_weq [definition, in UniMath.CategoryTheory.Adjunctions.Core]
hom_weq:269 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
Hom1 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Hom1_Representation [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
hom2axiom [definition, in UniMath.Algebra.Universal.Algebras]
hom2fun [definition, in UniMath.Algebra.Universal.Algebras]
Hopen:27 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hop1:155 [binder, in UniMath.Algebra.Archimedean]
Hop1:167 [binder, in UniMath.Algebra.Archimedean]
Hop1:214 [binder, in UniMath.Algebra.Archimedean]
Hop2:215 [binder, in UniMath.Algebra.Archimedean]
Hop:234 [binder, in UniMath.Algebra.Lattice]
horcomp [definition, in UniMath.CategoryTheory.HorizontalComposition]
horcomp_as_hcomp'_pointwise [lemma, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
horcomp_post_pre [lemma, in UniMath.CategoryTheory.HorizontalComposition]
horcomp_pre_post [lemma, in UniMath.CategoryTheory.HorizontalComposition]
horcomp_id_postwhisker [lemma, in UniMath.CategoryTheory.HorizontalComposition]
horcomp_id_left [lemma, in UniMath.CategoryTheory.HorizontalComposition]
horcomp_id_prewhisker [lemma, in UniMath.CategoryTheory.HorizontalComposition]
horcomp_data [definition, in UniMath.CategoryTheory.HorizontalComposition]
horelim [lemma, in UniMath.PAdics.lemmas]
HorizontalComposition [library]
horizontal_composition.β [variable, in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.α [variable, in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.G' [variable, in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.G [variable, in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.F' [variable, in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.F [variable, in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.E [variable, in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.D [variable, in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.C [variable, in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition [section, in UniMath.CategoryTheory.HorizontalComposition]
horizontal_comp_id [lemma, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
hornRotation_ll [definition, in UniMath.MoreFoundations.PartA]
hornRotation_rl [definition, in UniMath.MoreFoundations.PartA]
hornRotation_lr [definition, in UniMath.MoreFoundations.PartA]
hornRotation_rr [definition, in UniMath.MoreFoundations.PartA]
Houterpb:355 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Ho:49 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
Ho:58 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
Ho:67 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
Ho:76 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
hProp [definition, in UniMath.Foundations.Propositions]
hPropset [definition, in UniMath.Foundations.Sets]
hProptoType [definition, in UniMath.Foundations.Propositions]
hPropUnivalence [lemma, in UniMath.Foundations.Propositions]
hProp_set [definition, in UniMath.MoreFoundations.Sets]
hProp_bounded_lattice [definition, in UniMath.Algebra.Lattice]
hProp_lattice [definition, in UniMath.Algebra.Lattice]
hProp_lattice [section, in UniMath.Algebra.Lattice]
hProp_logic [section, in UniMath.MoreFoundations.Propositions]
hProp_to_hSet [definition, in UniMath.Foundations.Sets]
hProp_eq_unit [lemma, in UniMath.CategoryTheory.categories.HSET.Structures]
Hpt:122 [binder, in UniMath.Topology.Topology]
Hp:112 [binder, in UniMath.Bicategories.Colimits.Pullback]
HP:125 [binder, in UniMath.CategoryTheory.Inductives.Lists]
HP:156 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
HP:22 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
HP:250 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
HP:27 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
HP:37 [binder, in UniMath.CategoryTheory.Inductives.Trees]
HP:49 [binder, in UniMath.CategoryTheory.Inductives.Lists]
HP:5 [binder, in UniMath.Algebra.Universal.Examples.Nat]
HP:57 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
HP:62 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
Hp:64 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
HP:65 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
HP:77 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
hq [definition, in UniMath.NumberSystems.RationalNumbers]
hqaddabgr [definition, in UniMath.NumberSystems.RationalNumbers]
hqbooleq [definition, in UniMath.NumberSystems.RationalNumbers]
hqboolneq [definition, in UniMath.NumberSystems.RationalNumbers]
hqdeceq [definition, in UniMath.NumberSystems.RationalNumbers]
hqdecneq [definition, in UniMath.NumberSystems.RationalNumbers]
hqdiv [definition, in UniMath.NumberSystems.RationalNumbers]
hqeq [definition, in UniMath.NumberSystems.RationalNumbers]
hqgeh [definition, in UniMath.NumberSystems.RationalNumbers]
hqgehandmultl [definition, in UniMath.NumberSystems.RationalNumbers]
hqgehandmultlinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqgehandmultr [definition, in UniMath.NumberSystems.RationalNumbers]
hqgehandmultrinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqgehandplusl [definition, in UniMath.NumberSystems.RationalNumbers]
hqgehandpluslinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqgehandplusr [definition, in UniMath.NumberSystems.RationalNumbers]
hqgehandplusrinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqgehchoice [definition, in UniMath.NumberSystems.RationalNumbers]
hqgehdec [definition, in UniMath.NumberSystems.RationalNumbers]
hqgehgthtrans [lemma, in UniMath.NumberSystems.RationalNumbers]
hqgehtoneghqlth [definition, in UniMath.NumberSystems.RationalNumbers]
hqgeh0andminus [lemma, in UniMath.NumberSystems.RationalNumbers]
hqgth [definition, in UniMath.NumberSystems.RationalNumbers]
hqgthandmultl [definition, in UniMath.NumberSystems.RationalNumbers]
hqgthandmultlinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqgthandmultr [definition, in UniMath.NumberSystems.RationalNumbers]
hqgthandmultrinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqgthandplusl [definition, in UniMath.NumberSystems.RationalNumbers]
hqgthandpluslinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqgthandplusr [definition, in UniMath.NumberSystems.RationalNumbers]
hqgthandplusrinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqgthdec [definition, in UniMath.NumberSystems.RationalNumbers]
hqgthgehtrans [lemma, in UniMath.NumberSystems.RationalNumbers]
hqgthorleh [definition, in UniMath.NumberSystems.RationalNumbers]
hqgthsnn [lemma, in UniMath.NumberSystems.RationalNumbers]
hqgthtogeh [definition, in UniMath.NumberSystems.RationalNumbers]
hqgthtoneghqleh [definition, in UniMath.NumberSystems.RationalNumbers]
hqgth_hqneq [lemma, in UniMath.RealNumbers.Prelim]
hqgth0andminus [lemma, in UniMath.NumberSystems.RationalNumbers]
hqinvmaponpathsminus [definition, in UniMath.NumberSystems.RationalNumbers]
hqinv_gt0 [lemma, in UniMath.RealNumbers.Prelim]
hqislinvmultinv [lemma, in UniMath.NumberSystems.RationalNumbers]
hqisrinvmultinv [lemma, in UniMath.NumberSystems.RationalNumbers]
hqldistr [lemma, in UniMath.RealNumbers.Prelim]
hqleh [definition, in UniMath.NumberSystems.RationalNumbers]
hqlehandmultl [definition, in UniMath.NumberSystems.RationalNumbers]
hqlehandmultlinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqlehandmultr [definition, in UniMath.NumberSystems.RationalNumbers]
hqlehandmultrinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqlehandplusl [definition, in UniMath.NumberSystems.RationalNumbers]
hqlehandpluslinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqlehandplusr [definition, in UniMath.NumberSystems.RationalNumbers]
hqlehandplusrinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqlehchoice [definition, in UniMath.NumberSystems.RationalNumbers]
hqlehdec [definition, in UniMath.NumberSystems.RationalNumbers]
hqlehlthtrans [lemma, in UniMath.NumberSystems.RationalNumbers]
hqlehtoneghqgth [definition, in UniMath.NumberSystems.RationalNumbers]
hqleh0andminus [lemma, in UniMath.NumberSystems.RationalNumbers]
hqlminus [lemma, in UniMath.NumberSystems.RationalNumbers]
hqlth [definition, in UniMath.NumberSystems.RationalNumbers]
hqlthandmultl [definition, in UniMath.NumberSystems.RationalNumbers]
hqlthandmultlinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqlthandmultr [definition, in UniMath.NumberSystems.RationalNumbers]
hqlthandmultrinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqlthandplusl [definition, in UniMath.NumberSystems.RationalNumbers]
hqlthandpluslinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqlthandplusr [definition, in UniMath.NumberSystems.RationalNumbers]
hqlthandplusrinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqlthdec [definition, in UniMath.NumberSystems.RationalNumbers]
hqlthlehtrans [lemma, in UniMath.NumberSystems.RationalNumbers]
hqlthnsn [definition, in UniMath.NumberSystems.RationalNumbers]
hqlthorgeh [definition, in UniMath.NumberSystems.RationalNumbers]
hqlthtoleh [definition, in UniMath.NumberSystems.RationalNumbers]
hqlthtoneghqgeh [definition, in UniMath.NumberSystems.RationalNumbers]
hqlth_between [lemma, in UniMath.RealNumbers.Prelim]
hqlth0andminus [lemma, in UniMath.NumberSystems.RationalNumbers]
hqminus [definition, in UniMath.NumberSystems.RationalNumbers]
hqminusandgeh0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqminusandgth0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqminusandleh0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqminusandlth0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmult [definition, in UniMath.NumberSystems.RationalNumbers]
hqmultabmonoid [definition, in UniMath.NumberSystems.RationalNumbers]
hqmultassoc [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultcomm [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultgeh0geh0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultgeh0gth0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultgeh0leh0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultgeh0lth0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultgth0geh0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultgth0gth0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultgth0leh0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultgth0lth0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultinv [definition, in UniMath.NumberSystems.RationalNumbers]
hqmultlcan [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultleh0geh0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultleh0gth0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultleh0leh0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultleh0lth0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultlth0geh0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultlth0gth0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultlth0leh0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultlth0lth0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultl1 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultrcan [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultr1 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmultx0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmult0x [lemma, in UniMath.NumberSystems.RationalNumbers]
hqmult2r [lemma, in UniMath.RealNumbers.Prelim]
hqneq [definition, in UniMath.NumberSystems.RationalNumbers]
hqneqchoice [definition, in UniMath.NumberSystems.RationalNumbers]
hqone [definition, in UniMath.NumberSystems.RationalNumbers]
hqplus [definition, in UniMath.NumberSystems.RationalNumbers]
hqplusassoc [lemma, in UniMath.NumberSystems.RationalNumbers]
hqpluscomm [lemma, in UniMath.NumberSystems.RationalNumbers]
hqplusdiv2 [lemma, in UniMath.RealNumbers.Prelim]
hqpluslcan [lemma, in UniMath.NumberSystems.RationalNumbers]
hqplusl0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqplusrcan [lemma, in UniMath.NumberSystems.RationalNumbers]
hqplusr0 [lemma, in UniMath.NumberSystems.RationalNumbers]
hqpos [definition, in UniMath.NumberSystems.RationalNumbers]
hqrminus [lemma, in UniMath.NumberSystems.RationalNumbers]
hqsign [definition, in UniMath.NumberSystems.RationalNumbers]
hqtype [definition, in UniMath.NumberSystems.RationalNumbers]
hqzero [definition, in UniMath.NumberSystems.RationalNumbers]
hq_to_hnnq_set [definition, in UniMath.RealNumbers.NonnegativeRationals]
hq0lehandmult [lemma, in UniMath.RealNumbers.Prelim]
hq0lehandplus [lemma, in UniMath.RealNumbers.Prelim]
hq0leminus [lemma, in UniMath.RealNumbers.Prelim]
hq1ge0 [lemma, in UniMath.RealNumbers.Prelim]
hq1_gt0 [lemma, in UniMath.RealNumbers.Prelim]
hq2eq1plus1 [lemma, in UniMath.RealNumbers.Prelim]
hq2_gt0 [lemma, in UniMath.RealNumbers.Prelim]
Hq:100 [binder, in UniMath.RealNumbers.DedekindCuts]
Hq:101 [binder, in UniMath.RealNumbers.DedekindCuts]
Hq:102 [binder, in UniMath.RealNumbers.DedekindCuts]
Hq:103 [binder, in UniMath.RealNumbers.DedekindCuts]
Hq:104 [binder, in UniMath.RealNumbers.DedekindCuts]
Hq:70 [binder, in UniMath.RealNumbers.DedekindCuts]
Hq:87 [binder, in UniMath.RealNumbers.DedekindCuts]
Hq:90 [binder, in UniMath.RealNumbers.DedekindCuts]
Hq:95 [binder, in UniMath.RealNumbers.DedekindCuts]
hQ:96 [binder, in UniMath.MoreFoundations.Propositions]
hrel [definition, in UniMath.Foundations.Sets]
hrelabgrdiff [definition, in UniMath.Algebra.Groups]
hrelabgrdiff' [definition, in UniMath.Algebra.Groups]
hrelabmonoidfrac [definition, in UniMath.Algebra.Monoids]
hrelcommringfrac0 [definition, in UniMath.Algebra.RigsAndRings]
hreldirprod [definition, in UniMath.Foundations.Sets]
hrellogeq [definition, in UniMath.Foundations.Sets]
hrelmodule_eqrel [definition, in UniMath.Algebra.Modules.Quotient]
hrel_reverse [definition, in UniMath.RealNumbers.Sets]
hrel_set [definition, in UniMath.MoreFoundations.Propositions]
hrel0abmonoidfrac [definition, in UniMath.Algebra.Monoids]
Hrn:205 [binder, in UniMath.RealNumbers.Reals]
Hrn:210 [binder, in UniMath.RealNumbers.Reals]
hr_archimedean [lemma, in UniMath.RealNumbers.Reals]
hr_abs_mult [lemma, in UniMath.RealNumbers.Reals]
hr_abs_minus [lemma, in UniMath.RealNumbers.Reals]
hr_abs_opp [lemma, in UniMath.RealNumbers.Reals]
hr_abs [definition, in UniMath.RealNumbers.Reals]
hr_ConstructiveField [definition, in UniMath.RealNumbers.Reals]
hr_ex_inv [lemma, in UniMath.RealNumbers.Reals]
hr_isrinv_pos [lemma, in UniMath.RealNumbers.Reals]
hr_islinv_pos [lemma, in UniMath.RealNumbers.Reals]
hr_isrinv_neg [lemma, in UniMath.RealNumbers.Reals]
hr_islinv_neg [lemma, in UniMath.RealNumbers.Reals]
hr_ap_0_1 [lemma, in UniMath.RealNumbers.Reals]
hr_ap_lt [lemma, in UniMath.RealNumbers.Reals]
hr_ap_rel [definition, in UniMath.RealNumbers.Reals]
hr_mult_lecompat_r' [lemma, in UniMath.RealNumbers.Reals]
hr_mult_lecompat_r [lemma, in UniMath.RealNumbers.Reals]
hr_mult_lecompat_l' [lemma, in UniMath.RealNumbers.Reals]
hr_mult_lecompat_l [lemma, in UniMath.RealNumbers.Reals]
hr_mult_ltcompat_r' [lemma, in UniMath.RealNumbers.Reals]
hr_mult_ltcompat_l' [lemma, in UniMath.RealNumbers.Reals]
hr_mult_ltcompat_l [lemma, in UniMath.RealNumbers.Reals]
hr_plus_lecompat_r [lemma, in UniMath.RealNumbers.Reals]
hr_plus_lecompat_l [lemma, in UniMath.RealNumbers.Reals]
hr_plus_ltcompat_r [lemma, in UniMath.RealNumbers.Reals]
hr_plus_ltcompat_l [lemma, in UniMath.RealNumbers.Reals]
hr_to_NR_negative [lemma, in UniMath.RealNumbers.Reals]
hr_to_NR_nonpositive [lemma, in UniMath.RealNumbers.Reals]
hr_to_NR_positive [lemma, in UniMath.RealNumbers.Reals]
hr_to_NR_nonnegative [lemma, in UniMath.RealNumbers.Reals]
hr_lt_le [lemma, in UniMath.RealNumbers.Reals]
hr_notlt_le [lemma, in UniMath.RealNumbers.Reals]
hr_le_rel [definition, in UniMath.RealNumbers.Reals]
hr_lt_rel [definition, in UniMath.RealNumbers.Reals]
hr_to_NRneg_minus [lemma, in UniMath.RealNumbers.Reals]
hr_to_NRpos_minus [lemma, in UniMath.RealNumbers.Reals]
hr_opp_minus [lemma, in UniMath.RealNumbers.Reals]
hr_to_NRneg_opp [lemma, in UniMath.RealNumbers.Reals]
hr_to_NRpos_opp [lemma, in UniMath.RealNumbers.Reals]
hr_to_NR_opp [lemma, in UniMath.RealNumbers.Reals]
hr_to_NR_one [lemma, in UniMath.RealNumbers.Reals]
hr_to_NR_zero [lemma, in UniMath.RealNumbers.Reals]
hr_to_NRneg_NR_to_hr_std [lemma, in UniMath.RealNumbers.Reals]
hr_to_NRpos_NR_to_hr_std [lemma, in UniMath.RealNumbers.Reals]
hr_to_NRnegpos_zero [lemma, in UniMath.RealNumbers.Reals]
hr_to_NRposneg_zero [lemma, in UniMath.RealNumbers.Reals]
hr_to_NR_bij [lemma, in UniMath.RealNumbers.Reals]
hr_to_NRneg_NR_to_hr [lemma, in UniMath.RealNumbers.Reals]
hr_to_NRpos_NR_to_hr [lemma, in UniMath.RealNumbers.Reals]
hr_to_NR_correct [lemma, in UniMath.RealNumbers.Reals]
hr_to_NRneg [definition, in UniMath.RealNumbers.Reals]
hr_to_NRpos [definition, in UniMath.RealNumbers.Reals]
hr_to_NR [definition, in UniMath.RealNumbers.Reals]
hr_commring [definition, in UniMath.RealNumbers.Reals]
Hr':102 [binder, in UniMath.Algebra.Archimedean]
Hr1:153 [binder, in UniMath.Algebra.Archimedean]
Hr1:165 [binder, in UniMath.Algebra.Archimedean]
Hr:101 [binder, in UniMath.Algebra.Archimedean]
Hr:116 [binder, in UniMath.Algebra.Archimedean]
Hr:13 [binder, in UniMath.RealNumbers.NonnegativeRationals]
Hr:154 [binder, in UniMath.Algebra.Archimedean]
Hr:166 [binder, in UniMath.Algebra.Archimedean]
Hr:203 [binder, in UniMath.Algebra.Archimedean]
Hr:206 [binder, in UniMath.RealNumbers.Reals]
Hr:211 [binder, in UniMath.RealNumbers.Reals]
Hr:3 [binder, in UniMath.RealNumbers.NonnegativeRationals]
HR:450 [binder, in UniMath.CategoryTheory.LocalizingClass]
hsB:33 [binder, in UniMath.Bicategories.WkCatEnrichment.Cat]
hsC'':25 [binder, in UniMath.CategoryTheory.FunctorCategory]
hsC':101 [binder, in UniMath.CategoryTheory.Core.Functors]
hsC':15 [binder, in UniMath.CategoryTheory.Core.Functors]
hsC':24 [binder, in UniMath.CategoryTheory.FunctorCategory]
hsC:103 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
hsC:106 [binder, in UniMath.CategoryTheory.opp_precat]
hsC:11 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
hsC:115 [binder, in UniMath.CategoryTheory.opp_precat]
hsC:118 [binder, in UniMath.CategoryTheory.opp_precat]
hsC:121 [binder, in UniMath.CategoryTheory.opp_precat]
hsC:124 [binder, in UniMath.CategoryTheory.opp_precat]
hsC:126 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
hsC:133 [binder, in UniMath.CategoryTheory.opp_precat]
hsC:136 [binder, in UniMath.CategoryTheory.opp_precat]
hsC:138 [binder, in UniMath.CategoryTheory.Monads.LModules]
hsC:14 [binder, in UniMath.CategoryTheory.Elements]
hsC:140 [binder, in UniMath.CategoryTheory.Monads.LModules]
hsC:146 [binder, in UniMath.CategoryTheory.Monads.LModules]
hsC:156 [binder, in UniMath.CategoryTheory.Monads.LModules]
hsC:16 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
hsC:18 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
hsC:19 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
hsC:2 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
hsC:2 [binder, in UniMath.CategoryTheory.limits.pullbacks]
hsC:20 [binder, in UniMath.CategoryTheory.FunctorCategory]
hsC:258 [binder, in UniMath.CategoryTheory.limits.cats.limits]
hsC:263 [binder, in UniMath.CategoryTheory.limits.cats.limits]
hsC:324 [binder, in UniMath.CategoryTheory.limits.pullbacks]
hsC:34 [binder, in UniMath.Bicategories.WkCatEnrichment.Cat]
hsC:44 [binder, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
hsC:64 [binder, in UniMath.CategoryTheory.limits.products]
hsC:72 [binder, in UniMath.CategoryTheory.limits.coproducts]
hsC:83 [binder, in UniMath.CategoryTheory.opp_precat]
hsC:90 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
hsD [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
hsD':208 [binder, in UniMath.CategoryTheory.FunctorCategory]
hsD':221 [binder, in UniMath.CategoryTheory.FunctorCategory]
hsD:12 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
hsD:207 [binder, in UniMath.CategoryTheory.FunctorCategory]
hsD:220 [binder, in UniMath.CategoryTheory.FunctorCategory]
hsD:35 [binder, in UniMath.Bicategories.WkCatEnrichment.Cat]
hsD:422 [binder, in UniMath.CategoryTheory.limits.pullbacks]
hsD:44 [binder, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
hsD:46 [binder, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
hsD:588 [binder, in UniMath.CategoryTheory.LocalizingClass]
hsD:606 [binder, in UniMath.CategoryTheory.LocalizingClass]
hsD:619 [binder, in UniMath.CategoryTheory.LocalizingClass]
hsD:638 [binder, in UniMath.CategoryTheory.LocalizingClass]
hsD:648 [binder, in UniMath.CategoryTheory.LocalizingClass]
hsD:662 [binder, in UniMath.CategoryTheory.LocalizingClass]
hsD:684 [binder, in UniMath.CategoryTheory.LocalizingClass]
hsD:720 [binder, in UniMath.CategoryTheory.LocalizingClass]
hsD:732 [binder, in UniMath.CategoryTheory.LocalizingClass]
hsD:740 [binder, in UniMath.CategoryTheory.LocalizingClass]
hsD:748 [binder, in UniMath.CategoryTheory.LocalizingClass]
hsD:757 [binder, in UniMath.CategoryTheory.LocalizingClass]
hsD:779 [binder, in UniMath.CategoryTheory.LocalizingClass]
hSet [definition, in UniMath.Foundations.Sets]
hset_category [definition, in UniMath.CategoryTheory.categories.HSET.Core]
HSET (cat) [notation, in UniMath.CategoryTheory.categories.HSET.Core]
hset_precategory [definition, in UniMath.CategoryTheory.categories.HSET.Core]
hset_precategory_data [definition, in UniMath.CategoryTheory.categories.HSET.Core]
hset_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.HSET.Core]
hset_fun_space [definition, in UniMath.CategoryTheory.categories.HSET.Core]
HSET_precategory [section, in UniMath.CategoryTheory.categories.HSET.Core]
HSET_over_sort [definition, in UniMath.SubstitutionSystems.STLC]
HSET_over_sort [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
HSET_Equalizers [definition, in UniMath.CategoryTheory.categories.HSET.Limits]
HSET_Pullbacks [definition, in UniMath.CategoryTheory.categories.HSET.Limits]
HSET_Structures [section, in UniMath.CategoryTheory.categories.HSET.Limits]
HSET_univalent_category [definition, in UniMath.CategoryTheory.categories.HSET.Univalence]
hset_id_weq_iso_is [lemma, in UniMath.CategoryTheory.categories.HSET.Univalence]
hset_id_weq_iso [definition, in UniMath.CategoryTheory.categories.HSET.Univalence]
HSET_over_sort [definition, in UniMath.SubstitutionSystems.CCS]
hset_equiv_weq_iso [definition, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hset_equiv_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hset_iso_equiv_weq [definition, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hset_iso_equiv_is_equiv [lemma, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hset_equiv_iso [lemma, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hset_equiv_is_iso [lemma, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hset_iso_equiv [lemma, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hset_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hSet_rect [lemma, in UniMath.Foundations.Sets]
hSet_univalence [lemma, in UniMath.Foundations.Sets]
hSet_univalence_map [definition, in UniMath.Foundations.Sets]
HSET_over_sort [definition, in UniMath.SubstitutionSystems.MultiSorted]
hsE:112 [binder, in UniMath.CategoryTheory.opp_precat]
hsE:36 [binder, in UniMath.Bicategories.WkCatEnrichment.Cat]
hsfg:298 [binder, in UniMath.Foundations.PartC]
hsfg:299 [binder, in UniMath.Foundations.PartC]
hsF:40 [binder, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
hsF:48 [binder, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
HSij:23 [binder, in UniMath.CategoryTheory.Chains.Chains]
hsort [lemma, in UniMath.SubstitutionSystems.CCS_alt]
hsort [lemma, in UniMath.SubstitutionSystems.STLC_alt]
Hsort:67 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
hss [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
hssD:758 [binder, in UniMath.CategoryTheory.LocalizingClass]
hssMor [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
hssMor_comp [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
hssMor_id [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
hssMor_eq [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
hssMor_eq1 [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
hssMor_Monad_Mor_eq [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
hss_InitMor_unique [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
hss_InitMor [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
hss_category [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
hss_precategory [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
hss_precategory_data [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
hss_obmor [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
hss_to_monad_functor [definition, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
hss_to_monad_functor [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
hss_to_monad_functor_data [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
hss_InitMor_unique [lemma, in UniMath.SubstitutionSystems.LiftingInitial]
hss_InitMor [definition, in UniMath.SubstitutionSystems.LiftingInitial]
Hss:19 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
Hss:26 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
hss:771 [binder, in UniMath.CategoryTheory.LocalizingClass]
HST:89 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
HST:98 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
hsubtype [definition, in UniMath.Foundations.Sets]
hsubtypeNonnegativeRationals_to_NonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
hsubtype_obs_isSheaf [definition, in UniMath.CategoryTheory.GrothendieckTopos]
hsubtype_to_preZFS_Branch_hsubtype [definition, in UniMath.Combinatorics.ZFstructures]
hsubtype_mors_isMonic [definition, in UniMath.CategoryTheory.Monics]
hsubtype_obs_isMonic [definition, in UniMath.CategoryTheory.Monics]
hsubtype_mors_isEpi [definition, in UniMath.CategoryTheory.Epis]
hsubtype_obs_isEpi [definition, in UniMath.CategoryTheory.Epis]
hsubtype_rect [lemma, in UniMath.MoreFoundations.Subtypes]
hsubtype_univalence [lemma, in UniMath.MoreFoundations.Subtypes]
Hsub:128 [binder, in UniMath.MoreFoundations.Sets]
Hsub:130 [binder, in UniMath.MoreFoundations.Sets]
hsX:221 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
hsX:228 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
hs:100 [binder, in UniMath.CategoryTheory.Core.Functors]
hs:101 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:107 [binder, in UniMath.CategoryTheory.Core.Functors]
hs:109 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:118 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:12 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:120 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:122 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
hs:13 [binder, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
hs:130 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
hs:14 [binder, in UniMath.CategoryTheory.Core.Functors]
hs:14 [binder, in UniMath.CategoryTheory.Monads.LModules]
hs:145 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:147 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:147 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
hs:158 [binder, in UniMath.MoreFoundations.PartA]
hs:16 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
hs:16 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:166 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:17 [binder, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
hs:174 [binder, in UniMath.CategoryTheory.catiso]
hs:178 [binder, in UniMath.CategoryTheory.Core.Categories]
hs:182 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
hs:183 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
hs:184 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
hs:19 [binder, in UniMath.CategoryTheory.Monads.KleisliCategory]
hs:193 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:212 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Hs:216 [binder, in UniMath.Algebra.Archimedean]
hs:230 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:236 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:242 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:245 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:248 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:249 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:253 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:266 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
hs:268 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:27 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:27 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
hs:274 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:287 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:29 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
hs:295 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:30 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:302 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:309 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:31 [binder, in UniMath.CategoryTheory.limits.equalizers]
hs:31 [binder, in UniMath.CategoryTheory.limits.coequalizers]
hs:31 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
hs:316 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:32 [binder, in UniMath.CategoryTheory.Monads.LModules]
hs:324 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:33 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
hs:331 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:338 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:345 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:353 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:360 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:367 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:374 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:38 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:387 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:4 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
hs:41 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
hs:42 [binder, in UniMath.CategoryTheory.Monads.Monads]
Hs:44 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
hs:46 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:47 [binder, in UniMath.CategoryTheory.Core.Functors]
hs:48 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:5 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
hs:51 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:514 [binder, in UniMath.CategoryTheory.limits.pullbacks]
hs:52 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
hs:53 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:539 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Hs:55 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
hs:56 [binder, in UniMath.CategoryTheory.Core.Univalence]
Hs:56 [binder, in UniMath.SubstitutionSystems.MultiSorted]
hs:568 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:57 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
hs:573 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:58 [binder, in UniMath.CategoryTheory.opp_precat]
hs:59 [binder, in UniMath.CategoryTheory.Core.Isos]
hs:59 [binder, in UniMath.Folds.folds_precat]
Hs:59 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
hs:60 [binder, in UniMath.CategoryTheory.FunctorCategory]
Hs:62 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
Hs:63 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
hs:65 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
hs:66 [binder, in UniMath.CategoryTheory.Monads.LModules]
hs:67 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:71 [binder, in UniMath.CategoryTheory.Core.Univalence]
hs:71 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
hs:74 [binder, in UniMath.CategoryTheory.FunctorCategory]
Hs:75 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
hs:78 [binder, in UniMath.CategoryTheory.Monads.LModules]
hs:80 [binder, in UniMath.CategoryTheory.FunctorCategory]
HS:86 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
hs:87 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:9 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:93 [binder, in UniMath.CategoryTheory.FunctorCategory]
hs:93 [binder, in UniMath.CategoryTheory.Epis]
hs:94 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
HS:95 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
hs:95 [binder, in UniMath.CategoryTheory.Core.Functors]
Hti:84 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Hti:93 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
htl [definition, in UniMath.Algebra.Universal.HVectors]
Htop:110 [binder, in UniMath.CategoryTheory.LatticeObject]
Htra:205 [binder, in UniMath.Algebra.Archimedean]
htrue [definition, in UniMath.Foundations.Propositions]
Htrue_y:169 [binder, in UniMath.Topology.Filters]
Htrue_x:164 [binder, in UniMath.Topology.Filters]
htrue_hconj [lemma, in UniMath.MoreFoundations.Propositions]
Htrue:116 [binder, in UniMath.Topology.Filters]
Htrue:117 [binder, in UniMath.Topology.Topology]
Htrue:137 [binder, in UniMath.Topology.Filters]
Htrue:20 [binder, in UniMath.Topology.Filters]
Htrue:234 [binder, in UniMath.Topology.Filters]
Htrue:33 [binder, in UniMath.Topology.Filters]
Htrue:65 [binder, in UniMath.Topology.Filters]
htype [lemma, in UniMath.SubstitutionSystems.PCF_alt]
HT_mod [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
Ht':22 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht':24 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht':26 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:16 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:45 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:49 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:51 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:55 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:57 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:64 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:17 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:46 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:50 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:52 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:56 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:58 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:65 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht3:18 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht3:59 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht:13 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht:21 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht:23 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht:25 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht:71 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht:80 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
Ht:85 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
HT:87 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
HT:96 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
HU [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
Hunit:22 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Huniv:183 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
Huniv:200 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
HUp:81 [binder, in UniMath.AlgebraicGeometry.Spec]
HUp:90 [binder, in UniMath.AlgebraicGeometry.Spec]
HU:403 [binder, in UniMath.RealNumbers.NonnegativeReals]
HU:407 [binder, in UniMath.RealNumbers.NonnegativeReals]
hU:44 [binder, in UniMath.CategoryTheory.EpiFacts]
hvec [definition, in UniMath.Algebra.Universal.HVectors]
HVectors [library]
hvec_vec_fill [lemma, in UniMath.Algebra.Universal.HVectors]
HVp:82 [binder, in UniMath.AlgebraicGeometry.Spec]
HVp:91 [binder, in UniMath.AlgebraicGeometry.Spec]
hv:11 [binder, in UniMath.Algebra.Universal.HVectors]
hv:19 [binder, in UniMath.Algebra.Universal.HVectors]
hv:23 [binder, in UniMath.Algebra.Universal.HVectors]
hv:26 [binder, in UniMath.Algebra.Universal.HVectors]
hW:43 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Hx0:100 [binder, in UniMath.Algebra.ConstructiveStructures]
Hx0:129 [binder, in UniMath.Algebra.ConstructiveStructures]
Hx0:131 [binder, in UniMath.Algebra.ConstructiveStructures]
Hx0:184 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hx0:189 [binder, in UniMath.Algebra.ConstructiveStructures]
Hx0:200 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hx0:202 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hx0:21 [binder, in UniMath.Algebra.ConstructiveStructures]
Hx0:220 [binder, in UniMath.Algebra.ConstructiveStructures]
Hx0:222 [binder, in UniMath.Algebra.ConstructiveStructures]
Hx0:331 [binder, in UniMath.RealNumbers.Reals]
Hx0:333 [binder, in UniMath.RealNumbers.Reals]
Hx0:465 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hx0:48 [binder, in UniMath.Algebra.ConstructiveStructures]
Hx0:50 [binder, in UniMath.Algebra.ConstructiveStructures]
Hx0:636 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hx0:638 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hx1:144 [binder, in UniMath.RealNumbers.NonnegativeReals]
HX:10 [binder, in UniMath.Bicategories.Colimits.Final]
Hx:107 [binder, in UniMath.Algebra.DivisionRig]
Hx:109 [binder, in UniMath.Algebra.DivisionRig]
Hx:121 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hx:131 [binder, in UniMath.RealNumbers.NonnegativeReals]
Hx:132 [binder, in UniMath.MoreFoundations.Sets]
Hx:148 [binder, in UniMath.Topology.Filters]
HX:15 [binder, in UniMath.Bicategories.Modifications.Examples.ApModification]
Hx:15 [binder, in UniMath.RealNumbers.Sets]
HX:17 [binder, in UniMath.Bicategories.Colimits.Final]
HX:17 [binder, in UniMath.Bicategories.Colimits.Initial]
hx:18 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
hX:23 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HX:23 [binder, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
HX:24 [binder, in UniMath.Bicategories.Colimits.Initial]
HX:26 [binder, in UniMath.Bicategories.Colimits.Final]
Hx:26 [binder, in UniMath.AlgebraicGeometry.Topology]
Hx:27 [binder, in UniMath.AlgebraicGeometry.Topology]
hX:29 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HX:3 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
Hx:313 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
Hx:319 [binder, in UniMath.Topology.Topology]
Hx:32 [binder, in UniMath.RealNumbers.NonnegativeRationals]
HX:33 [binder, in UniMath.Bicategories.Colimits.Initial]
Hx:341 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
Hx:38 [binder, in UniMath.Algebra.DivisionRig]
HX:38 [binder, in UniMath.Bicategories.Colimits.Final]
Hx:40 [binder, in UniMath.Algebra.DivisionRig]
HX:41 [binder, in UniMath.Bicategories.Colimits.Final]
Hx:418 [binder, in UniMath.Topology.Topology]
Hx:44 [binder, in UniMath.Algebra.DivisionRig]
hX:44 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HX:44 [binder, in UniMath.Bicategories.Colimits.Final]
HX:45 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
HX:45 [binder, in UniMath.Bicategories.Colimits.Initial]
hX:457 [binder, in UniMath.Combinatorics.WellOrderedSets]
Hx:46 [binder, in UniMath.Algebra.DivisionRig]
hX:461 [binder, in UniMath.Combinatorics.WellOrderedSets]
HX:47 [binder, in UniMath.Bicategories.Colimits.Final]
HX:48 [binder, in UniMath.Bicategories.Colimits.Initial]
HX:49 [binder, in UniMath.Bicategories.Colimits.Final]
HX:51 [binder, in UniMath.Bicategories.Colimits.Initial]
HX:52 [binder, in UniMath.Bicategories.Colimits.Final]
HX:53 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
HX:54 [binder, in UniMath.Bicategories.Colimits.Initial]
HX:55 [binder, in UniMath.Bicategories.Colimits.Final]
HX:56 [binder, in UniMath.Bicategories.Colimits.Initial]
HX:58 [binder, in UniMath.Bicategories.Colimits.Final]
HX:59 [binder, in UniMath.Bicategories.Colimits.Initial]
hx:60 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
HX:61 [binder, in UniMath.Bicategories.Colimits.Final]
HX:62 [binder, in UniMath.Bicategories.Colimits.Initial]
HX:64 [binder, in UniMath.Bicategories.Colimits.Final]
HX:65 [binder, in UniMath.Bicategories.Colimits.Initial]
HX:67 [binder, in UniMath.Bicategories.Colimits.Final]
HX:68 [binder, in UniMath.Bicategories.Colimits.Initial]
HX:70 [binder, in UniMath.Bicategories.Colimits.Final]
HX:71 [binder, in UniMath.Bicategories.Colimits.Initial]
HX:74 [binder, in UniMath.Bicategories.Colimits.Initial]
HX:77 [binder, in UniMath.Bicategories.Colimits.Initial]
hX:8 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Hx:8 [binder, in UniMath.RealNumbers.Sets]
Hx:80 [binder, in UniMath.Algebra.DivisionRig]
Hx:82 [binder, in UniMath.Algebra.DivisionRig]
HX:909 [binder, in UniMath.MoreFoundations.PartA]
HX₁:82 [binder, in UniMath.Bicategories.Colimits.Final]
HX₁:90 [binder, in UniMath.Bicategories.Colimits.Initial]
HX₂:84 [binder, in UniMath.Bicategories.Colimits.Final]
HX₂:92 [binder, in UniMath.Bicategories.Colimits.Initial]
HX₃:86 [binder, in UniMath.Bicategories.Colimits.Final]
HX₃:94 [binder, in UniMath.Bicategories.Colimits.Initial]
Hyp':90 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Hyp:349 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Hyp:89 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Hy0:104 [binder, in UniMath.Algebra.ConstructiveStructures]
Hy0:193 [binder, in UniMath.Algebra.ConstructiveStructures]
Hy0:25 [binder, in UniMath.Algebra.ConstructiveStructures]
Hy0:468 [binder, in UniMath.RealNumbers.NonnegativeReals]
HY:16 [binder, in UniMath.Bicategories.Modifications.Examples.ApModification]
hy:19 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
hY:24 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HY:24 [binder, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
hY:30 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HY:4 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
hY:45 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
hy:61 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Hy:71 [binder, in UniMath.Algebra.Archimedean]
Hy:82 [binder, in UniMath.Algebra.Archimedean]
hY:9 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HY:910 [binder, in UniMath.MoreFoundations.PartA]
hz [definition, in UniMath.NumberSystems.Integers]
hzabsval [definition, in UniMath.NumberSystems.Integers]
hzabsvalandlth [lemma, in UniMath.PAdics.lemmas]
hzabsvalandminuspos [lemma, in UniMath.PAdics.lemmas]
hzabsvalandmult [lemma, in UniMath.NumberSystems.Integers]
hzabsvalandnattohz [lemma, in UniMath.PAdics.lemmas]
hzabsvalandplusneg [lemma, in UniMath.PAdics.lemmas]
hzabsvalandplusnonneg [lemma, in UniMath.PAdics.lemmas]
hzabsvaland1 [lemma, in UniMath.PAdics.lemmas]
hzabsvalchoice [lemma, in UniMath.PAdics.lemmas]
hzabsvaleq0 [lemma, in UniMath.NumberSystems.Integers]
hzabsvalgeh0 [lemma, in UniMath.NumberSystems.Integers]
hzabsvalgth0 [lemma, in UniMath.NumberSystems.Integers]
hzabsvalint [definition, in UniMath.NumberSystems.Integers]
hzabsvalintcomp [lemma, in UniMath.NumberSystems.Integers]
hzabsvalleh0 [lemma, in UniMath.NumberSystems.Integers]
hzabsvallth0 [lemma, in UniMath.NumberSystems.Integers]
hzabsvalnat [definition, in UniMath.NumberSystems.Integers]
hzabsvalneq0 [lemma, in UniMath.PAdics.lemmas]
hzabsvalneq0 [definition, in UniMath.NumberSystems.Integers]
hzabsval0 [lemma, in UniMath.NumberSystems.Integers]
hzaddabgr [definition, in UniMath.NumberSystems.Integers]
hzaddinvplus [lemma, in UniMath.PAdics.lemmas]
hzbooleq [definition, in UniMath.NumberSystems.Integers]
hzbooleqisi [lemma, in UniMath.NumberSystems.Integers]
hzbooleqisi' [lemma, in UniMath.NumberSystems.Integers]
hzbooleqissi [lemma, in UniMath.NumberSystems.Integers]
hzboolneq [definition, in UniMath.NumberSystems.Integers]
hzdeceq [definition, in UniMath.NumberSystems.Integers]
hzdecneq [definition, in UniMath.NumberSystems.Integers]
hzdichot [lemma, in UniMath.NumberSystems.Integers]
hzdiv [definition, in UniMath.PAdics.z_mod_p]
hzdivandminus [lemma, in UniMath.PAdics.z_mod_p]
hzdivandmultl [lemma, in UniMath.PAdics.z_mod_p]
hzdivandmultr [lemma, in UniMath.PAdics.z_mod_p]
hzdivand0 [lemma, in UniMath.PAdics.z_mod_p]
hzdivequationmod [definition, in UniMath.PAdics.z_mod_p]
hzdivhzabsval [lemma, in UniMath.PAdics.z_mod_p]
hzdivisrefl [lemma, in UniMath.PAdics.z_mod_p]
hzdivistrans [lemma, in UniMath.PAdics.z_mod_p]
hzdivlinearcombleft [lemma, in UniMath.PAdics.z_mod_p]
hzdivlinearcombright [lemma, in UniMath.PAdics.z_mod_p]
hzdiv0 [definition, in UniMath.PAdics.z_mod_p]
hzeq [definition, in UniMath.NumberSystems.Integers]
hzeqbooleqii [lemma, in UniMath.NumberSystems.Integers]
hzeqeisi [lemma, in UniMath.NumberSystems.Integers]
hzeqeissi [lemma, in UniMath.NumberSystems.Integers]
hzeqisi [lemma, in UniMath.NumberSystems.Integers]
hzeqissi [lemma, in UniMath.NumberSystems.Integers]
hzeqnmplusr [lemma, in UniMath.NumberSystems.Integers]
hzeqnmplusr' [lemma, in UniMath.NumberSystems.Integers]
hzeqpii [lemma, in UniMath.NumberSystems.Integers]
hzeqsnmnsm [lemma, in UniMath.NumberSystems.Integers]
hzfpstimesnonzero [lemma, in UniMath.PAdics.padics]
hzfpstimeswhenzero [lemma, in UniMath.PAdics.padics]
hzgcd [definition, in UniMath.PAdics.z_mod_p]
hzgcdandminusl [lemma, in UniMath.PAdics.z_mod_p]
hzgcdandminusr [lemma, in UniMath.PAdics.z_mod_p]
hzgcdsymm [lemma, in UniMath.PAdics.z_mod_p]
hzgeh [definition, in UniMath.NumberSystems.Integers]
hzgehandmultl [definition, in UniMath.NumberSystems.Integers]
hzgehandmultlinv [definition, in UniMath.NumberSystems.Integers]
hzgehandmultr [definition, in UniMath.NumberSystems.Integers]
hzgehandmultrinv [definition, in UniMath.NumberSystems.Integers]
hzgehandplusl [definition, in UniMath.NumberSystems.Integers]
hzgehandpluslinv [definition, in UniMath.NumberSystems.Integers]
hzgehandplusr [definition, in UniMath.NumberSystems.Integers]
hzgehandplusrinv [definition, in UniMath.NumberSystems.Integers]
hzgehchoice [definition, in UniMath.NumberSystems.Integers]
hzgehchoice2 [lemma, in UniMath.NumberSystems.Integers]
hzgehdec [definition, in UniMath.NumberSystems.Integers]
hzgehgthtrans [lemma, in UniMath.NumberSystems.Integers]
hzgehsntogth [lemma, in UniMath.NumberSystems.Integers]
hzgehtogehs [definition, in UniMath.NumberSystems.Integers]
hzgehtoneghzlth [definition, in UniMath.NumberSystems.Integers]
hzgeh0andminus [lemma, in UniMath.NumberSystems.Integers]
hzgth [definition, in UniMath.NumberSystems.Integers]
hzgthandmultl [definition, in UniMath.NumberSystems.Integers]
hzgthandmultlinv [definition, in UniMath.NumberSystems.Integers]
hzgthandmultr [definition, in UniMath.NumberSystems.Integers]
hzgthandmultrinv [definition, in UniMath.NumberSystems.Integers]
hzgthandplusl [definition, in UniMath.NumberSystems.Integers]
hzgthandpluslinv [definition, in UniMath.NumberSystems.Integers]
hzgthandplusr [definition, in UniMath.NumberSystems.Integers]
hzgthandplusrinv [definition, in UniMath.NumberSystems.Integers]
hzgthchoice2 [lemma, in UniMath.NumberSystems.Integers]
hzgthdec [definition, in UniMath.NumberSystems.Integers]
hzgthgehtrans [lemma, in UniMath.NumberSystems.Integers]
hzgthorleh [definition, in UniMath.NumberSystems.Integers]
hzgthsnn [lemma, in UniMath.NumberSystems.Integers]
hzgthsntogeh [lemma, in UniMath.PAdics.lemmas]
hzgthsntogeh [lemma, in UniMath.NumberSystems.Integers]
hzgthtogeh [definition, in UniMath.NumberSystems.Integers]
hzgthtogehsn [lemma, in UniMath.NumberSystems.Integers]
hzgthtogths [definition, in UniMath.NumberSystems.Integers]
hzgthtoneghzleh [definition, in UniMath.NumberSystems.Integers]
hzgthtoneq [lemma, in UniMath.NumberSystems.Integers]
hzgth0andminus [lemma, in UniMath.NumberSystems.Integers]
hzhztohq [definition, in UniMath.NumberSystems.RationalNumbers]
hzintdom [definition, in UniMath.NumberSystems.Integers]
hzinvmaponpathsminus [definition, in UniMath.NumberSystems.Integers]
hzldistr [definition, in UniMath.PAdics.lemmas]
hzleh [definition, in UniMath.NumberSystems.Integers]
hzlehandmultl [definition, in UniMath.NumberSystems.Integers]
hzlehandmultlinv [definition, in UniMath.NumberSystems.Integers]
hzlehandmultr [definition, in UniMath.NumberSystems.Integers]
hzlehandmultrinv [definition, in UniMath.NumberSystems.Integers]
hzlehandplusl [definition, in UniMath.NumberSystems.Integers]
hzlehandpluslinv [definition, in UniMath.NumberSystems.Integers]
hzlehandplusr [definition, in UniMath.NumberSystems.Integers]
hzlehandplusrinv [definition, in UniMath.NumberSystems.Integers]
hzlehchoice [definition, in UniMath.NumberSystems.Integers]
hzlehchoice2 [lemma, in UniMath.NumberSystems.Integers]
hzlehdec [definition, in UniMath.NumberSystems.Integers]
hzlehlthtrans [lemma, in UniMath.NumberSystems.Integers]
hzlehsntolth [lemma, in UniMath.NumberSystems.Integers]
hzlehtolehs [definition, in UniMath.NumberSystems.Integers]
hzlehtoneghzgth [definition, in UniMath.NumberSystems.Integers]
hzleh0andminus [lemma, in UniMath.NumberSystems.Integers]
hzleh0remaindermod [definition, in UniMath.PAdics.z_mod_p]
hzlminus [lemma, in UniMath.NumberSystems.Integers]
hzlth [definition, in UniMath.NumberSystems.Integers]
hzlthandmultl [definition, in UniMath.NumberSystems.Integers]
hzlthandmultlinv [definition, in UniMath.NumberSystems.Integers]
hzlthandmultr [definition, in UniMath.NumberSystems.Integers]
hzlthandmultrinv [definition, in UniMath.NumberSystems.Integers]
hzlthandplusl [definition, in UniMath.NumberSystems.Integers]
hzlthandpluslinv [definition, in UniMath.NumberSystems.Integers]
hzlthandplusr [definition, in UniMath.NumberSystems.Integers]
hzlthandplusrinv [definition, in UniMath.NumberSystems.Integers]
hzlthchoice2 [lemma, in UniMath.NumberSystems.Integers]
hzlthdec [definition, in UniMath.NumberSystems.Integers]
hzlthlehtrans [lemma, in UniMath.NumberSystems.Integers]
hzlthminus [lemma, in UniMath.PAdics.lemmas]
hzlthminusequiv [lemma, in UniMath.PAdics.lemmas]
hzlthminusswap [lemma, in UniMath.PAdics.lemmas]
hzlthnsn [definition, in UniMath.NumberSystems.Integers]
hzlthorgeh [definition, in UniMath.NumberSystems.Integers]
hzlthremaindermodmod [definition, in UniMath.PAdics.z_mod_p]
hzlthsntoleh [lemma, in UniMath.PAdics.lemmas]
hzlthsntoleh [lemma, in UniMath.NumberSystems.Integers]
hzlthtoleh [definition, in UniMath.NumberSystems.Integers]
hzlthtolehsn [lemma, in UniMath.NumberSystems.Integers]
hzlthtolths [definition, in UniMath.NumberSystems.Integers]
hzlthtoneghzgeh [definition, in UniMath.NumberSystems.Integers]
hzlthtoneq [lemma, in UniMath.NumberSystems.Integers]
hzlth0andminus [lemma, in UniMath.NumberSystems.Integers]
hzminus [definition, in UniMath.NumberSystems.Integers]
hzminusandgeh0 [lemma, in UniMath.NumberSystems.Integers]
hzminusandgth0 [lemma, in UniMath.NumberSystems.Integers]
hzminusandleh0 [lemma, in UniMath.NumberSystems.Integers]
hzminusandlth0 [lemma, in UniMath.NumberSystems.Integers]
hzminusplus [lemma, in UniMath.NumberSystems.Integers]
hzminuszero [definition, in UniMath.NumberSystems.Integers]
hzmod [definition, in UniMath.PAdics.z_mod_p]
hzmodcompatmultl [lemma, in UniMath.PAdics.z_mod_p]
hzmodcompatmultr [lemma, in UniMath.PAdics.z_mod_p]
hzmodcompatplusl [lemma, in UniMath.PAdics.z_mod_p]
hzmodcompatplusr [lemma, in UniMath.PAdics.z_mod_p]
hzmodisaprop [lemma, in UniMath.PAdics.z_mod_p]
hzmodiseqrel [lemma, in UniMath.PAdics.z_mod_p]
hzmodisrefl [lemma, in UniMath.PAdics.z_mod_p]
hzmodisringeqrel [lemma, in UniMath.PAdics.z_mod_p]
hzmodissymm [lemma, in UniMath.PAdics.z_mod_p]
hzmodistrans [lemma, in UniMath.PAdics.z_mod_p]
hzmodp [definition, in UniMath.PAdics.z_mod_p]
hzmodprimeinv [lemma, in UniMath.PAdics.z_mod_p]
hzmult [definition, in UniMath.NumberSystems.Integers]
hzmultabmonoid [definition, in UniMath.NumberSystems.Integers]
hzmultassoc [lemma, in UniMath.NumberSystems.Integers]
hzmultcomm [lemma, in UniMath.NumberSystems.Integers]
hzmultgeh0geh0 [lemma, in UniMath.NumberSystems.Integers]
hzmultgeh0gth0 [lemma, in UniMath.NumberSystems.Integers]
hzmultgeh0leh0 [lemma, in UniMath.NumberSystems.Integers]
hzmultgeh0lth0 [lemma, in UniMath.NumberSystems.Integers]
hzmultgth0geh0 [lemma, in UniMath.NumberSystems.Integers]
hzmultgth0gth0 [lemma, in UniMath.NumberSystems.Integers]
hzmultgth0leh0 [lemma, in UniMath.NumberSystems.Integers]
hzmultgth0lth0 [lemma, in UniMath.NumberSystems.Integers]
hzmultlcan [lemma, in UniMath.NumberSystems.Integers]
hzmultleh0geh0 [lemma, in UniMath.NumberSystems.Integers]
hzmultleh0gth0 [lemma, in UniMath.NumberSystems.Integers]
hzmultleh0leh0 [lemma, in UniMath.NumberSystems.Integers]
hzmultleh0lth0 [lemma, in UniMath.NumberSystems.Integers]
hzmultlth0geh0 [lemma, in UniMath.NumberSystems.Integers]
hzmultlth0gth0 [lemma, in UniMath.NumberSystems.Integers]
hzmultlth0leh0 [lemma, in UniMath.NumberSystems.Integers]
hzmultlth0lth0 [lemma, in UniMath.NumberSystems.Integers]
hzmultl1 [lemma, in UniMath.NumberSystems.Integers]
hzmultrcan [lemma, in UniMath.NumberSystems.Integers]
hzmultr1 [lemma, in UniMath.NumberSystems.Integers]
hzmultx0 [lemma, in UniMath.NumberSystems.Integers]
hzmult0x [lemma, in UniMath.NumberSystems.Integers]
hzneq [definition, in UniMath.NumberSystems.Integers]
hzneqchoice [definition, in UniMath.NumberSystems.Integers]
hzneq0andmult [definition, in UniMath.NumberSystems.Integers]
hzneq0andmultlinv [definition, in UniMath.NumberSystems.Integers]
hzneq0andmultrinv [definition, in UniMath.NumberSystems.Integers]
hznf_neg_one [definition, in UniMath.NumberSystems.Integers]
hznf_zero [definition, in UniMath.NumberSystems.Integers]
hznf_neg [definition, in UniMath.NumberSystems.Integers]
hznf_pos [definition, in UniMath.NumberSystems.Integers]
hzone [definition, in UniMath.NumberSystems.Integers]
hzone_neg_hzzero [lemma, in UniMath.RealNumbers.Prelim]
hzplus [definition, in UniMath.NumberSystems.Integers]
hzplusassoc [lemma, in UniMath.NumberSystems.Integers]
hzpluscomm [lemma, in UniMath.NumberSystems.Integers]
hzpluslcan [lemma, in UniMath.NumberSystems.Integers]
hzplusl0 [lemma, in UniMath.NumberSystems.Integers]
hzplusrcan [lemma, in UniMath.NumberSystems.Integers]
hzplusr0 [lemma, in UniMath.NumberSystems.Integers]
hzqrandcarryeq [lemma, in UniMath.PAdics.padics]
hzqrandcarryineq [lemma, in UniMath.PAdics.padics]
hzqrandcarryq [lemma, in UniMath.PAdics.padics]
hzqrandcarryr [lemma, in UniMath.PAdics.padics]
hzqrandnatsummation0q [lemma, in UniMath.PAdics.padics]
hzqrandnatsummation0r [lemma, in UniMath.PAdics.padics]
hzqrandpluseq [lemma, in UniMath.PAdics.z_mod_p]
hzqrandplusineq [lemma, in UniMath.PAdics.z_mod_p]
hzqrandremaindereq [lemma, in UniMath.PAdics.z_mod_p]
hzqrandremainderineq [lemma, in UniMath.PAdics.z_mod_p]
hzqrandremainderq [lemma, in UniMath.PAdics.z_mod_p]
hzqrandselfeq [lemma, in UniMath.PAdics.z_mod_p]
hzqrandselfineq [lemma, in UniMath.PAdics.z_mod_p]
hzqrandselfq [lemma, in UniMath.PAdics.z_mod_p]
hzqrandselfr [lemma, in UniMath.PAdics.z_mod_p]
hzqrandtimeseq [lemma, in UniMath.PAdics.z_mod_p]
hzqrandtimesineq [lemma, in UniMath.PAdics.z_mod_p]
hzqrand0eq [lemma, in UniMath.PAdics.z_mod_p]
hzqrand0ineq [lemma, in UniMath.PAdics.z_mod_p]
hzqrand0q [lemma, in UniMath.PAdics.z_mod_p]
hzqrand0r [lemma, in UniMath.PAdics.z_mod_p]
hzqrand1eq [lemma, in UniMath.PAdics.z_mod_p]
hzqrand1ineq [lemma, in UniMath.PAdics.z_mod_p]
hzqrand1q [lemma, in UniMath.PAdics.z_mod_p]
hzqrand1r [lemma, in UniMath.PAdics.z_mod_p]
hzqrtest [lemma, in UniMath.PAdics.z_mod_p]
hzqrtestq [definition, in UniMath.PAdics.z_mod_p]
hzqrtestr [definition, in UniMath.PAdics.z_mod_p]
hzquotientandfpstimesl [lemma, in UniMath.PAdics.padics]
hzquotientandtimesl [lemma, in UniMath.PAdics.padics]
hzquotientmod [definition, in UniMath.PAdics.z_mod_p]
hzquotientmodandplus [lemma, in UniMath.PAdics.z_mod_p]
hzquotientmodandtimes [lemma, in UniMath.PAdics.z_mod_p]
hzrdistr [definition, in UniMath.PAdics.lemmas]
hzremaindermod [definition, in UniMath.PAdics.z_mod_p]
hzremaindermodanddiv [lemma, in UniMath.PAdics.z_mod_p]
hzremaindermodandmultl [lemma, in UniMath.PAdics.z_mod_p]
hzremaindermodandplus [lemma, in UniMath.PAdics.z_mod_p]
hzremaindermodandtimes [lemma, in UniMath.PAdics.z_mod_p]
hzremaindermoditerated [lemma, in UniMath.PAdics.z_mod_p]
hzremaindermodprimeandtimes [lemma, in UniMath.PAdics.padics]
hzrminus [lemma, in UniMath.NumberSystems.Integers]
hzrminusplus [lemma, in UniMath.NumberSystems.Integers]
hzrminusplus' [lemma, in UniMath.NumberSystems.Integers]
hzrplusminus [lemma, in UniMath.NumberSystems.Integers]
hzrplusminus' [lemma, in UniMath.NumberSystems.Integers]
hzsign [definition, in UniMath.NumberSystems.Integers]
hzsign_hzsign [lemma, in UniMath.NumberSystems.Integers]
hzsign_nattohz [lemma, in UniMath.NumberSystems.Integers]
hzsign_natnattohz [lemma, in UniMath.NumberSystems.Integers]
hztohq [definition, in UniMath.NumberSystems.RationalNumbers]
hztohqandgeh [definition, in UniMath.NumberSystems.RationalNumbers]
hztohqandgth [definition, in UniMath.NumberSystems.RationalNumbers]
hztohqandleh [definition, in UniMath.NumberSystems.RationalNumbers]
hztohqandleh' [lemma, in UniMath.RealNumbers.Prelim]
hztohqandlth [definition, in UniMath.NumberSystems.RationalNumbers]
hztohqandlth' [lemma, in UniMath.RealNumbers.Prelim]
hztohqandminus [definition, in UniMath.NumberSystems.RationalNumbers]
hztohqandmult [definition, in UniMath.NumberSystems.RationalNumbers]
hztohqandneq [definition, in UniMath.NumberSystems.RationalNumbers]
hztohqandplus [definition, in UniMath.NumberSystems.RationalNumbers]
hztohqand0 [definition, in UniMath.NumberSystems.RationalNumbers]
hztohqand1 [definition, in UniMath.NumberSystems.RationalNumbers]
hzzero [definition, in UniMath.NumberSystems.Integers]
hz_abgr_fun_monoifun_paths [lemma, in UniMath.CategoryTheory.categories.abgrs]
hz_to_normal_form [definition, in UniMath.NumberSystems.Integers]
hz_normal_form [definition, in UniMath.NumberSystems.Integers]
hz_abgr_fun_monoidfun [definition, in UniMath.NumberSystems.Integers]
hz_abgr_fun_ismonoidfun [definition, in UniMath.NumberSystems.Integers]
hz_abgr_fun [definition, in UniMath.NumberSystems.Integers]
hz_abmonoid_monoidfun [definition, in UniMath.NumberSystems.Integers]
hz_abmonoid_ismonoidfun [lemma, in UniMath.NumberSystems.Integers]
hz:145 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
hz:25 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
hz:33 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
hZ:46 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HZ:896 [binder, in UniMath.MoreFoundations.PartA]
HZ:911 [binder, in UniMath.MoreFoundations.PartA]
H_LEM:72 [binder, in UniMath.Algebra.FixedPointTheorems]
H' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
H'f:506 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
H'morok [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
H'ok [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
H'':106 [binder, in UniMath.CategoryTheory.limits.cokernels]
H'':209 [binder, in UniMath.CategoryTheory.limits.kernels]
H'':210 [binder, in UniMath.CategoryTheory.PseudoElements]
H'':218 [binder, in UniMath.CategoryTheory.limits.cokernels]
H'':41 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H'':53 [binder, in UniMath.CategoryTheory.limits.equalizers]
H'':53 [binder, in UniMath.CategoryTheory.limits.coequalizers]
H'':92 [binder, in UniMath.CategoryTheory.limits.kernels]
H':104 [binder, in UniMath.CategoryTheory.limits.cokernels]
h':105 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
h':106 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
h':107 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
H':111 [binder, in UniMath.CategoryTheory.categories.abgrs]
h':111 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
h':112 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
h':112 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h':113 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
H':113 [binder, in UniMath.CategoryTheory.ShortExactSequences]
H':114 [binder, in UniMath.CategoryTheory.limits.cokernels]
h':116 [binder, in UniMath.CategoryTheory.slicecat]
h':118 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
H':118 [binder, in UniMath.CategoryTheory.categories.abgrs]
H':118 [binder, in UniMath.CategoryTheory.ShortExactSequences]
h':119 [binder, in UniMath.CategoryTheory.slicecat]
h':121 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
h':122 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
H':126 [binder, in UniMath.CategoryTheory.limits.equalizers]
H':126 [binder, in UniMath.CategoryTheory.limits.coequalizers]
h':127 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
h':129 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
h':129 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h':132 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
h':132 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
h':134 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
h':135 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
H':135 [binder, in UniMath.CategoryTheory.limits.equalizers]
H':135 [binder, in UniMath.CategoryTheory.limits.coequalizers]
h':137 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
H':14 [binder, in UniMath.CategoryTheory.limits.zero]
h':140 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
h':141 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
h':142 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
h':143 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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H':163 [binder, in UniMath.CategoryTheory.FunctorCategory]
h':164 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
H':166 [binder, in UniMath.CategoryTheory.ShortExactSequences]
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H':207 [binder, in UniMath.CategoryTheory.PseudoElements]
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h':211 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H':22 [binder, in UniMath.CategoryTheory.limits.equalizers]
H':22 [binder, in UniMath.CategoryTheory.limits.coequalizers]
h':223 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
h':225 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h':228 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
H':235 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
h':239 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h':239 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
H':246 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
H':25 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
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h':28 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
h':28 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
H':283 [binder, in UniMath.CategoryTheory.Core.Isos]
H':29 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
H':29 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
H':29 [binder, in UniMath.CategoryTheory.limits.kernels]
h':294 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
H':296 [binder, in UniMath.Foundations.UnivalenceAxiom]
H':30 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
H':300 [binder, in UniMath.Foundations.UnivalenceAxiom]
H':301 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
H':320 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H':33 [binder, in UniMath.CategoryTheory.limits.cokernels]
h':349 [binder, in UniMath.CategoryTheory.limits.pullbacks]
H':35 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
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H':364 [binder, in UniMath.CategoryTheory.limits.pullbacks]
H':37 [binder, in UniMath.CategoryTheory.ShortExactSequences]
h':39 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
h':39 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
H':39 [binder, in UniMath.CategoryTheory.limits.equalizers]
h':39 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
H':39 [binder, in UniMath.CategoryTheory.limits.Opp]
H':39 [binder, in UniMath.CategoryTheory.limits.coequalizers]
H':40 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H':43 [binder, in UniMath.CategoryTheory.limits.cokernels]
H':47 [binder, in UniMath.HomologicalAlgebra.KA]
H':47 [binder, in UniMath.CategoryTheory.limits.Opp]
H':48 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
h':49 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
h':5 [binder, in UniMath.Ktheory.GrothendieckGroup]
H':5 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
H':51 [binder, in UniMath.CategoryTheory.limits.equalizers]
H':51 [binder, in UniMath.CategoryTheory.limits.coequalizers]
H':53 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
h':57 [binder, in UniMath.Folds.folds_pre_2_cat]
H':577 [binder, in UniMath.CategoryTheory.categories.abgrs]
H':58 [binder, in UniMath.CategoryTheory.ShortExactSequences]
H':593 [binder, in UniMath.CategoryTheory.categories.abgrs]
h':60 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
h':600 [binder, in UniMath.Combinatorics.StandardFiniteSets]
H':608 [binder, in UniMath.CategoryTheory.categories.abgrs]
H':622 [binder, in UniMath.CategoryTheory.categories.abgrs]
H':637 [binder, in UniMath.CategoryTheory.categories.abgrs]
H':654 [binder, in UniMath.CategoryTheory.LocalizingClass]
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H':746 [binder, in UniMath.CategoryTheory.LocalizingClass]
H':753 [binder, in UniMath.CategoryTheory.LocalizingClass]
H':764 [binder, in UniMath.CategoryTheory.LocalizingClass]
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h':84 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
H':90 [binder, in UniMath.CategoryTheory.limits.kernels]
H':91 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
H':91 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
h':95 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h0':337 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
h0':346 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
h0':75 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
h0':87 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
h0':94 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
H0:12 [binder, in UniMath.Algebra.Modules.Quotient]
H0:12 [binder, in UniMath.Topology.Prelim]
H0:16 [binder, in UniMath.Topology.Prelim]
h0:204 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
h0:216 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
h0:28 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
h0:322 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
h0:336 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
h0:345 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
h0:354 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
h0:363 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
h0:372 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
h0:381 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
H0:6 [binder, in UniMath.Topology.Prelim]
H0:7 [binder, in UniMath.Topology.Prelim]
h0:73 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
h0:85 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
H0:9 [binder, in UniMath.Topology.Prelim]
h0:92 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
h1 [lemma, in UniMath.Combinatorics.WellOrderedSets]
h1const_is_vec [definition, in UniMath.Algebra.Universal.HVectors]
h1foldr [definition, in UniMath.Algebra.Universal.HVectors]
h1lift [definition, in UniMath.Algebra.Universal.HVectors]
h1lower [definition, in UniMath.Algebra.Universal.HVectors]
h1map [definition, in UniMath.Algebra.Universal.HVectors]
h1map_path [lemma, in UniMath.Algebra.Universal.HVectors]
h1map_h1lift_as_h2map [lemma, in UniMath.Algebra.Universal.HVectors]
h1map_vec [definition, in UniMath.Algebra.Universal.HVectors]
h1map_compose [lemma, in UniMath.Algebra.Universal.HVectors]
h1map_idfun [lemma, in UniMath.Algebra.Universal.HVectors]
h1v:103 [binder, in UniMath.Algebra.Universal.HVectors]
h1v:118 [binder, in UniMath.Algebra.Universal.HVectors]
h1v:124 [binder, in UniMath.Algebra.Universal.HVectors]
h1v:136 [binder, in UniMath.Algebra.Universal.HVectors]
h1v:143 [binder, in UniMath.Algebra.Universal.HVectors]
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h1v:181 [binder, in UniMath.Algebra.Universal.HVectors]
h1v:55 [binder, in UniMath.Algebra.Universal.HVectors]
h1v:64 [binder, in UniMath.Algebra.Universal.HVectors]
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h1v:89 [binder, in UniMath.Algebra.Universal.HVectors]
h1v:98 [binder, in UniMath.Algebra.Universal.HVectors]
h1'' [lemma, in UniMath.Combinatorics.WellOrderedSets]
H1':1019 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1':1061 [binder, in UniMath.HomologicalAlgebra.Triangulated]
h1':129 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
h1':142 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
h1':157 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
H1':33 [binder, in UniMath.CategoryTheory.PreAdditive]
H1':767 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1':809 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1':851 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1':893 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1':935 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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H1:10 [binder, in UniMath.Topology.Prelim]
H1:100 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
H1:1002 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:104 [binder, in UniMath.CategoryTheory.FiveLemma]
H1:104 [binder, in UniMath.CategoryTheory.limits.coproducts]
H1:1044 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:105 [binder, in UniMath.CategoryTheory.Core.Categories]
h1:107 [binder, in UniMath.CategoryTheory.limits.kernels]
H1:109 [binder, in UniMath.CategoryTheory.limits.kernels]
H1:11 [binder, in UniMath.CategoryTheory.Additive]
H1:1102 [binder, in UniMath.Algebra.BinaryOperations]
H1:112 [binder, in UniMath.Algebra.Groups]
H1:114 [binder, in UniMath.CategoryTheory.limits.pullbacks]
H1:119 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
h1:121 [binder, in UniMath.CategoryTheory.limits.cokernels]
H1:121 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
H1:122 [binder, in UniMath.CategoryTheory.Core.Isos]
H1:123 [binder, in UniMath.CategoryTheory.limits.cokernels]
H1:124 [binder, in UniMath.Algebra.BinaryOperations]
h1:125 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
H1:127 [binder, in UniMath.Algebra.RigsAndRings]
H1:129 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
H1:13 [binder, in UniMath.Algebra.Modules.Quotient]
H1:13 [binder, in UniMath.Topology.Prelim]
H1:13 [binder, in UniMath.Algebra.Modules.Submodule]
H1:132 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
H1:134 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
H1:136 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
h1:138 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
H1:139 [binder, in UniMath.CategoryTheory.limits.products]
h1:143 [binder, in UniMath.CategoryTheory.limits.equalizers]
h1:143 [binder, in UniMath.CategoryTheory.limits.coequalizers]
H1:1430 [binder, in UniMath.Algebra.BinaryOperations]
H1:145 [binder, in UniMath.CategoryTheory.limits.equalizers]
H1:145 [binder, in UniMath.CategoryTheory.limits.coequalizers]
H1:149 [binder, in UniMath.CategoryTheory.limits.binproducts]
H1:15 [binder, in UniMath.CategoryTheory.PreAdditive]
H1:151 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
h1:153 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
H1:158 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
H1:159 [binder, in UniMath.CategoryTheory.limits.pushouts]
H1:159 [binder, in UniMath.CategoryTheory.PreAdditive]
H1:16 [binder, in UniMath.CategoryTheory.Abelian]
H1:164 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
H1:166 [binder, in UniMath.Algebra.Monoids]
H1:168 [binder, in UniMath.CategoryTheory.PreAdditive]
H1:17 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
H1:17 [binder, in UniMath.Topology.Prelim]
H1:171 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
H1:176 [binder, in UniMath.CategoryTheory.PreAdditive]
H1:182 [binder, in UniMath.CategoryTheory.FiveLemma]
H1:184 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
H1:185 [binder, in UniMath.CategoryTheory.PreAdditive]
H1:190 [binder, in UniMath.CategoryTheory.FiveLemma]
H1:194 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
H1:196 [binder, in UniMath.CategoryTheory.limits.pullbacks]
H1:197 [binder, in UniMath.CategoryTheory.FiveLemma]
H1:207 [binder, in UniMath.Algebra.Modules.Core]
H1:22 [binder, in UniMath.Algebra.Monoids]
H1:222 [binder, in UniMath.CategoryTheory.Core.Isos]
H1:243 [binder, in UniMath.Algebra.BinaryOperations]
H1:25 [binder, in UniMath.HomologicalAlgebra.Complexes]
H1:250 [binder, in UniMath.CategoryTheory.Core.Isos]
H1:253 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:26 [binder, in UniMath.CategoryTheory.limits.kernels]
H1:26 [binder, in UniMath.CategoryTheory.limits.cokernels]
H1:262 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
h1:27 [binder, in UniMath.SubstitutionSystems.BinSumOfSignatures]
h1:27 [binder, in UniMath.SubstitutionSystems.BinProductOfSignatures]
h1:27 [binder, in UniMath.CategoryTheory.Subobjects]
H1:28 [binder, in UniMath.CategoryTheory.PreAdditive]
H1:28 [binder, in UniMath.CategoryTheory.Equivalences.Core]
H1:287 [binder, in UniMath.CategoryTheory.PreAdditive]
H1:296 [binder, in UniMath.Algebra.BinaryOperations]
H1:3 [binder, in UniMath.CategoryTheory.Abelian]
H1:3 [binder, in UniMath.CategoryTheory.Additive]
H1:30 [binder, in UniMath.CategoryTheory.FiveLemma]
H1:31 [binder, in UniMath.Bicategories.Colimits.Final]
H1:312 [binder, in UniMath.CategoryTheory.limits.pushouts]
H1:316 [binder, in UniMath.CategoryTheory.Core.Isos]
H1:32 [binder, in UniMath.Combinatorics.GraphPaths]
H1:336 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:35 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
H1:350 [binder, in UniMath.Algebra.BinaryOperations]
H1:355 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:362 [binder, in UniMath.CategoryTheory.LocalizingClass]
H1:370 [binder, in UniMath.CategoryTheory.Core.Isos]
H1:38 [binder, in UniMath.Bicategories.Colimits.Initial]
H1:380 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:39 [binder, in UniMath.Algebra.RigsAndRings.Ideals]
H1:399 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:40 [binder, in UniMath.CategoryTheory.limits.pushouts]
H1:40 [binder, in UniMath.CategoryTheory.limits.cokernels]
H1:404 [binder, in UniMath.Algebra.BinaryOperations]
H1:41 [binder, in UniMath.CategoryTheory.limits.pullbacks]
h1:418 [binder, in UniMath.CategoryTheory.PreAdditive]
H1:418 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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H1:44 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
H1:44 [binder, in UniMath.Algebra.RigsAndRings]
H1:45 [binder, in UniMath.CategoryTheory.Morphisms]
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H1:48 [binder, in UniMath.CategoryTheory.FiveLemma]
H1:48 [binder, in UniMath.HomologicalAlgebra.Complexes]
H1:494 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:513 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:53 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
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H1:556 [binder, in UniMath.CategoryTheory.categories.abgrs]
H1:556 [binder, in UniMath.CategoryTheory.limits.pullbacks]
H1:56 [binder, in UniMath.CategoryTheory.Abelian]
H1:562 [binder, in UniMath.CategoryTheory.categories.abgrs]
H1:58 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
H1:603 [binder, in UniMath.CategoryTheory.LocalizingClass]
H1:61 [binder, in UniMath.HomologicalAlgebra.Complexes]
h1:610 [binder, in UniMath.Foundations.PartB]
H1:63 [binder, in UniMath.Algebra.BinaryOperations]
H1:63 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:64 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
H1:65 [binder, in UniMath.CategoryTheory.Core.Functors]
H1:660 [binder, in UniMath.CategoryTheory.LocalizingClass]
h1:67 [binder, in UniMath.Algebra.Universal.Algebras]
H1:673 [binder, in UniMath.CategoryTheory.LocalizingClass]
H1:684 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:689 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:694 [binder, in UniMath.HomologicalAlgebra.Triangulated]
h1:721 [binder, in UniMath.Foundations.PartA]
h1:73 [binder, in UniMath.Algebra.Universal.Algebras]
H1:74 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
H1:750 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:792 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:8 [binder, in UniMath.Topology.Prelim]
H1:80 [binder, in UniMath.Algebra.BinaryOperations]
H1:80 [binder, in UniMath.CategoryTheory.Core.Categories]
H1:81 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
h1:829 [binder, in UniMath.Bicategories.Core.Bicat]
H1:834 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:876 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:91 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
H1:918 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H1:92 [binder, in UniMath.CategoryTheory.Core.Functors]
H1:93 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
H1:960 [binder, in UniMath.HomologicalAlgebra.Triangulated]
h2foldr [definition, in UniMath.Algebra.Universal.HVectors]
h2lower [definition, in UniMath.Algebra.Universal.HVectors]
h2lower_h1map_h1lift [lemma, in UniMath.Algebra.Universal.HVectors]
h2map [definition, in UniMath.Algebra.Universal.HVectors]
h2path:184 [binder, in UniMath.Algebra.Universal.HVectors]
h2v:113 [binder, in UniMath.Algebra.Universal.HVectors]
h2v:127 [binder, in UniMath.Algebra.Universal.HVectors]
h2v:147 [binder, in UniMath.Algebra.Universal.HVectors]
h2v:171 [binder, in UniMath.Algebra.Universal.HVectors]
h2':1017 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H2':1020 [binder, in UniMath.HomologicalAlgebra.Triangulated]
h2':1059 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H2':1062 [binder, in UniMath.HomologicalAlgebra.Triangulated]
h2':130 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
h2':143 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
h2':158 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
H2':45 [binder, in UniMath.CategoryTheory.PreAdditive]
h2':765 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H2':768 [binder, in UniMath.HomologicalAlgebra.Triangulated]
h2':807 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H2':810 [binder, in UniMath.HomologicalAlgebra.Triangulated]
h2':849 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H2':852 [binder, in UniMath.HomologicalAlgebra.Triangulated]
h2':891 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H2':894 [binder, in UniMath.HomologicalAlgebra.Triangulated]
h2':933 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H2':936 [binder, in UniMath.HomologicalAlgebra.Triangulated]
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H:11 [binder, in UniMath.HomologicalAlgebra.KA]
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H:11 [binder, in UniMath.AlgebraicGeometry.Topology]
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H:11 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
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H:110 [binder, in UniMath.CategoryTheory.PseudoElements]
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H:120 [binder, in UniMath.CategoryTheory.ShortExactSequences]
h:120 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
H:121 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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H:121 [binder, in UniMath.CategoryTheory.limits.kernels]
H:121 [binder, in UniMath.CategoryTheory.limits.equalizers]
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H:124 [binder, in UniMath.CategoryTheory.Core.Univalence]
h:124 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
H:124 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
h:124 [binder, in UniMath.CategoryTheory.Core.Categories]
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H:13 [binder, in UniMath.CategoryTheory.categories.Graph]
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H:14 [binder, in UniMath.CategoryTheory.Monics]
H:14 [binder, in UniMath.Combinatorics.Equivalence_Relations]
h:14 [binder, in UniMath.CategoryTheory.Epis]
H:14 [binder, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
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H:15 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
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H:15 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
H:15 [binder, in UniMath.CategoryTheory.limits.pullbacks]
H:15 [binder, in UniMath.CategoryTheory.UnderCategories]
H:15 [binder, in UniMath.CategoryTheory.Epis]
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H:150 [binder, in UniMath.CategoryTheory.PreAdditive]
h:150 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
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H:151 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
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h:16 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
h:16 [binder, in UniMath.SubstitutionSystems.Lam]
H:16 [binder, in UniMath.Combinatorics.Graph]
H:16 [binder, in UniMath.Algebra.Universal.EqAlgebras]
h:16 [binder, in UniMath.CategoryTheory.Adjunctions.Restriction]
h:16 [binder, in UniMath.Induction.M.Limits]
h:16 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
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H:160 [binder, in UniMath.CategoryTheory.Additive]
h:160 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
H:161 [binder, in UniMath.Bicategories.Colimits.Pullback]
H:161 [binder, in UniMath.CategoryTheory.LocalizingClass]
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H:165 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
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h:165 [binder, in UniMath.CategoryTheory.ShortExactSequences]
h:165 [binder, in UniMath.CategoryTheory.Core.Categories]
h:166 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
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h:166 [binder, in UniMath.CategoryTheory.Core.Isos]
H:166 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
H:167 [binder, in UniMath.CategoryTheory.Core.Functors]
h:167 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
H:167 [binder, in UniMath.CategoryTheory.Additive]
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h:168 [binder, in UniMath.CategoryTheory.limits.pullbacks]
H:168 [binder, in UniMath.CategoryTheory.Additive]
H:168 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:169 [binder, in UniMath.CategoryTheory.AdditiveFunctors]
h:169 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
h:17 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
h:17 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
H:17 [binder, in UniMath.CategoryTheory.Equivalences.Core]
H:17 [binder, in UniMath.CategoryTheory.limits.Opp]
h:17 [binder, in UniMath.Bicategories.Core.TransportLaws]
h:17 [binder, in UniMath.Induction.W.Naturals]
H:170 [binder, in UniMath.CategoryTheory.limits.coproducts]
h:170 [binder, in UniMath.CategoryTheory.Core.Isos]
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h:171 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
H:171 [binder, in UniMath.CategoryTheory.Core.Isos]
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h:175 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
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h:18 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration]
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h:18 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
h:18 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
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H:18 [binder, in UniMath.CategoryTheory.limits.cokernels]
H:18 [binder, in UniMath.CategoryTheory.SubobjectClassifier]
h:18 [binder, in UniMath.SubstitutionSystems.Lam]
h:18 [binder, in UniMath.Bicategories.BicatOfBicategory]
h:18 [binder, in UniMath.CategoryTheory.Subobjects]
H:18 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H:18 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:18 [binder, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
h:18 [binder, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
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H:18 [binder, in UniMath.CategoryTheory.limits.terminal]
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H:19 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
H:19 [binder, in UniMath.CategoryTheory.limits.equalizers]
h:19 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
H:19 [binder, in UniMath.CategoryTheory.limits.coequalizers]
h:19 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h:19 [binder, in UniMath.Paradoxes.GirardsParadox]
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H:190 [binder, in UniMath.CategoryTheory.limits.Opp]
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H:191 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
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H:191 [binder, in UniMath.CategoryTheory.limits.pullbacks]
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h:198 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
h:198 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
h:198 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
h:198 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
H:199 [binder, in UniMath.CategoryTheory.Monads.Monads]
h:199 [binder, in UniMath.CategoryTheory.limits.kernels]
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H:2 [binder, in UniMath.CategoryTheory.categories.Graph]
h:2 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
h:20 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
h:20 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
h:20 [binder, in UniMath.MoreFoundations.Interval]
H:20 [binder, in UniMath.CategoryTheory.limits.Opp]
h:20 [binder, in UniMath.Induction.M.Limits]
h:20 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
H:200 [binder, in UniMath.CategoryTheory.limits.kernels]
H:200 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
H:200 [binder, in UniMath.HomologicalAlgebra.Complexes]
h:201 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
H:201 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H:202 [binder, in UniMath.CategoryTheory.LocalizingClass]
h:202 [binder, in UniMath.CategoryTheory.categories.abgrs]
H:202 [binder, in UniMath.Folds.folds_pre_2_cat]
H:202 [binder, in UniMath.CategoryTheory.ShortExactSequences]
H:202 [binder, in UniMath.CategoryTheory.limits.cats.limits]
h:202 [binder, in UniMath.CategoryTheory.Core.Categories]
H:203 [binder, in UniMath.CategoryTheory.categories.abgrs]
h:203 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
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h:204 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h:205 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
H:205 [binder, in UniMath.CategoryTheory.PseudoElements]
h:205 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
h:206 [binder, in UniMath.Bicategories.Core.Bicat]
H:206 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
h:207 [binder, in UniMath.CategoryTheory.limits.kernels]
H:207 [binder, in UniMath.HomologicalAlgebra.Triangulated]
h:207 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
H:207 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
h:208 [binder, in UniMath.CategoryTheory.categories.abgrs]
h:208 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
H:208 [binder, in UniMath.CategoryTheory.limits.kernels]
h:208 [binder, in UniMath.CategoryTheory.limits.cokernels]
H:208 [binder, in UniMath.HomologicalAlgebra.Complexes]
H:208 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:209 [binder, in UniMath.CategoryTheory.categories.abgrs]
H:209 [binder, in UniMath.CategoryTheory.limits.cokernels]
h:21 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
H:21 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
h:21 [binder, in UniMath.Bicategories.Modifications.Examples.ApModification]
h:21 [binder, in UniMath.CategoryTheory.limits.equalizers]
H:21 [binder, in UniMath.Combinatorics.Graph]
H:21 [binder, in UniMath.HomologicalAlgebra.Complexes]
h:21 [binder, in UniMath.CategoryTheory.limits.coequalizers]
H:21 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
H:21 [binder, in UniMath.CategoryTheory.limits.terminal]
h:210 [binder, in UniMath.Bicategories.Core.Univalence]
h:210 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
H:210 [binder, in UniMath.CategoryTheory.ShortExactSequences]
h:210 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:210 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
h:211 [binder, in UniMath.Bicategories.Core.Strictness]
h:211 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
H:211 [binder, in UniMath.CategoryTheory.limits.Opp]
h:211 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h:211 [binder, in UniMath.CategoryTheory.Core.Categories]
H:212 [binder, in UniMath.CategoryTheory.LocalizingClass]
H:212 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
H:214 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
h:214 [binder, in UniMath.CategoryTheory.categories.abgrs]
h:214 [binder, in UniMath.Bicategories.Core.Strictness]
h:214 [binder, in UniMath.CategoryTheory.limits.equalizers]
h:214 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
H:214 [binder, in UniMath.CategoryTheory.ShortExactSequences]
H:215 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
h:215 [binder, in UniMath.Bicategories.Core.Bicat]
H:215 [binder, in UniMath.CategoryTheory.categories.abgrs]
h:215 [binder, in UniMath.Folds.folds_pre_2_cat]
H:215 [binder, in UniMath.CategoryTheory.limits.equalizers]
H:215 [binder, in UniMath.HomologicalAlgebra.Triangulated]
h:215 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
H:216 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
H:216 [binder, in UniMath.CategoryTheory.PseudoElements]
h:216 [binder, in UniMath.CategoryTheory.limits.cokernels]
H:216 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
H:216 [binder, in UniMath.HomologicalAlgebra.Complexes]
H:217 [binder, in UniMath.CategoryTheory.limits.cokernels]
h:217 [binder, in UniMath.Bicategories.Core.Univalence]
H:217 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
h:218 [binder, in UniMath.CategoryTheory.limits.kernels]
H:218 [binder, in UniMath.CategoryTheory.ShortExactSequences]
H:218 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
h:218 [binder, in UniMath.CategoryTheory.Core.Categories]
h:219 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
H:219 [binder, in UniMath.CategoryTheory.limits.kernels]
h:219 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
H:219 [binder, in UniMath.CategoryTheory.limits.Opp]
h:219 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
H:22 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
H:22 [binder, in UniMath.CategoryTheory.SetValuedFunctors]
H:22 [binder, in UniMath.CategoryTheory.ShortExactSequences]
h:22 [binder, in UniMath.MoreFoundations.Interval]
h:220 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
H:220 [binder, in UniMath.CategoryTheory.ShortExactSequences]
H:220 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
h:221 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
h:221 [binder, in UniMath.CategoryTheory.categories.abgrs]
h:221 [binder, in UniMath.Foundations.PartD]
H:221 [binder, in UniMath.CategoryTheory.slicecat]
H:221 [binder, in UniMath.CategoryTheory.PreAdditive]
H:221 [binder, in UniMath.HomologicalAlgebra.Triangulated]
h:221 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
h:222 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
H:222 [binder, in UniMath.CategoryTheory.categories.abgrs]
H:222 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
H:222 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:223 [binder, in UniMath.CategoryTheory.Abelian]
H:223 [binder, in UniMath.CategoryTheory.LocalizingClass]
h:223 [binder, in UniMath.Folds.folds_pre_2_cat]
H:223 [binder, in UniMath.CategoryTheory.PseudoElements]
h:224 [binder, in UniMath.CategoryTheory.Abelian]
h:224 [binder, in UniMath.Bicategories.Core.Bicat]
H:224 [binder, in UniMath.Bicategories.Core.AdjointUnique]
h:224 [binder, in UniMath.Bicategories.Core.Univalence]
H:224 [binder, in UniMath.CategoryTheory.ShortExactSequences]
H:224 [binder, in UniMath.HomologicalAlgebra.Complexes]
h:224 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:224 [binder, in UniMath.CategoryTheory.Core.Categories]
h:225 [binder, in UniMath.CategoryTheory.Abelian]
h:225 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
h:225 [binder, in UniMath.CategoryTheory.limits.kernels]
h:225 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
h:226 [binder, in UniMath.CategoryTheory.Abelian]
H:226 [binder, in UniMath.CategoryTheory.limits.kernels]
h:227 [binder, in UniMath.CategoryTheory.limits.cokernels]
h:227 [binder, in UniMath.Combinatorics.WellOrderedSets]
h:227 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
H:227 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H:227 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
H:227 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
H:228 [binder, in UniMath.CategoryTheory.limits.cokernels]
h:228 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
H:229 [binder, in UniMath.CategoryTheory.Core.Isos]
H:229 [binder, in UniMath.Algebra.Groups]
h:23 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration]
h:23 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
h:23 [binder, in UniMath.Ktheory.GrothendieckGroup]
h:23 [binder, in UniMath.CategoryTheory.opp_precat]
h:23 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
H:23 [binder, in UniMath.CategoryTheory.limits.Opp]
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H:230 [binder, in UniMath.CategoryTheory.PreAdditive]
h:230 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h:231 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
h:232 [binder, in UniMath.Bicategories.Core.Bicat]
h:232 [binder, in UniMath.MoreFoundations.PartA]
h:232 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
H:233 [binder, in UniMath.CategoryTheory.LocalizingClass]
h:233 [binder, in UniMath.CategoryTheory.limits.kernels]
H:233 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
h:233 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
H:233 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H:233 [binder, in UniMath.HomologicalAlgebra.Complexes]
H:233 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
h:234 [binder, in UniMath.Bicategories.Core.Strictness]
H:234 [binder, in UniMath.CategoryTheory.limits.kernels]
h:234 [binder, in UniMath.CategoryTheory.limits.cokernels]
H:235 [binder, in UniMath.Algebra.Monoids]
H:235 [binder, in UniMath.CategoryTheory.Core.Isos]
H:235 [binder, in UniMath.CategoryTheory.limits.cokernels]
H:236 [binder, in UniMath.CategoryTheory.categories.abgrs]
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H:236 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:237 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
h:237 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
h:238 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:238 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
H:239 [binder, in UniMath.CategoryTheory.PseudoElements]
H:239 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
h:239 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
H:239 [binder, in UniMath.CategoryTheory.limits.Opp]
h:24 [binder, in UniMath.CategoryTheory.categories.rings]
h:24 [binder, in UniMath.CategoryTheory.categories.setwith2binops]
h:24 [binder, in UniMath.CategoryTheory.categories.grs]
h:24 [binder, in UniMath.CategoryTheory.categories.flds]
H:24 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
H:24 [binder, in UniMath.CategoryTheory.limits.pushouts]
H:24 [binder, in UniMath.HomologicalAlgebra.KA]
h:24 [binder, in UniMath.CategoryTheory.categories.commrigs]
H:24 [binder, in UniMath.CategoryTheory.Monics]
h:24 [binder, in UniMath.Folds.folds_isomorphism]
h:24 [binder, in UniMath.CategoryTheory.NNO]
H:24 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
h:24 [binder, in UniMath.CategoryTheory.categories.rigs]
H:24 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
H:24 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
h:24 [binder, in UniMath.CategoryTheory.categories.monoids]
h:24 [binder, in UniMath.CategoryTheory.categories.intdoms]
h:24 [binder, in UniMath.CategoryTheory.CommaCategories]
h:24 [binder, in UniMath.CategoryTheory.categories.commrings]
h:24 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
h:24 [binder, in UniMath.CategoryTheory.categories.abmonoids]
H:240 [binder, in UniMath.Algebra.Monoids]
h:240 [binder, in UniMath.Foundations.UnivalenceAxiom]
h:240 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
H:241 [binder, in UniMath.CategoryTheory.Core.Isos]
h:241 [binder, in UniMath.CategoryTheory.limits.kernels]
H:241 [binder, in UniMath.HomologicalAlgebra.Complexes]
h:2418 [binder, in UniMath.Foundations.PartA]
H:242 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
h:242 [binder, in UniMath.Foundations.UnivalenceAxiom]
h:242 [binder, in UniMath.Bicategories.Core.Strictness]
H:242 [binder, in UniMath.CategoryTheory.limits.kernels]
h:242 [binder, in UniMath.CategoryTheory.limits.cokernels]
h:2429 [binder, in UniMath.Foundations.PartA]
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H:243 [binder, in UniMath.CategoryTheory.limits.cokernels]
H:243 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h:244 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
H:244 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
h:2440 [binder, in UniMath.Foundations.PartA]
h:2448 [binder, in UniMath.Foundations.PartA]
h:245 [binder, in UniMath.Foundations.UnivalenceAxiom]
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h:28 [binder, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
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H:29 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
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H:292 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
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H:30 [binder, in UniMath.CategoryTheory.limits.equalizers]
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H:30 [binder, in UniMath.Combinatorics.Graph]
H:30 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
H:30 [binder, in UniMath.HomologicalAlgebra.KA]
H:30 [binder, in UniMath.CategoryTheory.ShortExactSequences]
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H:30 [binder, in UniMath.CategoryTheory.limits.coequalizers]
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H:34 [binder, in UniMath.CategoryTheory.FunctorCategory]
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H:34 [binder, in UniMath.CategoryTheory.limits.pullbacks]
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H:35 [binder, in UniMath.CategoryTheory.Epis]
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H:36 [binder, in UniMath.CategoryTheory.whiskering]
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H:366 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
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h:37 [binder, in UniMath.Algebra.Universal.Algebras]
h:37 [binder, in UniMath.CategoryTheory.limits.pullbacks]
h:37 [binder, in UniMath.Folds.from_precats_to_folds_and_back]
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H:37 [binder, in UniMath.CategoryTheory.Monads.KTriples]
h:370 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
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H:56 [binder, in UniMath.MoreFoundations.Sets]
h:56 [binder, in UniMath.Folds.folds_pre_2_cat]
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H:566 [binder, in UniMath.Algebra.BinaryOperations]
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H:57 [binder, in UniMath.CategoryTheory.limits.cokernels]
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h:57 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
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H:570 [binder, in UniMath.CategoryTheory.limits.pullbacks]
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h:58 [binder, in UniMath.HomologicalAlgebra.KA]
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h:59 [binder, in UniMath.Ktheory.GrothendieckGroup]
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h:599 [binder, in UniMath.Combinatorics.StandardFiniteSets]
h:6 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
H:6 [binder, in UniMath.CategoryTheory.limits.graphs.terminal]
H:6 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
h:6 [binder, in UniMath.CategoryTheory.coslicecat]
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h:6 [binder, in UniMath.MoreFoundations.Univalence]
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h:93 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
h:93 [binder, in UniMath.CategoryTheory.limits.cokernels]
h:93 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
h:93 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
H:932 [binder, in UniMath.HomologicalAlgebra.MappingCone]
h:934 [binder, in UniMath.Bicategories.Core.Bicat]
H:94 [binder, in UniMath.CategoryTheory.limits.cokernels]
h:94 [binder, in UniMath.CategoryTheory.slicecat]
h:94 [binder, in UniMath.CategoryTheory.PreAdditive]
h:94 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
H:94 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
H:94 [binder, in UniMath.HomologicalAlgebra.Complexes]
H:94 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
h:94 [binder, in UniMath.MoreFoundations.Propositions]
h:94 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:94 [binder, in UniMath.Foundations.PartC]
H:94 [binder, in UniMath.CategoryTheory.Monads.KTriples]
h:941 [binder, in UniMath.Bicategories.Core.Bicat]
H:942 [binder, in UniMath.HomologicalAlgebra.MappingCone]
h:948 [binder, in UniMath.Bicategories.Core.Bicat]
h:95 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
h:95 [binder, in UniMath.CategoryTheory.Core.Isos]
H:95 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
H:95 [binder, in UniMath.HomologicalAlgebra.Triangulated]
H:95 [binder, in UniMath.CategoryTheory.Monics]
h:95 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
H:952 [binder, in UniMath.HomologicalAlgebra.MappingCone]
H:96 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
h:96 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
h:97 [binder, in UniMath.Bicategories.Core.Bicat]
h:97 [binder, in UniMath.CategoryTheory.categories.abgrs]
h:97 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
h:97 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
H:97 [binder, in UniMath.CategoryTheory.Core.Univalence]
H:98 [binder, in UniMath.CategoryTheory.PseudoElements]
H:98 [binder, in UniMath.CategoryTheory.limits.Opp]
H:98 [binder, in UniMath.CategoryTheory.Epis]
H:99 [binder, in UniMath.Bicategories.Colimits.Pullback]
H:99 [binder, in UniMath.CategoryTheory.categories.abgrs]
H:99 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
h:99 [binder, in UniMath.CategoryTheory.limits.pushouts]
H:99 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
H:99 [binder, in UniMath.HomologicalAlgebra.Complexes]
h:99 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
h:99 [binder, in UniMath.CategoryTheory.Core.Categories]
Hα:127 [binder, in UniMath.Bicategories.Colimits.Products]
Hα:137 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
Hα:156 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
Hα:179 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
Hα:185 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:196 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:207 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:207 [binder, in UniMath.Bicategories.Colimits.Products]
Hα:218 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:229 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:358 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hα:493 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:509 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:525 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:59 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
Hαα:108 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
Hαα:12 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Hαα:13 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
Hαα:13 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
Hαα:166 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hαα:28 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
Hαα:291 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hαα:30 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
Hαα:304 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hαα:349 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hαα:364 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hαα:386 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hαα:411 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hαα:448 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hαα:499 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hαα:515 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hαα:53 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
Hαα:65 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
Hβ:128 [binder, in UniMath.Bicategories.Colimits.Products]
Hβ:13 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
Hβ:1397 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
Hβ:162 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
Hβ:184 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hβ:185 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
Hβ:208 [binder, in UniMath.Bicategories.Colimits.Products]
Hβ:24 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
Hβ:56 [binder, in UniMath.Bicategories.Core.FullyFaithful]
Hββ:1406 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
Hββ:350 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hββ:387 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hδ:227 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hε:106 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
Hε:116 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
Hε:126 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
Hε:136 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
Hε:146 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
Hε:96 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
Hη:12 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
Hη:165 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hη:23 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
Hη:35 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
Hη:54 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
Hθ:36 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
Hσσ:229 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hσσ:56 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hσσ:67 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hσσ:79 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hσσ:91 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hφ:146 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
H₀:10 [binder, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
H₀:37 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
H₀:50 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
h₁':885 [binder, in UniMath.MoreFoundations.PartA]
H₁:102 [binder, in UniMath.Bicategories.Colimits.Pullback]
h₁:12 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
h₁:16 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
h₁:167 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h₁:183 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
H₁:19 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
h₁:350 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
H₁:42 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
H₁:50 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
H₁:51 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
H₁:55 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
H₁:73 [binder, in UniMath.Bicategories.Colimits.Pullback]
H₁:83 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
h₁:884 [binder, in UniMath.MoreFoundations.PartA]
h₂':888 [binder, in UniMath.MoreFoundations.PartA]
H₂:103 [binder, in UniMath.Bicategories.Colimits.Pullback]
h₂:15 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
h₂:170 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h₂:184 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
H₂:20 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
h₂:21 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
h₂:354 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
H₂:43 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
H₂:51 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
H₂:52 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
H₂:74 [binder, in UniMath.Bicategories.Colimits.Pullback]
H₂:84 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
h₂:887 [binder, in UniMath.MoreFoundations.PartA]
h₃:890 [binder, in UniMath.MoreFoundations.PartA]

I

I [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
I [definition, in UniMath.Folds.folds_pre_2_cat]
I [definition, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
i [definition, in UniMath.Combinatorics.Tests]
I [definition, in UniMath.Folds.folds_precat]
I [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
I [definition, in UniMath.CategoryTheory.Monoidal.Actions]
I [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
I [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
I [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
I [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
I [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
ia:10 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
ia:107 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
ia:14 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
ia:16 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
ia:163 [binder, in UniMath.CategoryTheory.limits.Opp]
ia:22 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
ia:336 [binder, in UniMath.CategoryTheory.limits.Opp]
ia:4 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
IA:49 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
ia:5 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
ia:5 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
IA:57 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
ia:6 [binder, in UniMath.CategoryTheory.limits.coproducts]
IA:65 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
iBCC:165 [binder, in UniMath.CategoryTheory.limits.Opp]
iBCC:338 [binder, in UniMath.CategoryTheory.limits.Opp]
iBCC:344 [binder, in UniMath.CategoryTheory.limits.Opp]
iBPC:159 [binder, in UniMath.CategoryTheory.limits.Opp]
iBPC:332 [binder, in UniMath.CategoryTheory.limits.Opp]
iBPC:341 [binder, in UniMath.CategoryTheory.limits.Opp]
ib:108 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
ib:11 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
ib:15 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
ib:164 [binder, in UniMath.CategoryTheory.limits.Opp]
ib:17 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
ib:23 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
ib:337 [binder, in UniMath.CategoryTheory.limits.Opp]
ib:6 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
ib:6 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
IC':31 [binder, in UniMath.CategoryTheory.Subcategory.Limits]
IC:160 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
IC:185 [binder, in UniMath.CategoryTheory.slicecat]
IC:2 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
IC:3 [binder, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
IC:30 [binder, in UniMath.CategoryTheory.Subcategory.Limits]
iC:40 [binder, in UniMath.CategoryTheory.limits.equalizers]
iC:40 [binder, in UniMath.CategoryTheory.limits.coequalizers]
IC:41 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
IC:45 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
IC:46 [binder, in UniMath.CategoryTheory.limits.initial]
IC:52 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
IC:56 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
IC:60 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
IC:66 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
idActionIso [definition, in UniMath.Algebra.GroupAction]
idax:35 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
idbinopfun [definition, in UniMath.CategoryTheory.category_binops]
idbinopfun_remove_right [definition, in UniMath.CategoryTheory.category_binops]
idbinopfun_remove_left [definition, in UniMath.CategoryTheory.category_binops]
idbinopiso [definition, in UniMath.Algebra.BinaryOperations]
idB:96 [binder, in UniMath.CategoryTheory.catiso]
ideal [definition, in UniMath.Algebra.RigsAndRings.Ideals]
Ideals [library]
ideal_rigunel2 [lemma, in UniMath.Algebra.RigsAndRings.Ideals]
ideal_isr [definition, in UniMath.Algebra.RigsAndRings.Ideals]
ideal_isl [definition, in UniMath.Algebra.RigsAndRings.Ideals]
ideal_subabmonoid [definition, in UniMath.Algebra.RigsAndRings.Ideals]
idempunitor [definition, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Identitor [section, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
Identitor [library]
identitor_is_disp_univalent_2 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
identitor_is_disp_univalent_2_0 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
identitor_is_disp_univalent_2_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
identitor_disp_cat [definition, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
identitor_disp_id_comp [definition, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
identitor_disp_cat_data [definition, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
Identitor.C [variable, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
Identitor.D [variable, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
identity [definition, in UniMath.CategoryTheory.Core.Categories]
Identity [library]
IdentityEpi [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
identityFunction [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
identityFunction' [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
IdentityFunctor [section, in UniMath.Bicategories.PseudoFunctors.Examples.Identity]
IdentityFunctor.C [variable, in UniMath.Bicategories.PseudoFunctors.Examples.Identity]
IdentityIsHQIS [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
IdentityIsQIS [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
IdentityMono [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
identityPathOver [definition, in UniMath.MoreFoundations.PathsOver]
IdentityPlusEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IdentityPlusMono [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
identityPosetEquivalence [definition, in UniMath.Foundations.Sets]
identity_pseudo_morphism [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
identity_catiso [definition, in UniMath.CategoryTheory.catiso]
identity_is_cartesian_2cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
identity_is_Coequalizer_input [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
identity_functor_is_fully_faithful [lemma, in UniMath.CategoryTheory.Core.Functors]
identity_is_Pushout_input [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
identity_is_Pushout_input [definition, in UniMath.CategoryTheory.limits.pushouts]
identity_iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
identity_is_Equalizer_input [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
identity_matrix [lemma, in UniMath.Algebra.Matrix]
identity_z_iso [definition, in UniMath.CategoryTheory.Core.Isos]
identity_is_z_iso [lemma, in UniMath.CategoryTheory.Core.Isos]
identity_iso [definition, in UniMath.CategoryTheory.Core.Isos]
identity_is_iso [lemma, in UniMath.CategoryTheory.Core.Isos]
identity_is_KernelIn [definition, in UniMath.CategoryTheory.limits.kernels]
identity_is_CokernelOut [definition, in UniMath.CategoryTheory.limits.cokernels]
identity_is_EqualizerIn [definition, in UniMath.CategoryTheory.limits.equalizers]
identity_adj_int_equivalence [definition, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
identity_triangle2 [definition, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
identity_triangle1 [definition, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
identity_int_equivalence [definition, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
identity_functor_is_adj_equivalence [lemma, in UniMath.CategoryTheory.Equivalences.Core]
identity_Monic [lemma, in UniMath.CategoryTheory.Monics]
identity_isMonic [lemma, in UniMath.CategoryTheory.Monics]
identity_comm [lemma, in UniMath.CategoryTheory.LatticeObject]
identity_to_product [lemma, in UniMath.CategoryTheory.limits.FinOrdProducts]
identity_is_Pullback_input [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
identity_is_Pullback_input [definition, in UniMath.CategoryTheory.limits.pullbacks]
identity_is_CoequalizerOut [definition, in UniMath.CategoryTheory.limits.coequalizers]
identity_Epi [lemma, in UniMath.CategoryTheory.Epis]
identity_isEpi [lemma, in UniMath.CategoryTheory.Epis]
identity_map [definition, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
identity_matrix [definition, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
identity1 [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
identity:144 [binder, in UniMath.CategoryTheory.Core.Categories]
identity:272 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
identity:61 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
identity:75 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
ident_is_prop [lemma, in UniMath.Foundations.HLevels]
idfun [definition, in UniMath.Foundations.PartA]
idfun_multilinear [definition, in UniMath.Algebra.Modules.Examples]
idfun_linear [definition, in UniMath.Algebra.Modules.Examples]
idisweq [lemma, in UniMath.Foundations.PartA]
IDMappingConeEq [lemma, in UniMath.HomologicalAlgebra.MappingCone]
IDMappingCone_is_z_isomorphism [lemma, in UniMath.HomologicalAlgebra.MappingCone]
IDMappingCone_is_z_isomorphism_inverses [lemma, in UniMath.HomologicalAlgebra.MappingCone]
idmoduleiso [definition, in UniMath.Algebra.Modules.Examples]
idmonoidiso [definition, in UniMath.Algebra.Monoids]
IdMor [definition, in UniMath.HomologicalAlgebra.Complexes]
IdMorComm [lemma, in UniMath.HomologicalAlgebra.Complexes]
idoiso_2_0_onetypes [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
idpath [abbreviation, in UniMath.Foundations.Preamble]
idpath_transportf [definition, in UniMath.Foundations.PartA]
idpath' [definition, in UniMath.MoreFoundations.Notations]
idrigiso [definition, in UniMath.Algebra.RigsAndRings]
IdRoof [definition, in UniMath.CategoryTheory.LocalizingClass]
IdRoofEqclass [definition, in UniMath.CategoryTheory.LocalizingClass]
IdRoofEqrel_right [lemma, in UniMath.CategoryTheory.LocalizingClass]
IdRoofEqrel_left [lemma, in UniMath.CategoryTheory.LocalizingClass]
idsfun [definition, in UniMath.Algebra.Universal.SortedTypes]
IdSig [definition, in UniMath.SubstitutionSystems.MLTT79]
IdSignature [definition, in UniMath.SubstitutionSystems.SignatureExamples]
ids:21 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
Idtoiso [section, in UniMath.Bicategories.Core.Univalence]
idtoiso [definition, in UniMath.CategoryTheory.Core.Univalence]
idtoiso_relmonad_eq_from_relmonad_iso [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
idtoiso_functorcat_compute_pointwise' [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
idtoiso_2_0_alt_E₂ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
idtoiso_2_1_alt_E₂ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
idtoiso_isotoid_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
idtoiso_fiber_disp [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
idtoiso_disp [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
idtoiso_plassociator [definition, in UniMath.Bicategories.Core.Strictness]
idtoiso_prunitor [definition, in UniMath.Bicategories.Core.Strictness]
idtoiso_plunitor [definition, in UniMath.Bicategories.Core.Strictness]
idtoiso_2_0_is_idtoiso_id_2_0_alt [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
idtoiso_2_0_alt [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
idtoiso_alt [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
idtoiso_FunctorAlg_commutes [lemma, in UniMath.CategoryTheory.FunctorAlgebras]
idtoiso_functor_eq_from_functor_iso [lemma, in UniMath.CategoryTheory.FunctorCategory]
idtoiso_functorcat_compute_pointwise [lemma, in UniMath.CategoryTheory.FunctorCategory]
idtoiso_shSet_eq_from_shSet_iso [lemma, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
idtoiso_shSet_category_compute_pointwise [lemma, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
idtoiso_2_0_isotoid_2_0 [definition, in UniMath.Bicategories.Core.Univalence]
idtoiso_2_1_isotoid_2_1 [definition, in UniMath.Bicategories.Core.Univalence]
idtoiso_weq [definition, in UniMath.Bicategories.Core.Univalence]
idtoiso_alt_weq [definition, in UniMath.Bicategories.Core.Univalence]
idtoiso_2_1 [definition, in UniMath.Bicategories.Core.Univalence]
idtoiso_2_0 [definition, in UniMath.Bicategories.Core.Univalence]
idtoiso_inj [lemma, in UniMath.CategoryTheory.Core.Univalence]
idtoiso_concat [lemma, in UniMath.CategoryTheory.Core.Univalence]
idtoiso_inv [lemma, in UniMath.CategoryTheory.Core.Univalence]
idtoiso_precompose_iso [lemma, in UniMath.CategoryTheory.Core.Univalence]
idtoiso_precompose [lemma, in UniMath.CategoryTheory.Core.Univalence]
idtoiso_postcompose_iso [lemma, in UniMath.CategoryTheory.Core.Univalence]
idtoiso_postcompose [lemma, in UniMath.CategoryTheory.Core.Univalence]
idtoiso_isotoid [lemma, in UniMath.CategoryTheory.Core.Univalence]
idtoiso_isotoid_CONE [lemma, in UniMath.CategoryTheory.limits.cones]
idtoiso_2_0_univalent_cat [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
idtoiso_2_1_lwhisker [lemma, in UniMath.Bicategories.Core.TransportLaws]
idtoiso_2_1_rwhisker [lemma, in UniMath.Bicategories.Core.TransportLaws]
idtoiso_2_1_concat [lemma, in UniMath.Bicategories.Core.TransportLaws]
idtoiso_2_1_inv [lemma, in UniMath.Bicategories.Core.TransportLaws]
idtoiso_2_1_strict_cat [lemma, in UniMath.Bicategories.Core.Examples.StrictCats]
idtoiso_2_1_strict_cat_help [lemma, in UniMath.Bicategories.Core.Examples.StrictCats]
idtoiso2 [definition, in UniMath.Folds.folds_pre_2_cat]
idtomor [definition, in UniMath.CategoryTheory.Core.Categories]
idtomor_FunctorAlg_commutes [lemma, in UniMath.CategoryTheory.FunctorAlgebras]
idtomor_inv [definition, in UniMath.CategoryTheory.Core.Categories]
idto2cell [definition, in UniMath.Bicategories.Discreteness]
idto2mor [definition, in UniMath.CategoryTheory.Core.TwoCategories]
IdTo2MorLaws [section, in UniMath.CategoryTheory.Core.TwoCategories]
idto2mor_idtoiso_two_cat [lemma, in UniMath.Bicategories.Core.Strictness]
idto2mor_transport [lemma, in UniMath.Bicategories.Core.Strictness]
idto2mor_idtoiso [lemma, in UniMath.Bicategories.Core.Strictness]
idto2mor_rwhisker [definition, in UniMath.CategoryTheory.Core.TwoCategories]
idto2mor_lwhisker [definition, in UniMath.CategoryTheory.Core.TwoCategories]
idto2mor_comp [definition, in UniMath.CategoryTheory.Core.TwoCategories]
idtwobinopiso [definition, in UniMath.Algebra.BinaryOperations]
idweq [definition, in UniMath.Foundations.PartA]
IdZeroMap [definition, in UniMath.CategoryTheory.AbelianToAdditive]
IdZeroMap_isMonic [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
id_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Identity]
id_functor_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Identity]
id_functor_d [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Identity]
id_TRRGraphiso [definition, in UniMath.Combinatorics.ZFstructures]
Id_p_weq_Id [lemma, in UniMath.Foundations.HLevels]
Id_in_sub_to_iso_equal_iso [lemma, in UniMath.CategoryTheory.Subcategory.Full]
Id_in_sub_to_iso [definition, in UniMath.CategoryTheory.Subcategory.Full]
id_pstrans [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
id_is_iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
id_right_disp_var [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
id_right_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
id_left_disp_var [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
id_left_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
id_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
id_right_disp:33 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
id_left_disp:25 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
id_disp:8 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
Id_H [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
id_coslice_precat [definition, in UniMath.CategoryTheory.coslicecat]
id_weq_iso_slicecat [lemma, in UniMath.CategoryTheory.slicecat]
id_slice_precat [definition, in UniMath.CategoryTheory.slicecat]
Id_H [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
id_to_int_equivalence [definition, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
id_folds_iso [definition, in UniMath.Folds.folds_isomorphism]
id_folds_iso_prop [lemma, in UniMath.Folds.folds_isomorphism]
id_folds_iso_data [definition, in UniMath.Folds.folds_isomorphism]
id_multimodulefun [definition, in UniMath.Algebra.Modules.Examples]
id_modulefun [definition, in UniMath.Algebra.Modules.Examples]
id_signature [section, in UniMath.SubstitutionSystems.SignatureExamples]
id_2mor_right [lemma, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
id_2mor_left [lemma, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
id_distr_law_right [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
id_distr_law_left [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
id_distr_law [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
id_functor_cat_swap [definition, in UniMath.CategoryTheory.Adjunctions.Examples]
id_Ptd [definition, in UniMath.CategoryTheory.PointedFunctors]
id_is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
id_identity2' [lemma, in UniMath.Folds.from_precats_to_folds_and_back]
id_identity2 [lemma, in UniMath.Folds.from_precats_to_folds_and_back]
id_identity' [lemma, in UniMath.Folds.from_precats_to_folds_and_back]
id_identity [lemma, in UniMath.Folds.from_precats_to_folds_and_back]
id_pred_id [lemma, in UniMath.Folds.from_precats_to_folds_and_back]
id_pred [definition, in UniMath.Folds.from_precats_to_folds_and_back]
Id_H [definition, in UniMath.SubstitutionSystems.LiftingInitial]
id_conjugation [lemma, in UniMath.CategoryTheory.Core.Categories]
id_right [definition, in UniMath.CategoryTheory.Core.Categories]
id_left [definition, in UniMath.CategoryTheory.Core.Categories]
id1_fully_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
id1_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
id1:7 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
id2 [definition, in UniMath.Bicategories.Core.Bicat]
id2 [definition, in UniMath.CategoryTheory.Core.TwoCategories]
id2toequiv [definition, in UniMath.Bicategories.Core.Bicat]
id2_pb_2cell [definition, in UniMath.Bicategories.Colimits.Pullback]
id2_invertible_2cell [definition, in UniMath.Bicategories.Core.Bicat]
id2_rwhisker [definition, in UniMath.Bicategories.Core.Bicat]
id2_right [definition, in UniMath.Bicategories.Core.Bicat]
id2_left [definition, in UniMath.Bicategories.Core.Bicat]
id2_rwhisker [definition, in UniMath.CategoryTheory.Core.TwoCategories]
id2_right [definition, in UniMath.CategoryTheory.Core.TwoCategories]
id2_left [definition, in UniMath.CategoryTheory.Core.TwoCategories]
id:14 [binder, in UniMath.CategoryTheory.Core.Categories]
id₁:434 [binder, in UniMath.Bicategories.Core.Bicat]
id₂:442 [binder, in UniMath.Bicategories.Core.Bicat]
iE:137 [binder, in UniMath.CategoryTheory.ShortExactSequences]
iE:38 [binder, in UniMath.CategoryTheory.ShortExactSequences]
iE:48 [binder, in UniMath.CategoryTheory.ShortExactSequences]
iE:55 [binder, in UniMath.CategoryTheory.ShortExactSequences]
ie:573 [binder, in UniMath.Combinatorics.StandardFiniteSets]
iE:65 [binder, in UniMath.CategoryTheory.ShortExactSequences]
iE:81 [binder, in UniMath.CategoryTheory.Abelian]
iE:86 [binder, in UniMath.CategoryTheory.Abelian]
ifcontrthenunitl0 [lemma, in UniMath.Foundations.PartA]
ifI [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ifI_eq [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ig:16 [binder, in UniMath.MoreFoundations.Tactics]
IHv:4 [binder, in UniMath.Algebra.Universal.HVectors]
IHv:6 [binder, in UniMath.Algebra.Universal.HVectors]
IH':107 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH':113 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH':120 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH':15 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH':25 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH':6 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:105 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:11 [binder, in UniMath.Combinatorics.MoreLists]
IH:111 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:118 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:12 [binder, in UniMath.MoreFoundations.Nat]
IH:124 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:13 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:130 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:14 [binder, in UniMath.Combinatorics.MoreLists]
IH:145 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:155 [binder, in UniMath.Algebra.Universal.Terms]
IH:164 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:171 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:186 [binder, in UniMath.Algebra.Universal.Terms]
IH:19 [binder, in UniMath.MoreFoundations.Nat]
ih:191 [binder, in UniMath.Algebra.FixedPointTheorems]
IH:196 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:202 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:208 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:214 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
ih:217 [binder, in UniMath.Algebra.FixedPointTheorems]
IH:220 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:23 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:28 [binder, in UniMath.MoreFoundations.Nat]
IH:319 [binder, in UniMath.Combinatorics.StandardFiniteSets]
IH:35 [binder, in UniMath.MoreFoundations.Nat]
IH:4 [binder, in UniMath.Combinatorics.MoreLists]
IH:4 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:4 [binder, in UniMath.MoreFoundations.Nat]
IH:45 [binder, in UniMath.MoreFoundations.Nat]
IH:7 [binder, in UniMath.Combinatorics.MoreLists]
iii:132 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
iii:141 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
iii:150 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ii1 [constructor, in UniMath.Foundations.Preamble]
ii1_injectivity [lemma, in UniMath.Foundations.PartA]
II12:1025 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II12:1067 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II12:773 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II12:815 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II12:857 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II12:899 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II12:941 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II12:983 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II13:1026 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II13:1068 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II13:774 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II13:816 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II13:858 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II13:900 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II13:942 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II13:984 [binder, in UniMath.HomologicalAlgebra.Triangulated]
ii2 [constructor, in UniMath.Foundations.Preamble]
ii2_injectivity [lemma, in UniMath.Foundations.PartA]
II23:1027 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II23:1069 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II23:775 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II23:817 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II23:859 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II23:901 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II23:943 [binder, in UniMath.HomologicalAlgebra.Triangulated]
II23:985 [binder, in UniMath.HomologicalAlgebra.Triangulated]
ii:130 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ii:1316 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:1337 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:1358 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:139 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ii:148 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ii:382 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:401 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:443 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:462 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:481 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:487 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ii:499 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:529 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ii:589 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:661 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ii:693 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:712 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:754 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:773 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:792 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:810 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ii:900 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ij:115 [binder, in UniMath.Algebra.IteratedBinaryOperations]
ij:124 [binder, in UniMath.Algebra.IteratedBinaryOperations]
ij:125 [binder, in UniMath.Algebra.IteratedBinaryOperations]
ij:126 [binder, in UniMath.Algebra.IteratedBinaryOperations]
ij:127 [binder, in UniMath.Algebra.IteratedBinaryOperations]
ij:274 [binder, in UniMath.Combinatorics.StandardFiniteSets]
ij:421 [binder, in UniMath.Combinatorics.StandardFiniteSets]
ij:423 [binder, in UniMath.Combinatorics.StandardFiniteSets]
Image [definition, in UniMath.CategoryTheory.Abelian]
image [definition, in UniMath.Algebra.FixedPointTheorems]
image [definition, in UniMath.Foundations.Propositions]
Image [definition, in UniMath.CategoryTheory.ShortExactSequences]
Image [library]
image_is_in_image [lemma, in UniMath.CategoryTheory.Subcategory.Full]
image_directed [definition, in UniMath.Algebra.FixedPointTheorems]
image_is_directed [definition, in UniMath.Algebra.FixedPointTheorems]
image_chain [definition, in UniMath.Algebra.FixedPointTheorems]
image_is_chain [definition, in UniMath.Algebra.FixedPointTheorems]
image_same_upper_bounds [definition, in UniMath.Algebra.FixedPointTheorems]
image_same_lower_bounds [definition, in UniMath.Algebra.FixedPointTheorems]
image_carrier_univ' [definition, in UniMath.Algebra.FixedPointTheorems]
image_carrier_univ [definition, in UniMath.Algebra.FixedPointTheorems]
image_univ' [definition, in UniMath.Algebra.FixedPointTheorems]
image_univ [definition, in UniMath.Algebra.FixedPointTheorems]
Image_Eq [lemma, in UniMath.CategoryTheory.ShortExactSequences]
implb [definition, in UniMath.MoreFoundations.Bool]
impl_op [definition, in UniMath.Algebra.Universal.Examples.Tests]
impl:1410 [binder, in UniMath.Foundations.Sets]
impl:17 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
impl:23 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
impl:29 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
impl:35 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
impl:496 [binder, in UniMath.Algebra.Groups]
impl:641 [binder, in UniMath.Algebra.Monoids]
impred [lemma, in UniMath.Foundations.PartD]
impredfun [lemma, in UniMath.Foundations.PartD]
ImpredicativeInductiveSets [library]
impredtech1 [lemma, in UniMath.Foundations.PartD]
impredtwice [lemma, in UniMath.Foundations.PartD]
impred_isaset [lemma, in UniMath.Foundations.PartD]
impred_isaprop [lemma, in UniMath.Foundations.PartD]
impred_iscontr [lemma, in UniMath.Foundations.PartD]
impred_prop [lemma, in UniMath.Foundations.Propositions]
Im:167 [binder, in UniMath.CategoryTheory.ShortExactSequences]
Im:171 [binder, in UniMath.CategoryTheory.ShortExactSequences]
iM:80 [binder, in UniMath.CategoryTheory.Abelian]
iM:85 [binder, in UniMath.CategoryTheory.Abelian]
incl [definition, in UniMath.Foundations.PartB]
inclcomp [definition, in UniMath.Foundations.PartB]
Inclusion [section, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
Inclusion.B₁ [variable, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
Inclusion.B₂ [variable, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
incl_injectivity [lemma, in UniMath.Foundations.PartD]
incl:127 [binder, in UniMath.Combinatorics.OrderedSets]
inc:335 [binder, in UniMath.Combinatorics.WellOrderedSets]
inc:349 [binder, in UniMath.Combinatorics.WellOrderedSets]
InducedExactCategory [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
inducedMapReflectsCokernels [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
inducedMapReflectsKernelCokernelPairs [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
inducedMapReflectsKernels [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
inducedPartialOrder [lemma, in UniMath.Combinatorics.OrderedSets]
inducedPartialOrder_weq [lemma, in UniMath.Combinatorics.OrderedSets]
induced_ExactCategory [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
induced_ExactCategoryProperties [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
induced_ExactCategoryData [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
induced_PreAdditive_incl [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
induced_precategory_reflects_pushouts [lemma, in UniMath.CategoryTheory.limits.pushouts]
induced_precategoryWithBinOps [definition, in UniMath.CategoryTheory.CategoriesWithBinOps]
induced_precategory_incl [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
induced_opposite_PreAdditive [lemma, in UniMath.CategoryTheory.PreAdditive]
induced_PreAdditive [definition, in UniMath.CategoryTheory.PreAdditive]
induced_category [definition, in UniMath.CategoryTheory.Core.TransportMorphisms]
induced_precategory [definition, in UniMath.CategoryTheory.Core.TransportMorphisms]
induced_precategory_reflects_pullbacks [lemma, in UniMath.CategoryTheory.limits.pullbacks]
induced_categoryWithAbgrops [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
induced_opposite_Additive [lemma, in UniMath.CategoryTheory.Additive]
induced_Additive [definition, in UniMath.CategoryTheory.Additive]
inductionOnFiller [definition, in UniMath.MoreFoundations.PartA]
inductionPathOver [definition, in UniMath.MoreFoundations.PathsOver]
ind:13 [binder, in UniMath.Combinatorics.Lists]
ind:140 [binder, in UniMath.Combinatorics.WellFoundedRelations]
ind:219 [binder, in UniMath.Combinatorics.FiniteSequences]
ind:226 [binder, in UniMath.Combinatorics.FiniteSequences]
ind:234 [binder, in UniMath.Combinatorics.FiniteSequences]
ind:28 [binder, in UniMath.Combinatorics.FiniteSequences]
inequality_to_isolation [definition, in UniMath.MoreFoundations.DecidablePropositions]
inf:204 [binder, in UniMath.CategoryTheory.PreAdditive]
ing:209 [binder, in UniMath.CategoryTheory.PreAdditive]
inhdnegand [definition, in UniMath.Foundations.Propositions]
inhdnegfun [definition, in UniMath.Foundations.Propositions]
inhdnegpr [definition, in UniMath.Foundations.Propositions]
inhdneguniv [definition, in UniMath.Foundations.Propositions]
Init [library]
InitAlg [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
InitAlg [definition, in UniMath.SubstitutionSystems.LiftingInitial]
initChain [definition, in UniMath.CategoryTheory.Chains.Chains]
initCocone [definition, in UniMath.CategoryTheory.limits.graphs.initial]
InitC:2 [binder, in UniMath.CategoryTheory.Chains.Adamek]
InitC:31 [binder, in UniMath.CategoryTheory.Chains.Chains]
InitC:45 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
initDiagram [definition, in UniMath.CategoryTheory.limits.graphs.initial]
InitHSS [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
InitHSS [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
InitHSS [definition, in UniMath.SubstitutionSystems.LiftingInitial]
Initial [definition, in UniMath.CategoryTheory.limits.initial]
Initial [definition, in UniMath.CategoryTheory.limits.graphs.initial]
Initial [section, in UniMath.Bicategories.Colimits.Initial]
Initial [library]
Initial [library]
initial [library]
initial [library]
initialAlg_is_iso [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
initialAlg_is_iso [lemma, in UniMath.CategoryTheory.FunctorAlgebras]
initialAlg_is_iso_subproof [lemma, in UniMath.CategoryTheory.FunctorAlgebras]
initialArrow [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
InitialArrow [definition, in UniMath.CategoryTheory.limits.initial]
InitialArrow [definition, in UniMath.CategoryTheory.limits.graphs.initial]
InitialArrowEq [lemma, in UniMath.CategoryTheory.limits.initial]
InitialArrowUnique [lemma, in UniMath.CategoryTheory.limits.initial]
InitialArrowUnique [lemma, in UniMath.CategoryTheory.limits.graphs.initial]
InitialEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.initial]
InitialEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.graphs.initial]
InitialFunctorCat [section, in UniMath.CategoryTheory.limits.initial]
InitialFunctorCat.C [variable, in UniMath.CategoryTheory.limits.initial]
InitialFunctorCat.D [variable, in UniMath.CategoryTheory.limits.initial]
InitialFunctorCat.ID [variable, in UniMath.CategoryTheory.limits.initial]
InitialHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
InitialHSET_from_Colims [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
InitialHSET2 [lemma, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
InitialHSS [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
InitialHSS [lemma, in UniMath.SubstitutionSystems.LiftingInitial]
initialObject [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
InitialObject [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
InitialObject [definition, in UniMath.CategoryTheory.limits.initial]
InitialObject [definition, in UniMath.CategoryTheory.limits.graphs.initial]
InitialRep [section, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.Alg [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.C [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.CC [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.CP [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.CPEndC [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.j_ptd [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.τT [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.isInitial_precomp' [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.X [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.L [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.is_omega_cocont_Id_H' [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.Colims_of_shape_nat_graph_EndC [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.InitialEndC [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.j [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.τ_M [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.M [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation [section, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.H [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.HH [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.IC [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.Id_H [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.T [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.TauModuleMorphism [section, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.TauModuleMorphism.T [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
EndC [notation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
EndC [notation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
p _ [notation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.θ [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialToCoproduct [lemma, in UniMath.CategoryTheory.limits.FinOrdCoproducts]
InitialType [lemma, in UniMath.CategoryTheory.categories.Type.Colimits]
Initial_PreShv [lemma, in UniMath.CategoryTheory.Presheaf]
initial_bicat_is_univalent_2 [definition, in UniMath.Bicategories.Core.Examples.Initial]
initial_bicat_is_univalent_2_0 [definition, in UniMath.Bicategories.Core.Examples.Initial]
initial_bicat_is_univalent_2_1 [definition, in UniMath.Bicategories.Core.Examples.Initial]
initial_bicat_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Examples.Initial]
initial_bicat_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.Initial]
initial_bicat [definition, in UniMath.Bicategories.Core.Examples.Initial]
initial_prebicat [definition, in UniMath.Bicategories.Core.Examples.Initial]
initial_bicat_laws [lemma, in UniMath.Bicategories.Core.Examples.Initial]
initial_prebicat_data [definition, in UniMath.Bicategories.Core.Examples.Initial]
initial_2_id_comp_struct [definition, in UniMath.Bicategories.Core.Examples.Initial]
initial_1_id_comp_cells [definition, in UniMath.Bicategories.Core.Examples.Initial]
Initial_Bicategory [section, in UniMath.Bicategories.Core.Examples.Initial]
Initial_functor_precat [definition, in UniMath.CategoryTheory.limits.initial]
initial_from_empty_coproduct [definition, in UniMath.CategoryTheory.limits.initial]
Initial_and_EmptyCoprod [section, in UniMath.CategoryTheory.limits.initial]
Initial_Unique.H [variable, in UniMath.CategoryTheory.limits.initial]
Initial_Unique.C [variable, in UniMath.CategoryTheory.limits.initial]
Initial_Unique [section, in UniMath.CategoryTheory.limits.initial]
Initial_WOSET [lemma, in UniMath.CategoryTheory.categories.wosets]
Initial_wosetfuncat [lemma, in UniMath.CategoryTheory.categories.wosets]
Initial_slice_precat [lemma, in UniMath.CategoryTheory.slicecat]
Initial_from_Colims [lemma, in UniMath.CategoryTheory.limits.graphs.initial]
initial_in_full_subcategory [lemma, in UniMath.CategoryTheory.Subcategory.Limits]
Initial_opp [definition, in UniMath.CategoryTheory.limits.Opp]
Initial_and_Terminal_ob_equals_Zero_ob [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
Initial_and_Terminal_to_Zero [definition, in UniMath.CategoryTheory.limits.graphs.zero]
Initial_HSS [definition, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
initial_psfunctor_eq [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor_2cell [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor_2cell_is_modification [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor_2cell_data [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor_1cell [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor_1cell_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor_1cell_data [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
Initial.C_is_univalent_2_1 [variable, in UniMath.Bicategories.Colimits.Initial]
init_to_opp [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
init:137 [binder, in UniMath.Combinatorics.WellFoundedRelations]
injections [definition, in UniMath.CategoryTheory.categories.HSET.Colimits]
injective_pairing_uip [lemma, in UniMath.MoreFoundations.NoInjectivePairing]
injective_pairing_statement [definition, in UniMath.MoreFoundations.NoInjectivePairing]
Injectivity [definition, in UniMath.Foundations.PartB]
injectM0 [definition, in UniMath.Induction.M.ComputationalM]
inj_comm [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
inj_ [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
inj:548 [binder, in UniMath.Foundations.PartB]
inl [abbreviation, in UniMath.Foundations.Preamble]
inr [abbreviation, in UniMath.Foundations.Preamble]
Instantiation_To_Bicategory_Of_Categories [section, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.ActionBased_Strength_From_Signature.Morphisms [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.ActionBased_Strength_From_Signature.IndividualSignatures [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.ActionBased_Strength_From_Signature [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.Signature_From_ActionBased_Strength.Morphisms [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.Signature_From_ActionBased_Strength.IndividualStrongFunctors [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.Signature_From_ActionBased_Strength.IndividualFunctorsWithABStrength [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.Signature_From_ActionBased_Strength [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.a_different_type_for_the_forgetful_functor_from_ptd [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
intdom [definition, in UniMath.Algebra.Domains_and_Fields]
intdomax [definition, in UniMath.Algebra.Domains_and_Fields]
intdomax2l [lemma, in UniMath.Algebra.Domains_and_Fields]
intdomax2r [lemma, in UniMath.Algebra.Domains_and_Fields]
intdomiscancelable [lemma, in UniMath.Algebra.Domains_and_Fields]
intdomlcan [lemma, in UniMath.Algebra.Domains_and_Fields]
intdomneq0andmult [definition, in UniMath.Algebra.Domains_and_Fields]
intdomnonzerosubmonoid [definition, in UniMath.Algebra.Domains_and_Fields]
intdomnonzerotopos [definition, in UniMath.Algebra.Domains_and_Fields]
intdomrcan [lemma, in UniMath.Algebra.Domains_and_Fields]
intdoms [library]
intdom_univalence [definition, in UniMath.Algebra.Domains_and_Fields]
intdom_univalence_isweq [lemma, in UniMath.Algebra.Domains_and_Fields]
intdom_univalence_map [definition, in UniMath.Algebra.Domains_and_Fields]
intdom_univalence_weq2 [definition, in UniMath.Algebra.Domains_and_Fields]
intdom_univalence_weq1 [definition, in UniMath.Algebra.Domains_and_Fields]
intdom_univalent_category [definition, in UniMath.CategoryTheory.categories.intdoms]
intdom_category_is_univalent [definition, in UniMath.CategoryTheory.categories.intdoms]
intdom_category [definition, in UniMath.CategoryTheory.categories.intdoms]
intdom_precategory_isweq [definition, in UniMath.CategoryTheory.categories.intdoms]
intdom_equiv_weq_iso [definition, in UniMath.CategoryTheory.categories.intdoms]
intdom_equiv_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.intdoms]
intdom_iso_equiv_weq [definition, in UniMath.CategoryTheory.categories.intdoms]
intdom_iso_equiv_is_equiv [lemma, in UniMath.CategoryTheory.categories.intdoms]
intdom_equiv_iso [lemma, in UniMath.CategoryTheory.categories.intdoms]
intdom_equiv_is_iso [lemma, in UniMath.CategoryTheory.categories.intdoms]
intdom_iso_equiv [lemma, in UniMath.CategoryTheory.categories.intdoms]
intdom_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.intdoms]
intdom_precategory [definition, in UniMath.CategoryTheory.categories.intdoms]
intdom_assoc [lemma, in UniMath.CategoryTheory.categories.intdoms]
intdom_id_right [lemma, in UniMath.CategoryTheory.categories.intdoms]
intdom_id_left [lemma, in UniMath.CategoryTheory.categories.intdoms]
intdom_precategory_data [definition, in UniMath.CategoryTheory.categories.intdoms]
intdom_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.intdoms]
intdom_fun_space [definition, in UniMath.CategoryTheory.categories.intdoms]
Integers [library]
interchange [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
interchange [lemma, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
interchange_functorial_composition [lemma, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
interface [section, in UniMath.CategoryTheory.RepresentableFunctors.Test]
interface.C [variable, in UniMath.CategoryTheory.RepresentableFunctors.Test]
interface.coproduct_unique.b [variable, in UniMath.CategoryTheory.RepresentableFunctors.Test]
interface.coproduct_unique.a [variable, in UniMath.CategoryTheory.RepresentableFunctors.Test]
interface.coproduct_unique.H [variable, in UniMath.CategoryTheory.RepresentableFunctors.Test]
interface.coproduct_unique [section, in UniMath.CategoryTheory.RepresentableFunctors.Test]
internal_triangle2 [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
internal_triangle2 [definition, in UniMath.Bicategories.Core.Adjunctions]
internal_triangle1 [definition, in UniMath.Bicategories.Core.Adjunctions]
internal_right_adjoint [definition, in UniMath.Bicategories.Core.Adjunctions]
Internal_Adjunction [section, in UniMath.Bicategories.Core.Adjunctions]
internal_adjoint_equivalence_identity [definition, in UniMath.Bicategories.Core.Univalence]
internal_adjunction_data_identity [definition, in UniMath.Bicategories.Core.Univalence]
internal_equivalence [library]
intersection_sieve [definition, in UniMath.CategoryTheory.Presheaf]
intersection_submonoid [lemma, in UniMath.Algebra.Monoids]
intersection_subgr [lemma, in UniMath.Algebra.Groups]
intersection_submodule [lemma, in UniMath.Algebra.Modules.Submodule]
intersection_contained2 [definition, in UniMath.AlgebraicGeometry.Topology]
intersection_contained1 [definition, in UniMath.AlgebraicGeometry.Topology]
intersection_facts [section, in UniMath.AlgebraicGeometry.Topology]
interval [definition, in UniMath.MoreFoundations.Interval]
Interval [library]
interval_cartesian_cubical_sets_is_tiny [lemma, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
interval_cartesian_cubical_sets_dec_eq [lemma, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
interval_cartesian_cubical_sets_two_elements [lemma, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
interval_map [definition, in UniMath.MoreFoundations.Interval]
interval_path [definition, in UniMath.MoreFoundations.Interval]
into_cone_to_cone [definition, in UniMath.Induction.M.Limits]
intpart [definition, in UniMath.NumberSystems.RationalNumbers]
intpartint0 [definition, in UniMath.NumberSystems.RationalNumbers]
intpart0 [definition, in UniMath.NumberSystems.RationalNumbers]
int_equivalence [definition, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
inv [definition, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
inv [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
invbinophrelandfun [lemma, in UniMath.Algebra.BinaryOperations]
invbinopiso [definition, in UniMath.Algebra.BinaryOperations]
invcounit_of_is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
invcutonweq [definition, in UniMath.Foundations.PartD]
invDivRig [definition, in UniMath.Algebra.DivisionRig]
inverse [definition, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
inverseEquivalence [definition, in UniMath.MoreFoundations.Equivalences]
inverseInversePathOver [definition, in UniMath.MoreFoundations.PathsOver]
inverseInversePathOver1 [definition, in UniMath.MoreFoundations.PathsOver]
inverseInversePathOver2 [definition, in UniMath.MoreFoundations.PathsOver]
InverseMorphismPairIsomorphism [definition, in UniMath.CategoryTheory.Morphisms]
inversePathOver [definition, in UniMath.MoreFoundations.PathsOver]
inversePathOverIdpath [definition, in UniMath.MoreFoundations.PathsOver]
inversePathOverIdpath' [definition, in UniMath.MoreFoundations.PathsOver]
inversePathOverWeq [definition, in UniMath.MoreFoundations.PathsOver]
inversePathOverWeq' [lemma, in UniMath.MoreFoundations.PathsOver]
inversePathOver' [definition, in UniMath.MoreFoundations.PathsOver]
inverse_pentagon_6 [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
inverse_pentagon_5 [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
inverse_pentagon_4 [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
inverse_pentagon_3 [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
inverse_pentagon_2 [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
inverse_pentagon [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
inverse_unique_precat [lemma, in UniMath.CategoryTheory.Core.Isos]
inverse_of_assoc [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
inverse_cp_p_compare [lemma, in UniMath.MoreFoundations.PathsOver]
inverse_cp_p'' [definition, in UniMath.MoreFoundations.PathsOver]
inverse_cp_p' [definition, in UniMath.MoreFoundations.PathsOver]
inverse_cp_p [definition, in UniMath.MoreFoundations.PathsOver]
inverse_lexicalEnumeration [definition, in UniMath.Combinatorics.StandardFiniteSets]
inverse_is_inverse_2 [lemma, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
inverse_is_inverse_1 [lemma, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
invertibilityinabmonoidfrac [lemma, in UniMath.Algebra.Monoids]
invertibilityincommringfrac [lemma, in UniMath.Algebra.RigsAndRings]
invertible_is_cartesian_2cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
invertible_2cell [definition, in UniMath.Bicategories.Core.Bicat]
invertible_2cell_ps_base_weq [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
invertible_2cell_ps_base_inv [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
invertible_2cell_ps_base [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
invertible_2cell_inv_alg_eq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_map_alg_eq2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_map_alg_eq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_map_alg'' [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_inv_alg' [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_map_alg' [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_inv_alg [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_map_alg [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_cells [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
invertible_modification_on_data [definition, in UniMath.Bicategories.Modifications.Modification]
invertible_modification_on_data_is_modification [definition, in UniMath.Bicategories.Modifications.Modification]
invertible_modification_data_on_data [definition, in UniMath.Bicategories.Modifications.Modification]
invertible_modcomponent_of [definition, in UniMath.Bicategories.Modifications.Modification]
invertible_modification_data_to_modification_data [definition, in UniMath.Bicategories.Modifications.Modification]
invertible_modification_data [definition, in UniMath.Bicategories.Modifications.Modification]
invertible_modification [definition, in UniMath.Bicategories.Modifications.Modification]
invertible_2cell_is_nat_iso [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
invertible_2cell_to_nat_iso [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
invertible_2cell_is_nat_iso [definition, in UniMath.Bicategories.Core.Examples.BicatOfCats]
invertible_2cell_to_nat_iso [definition, in UniMath.Bicategories.Core.Examples.BicatOfCats]
Invertible_2cells [library]
InvestigateNotations [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
invezmaphf [definition, in UniMath.Foundations.PartA]
invezmappr1 [definition, in UniMath.Foundations.PartA]
invezmap1 [definition, in UniMath.Foundations.PartA]
InvHomot [definition, in UniMath.HomologicalAlgebra.MappingCone]
invhomot [definition, in UniMath.Foundations.PartA]
InvHomotEq [lemma, in UniMath.HomologicalAlgebra.MappingCone]
invimpl [definition, in UniMath.Foundations.PartC]
invinv [lemma, in UniMath.Foundations.PartA]
invmap [definition, in UniMath.Foundations.PartA]
invmaponpathsincl [definition, in UniMath.Foundations.PartB]
invmaponpathsS [lemma, in UniMath.Foundations.NaturalNumbers]
invmaponpathsweq [definition, in UniMath.Foundations.PartA]
invmaponpathsweqid [definition, in UniMath.Foundations.PartA]
invmapweqcomp [definition, in UniMath.Foundations.PartD]
invmap_eq [lemma, in UniMath.MoreFoundations.PartA]
invmap_weqcomp_expand [definition, in UniMath.Foundations.PartA]
invmoduleiso [definition, in UniMath.Algebra.Modules.Core]
invmonoidiso [definition, in UniMath.Algebra.Monoids]
invNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
invNonnegativeRationals_ltcompat' [lemma, in UniMath.RealNumbers.NonnegativeRationals]
invNonnegativeRationals_ltcompat [lemma, in UniMath.RealNumbers.NonnegativeRationals]
invNonnegativeRationals_lecompat' [lemma, in UniMath.RealNumbers.NonnegativeRationals]
invNonnegativeRationals_lecompat [lemma, in UniMath.RealNumbers.NonnegativeRationals]
invNonnegativeRationals_correct [lemma, in UniMath.RealNumbers.NonnegativeRationals]
invNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
invongrquot [definition, in UniMath.Algebra.Groups]
invpair [definition, in UniMath.Algebra.Domains_and_Fields]
invpairxy [definition, in UniMath.Algebra.Domains_and_Fields]
invproofirrelevance [lemma, in UniMath.Foundations.PartB]
invrecompl [definition, in UniMath.Foundations.PartC]
invrecompl_ne [definition, in UniMath.MoreFoundations.NegativePropositions]
invrigiso [definition, in UniMath.Algebra.RigsAndRings]
InvRoofFromMorInSom [definition, in UniMath.CategoryTheory.LocalizingClass]
invrot [definition, in UniMath.MoreFoundations.PartA]
InvRot [section, in UniMath.MoreFoundations.PartA]
InvRotDTri [definition, in UniMath.HomologicalAlgebra.Triangulated]
InvRotDTriMor [definition, in UniMath.HomologicalAlgebra.Triangulated]
InvRotDTris [definition, in UniMath.HomologicalAlgebra.Triangulated]
InvRotIso_is_iso [definition, in UniMath.HomologicalAlgebra.Triangulated]
InvRotIso_Mor [definition, in UniMath.HomologicalAlgebra.Triangulated]
InvRotIso_Mor_Comm3 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
InvRotIso_Mor_Comm2 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
InvRotIso_Mor_Comm1 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
InvRotMorphism [definition, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismComm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismComm2 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismComm3 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismComm3Homot [definition, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismComm3' [lemma, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismInv [definition, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismInvComm1 [definition, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismInvComm1Homot [definition, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismInvComm2 [definition, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismIsoHomot [definition, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismIso'_eq2' [lemma, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismIso'_eq2_2 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismIso'_eq2_1 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismMor [definition, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismMorInv [definition, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismMorInvComm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphism_is_z_isomorphism [definition, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphism_is_z_isomorphism_inverses [lemma, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphism_is_iso_with_inv_eq2 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphism_is_iso_with_inv_eq1 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
invrotrot' [definition, in UniMath.MoreFoundations.PartA]
InvRotTri [definition, in UniMath.HomologicalAlgebra.Triangulated]
InvRotTriIso [definition, in UniMath.HomologicalAlgebra.Triangulated]
InvRotTriMor [definition, in UniMath.HomologicalAlgebra.Triangulated]
InvRotTriMor_is_iso [definition, in UniMath.HomologicalAlgebra.Triangulated]
InvRotTriMor_Comm3 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
InvRotTriMor_Comm1 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
invrot' [definition, in UniMath.MoreFoundations.PartA]
invrot'rot [definition, in UniMath.MoreFoundations.PartA]
invstruct [definition, in UniMath.Algebra.BinaryOperations]
invstruct_setofendabgr_inv [definition, in UniMath.Algebra.Modules.Core]
invstruct_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
invstruct_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
invstruct_section_op1 [definition, in UniMath.AlgebraicGeometry.Spec]
invstruct_free_gr [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
invtolinv [definition, in UniMath.Algebra.Domains_and_Fields]
invtorinv [definition, in UniMath.Algebra.Domains_and_Fields]
InvTranslationComplex [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorHIm [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorHImEq [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorHImEquality [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorHImMor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorHomotopies [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_AdditiveFunctor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_isAdditiveFunctor [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_Mor_Im [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_comm [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_is_functor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_Mor_Comp [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_Mor_Id [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_data [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_Mor_unique [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_Mor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_Mor_data [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorPreservesHomotopies [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_eq [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_Additive [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_isAdditive [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_isfunctor [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_data [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_comm [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_comp [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationHomot [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationHTranslationH [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationHTranslationHNatTrans [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationHTranslationHNatTrans_isnattrans [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationMorphism [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationMorphism_mor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslation [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslationNatTrans [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslationNatTrans_isnattrans [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslationNatTrans_Mor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslationNatTrans_Eq1 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslation_eq2 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslation_eq1 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
invtwobinopiso [definition, in UniMath.Algebra.BinaryOperations]
invunit_of_is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
invUnivalenceCompose [definition, in UniMath.Algebra.GroupAction]
invweq [definition, in UniMath.Foundations.PartA]
invweqcomp [definition, in UniMath.Foundations.PartD]
invweqpr1_irr_sec [definition, in UniMath.MoreFoundations.MoreEquivalences]
invx:1025 [binder, in UniMath.Algebra.BinaryOperations]
invy:1035 [binder, in UniMath.Algebra.BinaryOperations]
inv_adjequiv [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
inv_equiv [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
inv_η:164 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
inv_η:156 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
inv_relmonadmor_from_is_iso [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
inv_B:13 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
inv_catiso [definition, in UniMath.CategoryTheory.catiso]
inv_from_iso_iso_from_fully_faithful_reflection [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
inv_from_iso_comp [lemma, in UniMath.CategoryTheory.LocalizingClass]
inv_y:703 [binder, in UniMath.Bicategories.Core.Bicat]
inv_y:694 [binder, in UniMath.Bicategories.Core.Bicat]
inv_x:685 [binder, in UniMath.Bicategories.Core.Bicat]
inv_y:676 [binder, in UniMath.Bicategories.Core.Bicat]
inv_η:608 [binder, in UniMath.Bicategories.Core.Bicat]
inv_y:587 [binder, in UniMath.Bicategories.Core.Bicat]
inv_x:586 [binder, in UniMath.Bicategories.Core.Bicat]
inv_cell_eq [lemma, in UniMath.Bicategories.Core.Bicat]
inv_x:575 [binder, in UniMath.Bicategories.Core.Bicat]
inv_x:565 [binder, in UniMath.Bicategories.Core.Bicat]
inv_η:543 [binder, in UniMath.Bicategories.Core.Bicat]
inv_η:536 [binder, in UniMath.Bicategories.Core.Bicat]
inv_η:529 [binder, in UniMath.Bicategories.Core.Bicat]
inv_cell [definition, in UniMath.Bicategories.Core.Bicat]
inv_idweq_is_idweq [lemma, in UniMath.Foundations.PartD]
inv_from_iso_iso_comp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
inv_from_iso_iso_from_Pullback [lemma, in UniMath.CategoryTheory.limits.graphs.coequalizers]
inv_of_ff_inv_is_inv [lemma, in UniMath.CategoryTheory.Core.Functors]
inv_from_iso_iso_from_Pushout [lemma, in UniMath.CategoryTheory.limits.graphs.pushouts]
inv_map_alg [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
inv_from_iso_iso_from_Pushout [lemma, in UniMath.CategoryTheory.limits.pushouts]
inv_mor_total_iso [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
inv_iso_base_from_total [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
inv_mor_after_iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
inv_mor_disp_from_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
inv_from_iso_iso_from_Pullback [lemma, in UniMath.CategoryTheory.limits.graphs.equalizers]
inv_z_iso_unique' [lemma, in UniMath.CategoryTheory.Core.Isos]
inv_z_iso_unique [lemma, in UniMath.CategoryTheory.Core.Isos]
inv_from_z_iso [definition, in UniMath.CategoryTheory.Core.Isos]
inv_iso_unique' [lemma, in UniMath.CategoryTheory.Core.Isos]
inv_iso_unique [lemma, in UniMath.CategoryTheory.Core.Isos]
inv_from_iso [definition, in UniMath.CategoryTheory.Core.Isos]
inv_algebra_mor_from_is_iso [definition, in UniMath.CategoryTheory.FunctorAlgebras]
inv_disp_from_pointwise_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
inv_zeroNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
inv_of_invertible_2cell [definition, in UniMath.Bicategories.Core.Invertible_2cells]
inv_η₂:155 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
inv_η₁:154 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
inv_η₂:50 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
inv_η₁:49 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
inv_x:28 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
inv_x:19 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
inv_y:10 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
inv_x:8 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
inv_xx:1114 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
inv_x:1105 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
inv_y:1082 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
inv_α:958 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
inv_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Univalence]
inv_natural_postcomp [definition, in UniMath.CategoryTheory.Adjunctions.Core]
inv_natural_precomp [definition, in UniMath.CategoryTheory.Adjunctions.Core]
inv_folds_iso [definition, in UniMath.Folds.folds_isomorphism]
inv_folds_iso_prop [lemma, in UniMath.Folds.folds_isomorphism]
inv_folds_iso_data [definition, in UniMath.Folds.folds_isomorphism]
inv_isotoid [lemma, in UniMath.CategoryTheory.Core.Univalence]
inv_from_iso_ConeConnectIso [lemma, in UniMath.CategoryTheory.limits.cones]
inv_isColim_is_iso [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
inv_modification_modification [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
inv_modification [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
inv_monad_mor_natural_pointwise [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
inv_horizontal_comp [lemma, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
inv_triangle_2_statement_over_id [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
inv_triangle_1_statement_over_id [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
inv_adjunction_data [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
inv_ax [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
inv_from_iso_iso_from_Pullback [lemma, in UniMath.CategoryTheory.limits.graphs.pullbacks]
inv_from_iso_iso_from_Pullback [lemma, in UniMath.CategoryTheory.limits.pullbacks]
inv_inv_eq [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
inv_rotation_mapping_cone.A [variable, in UniMath.HomologicalAlgebra.MappingCone]
inv_rotation_mapping_cone [section, in UniMath.HomologicalAlgebra.MappingCone]
inv_fld [definition, in UniMath.RealNumbers.Fields]
inv_equality_by_case [definition, in UniMath.Foundations.PartA]
inv_psfunctor_of_is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
inv_B:128 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
inv_B:110 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
inv_isLim_is_iso [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
inv0:101 [binder, in UniMath.Algebra.BinaryOperations]
inv0:106 [binder, in UniMath.Algebra.BinaryOperations]
inv0:110 [binder, in UniMath.Algebra.BinaryOperations]
inv0:115 [binder, in UniMath.Algebra.BinaryOperations]
inv0:119 [binder, in UniMath.Algebra.BinaryOperations]
inv0:123 [binder, in UniMath.Algebra.BinaryOperations]
inv0:129 [binder, in UniMath.Algebra.BinaryOperations]
inv0:133 [binder, in UniMath.Algebra.BinaryOperations]
inv0:137 [binder, in UniMath.Algebra.BinaryOperations]
inv0:224 [binder, in UniMath.Algebra.Groups]
inv0:291 [binder, in UniMath.Algebra.BinaryOperations]
inv2cell_to_iso_weq [definition, in UniMath.Bicategories.Core.Univalence]
inv2cell_to_iso_isweq [definition, in UniMath.Bicategories.Core.Univalence]
inv2cell_to_iso [definition, in UniMath.Bicategories.Core.Univalence]
inv2_cell_to_disp_adjequiv_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv_weq_right [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv_weq_left [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv_counit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv_unit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv_right_adj [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv_left_adj [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv:13 [binder, in UniMath.RealNumbers.Sets]
inv:20 [binder, in UniMath.RealNumbers.Sets]
inv:573 [binder, in UniMath.Algebra.BinaryOperations]
inv:582 [binder, in UniMath.Algebra.BinaryOperations]
inv:589 [binder, in UniMath.Algebra.BinaryOperations]
inv:6 [binder, in UniMath.RealNumbers.Sets]
inv:694 [binder, in UniMath.Algebra.BinaryOperations]
inv:703 [binder, in UniMath.Algebra.BinaryOperations]
inv:710 [binder, in UniMath.Algebra.BinaryOperations]
inv:74 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
inv:87 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
inx0:216 [binder, in UniMath.Foundations.Propositions]
inx0:219 [binder, in UniMath.Foundations.Propositions]
inx1:222 [binder, in UniMath.Foundations.Propositions]
inx1:57 [binder, in UniMath.Foundations.Propositions]
iny0:220 [binder, in UniMath.Foundations.Propositions]
iny1:58 [binder, in UniMath.Foundations.Propositions]
in_ [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
in_2 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
in_1 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
in_same_right_coset [definition, in UniMath.Algebra.Monoids]
in_same_left_coset [definition, in UniMath.Algebra.Monoids]
in_same_coset_test [definition, in UniMath.Algebra.Groups]
in_same_left_coset_eqrel [definition, in UniMath.Algebra.Groups]
In1AdmMono [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
In1IsAdmMono [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
in11:304 [binder, in UniMath.CategoryTheory.limits.pushouts]
in12:306 [binder, in UniMath.CategoryTheory.limits.pushouts]
in1:126 [binder, in UniMath.CategoryTheory.limits.Opp]
in1:128 [binder, in UniMath.CategoryTheory.limits.pushouts]
in1:138 [binder, in UniMath.CategoryTheory.limits.pushouts]
in1:152 [binder, in UniMath.CategoryTheory.limits.pushouts]
in1:163 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
in1:22 [binder, in UniMath.CategoryTheory.limits.pushouts]
in1:25 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
in1:279 [binder, in UniMath.CategoryTheory.limits.pushouts]
in1:290 [binder, in UniMath.CategoryTheory.limits.pushouts]
in1:299 [binder, in UniMath.CategoryTheory.limits.Opp]
in1:31 [binder, in UniMath.CategoryTheory.limits.pushouts]
in1:59 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
in1:8 [binder, in UniMath.CategoryTheory.limits.pushouts]
In2AdmMono [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
In2IsAdmMono [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
in21:305 [binder, in UniMath.CategoryTheory.limits.pushouts]
in22:307 [binder, in UniMath.CategoryTheory.limits.pushouts]
in2:127 [binder, in UniMath.CategoryTheory.limits.Opp]
in2:129 [binder, in UniMath.CategoryTheory.limits.pushouts]
in2:139 [binder, in UniMath.CategoryTheory.limits.pushouts]
in2:153 [binder, in UniMath.CategoryTheory.limits.pushouts]
in2:164 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
in2:23 [binder, in UniMath.CategoryTheory.limits.pushouts]
in2:26 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
in2:280 [binder, in UniMath.CategoryTheory.limits.pushouts]
in2:291 [binder, in UniMath.CategoryTheory.limits.pushouts]
in2:300 [binder, in UniMath.CategoryTheory.limits.Opp]
in2:32 [binder, in UniMath.CategoryTheory.limits.pushouts]
in2:60 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
in2:9 [binder, in UniMath.CategoryTheory.limits.pushouts]
In:772 [binder, in UniMath.CategoryTheory.LocalizingClass]
iobj:14 [binder, in UniMath.CategoryTheory.categories.StandardCategories]
iobj:16 [binder, in UniMath.CategoryTheory.categories.StandardCategories]
iobj:18 [binder, in UniMath.CategoryTheory.categories.StandardCategories]
iobj:8 [binder, in UniMath.CategoryTheory.categories.StandardCategories]
iPA:47 [binder, in UniMath.CategoryTheory.PreAdditive]
iPA:53 [binder, in UniMath.CategoryTheory.PreAdditive]
iPA:59 [binder, in UniMath.CategoryTheory.PreAdditive]
iPA:65 [binder, in UniMath.CategoryTheory.PreAdditive]
iPb:139 [binder, in UniMath.CategoryTheory.limits.Opp]
iPb:312 [binder, in UniMath.CategoryTheory.limits.Opp]
iPb:537 [binder, in UniMath.CategoryTheory.limits.pullbacks]
iPb:558 [binder, in UniMath.CategoryTheory.limits.pullbacks]
iPo:129 [binder, in UniMath.CategoryTheory.limits.Opp]
iPo:294 [binder, in UniMath.CategoryTheory.limits.pushouts]
iPo:302 [binder, in UniMath.CategoryTheory.limits.Opp]
iPo:314 [binder, in UniMath.CategoryTheory.limits.pushouts]
iPT:274 [binder, in UniMath.HomologicalAlgebra.Triangulated]
iPT:277 [binder, in UniMath.HomologicalAlgebra.Triangulated]
iPT:280 [binder, in UniMath.HomologicalAlgebra.Triangulated]
iPT:285 [binder, in UniMath.HomologicalAlgebra.Triangulated]
iPT:288 [binder, in UniMath.HomologicalAlgebra.Triangulated]
iPT:291 [binder, in UniMath.HomologicalAlgebra.Triangulated]
iPT:294 [binder, in UniMath.HomologicalAlgebra.Triangulated]
iPT:297 [binder, in UniMath.HomologicalAlgebra.Triangulated]
iPT:303 [binder, in UniMath.HomologicalAlgebra.Triangulated]
iPT:310 [binder, in UniMath.HomologicalAlgebra.Triangulated]
ip:101 [binder, in UniMath.MoreFoundations.Propositions]
ip:108 [binder, in UniMath.MoreFoundations.Propositions]
irr [definition, in UniMath.SyntheticHomotopyTheory.Circle]
irref [lemma, in UniMath.Paradoxes.GirardsParadox]
irrefl [lemma, in UniMath.Combinatorics.WellFoundedRelations]
irrefl:223 [binder, in UniMath.Combinatorics.OrderedSets]
irrel_paths [lemma, in UniMath.MoreFoundations.PartA]
irr:105 [binder, in UniMath.MoreFoundations.MoreEquivalences]
irr:114 [binder, in UniMath.MoreFoundations.MoreEquivalences]
irr:127 [binder, in UniMath.MoreFoundations.MoreEquivalences]
irr:140 [binder, in UniMath.MoreFoundations.MoreEquivalences]
irr:167 [binder, in UniMath.MoreFoundations.MoreEquivalences]
irr:239 [binder, in UniMath.Algebra.Archimedean]
irr:304 [binder, in UniMath.Foundations.PartB]
irr:380 [binder, in UniMath.MoreFoundations.PartA]
irr:85 [binder, in UniMath.MoreFoundations.MoreEquivalences]
irr:95 [binder, in UniMath.MoreFoundations.MoreEquivalences]
ir:339 [binder, in UniMath.Algebra.Domains_and_Fields]
ir:345 [binder, in UniMath.Algebra.Domains_and_Fields]
ir:351 [binder, in UniMath.Algebra.Domains_and_Fields]
ir:359 [binder, in UniMath.Algebra.Domains_and_Fields]
ir:377 [binder, in UniMath.Algebra.Domains_and_Fields]
ir:417 [binder, in UniMath.Algebra.Domains_and_Fields]
ir:436 [binder, in UniMath.Algebra.Domains_and_Fields]
ir:444 [binder, in UniMath.Algebra.Domains_and_Fields]
ir:484 [binder, in UniMath.Algebra.Domains_and_Fields]
is [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
isaafield [definition, in UniMath.PAdics.lemmas]
isabgrcarrier [lemma, in UniMath.Algebra.Groups]
isabgrdirprod [lemma, in UniMath.Algebra.Groups]
isabgrop [definition, in UniMath.Algebra.BinaryOperations]
isabgropisob [definition, in UniMath.Algebra.BinaryOperations]
isabgropisof [definition, in UniMath.Algebra.BinaryOperations]
isabgroptoisabmonoidop [definition, in UniMath.Algebra.BinaryOperations]
isabgrop_ringofendabgr_op1 [lemma, in UniMath.Algebra.Modules.Core]
isabgrop_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isabgrop_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isabgrquot [lemma, in UniMath.Algebra.Groups]
isabmonoidcarrier [definition, in UniMath.Algebra.Monoids]
isabmonoiddirprod [definition, in UniMath.Algebra.Monoids]
isabmonoidop [definition, in UniMath.Algebra.BinaryOperations]
isabmonoidopisob [definition, in UniMath.Algebra.BinaryOperations]
isabmonoidopisof [definition, in UniMath.Algebra.BinaryOperations]
isabmonoidop_Dcuts_plus [definition, in UniMath.RealNumbers.NonnegativeReals]
isabmonoidop_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isabmonoidop_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isabmonoidop_hnnq_plus [definition, in UniMath.RealNumbers.NonnegativeRationals]
isabmonoidquot [definition, in UniMath.Algebra.Monoids]
isabsemigrop [definition, in UniMath.Tactics.Abmonoids_Tactics]
isabsorb [definition, in UniMath.Algebra.BinaryOperations]
isabsorb_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isabsorb_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isabsorb_cat_comm [lemma, in UniMath.CategoryTheory.LatticeObject]
isabsorb_cat [definition, in UniMath.CategoryTheory.LatticeObject]
isacommringapartdec [definition, in UniMath.PAdics.fps]
isactionhrel [definition, in UniMath.Algebra.Modules.Quotient]
isactionhrelmodule_eqrel [definition, in UniMath.Algebra.Modules.Quotient]
isAdditive [definition, in UniMath.CategoryTheory.Additive]
isAdditiveCriteria [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
isAdditiveCriteria_BinOp [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
isAdditiveCriteria_BinOp_eq [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
isAdditiveCriteria_isBinopFun_Pr [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
isAdditiveCriteria_preservesUnel [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
isAdditiveCriteria_isZero [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
isAdditiveFunctor [definition, in UniMath.CategoryTheory.AdditiveFunctors]
isaddmonoidfuntocommringfrac [definition, in UniMath.Algebra.RigsAndRings]
isaddmonoidfuntofldfrac [definition, in UniMath.Algebra.Domains_and_Fields]
isaddmonoidfuntoringdiff [definition, in UniMath.Algebra.RigsAndRings]
isaddmonoidfun_restriction_section [lemma, in UniMath.AlgebraicGeometry.Spec]
isAdmissibleEpimorphism [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isAdmissibleMonomorphism [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isafield [definition, in UniMath.Algebra.Domains_and_Fields]
isalghom_pr1foldr [lemma, in UniMath.CategoryTheory.Inductives.Lists]
isalghom_pr1foldr [lemma, in UniMath.CategoryTheory.Inductives.Trees]
isaninvprop [definition, in UniMath.Foundations.PartC]
isaninvpropneg [lemma, in UniMath.Foundations.PartC]
isaninv1 [lemma, in UniMath.Foundations.PartC]
isantisymm [definition, in UniMath.Foundations.Sets]
isantisymmabgrdiffrel [lemma, in UniMath.Algebra.Groups]
isantisymmabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
isantisymmhqgeh [definition, in UniMath.NumberSystems.RationalNumbers]
isantisymmhqleh [definition, in UniMath.NumberSystems.RationalNumbers]
isantisymmhzgeh [definition, in UniMath.NumberSystems.Integers]
isantisymmhzleh [definition, in UniMath.NumberSystems.Integers]
isantisymmlogeqf [definition, in UniMath.Foundations.Sets]
isantisymmnatgeh [definition, in UniMath.Foundations.NaturalNumbers]
isantisymmnatleh [definition, in UniMath.Foundations.NaturalNumbers]
isantisymmneg [definition, in UniMath.Foundations.Sets]
isantisymmnegabgrdiffrel [lemma, in UniMath.Algebra.Groups]
isantisymmnegabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
isantisymmnegfldfracgt [lemma, in UniMath.Algebra.Domains_and_Fields]
isantisymmneghqgth [lemma, in UniMath.NumberSystems.RationalNumbers]
isantisymmneghqtth [definition, in UniMath.NumberSystems.RationalNumbers]
isantisymmneghzgth [lemma, in UniMath.NumberSystems.Integers]
isantisymmneghztth [definition, in UniMath.NumberSystems.Integers]
isantisymmneglogeqf [definition, in UniMath.Foundations.Sets]
isantisymmnegnatgth [lemma, in UniMath.Foundations.NaturalNumbers]
isantisymmnegnattth [definition, in UniMath.Foundations.NaturalNumbers]
isantisymmnegquotrel [lemma, in UniMath.Foundations.Sets]
isantisymmnegrel [lemma, in UniMath.Foundations.Sets]
isantisymmnegresrel [definition, in UniMath.Foundations.Sets]
isantisymmnegtoiscoantisymm [lemma, in UniMath.Foundations.Sets]
isantisymmquotrel [lemma, in UniMath.Foundations.Sets]
isantisymmresrel [definition, in UniMath.Foundations.Sets]
isantisymm_leNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
isantisymm_Rle [lemma, in UniMath.RealNumbers.Reals]
isantisymm_hr_le [lemma, in UniMath.RealNumbers.Reals]
isantisymm_leNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isantisymm_Lge [lemma, in UniMath.Algebra.Lattice]
isantisymm_Lle [lemma, in UniMath.Algebra.Lattice]
isantisymm_SubObj_rel [lemma, in UniMath.CategoryTheory.Subobjects]
isantisymm_filter_le [lemma, in UniMath.Topology.Filters]
isantisymm_posetRelation [lemma, in UniMath.Foundations.Sets]
isapart [definition, in UniMath.PAdics.lemmas]
isapartafldfracapartrel [lemma, in UniMath.PAdics.frac]
isapartdec [definition, in UniMath.PAdics.lemmas]
isapartdectodeceq [lemma, in UniMath.PAdics.lemmas]
isapbinop [definition, in UniMath.Algebra.Apartness]
isapbinop_op2 [lemma, in UniMath.Algebra.Apartness]
isapbinop_op1 [lemma, in UniMath.Algebra.Apartness]
isapbinop_op [lemma, in UniMath.Algebra.Apartness]
isapfun_NonnegativeRationals_to_Dcuts' [lemma, in UniMath.RealNumbers.NonnegativeReals]
isapfun_NonnegativeRationals_to_Dcuts [lemma, in UniMath.RealNumbers.NonnegativeReals]
isapfun_NonnegativeRationals_to_Dcuts_aux [lemma, in UniMath.RealNumbers.NonnegativeReals]
isapoint [definition, in UniMath.Combinatorics.ZFstructures]
isaposetmorphism [definition, in UniMath.Foundations.Sets]
isaposetmorphism_pointwise_lub [lemma, in UniMath.Algebra.FixedPointTheorems]
isaposetmorphism_compose [lemma, in UniMath.Algebra.FixedPointTheorems]
isaposetmorphism_idfun [lemma, in UniMath.Algebra.FixedPointTheorems]
isaposetmorphism_hProp [definition, in UniMath.Algebra.FixedPointTheorems]
isaprel [definition, in UniMath.Algebra.Apartness]
isaprime [definition, in UniMath.PAdics.z_mod_p]
isaprimetoneq0 [lemma, in UniMath.PAdics.z_mod_p]
isaprop [definition, in UniMath.Foundations.PartB]
isapropaninvprop [lemma, in UniMath.Foundations.PartC]
isaproparecompatibleactions [lemma, in UniMath.Algebra.Modules.Multimodules]
isapropcarryequiv [lemma, in UniMath.PAdics.padics]
isapropcomponent1 [lemma, in UniMath.Foundations.PartB]
isapropcomponent2 [lemma, in UniMath.Foundations.PartB]
isapropcoprod [lemma, in UniMath.Foundations.PartB]
isapropdec [lemma, in UniMath.Foundations.PartC]
isapropdirprod [definition, in UniMath.Foundations.PartB]
isapropdneg [lemma, in UniMath.Foundations.PartC]
isapropempty [lemma, in UniMath.Foundations.PartB]
isapropFiniteStructure [lemma, in UniMath.Combinatorics.OrderedSets]
isapropGreatestLowerBound [lemma, in UniMath.RealNumbers.Sets]
isaprophzgcd [lemma, in UniMath.PAdics.z_mod_p]
isaprophzgcd0 [lemma, in UniMath.PAdics.z_mod_p]
isapropifcontr [lemma, in UniMath.Foundations.PartB]
isapropifnegtrue [lemma, in UniMath.Foundations.PartB]
isapropimeqclass [lemma, in UniMath.Foundations.Sets]
isapropimpl [lemma, in UniMath.Foundations.PartD]
isapropinclb [definition, in UniMath.Foundations.PartB]
isapropinvpair [lemma, in UniMath.Algebra.Domains_and_Fields]
isapropinvstruct [lemma, in UniMath.Algebra.BinaryOperations]
isapropisabgrop [lemma, in UniMath.Algebra.BinaryOperations]
isapropisabmonoidop [lemma, in UniMath.Algebra.BinaryOperations]
isapropisabsorb [lemma, in UniMath.Algebra.BinaryOperations]
isapropisafield [lemma, in UniMath.Algebra.Domains_and_Fields]
isapropisaprime [lemma, in UniMath.PAdics.z_mod_p]
isapropisaprop [lemma, in UniMath.Foundations.PartD]
isapropisaset [lemma, in UniMath.Foundations.PartD]
isapropisassoc [lemma, in UniMath.Algebra.BinaryOperations]
isapropisaterm [lemma, in UniMath.Algebra.Universal.Terms]
isapropisbinopfun [lemma, in UniMath.Algebra.BinaryOperations]
isapropisbinophrel [lemma, in UniMath.Algebra.BinaryOperations]
isapropischoicebase [lemma, in UniMath.Foundations.Sets]
isapropiscomm [lemma, in UniMath.Algebra.BinaryOperations]
isapropiscommonhzdiv [lemma, in UniMath.PAdics.z_mod_p]
isapropiscommrig [lemma, in UniMath.Algebra.BinaryOperations]
isapropiscommring [lemma, in UniMath.Algebra.BinaryOperations]
isapropiscomprelfun [lemma, in UniMath.MoreFoundations.Sets]
isapropiscontr [lemma, in UniMath.Foundations.PartD]
isapropiscotrans [lemma, in UniMath.Algebra.Apartness]
isapropisdeceq [lemma, in UniMath.Foundations.PartD]
isapropisdecprop [definition, in UniMath.Foundations.PartD]
isapropisdistr [lemma, in UniMath.Algebra.BinaryOperations]
isapropisEpi [lemma, in UniMath.CategoryTheory.Epis]
isapropiseqclass [lemma, in UniMath.Foundations.Sets]
isapropisgrop [lemma, in UniMath.Algebra.BinaryOperations]
isapropishinh [lemma, in UniMath.Foundations.Propositions]
isapropishom [lemma, in UniMath.Algebra.Universal.Algebras]
isapropisincl [definition, in UniMath.Foundations.PartD]
isapropisintdom [lemma, in UniMath.Algebra.Domains_and_Fields]
isapropisinv [lemma, in UniMath.Algebra.BinaryOperations]
isapropisinvbinophrel [lemma, in UniMath.Algebra.BinaryOperations]
isapropisirrefl [lemma, in UniMath.Algebra.Apartness]
isapropisisolated [lemma, in UniMath.Foundations.PartD]
isapropisldistr [lemma, in UniMath.Algebra.BinaryOperations]
isapropislinear [lemma, in UniMath.Algebra.Modules.Core]
isapropislinv [lemma, in UniMath.Algebra.BinaryOperations]
isapropislunit [lemma, in UniMath.Algebra.BinaryOperations]
isapropismodulefun [lemma, in UniMath.Algebra.Modules.Core]
isapropisMonic [lemma, in UniMath.CategoryTheory.Monics]
isapropismonoidfun [lemma, in UniMath.Algebra.Monoids]
isapropismonoidop [lemma, in UniMath.Algebra.BinaryOperations]
isapropismultimodulefun [lemma, in UniMath.Algebra.Modules.Multimodules]
isapropisofhlevel [lemma, in UniMath.Foundations.PartD]
isapropisofhlevelf [lemma, in UniMath.Foundations.PartD]
isapropisrdistr [lemma, in UniMath.Algebra.BinaryOperations]
isapropisrigfun [lemma, in UniMath.Algebra.RigsAndRings]
isapropisrigops [lemma, in UniMath.Algebra.BinaryOperations]
isapropisringops [lemma, in UniMath.Algebra.BinaryOperations]
isapropisrinv [lemma, in UniMath.Algebra.BinaryOperations]
isapropisrunit [lemma, in UniMath.Algebra.BinaryOperations]
isapropissubgr [lemma, in UniMath.Algebra.Groups]
isapropissubmodule [lemma, in UniMath.Algebra.Modules.Submodule]
isapropissubmonoid [lemma, in UniMath.Algebra.Monoids]
isapropissubrig [lemma, in UniMath.Algebra.RigsAndRings]
isapropissubring [lemma, in UniMath.Algebra.RigsAndRings]
isapropissubsetwithbinop [lemma, in UniMath.Algebra.BinaryOperations]
isapropissubsetwith2binop [lemma, in UniMath.Algebra.BinaryOperations]
isapropissurjective [lemma, in UniMath.Foundations.Propositions]
isapropissymm [lemma, in UniMath.Algebra.Apartness]
isapropistwobinopfun [lemma, in UniMath.Algebra.BinaryOperations]
isapropisunital [lemma, in UniMath.Algebra.BinaryOperations]
isapropisweq [lemma, in UniMath.Foundations.PartD]
isapropis2binophrel [lemma, in UniMath.Algebra.BinaryOperations]
isaprople [lemma, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
isapropLeastUpperBound [lemma, in UniMath.RealNumbers.Sets]
isapropminimal [definition, in UniMath.Combinatorics.BoundedSearch]
isapropmin_n [definition, in UniMath.Combinatorics.BoundedSearch]
isapropmultimodule_struct [lemma, in UniMath.Algebra.Modules.Multimodules]
isapropmultinvpair [lemma, in UniMath.PAdics.lemmas]
isapropmultinvpair [lemma, in UniMath.RealNumbers.Fields]
isapropnatdecleast [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isapropneg [lemma, in UniMath.Foundations.PartC]
isapropneg2 [lemma, in UniMath.Foundations.PartD]
isaproppathsfromisolated [lemma, in UniMath.Foundations.PartB]
isaproppathsfromisolated_ne [lemma, in UniMath.MoreFoundations.NegativePropositions]
isaproppathstoisolated [lemma, in UniMath.Foundations.PartB]
isapropretract [lemma, in UniMath.Foundations.PartB]
isapropsubtype [lemma, in UniMath.Foundations.Sets]
isaproptildehProp [lemma, in UniMath.Foundations.Propositions]
isaproptotal2 [lemma, in UniMath.MoreFoundations.Propositions]
isapropunit [definition, in UniMath.Foundations.PartB]
isapropweqfromcontr [lemma, in UniMath.Foundations.PartD]
isapropweqfromempty [lemma, in UniMath.Foundations.PartD]
isapropweqfromempty2 [lemma, in UniMath.Foundations.PartD]
isapropweqfromprop [lemma, in UniMath.Foundations.PartD]
isapropweqfromunit [lemma, in UniMath.Foundations.PartD]
isapropweqtocontr [lemma, in UniMath.Foundations.PartD]
isapropweqtoempty [lemma, in UniMath.Foundations.PartD]
isapropweqtoempty2 [lemma, in UniMath.Foundations.PartD]
isapropweqtoprop [lemma, in UniMath.Foundations.PartD]
isapropweqtounit [lemma, in UniMath.Foundations.PartD]
isaprop_θ_Strength2_int [lemma, in UniMath.SubstitutionSystems.Signatures]
isaprop_θ_Strength1_int [lemma, in UniMath.SubstitutionSystems.Signatures]
isaprop_NullHomotopyTo [lemma, in UniMath.MoreFoundations.NullHomotopies]
isaprop_nullHomotopyTo [lemma, in UniMath.MoreFoundations.NullHomotopies]
isaprop_isSheaf [lemma, in UniMath.CategoryTheory.GrothendieckTopos]
isaprop_is_unit_point [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
isaprop_has_unit [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
isaprop_isAdditiveFunctor [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
isaprop_RelMonadMor_axioms [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
isaprop_RelMonad_axioms [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
isaprop_fully_faithful_1cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
isaprop_faithful_1cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
isaprop_isDivRig [lemma, in UniMath.Algebra.DivisionRig]
isaprop_ZFS_elementof [lemma, in UniMath.Combinatorics.ZFstructures]
isaprop_isapoint [lemma, in UniMath.Combinatorics.ZFstructures]
isaprop_hasuniquerepbranch [lemma, in UniMath.Combinatorics.ZFstructures]
isaprop_ispreZFS [lemma, in UniMath.Combinatorics.ZFstructures]
isaprop_Tree_isWellFounded [lemma, in UniMath.Combinatorics.ZFstructures]
isaprop_issuperrigid [lemma, in UniMath.Combinatorics.ZFstructures]
isaprop_isrigid [lemma, in UniMath.Combinatorics.ZFstructures]
isaprop_isatree [lemma, in UniMath.Combinatorics.ZFstructures]
isaprop_isTRRGhomo [lemma, in UniMath.Combinatorics.ZFstructures]
isaprop_isTRR [lemma, in UniMath.Combinatorics.ZFstructures]
isaprop_isaroot [lemma, in UniMath.Combinatorics.ZFstructures]
isaprop_is_disp_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
isaprop_RelModule_Mor_laws [lemma, in UniMath.CategoryTheory.Monads.RelativeModules]
isaprop_RelModule_laws [lemma, in UniMath.CategoryTheory.Monads.RelativeModules]
isaprop_RelMonad_axioms [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
isaprop_is_catiso [lemma, in UniMath.CategoryTheory.catiso]
isaprop_Representation [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
isaprop_has_pb_ump [definition, in UniMath.Bicategories.Colimits.Pullback]
isaprop_Monad_Mor_laws [lemma, in UniMath.CategoryTheory.Monads.Monads]
isaprop_Monad_laws [lemma, in UniMath.CategoryTheory.Monads.Monads]
isaprop_goal [definition, in UniMath.MoreFoundations.Tactics]
isaprop_cwf_representation [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
isaprop_cwf_fiber_representation [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
isaprop_locally_contractible [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
isaprop_locally_propositional [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
isaprop_is_cartesian_2cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
isaprop_cartesian_1cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
isaprop_lift_of_lift_2cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
isaprop_locally_groupoid [definition, in UniMath.Bicategories.Core.Bicat]
isaprop_is_invertible_2cell [lemma, in UniMath.Bicategories.Core.Bicat]
isaprop_prebicat_laws [lemma, in UniMath.Bicategories.Core.Bicat]
isaprop_ex_lim_seq [lemma, in UniMath.RealNumbers.NonnegativeReals]
isaprop_Dcuts_ap_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
isaprop_Dcuts_eq_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
isaprop_Dcuts_hsubtype [lemma, in UniMath.RealNumbers.NonnegativeReals]
isaprop_Dcuts_def_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
isaprop_Dcuts_def_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
isaprop_Dcuts_def_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
isaprop_is_functor_from_empty [lemma, in UniMath.CategoryTheory.categories.StandardCategories]
isaprop_is_final [definition, in UniMath.Induction.M.Core]
isaprop_is_chaotic [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
isaprop_isInjective [lemma, in UniMath.Foundations.PartD]
isaprop_eqrel_from_hrel [lemma, in UniMath.MoreFoundations.Sets]
isaprop_LEM [lemma, in UniMath.MoreFoundations.DecidablePropositions]
isaprop_isolation [definition, in UniMath.MoreFoundations.DecidablePropositions]
isaprop_isFalse [lemma, in UniMath.MoreFoundations.DecidablePropositions]
isaprop_isTrue [lemma, in UniMath.MoreFoundations.DecidablePropositions]
isaprop_Colims [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
isaprop_is_monoid_mor [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
isaprop_isBiggest [lemma, in UniMath.Combinatorics.OrderedSets]
isaprop_isSmallest [lemma, in UniMath.Combinatorics.OrderedSets]
isaprop_full_and_faithful [lemma, in UniMath.CategoryTheory.Core.Functors]
isaprop_full [lemma, in UniMath.CategoryTheory.Core.Functors]
isaprop_faithful [lemma, in UniMath.CategoryTheory.Core.Functors]
isaprop_essentially_surjective [lemma, in UniMath.CategoryTheory.Core.Functors]
isaprop_reflects_isos [lemma, in UniMath.CategoryTheory.Core.Functors]
isaprop_fully_faithful [lemma, in UniMath.CategoryTheory.Core.Functors]
isaprop_is_functor [lemma, in UniMath.CategoryTheory.Core.Functors]
isaprop_Initial [lemma, in UniMath.CategoryTheory.limits.initial]
isaprop_W [lemma, in UniMath.Induction.W.Uniqueness]
isaprop_Pushouts [lemma, in UniMath.CategoryTheory.limits.pushouts]
isaprop_isPushout [lemma, in UniMath.CategoryTheory.limits.pushouts]
isaprop_has_homcats [definition, in UniMath.Bicategories.WkCatEnrichment.bicategory]
isaprop_BinCoproduct [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
isaprop_isBinCoproduct [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
isaprop_disp_nat_trans_axioms [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
isaprop_disp_functor_axioms [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
isaprop_is_univalent_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
isaprop_is_iso_disp [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
isaprop_disp_cat_axioms [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
isaprop_is_folds_precategory [lemma, in UniMath.Folds.folds_pre_2_cat]
isaprop_is_univalent_folds_2_precat [lemma, in UniMath.Folds.folds_pre_2_cat]
isaprop_folds_2_iso [lemma, in UniMath.Folds.folds_pre_2_cat]
isaprop_left_adjoint_equivalence [lemma, in UniMath.Bicategories.Core.AdjointUnique]
isaprop_coh_strictness_from_univalence_2_1 [lemma, in UniMath.Bicategories.Core.Strictness]
isaprop_is_strict_bicat [lemma, in UniMath.Bicategories.Core.Strictness]
isaprop_functor_alg_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
isaprop_disp_left_adjoint_equivalence [lemma, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
isaprop_forall_hProp [lemma, in UniMath.Foundations.Propositions]
isaprop_total2 [lemma, in UniMath.Foundations.Propositions]
isaprop_is_nat_z_iso [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
isaprop_is_nat_iso [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
isaprop_is_nat_trans [lemma, in UniMath.CategoryTheory.Core.NaturalTransformations]
isaprop_is_z_isomorphism [lemma, in UniMath.CategoryTheory.Core.Isos]
isaprop_is_inverse_in_precat [lemma, in UniMath.CategoryTheory.Core.Isos]
isaprop_is_iso [lemma, in UniMath.CategoryTheory.Core.Isos]
isaprop_Zero [lemma, in UniMath.CategoryTheory.limits.zero]
isaprop_isZero [lemma, in UniMath.CategoryTheory.limits.zero]
isaprop_in_same_right_coset [lemma, in UniMath.Algebra.Groups]
isaprop_in_same_left_coset [lemma, in UniMath.Algebra.Groups]
isaprop_mult_eq_l [lemma, in UniMath.Algebra.Groups]
isaprop_mult_eq_r [lemma, in UniMath.Algebra.Groups]
isaprop_folds_ax_T [lemma, in UniMath.Folds.folds_precat]
isaprop_folds_ax_id [lemma, in UniMath.Folds.folds_precat]
isaprop_is_setcategory [lemma, in UniMath.CategoryTheory.Core.Setcategories]
isaprop_isEqualizer' [lemma, in UniMath.CategoryTheory.limits.equalizers]
isaprop_isEqualizer [lemma, in UniMath.CategoryTheory.limits.equalizers]
isaprop_extruncminus [lemma, in UniMath.Algebra.Lattice]
isaprop_istruncminus [lemma, in UniMath.Algebra.Lattice]
isaprop_enriched_assoc_ax [lemma, in UniMath.CategoryTheory.Enriched.Enriched]
isaprop_is_bifinal' [definition, in UniMath.Bicategories.Colimits.Final]
isaprop_bifinal_eq_property [definition, in UniMath.Bicategories.Colimits.Final]
isaprop_bifinal_2cell_property [definition, in UniMath.Bicategories.Colimits.Final]
isaprop_is_bifinal [definition, in UniMath.Bicategories.Colimits.Final]
isaprop_param_distr_pentagon_eq [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
isaprop_param_distr_triangle_eq [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
isaprop_actionbased_strength_pentagon_eq [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
isaprop_actionbased_strength_triangle_eq [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
isaprop_is_univalent_2 [lemma, in UniMath.Bicategories.Core.Univalence]
isaprop_is_univalent_2_0 [lemma, in UniMath.Bicategories.Core.Univalence]
isaprop_is_univalent_2_1 [lemma, in UniMath.Bicategories.Core.Univalence]
isaprop_isbracketMor [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
isaprop_bracket [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
isaprop_disc_fib_hom [lemma, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
isaprop_cleaving [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
isaprop_cartesian_lifts [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
isaprop_is_cartesian [lemma, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
isaprop_has_vertexset [definition, in UniMath.Combinatorics.Graph]
isaprop_isapbinop [lemma, in UniMath.Algebra.Apartness]
isaprop_israpbinop [lemma, in UniMath.Algebra.Apartness]
isaprop_islapbinop [lemma, in UniMath.Algebra.Apartness]
isaprop_isapunop [lemma, in UniMath.Algebra.Apartness]
isaprop_isaprel [lemma, in UniMath.Algebra.Apartness]
isaprop_M [lemma, in UniMath.Induction.M.Uniqueness]
isaprop_iswofun [lemma, in UniMath.Combinatorics.WellOrderedSets]
isaprop_theSmallest [lemma, in UniMath.Combinatorics.WellOrderedSets]
isaprop_isHQIS [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
isaprop_isQIS [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
isaprop_form_adjunction [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
isaprop_is_discrete [lemma, in UniMath.CategoryTheory.Groupoids]
isaprop_is_pregroupoid [lemma, in UniMath.CategoryTheory.Groupoids]
isaprop_split_essentially_surjective [lemma, in UniMath.CategoryTheory.Equivalences.Core]
isaprop_sigma_iso [lemma, in UniMath.CategoryTheory.Equivalences.Core]
isaprop_continuous [lemma, in UniMath.Topology.Topology]
isaprop_topologyfromneighborhood [lemma, in UniMath.Topology.Topology]
isaprop_isSetOfOpen_and [lemma, in UniMath.Topology.Topology]
isaprop_isSetOfOpen_finite_intersection [lemma, in UniMath.Topology.Topology]
isaprop_isSetOfOpen_union [lemma, in UniMath.Topology.Topology]
isaprop_funextcontrStatement [lemma, in UniMath.Foundations.UnivalenceAxiom2]
isaprop_funcontrStatement [lemma, in UniMath.Foundations.UnivalenceAxiom2]
isaprop_propositionalUnivalenceStatement [lemma, in UniMath.Foundations.UnivalenceAxiom2]
isaprop_isweqtoforallpathsStatement [lemma, in UniMath.Foundations.UnivalenceAxiom2]
isaprop_funextemptyStatement [lemma, in UniMath.Foundations.UnivalenceAxiom2]
isaprop_univalenceStatement [lemma, in UniMath.Foundations.UnivalenceAxiom2]
isaprop_binprod_cat_ump [definition, in UniMath.Bicategories.Colimits.Products]
isaprop_has_binprod_ump [definition, in UniMath.Bicategories.Colimits.Products]
isaprop_folds_iso_prop [definition, in UniMath.Folds.folds_isomorphism]
isaprop_Lims [lemma, in UniMath.CategoryTheory.limits.cats.limits]
isaprop_isLimCone [lemma, in UniMath.CategoryTheory.limits.cats.limits]
isaprop_is_univalent [lemma, in UniMath.CategoryTheory.Core.Univalence]
isaprop_ConeProp [lemma, in UniMath.CategoryTheory.limits.cones]
isaprop_wma_inhab' [lemma, in UniMath.MoreFoundations.PartA]
isaprop_wma_inhab [lemma, in UniMath.MoreFoundations.PartA]
isaprop_Colims [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
isaprop_isColimCocone [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
isaprop_has_edgesets [lemma, in UniMath.CategoryTheory.categories.Graph]
isaprop_eq_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
isaprop_isfilter_notempty [lemma, in UniMath.Topology.Filters]
isaprop_isfilter_and [lemma, in UniMath.Topology.Filters]
isaprop_isfilter_finite_intersection [lemma, in UniMath.Topology.Filters]
isaprop_isfilter_imply [lemma, in UniMath.Topology.Filters]
isaprop_skewMonoid_Mor_laws [lemma, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
isaprop_assume_it_is [lemma, in UniMath.MoreFoundations.Propositions]
isaprop_isdcpomorphism [lemma, in UniMath.Algebra.Dcpo]
isaprop_preserveslub [lemma, in UniMath.Algebra.Dcpo]
isaprop_isdirectedcomplete [lemma, in UniMath.Algebra.Dcpo]
isaprop_isdirected [lemma, in UniMath.Algebra.Dcpo]
isaprop_islub [lemma, in UniMath.Algebra.Dcpo]
isaprop_isupperbound [lemma, in UniMath.Algebra.Dcpo]
isaprop_consecutive [lemma, in UniMath.Foundations.Sets]
isaprop_isMaximal [lemma, in UniMath.Foundations.Sets]
isaprop_isMinimal [lemma, in UniMath.Foundations.Sets]
isaprop_isPosetEquivalence [lemma, in UniMath.Foundations.Sets]
isaprop_isaposetmorphism [lemma, in UniMath.Foundations.Sets]
isaprop_isPartialOrder [lemma, in UniMath.Foundations.Sets]
isaprop_ispreorder [lemma, in UniMath.Foundations.Sets]
isaprop_isantisymm [lemma, in UniMath.Foundations.Sets]
isaprop_istotal [lemma, in UniMath.Foundations.Sets]
isaprop_isrefl [lemma, in UniMath.Foundations.Sets]
isaprop_istrans [lemma, in UniMath.Foundations.Sets]
isaprop_Pullbacks [lemma, in UniMath.CategoryTheory.limits.pullbacks]
isaprop_isPullback [lemma, in UniMath.CategoryTheory.limits.pullbacks]
isaprop_are_conjugates' [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
isaprop_are_conjugates [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
isaprop_LModule_Mor_laws [lemma, in UniMath.CategoryTheory.Monads.LModules]
isaprop_LModule_laws [lemma, in UniMath.CategoryTheory.Monads.LModules]
isaprop_isProofIrrelevant [lemma, in UniMath.Foundations.PartC]
isaprop_isCoequalizer [lemma, in UniMath.CategoryTheory.limits.coequalizers]
isaprop_is_cartesian [lemma, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
isaprop_isLimCone [lemma, in UniMath.Induction.M.Limits]
isaprop_hfiber_monic [lemma, in UniMath.CategoryTheory.categories.HSET.Structures]
isaprop_is_biinitial' [definition, in UniMath.Bicategories.Colimits.Initial]
isaprop_biinitial_eq_property [definition, in UniMath.Bicategories.Colimits.Initial]
isaprop_biinitial_2cell_property [definition, in UniMath.Bicategories.Colimits.Initial]
isaprop_is_biinitial [definition, in UniMath.Bicategories.Colimits.Initial]
isaprop_two_cat_laws [definition, in UniMath.CategoryTheory.Core.TwoCategories]
isaprop_is_initial [definition, in UniMath.Induction.W.Core]
isaprop_hcomp_prebicat_laws [lemma, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
isaprop_Kleisli_Mor_laws [lemma, in UniMath.CategoryTheory.Monads.KTriples]
isaprop_Kleisli_Laws [lemma, in UniMath.CategoryTheory.Monads.KTriples]
isaprop_is_retraction [lemma, in UniMath.CategoryTheory.Core.Categories]
isaprop_is_precategory [lemma, in UniMath.CategoryTheory.Core.Categories]
isaprop_has_homsets [lemma, in UniMath.CategoryTheory.Core.Categories]
isaprop_Terminal [lemma, in UniMath.CategoryTheory.limits.terminal]
isaprop_Lims [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
isaprop_isLimCone [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
isaprop_isBinProduct [lemma, in UniMath.CategoryTheory.limits.binproducts]
isapunop [definition, in UniMath.Algebra.Apartness]
isarchabgrdiff [lemma, in UniMath.Algebra.Archimedean]
isarchabgrdiff_aux [lemma, in UniMath.Algebra.Archimedean]
isarchCF [definition, in UniMath.Algebra.Archimedean]
isarchCF_isarchring [lemma, in UniMath.Algebra.Archimedean]
isarchcommringfrac [lemma, in UniMath.Algebra.Archimedean]
isarchfld [definition, in UniMath.Algebra.Archimedean]
isarchfldfrac [lemma, in UniMath.Algebra.Archimedean]
isarchfld_isarchring [lemma, in UniMath.Algebra.Archimedean]
isarchgr [definition, in UniMath.Algebra.Archimedean]
isarchgr_isarchring [lemma, in UniMath.Algebra.Archimedean]
isarchgr_isarchmonoid [lemma, in UniMath.Algebra.Archimedean]
isarchgr_isarchmonoid_aux [lemma, in UniMath.Algebra.Archimedean]
isarchhq [lemma, in UniMath.NumberSystems.RationalNumbers]
isarchhz [lemma, in UniMath.NumberSystems.Integers]
isarchhz_gt [lemma, in UniMath.NumberSystems.Integers]
isarchhz_one [lemma, in UniMath.NumberSystems.Integers]
isarchmonoid [definition, in UniMath.Algebra.Archimedean]
isarchmonoid_isarchrig [lemma, in UniMath.Algebra.Archimedean]
isarchmonoid_isarchgr [lemma, in UniMath.Algebra.Archimedean]
isarchmonoid_2 [definition, in UniMath.Algebra.Archimedean]
isarchmonoid_1 [definition, in UniMath.Algebra.Archimedean]
isarchnat [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isarchnat_pos [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isarchnat_gth [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isarchnat_diff [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isarchNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
isarchrig [definition, in UniMath.Algebra.Archimedean]
isarchrigtoring [lemma, in UniMath.Algebra.Archimedean]
isarchrig_isarchring [lemma, in UniMath.Algebra.Archimedean]
isarchrig_isarchmonoid [lemma, in UniMath.Algebra.Archimedean]
isarchrig_isarchmonoid_2_aux [lemma, in UniMath.Algebra.Archimedean]
isarchrig_isarchmonoid_1_aux [lemma, in UniMath.Algebra.Archimedean]
isarchrig_setquot_aux [lemma, in UniMath.Algebra.Archimedean]
isarchrig_pos [definition, in UniMath.Algebra.Archimedean]
isarchrig_gt [definition, in UniMath.Algebra.Archimedean]
isarchrig_diff [definition, in UniMath.Algebra.Archimedean]
isarchring [definition, in UniMath.Algebra.Archimedean]
isarchring_isarchCF [lemma, in UniMath.Algebra.Archimedean]
isarchring_isarchfld [lemma, in UniMath.Algebra.Archimedean]
isarchring_isarchgr [lemma, in UniMath.Algebra.Archimedean]
isarchring_isarchrig [lemma, in UniMath.Algebra.Archimedean]
isarchring_2 [definition, in UniMath.Algebra.Archimedean]
isarchring_1 [definition, in UniMath.Algebra.Archimedean]
isaroot [definition, in UniMath.Combinatorics.ZFstructures]
isaset [definition, in UniMath.Foundations.PartB]
isasetaprop [lemma, in UniMath.Foundations.PartB]
isasetbinopfun [lemma, in UniMath.Algebra.BinaryOperations]
isasetbinopiso [lemma, in UniMath.Algebra.BinaryOperations]
isasetbinoponhSet [definition, in UniMath.Algebra.BinaryOperations]
isasetbool [lemma, in UniMath.Foundations.PartB]
isasetcoprod [lemma, in UniMath.Foundations.PartC]
isasetdirprod [abbreviation, in UniMath.Foundations.PartB]
isasetempty [lemma, in UniMath.Foundations.PartB]
isasetFilter [lemma, in UniMath.Topology.Filters]
isasetFiniteOrderedSet [lemma, in UniMath.Combinatorics.OrderedSets]
isasetFinSig [lemma, in UniMath.SubstitutionSystems.MLTT79]
isasetfps [definition, in UniMath.PAdics.fps]
isasethom [lemma, in UniMath.Algebra.Universal.Algebras]
isasethProp [lemma, in UniMath.Foundations.Propositions]
isasethq [definition, in UniMath.NumberSystems.RationalNumbers]
isasethsubtype [lemma, in UniMath.Foundations.Sets]
isasethz [lemma, in UniMath.NumberSystems.Integers]
isasetifcontr [lemma, in UniMath.Foundations.PartB]
isasetifdeceq [lemma, in UniMath.Foundations.PartB]
isasetifiscontrloops [lemma, in UniMath.Foundations.PartB]
isasetlinearfun [lemma, in UniMath.Algebra.Modules.Core]
isasetmaybe [lemma, in UniMath.Combinatorics.Maybe]
isasetmodule [lemma, in UniMath.Algebra.Modules.Core]
isasetmodulefun [lemma, in UniMath.Algebra.Modules.Core]
isasetmonfunstn [lemma, in UniMath.CategoryTheory.SimplicialSets]
isasetmonoid [definition, in UniMath.Algebra.Monoids]
isasetmonoidfun [lemma, in UniMath.Algebra.Monoids]
isasetnat [lemma, in UniMath.Foundations.NaturalNumbers]
isasetoplist [lemma, in UniMath.Algebra.Universal.Terms]
isasetPreFilter [lemma, in UniMath.Topology.Filters]
isasetrigfun [definition, in UniMath.Algebra.RigsAndRings]
isasetRoofEqclass [lemma, in UniMath.CategoryTheory.LocalizingClass]
isasetsetquot [lemma, in UniMath.Foundations.Sets]
isasetsetquot2 [lemma, in UniMath.Foundations.Sets]
isasetstack [lemma, in UniMath.Algebra.Universal.Terms]
isasetstn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isasetsubset [lemma, in UniMath.Foundations.PartB]
isasetterm [lemma, in UniMath.Algebra.Universal.Terms]
isasettildehProp [lemma, in UniMath.Foundations.Propositions]
isasettwobinopfun [lemma, in UniMath.Algebra.BinaryOperations]
isasettwobinoponhSet [definition, in UniMath.Algebra.BinaryOperations]
isasetunit [lemma, in UniMath.Foundations.PartB]
isasetweqfromset [lemma, in UniMath.Foundations.PartD]
isasetweqtoset [lemma, in UniMath.Foundations.PartD]
isaset_NullHomotopyTo [lemma, in UniMath.MoreFoundations.NullHomotopies]
isaset_list [lemma, in UniMath.CategoryTheory.Inductives.Lists]
isaset_sieve [lemma, in UniMath.CategoryTheory.Presheaf]
isaset_ZFS [lemma, in UniMath.Combinatorics.ZFstructures]
isaset_preZFS [lemma, in UniMath.Combinatorics.ZFstructures]
isaset_Upw_underlying [lemma, in UniMath.Combinatorics.ZFstructures]
isaset_TRRGraphData [lemma, in UniMath.Combinatorics.ZFstructures]
isaset_prime_ideal [lemma, in UniMath.Algebra.RigsAndRings.Ideals]
isaset_ideal [lemma, in UniMath.Algebra.RigsAndRings.Ideals]
isaset_pb_2cell [definition, in UniMath.Bicategories.Colimits.Pullback]
isaset_chaotic_cells [lemma, in UniMath.Bicategories.Core.Bicat]
isaset_cells [definition, in UniMath.Bicategories.Core.Bicat]
isaset_Dcuts [lemma, in UniMath.RealNumbers.NonnegativeReals]
isaset_submonoid [lemma, in UniMath.Algebra.Monoids]
isaset_nat_trans_yoneda [lemma, in UniMath.CategoryTheory.yoneda]
isaset_monoid_mor [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
isaset_hfiber [lemma, in UniMath.Foundations.PartB]
isaset_dirprod [lemma, in UniMath.Foundations.PartB]
isaset_total2 [lemma, in UniMath.Foundations.PartB]
isaset_iso_disp [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
isaset_functor_alg_ob [lemma, in UniMath.CategoryTheory.DisplayedCats.Examples]
isaset_WellOrderedSet:1 [binder, in UniMath.CategoryTheory.categories.wosets]
isaset_nat_trans [lemma, in UniMath.CategoryTheory.Core.NaturalTransformations]
isaset_z_iso [lemma, in UniMath.CategoryTheory.Core.Isos]
isaset_iso [lemma, in UniMath.CategoryTheory.Core.Isos]
isaset_algebra_mor [definition, in UniMath.CategoryTheory.FunctorAlgebras]
isaset_boolDcuts [lemma, in UniMath.RealNumbers.DecidableDedekindCuts]
isaset_disp_nat_trans [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
isaset_invertible_2cell [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
isaset_mor [definition, in UniMath.CategoryTheory.Core.Setcategories]
isaset_ob [definition, in UniMath.CategoryTheory.Core.Setcategories]
isaset_cells_total_prebicat [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
isaset_hssMor [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
isaset_fiber_discrete_fibration [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
isaset_graph_mor [lemma, in UniMath.Combinatorics.Graph]
isaset_ActionStructure [lemma, in UniMath.Algebra.GroupAction]
isaset_WellOrderedSet [lemma, in UniMath.Combinatorics.WellOrderedSets]
isaset_ringfun [lemma, in UniMath.Algebra.RigsAndRings]
isaset_modification [definition, in UniMath.Bicategories.Modifications.Modification]
isaset_Cone_Mor [lemma, in UniMath.CategoryTheory.limits.cones]
isaset_cells_prebicat_of_univ_cats [lemma, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
isaset_setcategory_total_morphisms [lemma, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
isaset_cells_prebicat_of_cats [lemma, in UniMath.Bicategories.Core.Examples.BicatOfCats]
isaset_merely_split_epi [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
isaset_merely_split_monic [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
isaset_is_split_monic [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
isaset_set_fun_space [lemma, in UniMath.Foundations.Sets]
isaset_PartialOrder [definition, in UniMath.Foundations.Sets]
isaset_po [definition, in UniMath.Foundations.Sets]
isaset_hrel [definition, in UniMath.Foundations.Sets]
isaset_carrier_subset [lemma, in UniMath.Foundations.Sets]
isaset_forall_hSet [lemma, in UniMath.Foundations.Sets]
isaset_total2_hSet [lemma, in UniMath.Foundations.Sets]
isaset_transportf [definition, in UniMath.Combinatorics.FiniteSequences]
isaset_section [lemma, in UniMath.AlgebraicGeometry.Spec]
isaset_Monad_Mor [lemma, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
isaset_Under_mor [definition, in UniMath.CategoryTheory.UnderCategories]
isaset_coalgebra_homo [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
isaset_ccomma_morphism [definition, in UniMath.CategoryTheory.CommaCategories]
isaset_cells_prebicat_of_strict_cats [lemma, in UniMath.Bicategories.Core.Examples.StrictCats]
isaset_cells [definition, in UniMath.CategoryTheory.Core.TwoCategories]
isaset_set_sfun_space [lemma, in UniMath.Algebra.Universal.SortedTypes]
isaset_retraction [lemma, in UniMath.CategoryTheory.Core.Categories]
isassoc [definition, in UniMath.Algebra.BinaryOperations]
isassocdirprod [lemma, in UniMath.Algebra.Monoids]
isassocfpstimes [lemma, in UniMath.PAdics.fps]
isAssociativeMultipleOperation [definition, in UniMath.Algebra.IteratedBinaryOperations]
isAssociativeMultipleOperation_abmonoid [lemma, in UniMath.Algebra.IteratedBinaryOperations]
isAssociative_seq_mon [definition, in UniMath.Algebra.IteratedBinaryOperations]
isAssociative_fun_mon [definition, in UniMath.Algebra.IteratedBinaryOperations]
isAssociative_list_mon [definition, in UniMath.Algebra.IteratedBinaryOperations]
isAssociative_seq [definition, in UniMath.Algebra.IteratedBinaryOperations]
isAssociative_fun [definition, in UniMath.Algebra.IteratedBinaryOperations]
isAssociative_list [definition, in UniMath.Algebra.IteratedBinaryOperations]
isassocisob [abbreviation, in UniMath.Algebra.BinaryOperations]
isassocisof [lemma, in UniMath.Algebra.BinaryOperations]
isassocmonob [lemma, in UniMath.Algebra.BinaryOperations]
isassocquot [lemma, in UniMath.Algebra.Monoids]
isassoc_ringofendabgr_op2 [lemma, in UniMath.Algebra.Modules.Core]
isassoc_ringofendabgr_op1 [lemma, in UniMath.Algebra.Modules.Core]
isassoc_minusNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
isassoc_maxNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
isassoc_multNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
isassoc_plusNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
isassoc_Dcuts_min [lemma, in UniMath.RealNumbers.NonnegativeReals]
isassoc_Dcuts_max [lemma, in UniMath.RealNumbers.NonnegativeReals]
isassoc_Dcuts_mult [lemma, in UniMath.RealNumbers.NonnegativeReals]
isassoc_Dcuts_plus [lemma, in UniMath.RealNumbers.NonnegativeReals]
isassoc_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isassoc_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isassoc_Rmult [lemma, in UniMath.RealNumbers.Reals]
isassoc_Rplus [lemma, in UniMath.RealNumbers.Reals]
isassoc_multNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
isassoc_plusNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
isassoc_hnnq_mult [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isassoc_hnnq_plus [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isassoc_Lmax [definition, in UniMath.Algebra.Lattice]
isassoc_Lmin [definition, in UniMath.Algebra.Lattice]
isassoc_cat_comm [lemma, in UniMath.CategoryTheory.LatticeObject]
isassoc_join_mor [definition, in UniMath.CategoryTheory.LatticeObject]
isassoc_meet_mor [definition, in UniMath.CategoryTheory.LatticeObject]
isassoc_cat [definition, in UniMath.CategoryTheory.LatticeObject]
isassoc_CFmult [lemma, in UniMath.Algebra.ConstructiveStructures]
isassoc_CFplus [lemma, in UniMath.Algebra.ConstructiveStructures]
isassoc_CCDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
isassoc_CCDRplus [lemma, in UniMath.Algebra.ConstructiveStructures]
isassoc_CDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
isassoc_CDRplus [lemma, in UniMath.Algebra.ConstructiveStructures]
isassoc_hdisj [lemma, in UniMath.MoreFoundations.Propositions]
isassoc_hconj [lemma, in UniMath.MoreFoundations.Propositions]
isassoc_concatenate [definition, in UniMath.Combinatorics.FiniteSequences]
isassoc_section_op2 [lemma, in UniMath.AlgebraicGeometry.Spec]
isassoc_section_op1 [lemma, in UniMath.AlgebraicGeometry.Spec]
isasymm [definition, in UniMath.Foundations.Sets]
isasymmabgrdiffrel [lemma, in UniMath.Algebra.Groups]
isasymmabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
isasymmabmonoidfracrelint [lemma, in UniMath.Algebra.Monoids]
isasymmfldfracgt [lemma, in UniMath.Algebra.Domains_and_Fields]
isasymmhqgth [lemma, in UniMath.NumberSystems.RationalNumbers]
isasymmhqlth [definition, in UniMath.NumberSystems.RationalNumbers]
isasymmhzgth [lemma, in UniMath.NumberSystems.Integers]
isasymmhzlth [definition, in UniMath.NumberSystems.Integers]
isasymmlogeqf [definition, in UniMath.Foundations.Sets]
isasymmnatgth [lemma, in UniMath.Foundations.NaturalNumbers]
isasymmnatlth [definition, in UniMath.Foundations.NaturalNumbers]
isasymmnegrel [lemma, in UniMath.Foundations.Sets]
isasymmquotrel [lemma, in UniMath.Foundations.Sets]
isasymmresrel [definition, in UniMath.Foundations.Sets]
isasymm_Lgt [definition, in UniMath.Algebra.Lattice]
isasymm_StrongOrder [definition, in UniMath.Algebra.Lattice]
isasymm_reverse [lemma, in UniMath.RealNumbers.Sets]
isaterm [definition, in UniMath.Algebra.Universal.Terms]
isatree [definition, in UniMath.Combinatorics.ZFstructures]
isatree_Upw [lemma, in UniMath.Combinatorics.ZFstructures]
isa:127 [binder, in UniMath.Algebra.Domains_and_Fields]
isa:134 [binder, in UniMath.Foundations.Sets]
isa:3 [binder, in UniMath.CategoryTheory.categories.Cats]
isa:501 [binder, in UniMath.Algebra.Domains_and_Fields]
isa:510 [binder, in UniMath.Algebra.Domains_and_Fields]
isa:6 [binder, in UniMath.CategoryTheory.categories.Cats]
isa:722 [binder, in UniMath.Foundations.Sets]
isBaseConnected [definition, in UniMath.MoreFoundations.Propositions]
isBaseConnected_BG [lemma, in UniMath.Algebra.GroupAction]
isBaseOfFilter [definition, in UniMath.Topology.Filters]
isBaseOfPreFilter [definition, in UniMath.Topology.Filters]
isbase_notfalse [definition, in UniMath.Topology.Filters]
isbase_notempty [definition, in UniMath.Topology.Filters]
isbase_and [definition, in UniMath.Topology.Filters]
isBiggerThanLowerBounds [definition, in UniMath.RealNumbers.Sets]
isBiggest [definition, in UniMath.Combinatorics.OrderedSets]
isbinapartlafldfracop1 [lemma, in UniMath.PAdics.frac]
isbinapartlafldfracop2 [lemma, in UniMath.PAdics.frac]
isbinapartrafldfracop1 [lemma, in UniMath.PAdics.frac]
isbinapartrafldfracop2 [lemma, in UniMath.PAdics.frac]
isBinCoproduct [definition, in UniMath.CategoryTheory.limits.bincoproducts]
isBinCoproductCocone [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
isBinCoproduct_to_isBinCoproduct' [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
isBinCoproduct_BinCoproduct [definition, in UniMath.CategoryTheory.limits.bincoproducts]
isBinCoproduct_opp [definition, in UniMath.CategoryTheory.limits.Opp]
isBinCoproduct' [definition, in UniMath.CategoryTheory.limits.bincoproducts]
isBinCoproduct'_to_isBinCoproduct [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
isBinCoproduct'_weq [definition, in UniMath.CategoryTheory.limits.bincoproducts]
isBinDirectSum [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
isbinopabgrdiffrel [lemma, in UniMath.Algebra.Groups]
isbinopabgrdiffrelint [lemma, in UniMath.Algebra.Groups]
isbinopapart [definition, in UniMath.PAdics.lemmas]
isbinopapartl [definition, in UniMath.PAdics.lemmas]
isbinopapartr [definition, in UniMath.PAdics.lemmas]
isbinopeqrel_subgr_eqrel [lemma, in UniMath.CategoryTheory.PreAdditive]
isbinopfun [definition, in UniMath.Algebra.BinaryOperations]
isbinopfuncomp [lemma, in UniMath.Algebra.BinaryOperations]
isbinopfuninvmap [lemma, in UniMath.Algebra.Modules.Core]
isbinopfuninvmap [lemma, in UniMath.Algebra.BinaryOperations]
isbinopfuntoabgrdiff [lemma, in UniMath.Algebra.Groups]
isbinopfuntoabmonoidfrac [lemma, in UniMath.Algebra.Monoids]
isbinopfun_twooutof3b [definition, in UniMath.Algebra.BinaryOperations]
isbinophrel [definition, in UniMath.Algebra.BinaryOperations]
isbinophrelabgrdiff [lemma, in UniMath.Algebra.Groups]
isbinophrelabmonoidfrac [lemma, in UniMath.Algebra.Monoids]
isbinophrelgr [lemma, in UniMath.Algebra.Groups]
isbinophrelif [lemma, in UniMath.Algebra.BinaryOperations]
isbinophrellogeqf [definition, in UniMath.Algebra.BinaryOperations]
isbinophrel_setquot_aux [lemma, in UniMath.Algebra.Archimedean]
isbinophrel_generated_binopeqrel [lemma, in UniMath.Algebra.BinaryOperations]
isbinophrel_generated_binophrel [lemma, in UniMath.Algebra.BinaryOperations]
isbinophrel_apNonnegativeReals [lemma, in UniMath.RealNumbers.Reals]
isbinophrel_leNonnegativeReals [lemma, in UniMath.RealNumbers.Reals]
isbinophrel_ltNonnegativeReals [lemma, in UniMath.RealNumbers.Reals]
isbinopquotrel [lemma, in UniMath.Algebra.BinaryOperations]
isbinopreflrel [lemma, in UniMath.Algebra.BinaryOperations]
isbinoptoispartbinop [definition, in UniMath.Algebra.BinaryOperations]
isbinop1funtocommringfrac [lemma, in UniMath.Algebra.RigsAndRings]
isbinop1funtofldfrac [definition, in UniMath.Algebra.Domains_and_Fields]
isbinop1funtoringdiff [lemma, in UniMath.Algebra.RigsAndRings]
isbinop2funtocommringfrac [definition, in UniMath.Algebra.RigsAndRings]
isbinop2funtofldfrac [definition, in UniMath.Algebra.Domains_and_Fields]
isbinop2funtoringdiff [lemma, in UniMath.Algebra.RigsAndRings]
isBinProduct [definition, in UniMath.CategoryTheory.limits.binproducts]
isBinProductCone [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
isBinProduct_opp [definition, in UniMath.CategoryTheory.limits.Opp]
isBinProduct_Pullback [lemma, in UniMath.CategoryTheory.limits.pullbacks]
isBinProduct_Signature_category [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
isBinProduct_to_isBinProduct' [lemma, in UniMath.CategoryTheory.limits.binproducts]
isBinProduct_BinProduct [definition, in UniMath.CategoryTheory.limits.binproducts]
isBinProduct' [definition, in UniMath.CategoryTheory.limits.binproducts]
isBinProduct'_to_isBinProduct [lemma, in UniMath.CategoryTheory.limits.binproducts]
isBinProduct'_weq [definition, in UniMath.CategoryTheory.limits.binproducts]
isboolDcuts [definition, in UniMath.RealNumbers.DecidableDedekindCuts]
isboolDcuts_isaprop [lemma, in UniMath.RealNumbers.DecidableDedekindCuts]
isbracketMor [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
isbracketMor_hssMor [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
isb:1124 [binder, in UniMath.Algebra.BinaryOperations]
isb:1128 [binder, in UniMath.Algebra.BinaryOperations]
isb:135 [binder, in UniMath.Foundations.Sets]
isb:1629 [binder, in UniMath.Algebra.BinaryOperations]
isb:723 [binder, in UniMath.Foundations.Sets]
isB:748 [binder, in UniMath.Foundations.Sets]
iscancelable [definition, in UniMath.Algebra.BinaryOperations]
iscancelableif [definition, in UniMath.Algebra.Domains_and_Fields]
iscancelableisob [abbreviation, in UniMath.Algebra.BinaryOperations]
iscancelablemonob [lemma, in UniMath.Algebra.BinaryOperations]
iscanc:364 [binder, in UniMath.Algebra.Groups]
iscanc:373 [binder, in UniMath.Algebra.Groups]
iscanc:376 [binder, in UniMath.Algebra.Groups]
iscanc:436 [binder, in UniMath.Algebra.Monoids]
iscanc:442 [binder, in UniMath.Algebra.Monoids]
iscanc:448 [binder, in UniMath.Algebra.Monoids]
iscanc:452 [binder, in UniMath.Algebra.Monoids]
iscanc:669 [binder, in UniMath.Algebra.RigsAndRings]
iscanc:923 [binder, in UniMath.Algebra.RigsAndRings]
iscanc:929 [binder, in UniMath.Algebra.RigsAndRings]
iscanc:935 [binder, in UniMath.Algebra.RigsAndRings]
iscanc:939 [binder, in UniMath.Algebra.RigsAndRings]
IsCartesianFromReindexDispCat [section, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
IsCartesianFromReindexDispCat.m [variable, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
IsCartesianFromReindexDispCat.minv [variable, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
IsCartesianFromReindexDispCat.minv' [variable, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
IsCartesianFromReindexDispCat.ℓ [variable, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
isCC:367 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
isCC:53 [binder, in UniMath.CategoryTheory.limits.cats.limits]
isCC:61 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
isCC:89 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
isCEq:42 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
ischoicebase [definition, in UniMath.Foundations.Sets]
ischoicebasecontr [lemma, in UniMath.Foundations.Sets]
ischoicebasecoprod [lemma, in UniMath.Foundations.Sets]
ischoicebaseempty [lemma, in UniMath.Foundations.Sets]
ischoicebaseempty2 [lemma, in UniMath.Foundations.Sets]
ischoicebasefiniteset [lemma, in UniMath.Combinatorics.FiniteSets]
ischoicebasestn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
ischoicebaseunit [lemma, in UniMath.Foundations.Sets]
ischoicebaseweqb [lemma, in UniMath.Foundations.Sets]
ischoicebaseweqf [lemma, in UniMath.Foundations.Sets]
ischoicebase_uu1 [definition, in UniMath.Foundations.Sets]
isCK:101 [binder, in UniMath.CategoryTheory.limits.cokernels]
isCK:160 [binder, in UniMath.CategoryTheory.ShortExactSequences]
isCK:284 [binder, in UniMath.CategoryTheory.Abelian]
isCK:294 [binder, in UniMath.CategoryTheory.Abelian]
isCK:58 [binder, in UniMath.CategoryTheory.limits.cokernels]
iscoantisymm [definition, in UniMath.Foundations.Sets]
iscoantisymmhqgth [lemma, in UniMath.NumberSystems.RationalNumbers]
iscoantisymmhqlth [definition, in UniMath.NumberSystems.RationalNumbers]
iscoantisymmhzgth [lemma, in UniMath.NumberSystems.Integers]
iscoantisymmhzlth [definition, in UniMath.NumberSystems.Integers]
iscoantisymmlogeqf [definition, in UniMath.Foundations.Sets]
iscoantisymmnatgth [lemma, in UniMath.Foundations.NaturalNumbers]
iscoantisymmnatlth [definition, in UniMath.Foundations.NaturalNumbers]
iscoantisymmresrel [definition, in UniMath.Foundations.Sets]
iscoasymm [definition, in UniMath.Foundations.Sets]
iscoasymmabgrdiffrel [lemma, in UniMath.Algebra.Groups]
iscoasymmabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
iscoasymmabmonoidfracrelint [lemma, in UniMath.Algebra.Monoids]
iscoasymmgenrel [lemma, in UniMath.Foundations.Sets]
iscoasymmhqgeh [definition, in UniMath.NumberSystems.RationalNumbers]
iscoasymmhqleh [definition, in UniMath.NumberSystems.RationalNumbers]
iscoasymmhzgeh [definition, in UniMath.NumberSystems.Integers]
iscoasymmhzleh [definition, in UniMath.NumberSystems.Integers]
iscoasymmlogeqf [definition, in UniMath.Foundations.Sets]
iscoasymmnatgeh [definition, in UniMath.Foundations.NaturalNumbers]
iscoasymmnatleh [definition, in UniMath.Foundations.NaturalNumbers]
iscoasymmquotrel [lemma, in UniMath.Foundations.Sets]
iscoasymmresrel [definition, in UniMath.Foundations.Sets]
iscoasymm_reverse [lemma, in UniMath.RealNumbers.Sets]
isCoconeOverAlg [lemma, in UniMath.CategoryTheory.Chains.Adamek]
isCoeqKernelPairSet [lemma, in UniMath.CategoryTheory.categories.HSET.Structures]
isCoequalizer [definition, in UniMath.CategoryTheory.Abelian]
isCoequalizer [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
isCoequalizer [definition, in UniMath.CategoryTheory.limits.coequalizers]
isCoequalizerOutsEq [lemma, in UniMath.CategoryTheory.limits.coequalizers]
isCoequalizerOutUnique [lemma, in UniMath.CategoryTheory.limits.coequalizers]
isCoequalizer_Coequalizer [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
isCoequalizer_opp [definition, in UniMath.CategoryTheory.limits.Opp]
isCoequalizer_Coequalizer [definition, in UniMath.CategoryTheory.limits.coequalizers]
isCoequalizer_path [lemma, in UniMath.CategoryTheory.limits.coequalizers]
isCokernel [definition, in UniMath.CategoryTheory.limits.cokernels]
isCokernel_iff [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isCokernel_paths [lemma, in UniMath.CategoryTheory.limits.cokernels]
isCokernel_opp [lemma, in UniMath.CategoryTheory.limits.Opp]
isCokernel_opp_eq [lemma, in UniMath.CategoryTheory.limits.Opp]
isCokernel' [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isCokernel'_to_Cokernel [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isColimCocone [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
isColimCocone [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
isColimCocone_family_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
isColimCocone_pr_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
isColimCocone_in_product_category [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
isColimCocone_pair_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
isColimCocone_pr2_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
isColimCocone_pr1_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
isColimCocone_ColimCocone [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
isColimCocone_from_ColimCocone [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
isColimFunctor_is_pointwise_Colim [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
isColimProductOfColims [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
isColim_is_iso [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
isColim_weq [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
isColim_weq_subproof2 [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
isColim_weq_subproof1 [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
iscomm [definition, in UniMath.Algebra.BinaryOperations]
iscommcarrier [lemma, in UniMath.Algebra.Monoids]
iscommdirprod [lemma, in UniMath.Algebra.Monoids]
iscommfpsplus [lemma, in UniMath.PAdics.fps]
iscommfpstimes [lemma, in UniMath.PAdics.fps]
iscommisob [abbreviation, in UniMath.Algebra.BinaryOperations]
iscommisof [lemma, in UniMath.Algebra.BinaryOperations]
iscommmonob [lemma, in UniMath.Algebra.BinaryOperations]
iscommonhzdiv [definition, in UniMath.PAdics.z_mod_p]
iscommquot [lemma, in UniMath.Algebra.Monoids]
iscommrigcarrier [lemma, in UniMath.Algebra.RigsAndRings]
iscommrigdirprod [lemma, in UniMath.Algebra.RigsAndRings]
iscommrigops [definition, in UniMath.Algebra.BinaryOperations]
iscommrigops_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
iscommrigops_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
iscommrigquot [lemma, in UniMath.Algebra.RigsAndRings]
iscommring [definition, in UniMath.Algebra.RigsAndRings]
iscommringcarrier [lemma, in UniMath.Algebra.RigsAndRings]
iscommringdirprod [lemma, in UniMath.Algebra.RigsAndRings]
iscommringops [definition, in UniMath.Algebra.BinaryOperations]
iscommringopsisob [definition, in UniMath.Algebra.BinaryOperations]
iscommringopsisof [definition, in UniMath.Algebra.BinaryOperations]
iscommringopstoiscommrigops [definition, in UniMath.Algebra.BinaryOperations]
iscommringops_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
iscommringops_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
iscommringquot [lemma, in UniMath.Algebra.RigsAndRings]
isCommutative_fun_mon [definition, in UniMath.Algebra.IteratedBinaryOperations]
isCommutative_fun [definition, in UniMath.Algebra.IteratedBinaryOperations]
iscomm_ringofendabgr_op1 [lemma, in UniMath.Algebra.Modules.Core]
iscomm_minusNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
iscomm_maxNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
iscomm_multNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
iscomm_plusNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
iscomm_Dcuts_min [lemma, in UniMath.RealNumbers.NonnegativeReals]
iscomm_Dcuts_max [lemma, in UniMath.RealNumbers.NonnegativeReals]
iscomm_Dcuts_mult [lemma, in UniMath.RealNumbers.NonnegativeReals]
iscomm_Dcuts_plus [lemma, in UniMath.RealNumbers.NonnegativeReals]
iscomm_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
iscomm_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
iscomm_Rmult [lemma, in UniMath.RealNumbers.Reals]
iscomm_Rplus [lemma, in UniMath.RealNumbers.Reals]
iscomm_NQmax [lemma, in UniMath.RealNumbers.NonnegativeRationals]
iscomm_multNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
iscomm_plusNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
iscomm_hnnq_mult [lemma, in UniMath.RealNumbers.NonnegativeRationals]
iscomm_hnnq_plus [lemma, in UniMath.RealNumbers.NonnegativeRationals]
iscomm_Lmax [definition, in UniMath.Algebra.Lattice]
iscomm_Lmin [definition, in UniMath.Algebra.Lattice]
iscomm_cat_comm [lemma, in UniMath.CategoryTheory.LatticeObject]
iscomm_join_mor [definition, in UniMath.CategoryTheory.LatticeObject]
iscomm_meet_mor [definition, in UniMath.CategoryTheory.LatticeObject]
iscomm_cat [definition, in UniMath.CategoryTheory.LatticeObject]
iscomm_CFmult [lemma, in UniMath.Algebra.ConstructiveStructures]
iscomm_CFplus [lemma, in UniMath.Algebra.ConstructiveStructures]
iscomm_CCDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
iscomm_CCDRplus [lemma, in UniMath.Algebra.ConstructiveStructures]
iscomm_CDRplus [lemma, in UniMath.Algebra.ConstructiveStructures]
iscomm_hdisj [lemma, in UniMath.MoreFoundations.Propositions]
iscomm_hconj [lemma, in UniMath.MoreFoundations.Propositions]
iscomm_section_op2 [lemma, in UniMath.AlgebraicGeometry.Spec]
iscomm_section_op1 [lemma, in UniMath.AlgebraicGeometry.Spec]
iscomm_free_abgr [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
iscomm_free_abmonoid [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
iscomparel [definition, in UniMath.PAdics.lemmas]
iscompbinoptransrel [lemma, in UniMath.Algebra.BinaryOperations]
iscompintpartint0 [lemma, in UniMath.NumberSystems.RationalNumbers]
isCompleteSpace [definition, in UniMath.RealNumbers.Sets]
iscomprelabgrdiffrelint [lemma, in UniMath.Algebra.Groups]
iscomprelabmonoidfracrelint [lemma, in UniMath.Algebra.Monoids]
iscomprelfun [definition, in UniMath.Foundations.Sets]
iscomprelfunlogeqf [lemma, in UniMath.Foundations.Sets]
iscomprelfunlogeqf1 [lemma, in UniMath.Foundations.Sets]
iscomprelfunlogeqf2 [lemma, in UniMath.Foundations.Sets]
iscomprelfun_funcomp [lemma, in UniMath.MoreFoundations.Sets]
iscomprelfun_generated_binopeqrel [lemma, in UniMath.Algebra.BinaryOperations]
iscomprelfun_hr_to_NR [lemma, in UniMath.RealNumbers.Reals]
iscomprelfun_NRminus [lemma, in UniMath.RealNumbers.Reals]
iscomprelfun_presented_abgrfun [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
iscomprelfun_presented_grfun [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
iscomprelfun_presented_abmonoidfun [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
iscomprelfun_presented_monoidfun [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
iscomprelfun2 [definition, in UniMath.Foundations.Sets]
iscomprelfun2if [lemma, in UniMath.Foundations.Sets]
iscomprelfun2logeqf [lemma, in UniMath.Foundations.Sets]
iscomprelfun2' [definition, in UniMath.MoreFoundations.QuotientSet]
iscomprelrel [definition, in UniMath.Foundations.Sets]
iscomprelrelfun [definition, in UniMath.Foundations.Sets]
iscomprelrelfun_generated_binopeqrel_rev [lemma, in UniMath.Algebra.BinaryOperations]
iscomprelrelfun_generated_binopeqrel [lemma, in UniMath.Algebra.BinaryOperations]
iscomprelrelfun2 [definition, in UniMath.Foundations.Sets]
iscomprelrelfun2if [lemma, in UniMath.Foundations.Sets]
iscomprelrelfun2logeqf1 [lemma, in UniMath.Foundations.Sets]
iscomprelrelfun2logeqf2 [lemma, in UniMath.Foundations.Sets]
iscomprelrelfun2' [definition, in UniMath.MoreFoundations.QuotientSet]
iscomprelrelif [lemma, in UniMath.Foundations.Sets]
iscomprelrellogeqf1 [lemma, in UniMath.Foundations.Sets]
iscomprelrellogeqf2 [lemma, in UniMath.Foundations.Sets]
iscomprel_from_base [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
iscompsetquotpr [lemma, in UniMath.Foundations.Sets]
iscompsetquot2pr [lemma, in UniMath.Foundations.Sets]
iscomptoabgrdiff [lemma, in UniMath.Algebra.Groups]
iscomptoabmonoidfrac [lemma, in UniMath.Algebra.Monoids]
iscomptocommringfrac [definition, in UniMath.Algebra.RigsAndRings]
iscomptofldfrac [definition, in UniMath.Algebra.Domains_and_Fields]
iscomptoringdiff [definition, in UniMath.Algebra.RigsAndRings]
isComputablyOrdered [definition, in UniMath.Combinatorics.OrderedSets]
iscomp2binoptransrel [lemma, in UniMath.Algebra.BinaryOperations]
iscomp:1579 [binder, in UniMath.Foundations.Sets]
isConnected [definition, in UniMath.MoreFoundations.Propositions]
isconnectedfromunitabgr [lemma, in UniMath.CategoryTheory.categories.abgrs]
isconnectedstn1 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isconnectedtounitabgr [lemma, in UniMath.CategoryTheory.categories.abgrs]
isConnected_BG [lemma, in UniMath.Algebra.GroupAction]
isConnected_isBaseConnected [lemma, in UniMath.MoreFoundations.Propositions]
isconst [definition, in UniMath.MoreFoundations.Sets]
isConstrDivRig [definition, in UniMath.Algebra.ConstructiveStructures]
isConstructiveTotalEffectiveOrder [definition, in UniMath.RealNumbers.Sets]
isconst_2' [definition, in UniMath.MoreFoundations.Sets]
isconst_2 [definition, in UniMath.MoreFoundations.Sets]
iscontr [definition, in UniMath.Foundations.PartA]
iscontraprop1 [lemma, in UniMath.Foundations.PartB]
iscontraprop1inv [lemma, in UniMath.Foundations.PartB]
iscontrauto_Tree_TRRGraph [lemma, in UniMath.Combinatorics.ZFstructures]
iscontrcoconusfromt [lemma, in UniMath.Foundations.PartA]
iscontrcoconustot [lemma, in UniMath.Foundations.PartA]
iscontrcoconustot_comp [definition, in UniMath.MoreFoundations.MoreEquivalences]
iscontrfromzero_module [lemma, in UniMath.CategoryTheory.categories.modules]
iscontrfunfromempty [lemma, in UniMath.Foundations.PartD]
iscontrfunfromempty2 [lemma, in UniMath.Foundations.PartD]
iscontrfuntocontr [lemma, in UniMath.Foundations.PartD]
iscontrfuntounit [lemma, in UniMath.Foundations.PartD]
iscontrGuidedHomotopy [lemma, in UniMath.SyntheticHomotopyTheory.AffineLine]
iscontrGuidedHomotopy [lemma, in UniMath.SyntheticHomotopyTheory.Halfline]
iscontrGuidedHomotopy_comp_2 [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
iscontrGuidedHomotopy_comp_1 [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
iscontrhfiberdi [lemma, in UniMath.Foundations.NaturalNumbers]
iscontrhfiberdni [lemma, in UniMath.Combinatorics.StandardFiniteSets]
iscontrhfibereqbx [lemma, in UniMath.Foundations.PartC]
iscontrhfiberii1x [lemma, in UniMath.Foundations.PartC]
iscontrhfiberii2y [lemma, in UniMath.Foundations.PartC]
iscontrhfiberl1 [lemma, in UniMath.Foundations.PartA]
iscontrhfiberl2 [lemma, in UniMath.Foundations.PartA]
iscontrhfibernatplusl [lemma, in UniMath.Foundations.NaturalNumbers]
iscontrhfibernatplusr [lemma, in UniMath.Foundations.NaturalNumbers]
iscontrhfiberofincl [lemma, in UniMath.Foundations.PartB]
iscontrhfiberstntonat [lemma, in UniMath.Combinatorics.StandardFiniteSets]
iscontrhomsfromgterm [definition, in UniMath.Algebra.Universal.TermAlgebras]
iscontrhomstounit [lemma, in UniMath.Algebra.Universal.Algebras]
iscontrifweqtounit [lemma, in UniMath.Foundations.PartA]
iscontriscontr [lemma, in UniMath.Foundations.PartD]
iscontrloopsifisaset [lemma, in UniMath.Foundations.PartB]
iscontrpathsinunit [lemma, in UniMath.Foundations.PartA]
iscontrpr1 [definition, in UniMath.Foundations.PartA]
iscontrretract [lemma, in UniMath.Foundations.PartA]
iscontrretract_compute [definition, in UniMath.MoreFoundations.MoreEquivalences]
iscontrsecoverempty [definition, in UniMath.Foundations.PartD]
iscontrsecoverempty2 [definition, in UniMath.Foundations.PartD]
iscontrstn1 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
iscontrtildehProp [lemma, in UniMath.Foundations.Propositions]
iscontrtozero_module [lemma, in UniMath.CategoryTheory.categories.modules]
iscontrunit [lemma, in UniMath.Foundations.PartA]
iscontrweqb [lemma, in UniMath.Foundations.PartA]
iscontrweqb_compute [definition, in UniMath.MoreFoundations.MoreEquivalences]
iscontrweqb' [lemma, in UniMath.MoreFoundations.Tactics]
iscontrweqf [lemma, in UniMath.Foundations.PartA]
iscontr_weq [lemma, in UniMath.Foundations.HLevels]
iscontr_functor_from_empty [lemma, in UniMath.CategoryTheory.categories.StandardCategories]
iscontr_functor_to_unit [lemma, in UniMath.CategoryTheory.categories.StandardCategories]
iscontr_aux_space [lemma, in UniMath.CategoryTheory.precomp_fully_faithful]
iscontr_cond_dirprod_weq [lemma, in UniMath.CategoryTheory.slicecat]
iscontr_EG [lemma, in UniMath.Algebra.GroupAction]
iscontr_hProp [definition, in UniMath.MoreFoundations.Propositions]
iscontr_attempt [definition, in UniMath.Combinatorics.WellFoundedRelations]
iscontr_rect_compute [definition, in UniMath.Combinatorics.FiniteSequences]
iscontr_rect [definition, in UniMath.Combinatorics.FiniteSequences]
iscontr_adjointness [definition, in UniMath.Combinatorics.FiniteSequences]
iscontr_rect_compute'' [definition, in UniMath.Combinatorics.FiniteSequences]
iscontr_rect'' [definition, in UniMath.Combinatorics.FiniteSequences]
iscontr_rect_compute' [definition, in UniMath.Combinatorics.FiniteSequences]
iscontr_rect' [definition, in UniMath.Combinatorics.FiniteSequences]
iscontr_vector_0 [definition, in UniMath.Combinatorics.FiniteSequences]
iscontr_affine_line [lemma, in UniMath.SyntheticHomotopyTheory.AffineLine]
iscontr_move_point_eq [lemma, in UniMath.Foundations.PartA]
iscontr_move_point [lemma, in UniMath.Foundations.PartA]
iscontr_uniqueness [definition, in UniMath.Foundations.PartA]
iscontr_universalmap [definition, in UniMath.Algebra.Universal.FreeAlgebras]
iscontr_Q [lemma, in UniMath.SyntheticHomotopyTheory.Circle2]
iscontr_paths_from [lemma, in UniMath.MoreFoundations.Notations]
iscontr_paths_to [lemma, in UniMath.MoreFoundations.Notations]
iscontr_X [definition, in UniMath.CategoryTheory.precomp_ess_surj]
iscontr_sfuntosunit [lemma, in UniMath.Algebra.Universal.SortedTypes]
isCoproduct [definition, in UniMath.CategoryTheory.limits.coproducts]
isCoproductCocone [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
isCoproduct_Coproduct [definition, in UniMath.CategoryTheory.limits.coproducts]
isCoproduct_Signature_category [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
iscoproj [definition, in UniMath.Foundations.PartC]
iscoprojfromisdecincl [lemma, in UniMath.Foundations.PartC]
isCOS:34 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
iscotrans [definition, in UniMath.Foundations.Sets]
iscotransabgrdiffrel [lemma, in UniMath.Algebra.Groups]
iscotransabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
iscotransabmonoidfracrelint [lemma, in UniMath.Algebra.Monoids]
iscotransafldfracapartrelpre [lemma, in UniMath.PAdics.frac]
iscotransapSet [lemma, in UniMath.Algebra.Apartness]
iscotransfldfracgt [lemma, in UniMath.Algebra.Domains_and_Fields]
iscotranshqgth [lemma, in UniMath.NumberSystems.RationalNumbers]
iscotranshqlth [definition, in UniMath.NumberSystems.RationalNumbers]
iscotranshzgth [lemma, in UniMath.NumberSystems.Integers]
iscotranshzlth [definition, in UniMath.NumberSystems.Integers]
iscotranslogeqf [definition, in UniMath.Foundations.Sets]
iscotransnatgth [lemma, in UniMath.Foundations.NaturalNumbers]
iscotransnatlth [definition, in UniMath.Foundations.NaturalNumbers]
iscotranspadicapart0 [lemma, in UniMath.PAdics.padics]
iscotransquotrel [lemma, in UniMath.Foundations.Sets]
iscotransresrel [definition, in UniMath.Foundations.Sets]
iscotranstightapSet [lemma, in UniMath.Algebra.Apartness]
iscotrans_apNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
iscotrans_ltNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
iscotrans_Dcuts_ap_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
iscotrans_Dcuts_lt_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
iscotrans_Rap [lemma, in UniMath.RealNumbers.Reals]
iscotrans_Rlt [lemma, in UniMath.RealNumbers.Reals]
iscotrans_hr_lt [lemma, in UniMath.RealNumbers.Reals]
iscotrans_latticedec_gt_rel [lemma, in UniMath.Algebra.Lattice]
iscotrans_Lgt [definition, in UniMath.Algebra.Lattice]
iscotrans_StrongOrder [definition, in UniMath.Algebra.Lattice]
iscotrans_reverse [lemma, in UniMath.RealNumbers.Sets]
iscotrans_StrongOrder [definition, in UniMath.RealNumbers.Sets]
iscotrans_CFap [lemma, in UniMath.Algebra.ConstructiveStructures]
iscotrans_CCDRap [lemma, in UniMath.Algebra.ConstructiveStructures]
iscotrans_CDRap [lemma, in UniMath.Algebra.ConstructiveStructures]
iscotrans_to_istrans_negReln [lemma, in UniMath.MoreFoundations.NegativePropositions]
isC:20 [binder, in UniMath.CategoryTheory.limits.cokernels]
isC:220 [binder, in UniMath.CategoryTheory.limits.Opp]
isc:68 [binder, in UniMath.Induction.M.Chains]
isc:752 [binder, in UniMath.Foundations.PartA]
isdcpomorphism [definition, in UniMath.Algebra.Dcpo]
isdcpomorphism' [definition, in UniMath.Algebra.Dcpo]
isDcuts_OneSided [lemma, in UniMath.RealNumbers.DedekindCuts]
isdecabgrdiffrel [definition, in UniMath.Algebra.Groups]
isdecabgrdiffrelint [definition, in UniMath.Algebra.Groups]
isdecabmonoidfracrel [definition, in UniMath.Algebra.Monoids]
isdecabmonoidfracrelint [definition, in UniMath.Algebra.Monoids]
isdecbexists [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isdecbforall [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isdeccommringfracgt [definition, in UniMath.Algebra.RigsAndRings]
isdeccotrans [definition, in UniMath.Foundations.Sets]
isdeceq [definition, in UniMath.Foundations.PartB]
isdeceqabgrdiff [lemma, in UniMath.Algebra.Groups]
isdeceqabmonoidfrac [lemma, in UniMath.Algebra.Monoids]
isdeceqbool [lemma, in UniMath.Foundations.PartB]
isdeceqcommringfrac [lemma, in UniMath.Algebra.RigsAndRings]
isdeceqcoprod [lemma, in UniMath.Foundations.PartB]
isdeceqFinSig [lemma, in UniMath.SubstitutionSystems.MLTT79]
isdeceqfldfrac [lemma, in UniMath.Algebra.Domains_and_Fields]
isdeceqhq [definition, in UniMath.NumberSystems.RationalNumbers]
isdeceqhz [lemma, in UniMath.NumberSystems.Integers]
isdeceqhzmodp [lemma, in UniMath.PAdics.z_mod_p]
isdeceqif [lemma, in UniMath.Foundations.PartC]
isdeceqifisaprop [lemma, in UniMath.Foundations.PartB]
isdeceqinclb [lemma, in UniMath.Foundations.PartB]
isdeceqnat [definition, in UniMath.Foundations.NaturalNumbers]
isdeceqsetquot [definition, in UniMath.Foundations.Sets]
isdeceqsetquot_non_constr [lemma, in UniMath.Foundations.Sets]
isdeceqstn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isdeceqtoisapartdec [lemma, in UniMath.PAdics.lemmas]
isdecequnit [lemma, in UniMath.Foundations.PartB]
isdeceqweqb [lemma, in UniMath.Foundations.PartB]
isdeceqweqf [lemma, in UniMath.Foundations.PartB]
isdeceq_isdec_lessthan [lemma, in UniMath.Combinatorics.OrderedSets]
isdeceq_isdec_ordering [lemma, in UniMath.Combinatorics.OrderedSets]
isdeceq_total2 [lemma, in UniMath.Foundations.PartB]
isdeceq_NonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isdecfldfracgt [definition, in UniMath.Algebra.Domains_and_Fields]
isDecidablePredicate [definition, in UniMath.MoreFoundations.Subtypes]
isdecincl [definition, in UniMath.Foundations.PartC]
isdecinclcomp [lemma, in UniMath.Foundations.PartC]
isdecincldi [lemma, in UniMath.Foundations.NaturalNumbers]
isdecincldni [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isdecinclf [lemma, in UniMath.Foundations.PartC]
isdecinclfromiscoproj [lemma, in UniMath.Foundations.PartC]
isdecinclfromisweq [lemma, in UniMath.Foundations.PartC]
isdecinclg [lemma, in UniMath.Foundations.PartC]
isdecinclhomot [lemma, in UniMath.Foundations.PartC]
isdecinclii1 [lemma, in UniMath.Foundations.PartC]
isdecinclii2 [lemma, in UniMath.Foundations.PartC]
isdecinclnatplusr [lemma, in UniMath.Foundations.NaturalNumbers]
isdecinclpr1 [lemma, in UniMath.Foundations.PartC]
isdecinclS [lemma, in UniMath.Foundations.NaturalNumbers]
isdecinclstntonat [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isdecincltoisincl [lemma, in UniMath.Foundations.PartC]
isdecisbndqdec [lemma, in UniMath.PAdics.lemmas]
isdecnatprop [definition, in UniMath.PAdics.lemmas]
isdecnegrel [lemma, in UniMath.Foundations.Sets]
isdecprop [definition, in UniMath.Foundations.PartB]
isdecpropdirprod [lemma, in UniMath.Foundations.PartC]
isdecpropempty [lemma, in UniMath.Foundations.PartB]
isdecpropfibseq0 [lemma, in UniMath.Foundations.PartC]
isdecpropfibseq1 [lemma, in UniMath.Foundations.PartC]
isdecpropfromdecincl [lemma, in UniMath.Foundations.PartC]
isdecpropfromiscontr [lemma, in UniMath.Foundations.PartB]
isdecpropfromneg [lemma, in UniMath.Foundations.PartB]
isdecprophdisj [lemma, in UniMath.Foundations.Propositions]
isdecpropif [lemma, in UniMath.Foundations.PartB]
isdecpropif' [lemma, in UniMath.Foundations.PartC]
isdecproplogeqb [lemma, in UniMath.Foundations.PartB]
isdecproplogeqf [lemma, in UniMath.Foundations.PartB]
isdecproppaths [lemma, in UniMath.Foundations.PartC]
isdecproppathsfromisolated [lemma, in UniMath.Foundations.PartC]
isdecproppathstoisolated [lemma, in UniMath.Foundations.PartC]
isdecproptoisaprop [definition, in UniMath.Foundations.PartB]
isdecpropweqb [lemma, in UniMath.Foundations.PartB]
isdecpropweqf [lemma, in UniMath.Foundations.PartB]
isdecprop_to_DecidableProposition [definition, in UniMath.MoreFoundations.DecidablePropositions]
isdecquotrel [lemma, in UniMath.Foundations.Sets]
isdecrel [definition, in UniMath.Foundations.Sets]
isdecrelhqeq [definition, in UniMath.NumberSystems.RationalNumbers]
isdecrelhqgeh [definition, in UniMath.NumberSystems.RationalNumbers]
isdecrelhqgth [lemma, in UniMath.NumberSystems.RationalNumbers]
isdecrelhqleh [definition, in UniMath.NumberSystems.RationalNumbers]
isdecrelhqlth [definition, in UniMath.NumberSystems.RationalNumbers]
isdecrelhqneq [definition, in UniMath.NumberSystems.RationalNumbers]
isdecrelhzeq [definition, in UniMath.NumberSystems.Integers]
isdecrelhzeqi [lemma, in UniMath.NumberSystems.Integers]
isdecrelhzeqminusplus [lemma, in UniMath.NumberSystems.Integers]
isdecrelhzeqminusplus' [lemma, in UniMath.NumberSystems.Integers]
isdecrelhzeqpii [lemma, in UniMath.NumberSystems.Integers]
isdecrelhzgeh [definition, in UniMath.NumberSystems.Integers]
isdecrelhzgth [lemma, in UniMath.NumberSystems.Integers]
isdecrelhzleh [definition, in UniMath.NumberSystems.Integers]
isdecrelhzlth [definition, in UniMath.NumberSystems.Integers]
isdecrelhzneq [definition, in UniMath.NumberSystems.Integers]
isdecrellogeqf [definition, in UniMath.Foundations.Sets]
isdecrelnateq [definition, in UniMath.Foundations.NaturalNumbers]
isdecrelnatgeh [definition, in UniMath.Foundations.NaturalNumbers]
isdecrelnatgth [lemma, in UniMath.Foundations.NaturalNumbers]
isdecrelnatleh [definition, in UniMath.Foundations.NaturalNumbers]
isdecrelnatlth [definition, in UniMath.Foundations.NaturalNumbers]
isdecrelresrel [definition, in UniMath.Foundations.Sets]
isdecreltoisnegrel [lemma, in UniMath.Foundations.Sets]
isdecrel_natneq [definition, in UniMath.Foundations.NaturalNumbers]
isdecrel_ltNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isdecrel_leNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isdecrel_latticedec [definition, in UniMath.Algebra.Lattice]
isdecrigtoringrel [definition, in UniMath.Algebra.RigsAndRings]
isdectotal [definition, in UniMath.Foundations.Sets]
isdec_ordering [definition, in UniMath.Foundations.Sets]
isdirected [definition, in UniMath.Algebra.Dcpo]
isdirectedcomplete [definition, in UniMath.Algebra.Dcpo]
isdirected_lub [definition, in UniMath.Algebra.FixedPointTheorems]
isdirected_compatible [definition, in UniMath.Algebra.Dcpo]
isdirected_inhabited [definition, in UniMath.Algebra.Dcpo]
isdirec:140 [binder, in UniMath.Algebra.Dcpo]
isdirec:146 [binder, in UniMath.Algebra.Dcpo]
isdirec:151 [binder, in UniMath.Algebra.Dcpo]
isdirec:156 [binder, in UniMath.Algebra.Dcpo]
isdirec:162 [binder, in UniMath.Algebra.Dcpo]
isdirec:184 [binder, in UniMath.Algebra.Dcpo]
isdirec:48 [binder, in UniMath.Algebra.Dcpo]
isdir:135 [binder, in UniMath.Algebra.Dcpo]
isdistr [definition, in UniMath.Algebra.BinaryOperations]
isdistrax:26 [binder, in UniMath.Algebra.Matrix]
isdistrisob [abbreviation, in UniMath.Algebra.BinaryOperations]
isdistrisof [lemma, in UniMath.Algebra.BinaryOperations]
isdistrmonob [definition, in UniMath.Algebra.BinaryOperations]
isdistr_setofendabgr_op [lemma, in UniMath.Algebra.Modules.Core]
isdistr_plus_halfNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
isdistr_Dcuts_half_plus [lemma, in UniMath.RealNumbers.NonnegativeReals]
isdistr_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isdistr_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isdistr_section_ops [lemma, in UniMath.AlgebraicGeometry.Spec]
isDivRig [definition, in UniMath.Algebra.DivisionRig]
isDivRig_DivRig [definition, in UniMath.Algebra.DivisionRig]
isDivRig_isrdistr [definition, in UniMath.Algebra.DivisionRig]
isDivRig_isldistr [definition, in UniMath.Algebra.DivisionRig]
isDivRig_isrinv [definition, in UniMath.Algebra.DivisionRig]
isDivRig_islinv [definition, in UniMath.Algebra.DivisionRig]
isDivRig_isrunit_x1 [definition, in UniMath.Algebra.DivisionRig]
isDivRig_islunit_x1 [definition, in UniMath.Algebra.DivisionRig]
isDivRig_isassoc_mult [definition, in UniMath.Algebra.DivisionRig]
isDivRig_iscomm_plus [definition, in UniMath.Algebra.DivisionRig]
isDivRig_isrunit_x0 [definition, in UniMath.Algebra.DivisionRig]
isDivRig_islunit_x0 [definition, in UniMath.Algebra.DivisionRig]
isDivRig_isassoc_plus [definition, in UniMath.Algebra.DivisionRig]
isDivRig_inv [definition, in UniMath.Algebra.DivisionRig]
isDivRig_mult [definition, in UniMath.Algebra.DivisionRig]
isDivRig_plus [definition, in UniMath.Algebra.DivisionRig]
isDivRig_one [definition, in UniMath.Algebra.DivisionRig]
isDivRig_zero [definition, in UniMath.Algebra.DivisionRig]
isdr:261 [binder, in UniMath.Foundations.Sets]
isDTri [definition, in UniMath.HomologicalAlgebra.Triangulated]
isd:1017 [binder, in UniMath.Algebra.RigsAndRings]
isd:697 [binder, in UniMath.Algebra.RigsAndRings]
isEffective [definition, in UniMath.CategoryTheory.EpiFacts]
isEffectiveOrder [definition, in UniMath.RealNumbers.Sets]
isEffectiveOrder_hnnq [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isEffectivePw [lemma, in UniMath.CategoryTheory.EpiFacts]
IsEffectivePw [section, in UniMath.CategoryTheory.EpiFacts]
iseo_Dcuts [definition, in UniMath.RealNumbers.NonnegativeReals]
iseo_Dcuts_le_lt_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
isEpi [definition, in UniMath.CategoryTheory.ShortExactSequences]
isEpi [definition, in UniMath.CategoryTheory.Epis]
isEpi_pr_quot_functor [lemma, in UniMath.CategoryTheory.SetValuedFunctors]
isEpi_pw_pr_quot_functor [lemma, in UniMath.CategoryTheory.SetValuedFunctors]
isEpi_opp [definition, in UniMath.CategoryTheory.limits.Opp]
isEpi_to_binop_BinDirectSum2 [lemma, in UniMath.CategoryTheory.Additive]
isEpi_to_binop_BinDirectSum1' [lemma, in UniMath.CategoryTheory.Additive]
isEpi_to_binop_BinDirectSum1 [lemma, in UniMath.CategoryTheory.Additive]
isEpi_path [lemma, in UniMath.CategoryTheory.Epis]
isEpi_precomp [definition, in UniMath.CategoryTheory.Epis]
isEpi_comp [definition, in UniMath.CategoryTheory.Epis]
iseqclass [definition, in UniMath.Foundations.Sets]
iseqclassconstr [definition, in UniMath.Foundations.Sets]
iseqclassdirprod [lemma, in UniMath.Foundations.Sets]
iseqclassresrel [lemma, in UniMath.Foundations.Sets]
iseqrel [definition, in UniMath.Foundations.Sets]
iseqrelabgrdiff [lemma, in UniMath.Algebra.Groups]
iseqrelabgrdiffrel [lemma, in UniMath.Algebra.Groups]
iseqrelabgrdiffrelint [lemma, in UniMath.Algebra.Groups]
iseqrelabmonoidfrac [lemma, in UniMath.Algebra.Monoids]
iseqrelabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
iseqrelabmonoidfracrelint [lemma, in UniMath.Algebra.Monoids]
iseqrelconstr [definition, in UniMath.Foundations.Sets]
iseqrellogeqf [definition, in UniMath.Foundations.Sets]
iseqrelquotrel [lemma, in UniMath.Foundations.Sets]
iseqrelresrel [definition, in UniMath.Foundations.Sets]
iseqrel_Dcuts_eq [lemma, in UniMath.RealNumbers.NonnegativeReals]
iseqrel_eqrel_from_hrel [lemma, in UniMath.MoreFoundations.Sets]
iseqrel_generated_binopeqrel [lemma, in UniMath.Algebra.BinaryOperations]
iseqrel_are_isomorphic [lemma, in UniMath.CategoryTheory.Core.Isos]
iseqrel_rel [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
iseqrel_subgrhrel [lemma, in UniMath.CategoryTheory.PreAdditive]
iseqrel_reverse [lemma, in UniMath.RealNumbers.Sets]
iseqrel_closure [lemma, in UniMath.Combinatorics.Equivalence_Relations]
isEqualizer [definition, in UniMath.CategoryTheory.Abelian]
isEqualizer [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
isEqualizer [definition, in UniMath.CategoryTheory.limits.equalizers]
isEqualizerInsEq [lemma, in UniMath.CategoryTheory.limits.equalizers]
isEqualizerInUnique [lemma, in UniMath.CategoryTheory.limits.equalizers]
isEqualizer_Equalizer [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
isEqualizer_to_isEqualizer' [lemma, in UniMath.CategoryTheory.limits.equalizers]
isEqualizer_Equalizer [definition, in UniMath.CategoryTheory.limits.equalizers]
isEqualizer_path [lemma, in UniMath.CategoryTheory.limits.equalizers]
isEqualizer_opp [definition, in UniMath.CategoryTheory.limits.Opp]
isEqualizer' [definition, in UniMath.CategoryTheory.limits.equalizers]
isEqualizer'_weq_isEqualizer [lemma, in UniMath.CategoryTheory.limits.equalizers]
isEqualizer'_to_isEqualizer [lemma, in UniMath.CategoryTheory.limits.equalizers]
isEqualizer'_weq [definition, in UniMath.CategoryTheory.limits.equalizers]
isEquivalence [definition, in UniMath.MoreFoundations.Equivalences]
isEquivalence_to_isweq [definition, in UniMath.MoreFoundations.Equivalences]
isEquivalence_toAdjointness [definition, in UniMath.MoreFoundations.Equivalences]
isEquivalence_toSourceHomotopy [definition, in UniMath.MoreFoundations.Equivalences]
isEquivalence_toTargetHomotopy [definition, in UniMath.MoreFoundations.Equivalences]
isEquivalence_toInverseFunction [definition, in UniMath.MoreFoundations.Equivalences]
isequiv_setquot_aux [lemma, in UniMath.Algebra.Archimedean]
isEquiv:306 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
isEq:182 [binder, in UniMath.CategoryTheory.ShortExactSequences]
isEq:193 [binder, in UniMath.CategoryTheory.ShortExactSequences]
isEq:211 [binder, in UniMath.CategoryTheory.ShortExactSequences]
isEq:42 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
isExact [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
isExactFunctor [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isExactisEpi [lemma, in UniMath.CategoryTheory.ShortExactSequences]
isExactisMonic [lemma, in UniMath.CategoryTheory.ShortExactSequences]
isExact_opp [lemma, in UniMath.CategoryTheory.ShortExactSequences]
isExact_opp_Eq [lemma, in UniMath.CategoryTheory.ShortExactSequences]
isExact_to_isExact' [lemma, in UniMath.CategoryTheory.ShortExactSequences]
isExact_to_isExact'_Eq [lemma, in UniMath.CategoryTheory.ShortExactSequences]
isExact_Eq [lemma, in UniMath.CategoryTheory.ShortExactSequences]
isExact' [definition, in UniMath.CategoryTheory.ShortExactSequences]
isExact'_to_isExact [lemma, in UniMath.CategoryTheory.ShortExactSequences]
isExact'_to_isExact_Eq [lemma, in UniMath.CategoryTheory.ShortExactSequences]
isExact'_Eq [lemma, in UniMath.CategoryTheory.ShortExactSequences]
isExact2 [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isE':65 [binder, in UniMath.Combinatorics.ZFstructures]
isE:195 [binder, in UniMath.CategoryTheory.PreAdditive]
isE:212 [binder, in UniMath.CategoryTheory.limits.Opp]
isE:234 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:240 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:385 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:399 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:411 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:423 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:439 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:44 [binder, in UniMath.CategoryTheory.limits.kernels]
isE:452 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:460 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:469 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:477 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:483 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:488 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:495 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:503 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:511 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:515 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:519 [binder, in UniMath.CategoryTheory.categories.abgrs]
isE:556 [binder, in UniMath.HomologicalAlgebra.Complexes]
isE:6 [binder, in UniMath.CategoryTheory.Quotobjects]
isE:64 [binder, in UniMath.Combinatorics.ZFstructures]
isE:64 [binder, in UniMath.CategoryTheory.Epis]
isE:70 [binder, in UniMath.CategoryTheory.limits.equalizers]
isE:70 [binder, in UniMath.CategoryTheory.limits.coequalizers]
isE:74 [binder, in UniMath.CategoryTheory.ShortExactSequences]
isE:89 [binder, in UniMath.CategoryTheory.ShortExactSequences]
isE:95 [binder, in UniMath.CategoryTheory.ShortExactSequences]
isFalse [definition, in UniMath.MoreFoundations.DecidablePropositions]
isfibseq [definition, in UniMath.Foundations.PartA]
isfibseqg [lemma, in UniMath.Foundations.PartA]
isfibseqpr1 [lemma, in UniMath.Foundations.PartA]
isFilter [definition, in UniMath.Topology.Filters]
isfilter_finite_intersection_carac [lemma, in UniMath.Topology.Filters]
isfilter_finite_intersection_and [lemma, in UniMath.Topology.Filters]
isfilter_finite_intersection_htrue [lemma, in UniMath.Topology.Filters]
isfilter_notempty [definition, in UniMath.Topology.Filters]
isfilter_and [definition, in UniMath.Topology.Filters]
isfilter_htrue [definition, in UniMath.Topology.Filters]
isfilter_finite_intersection [definition, in UniMath.Topology.Filters]
isfilter_imply [definition, in UniMath.Topology.Filters]
isfinite [definition, in UniMath.Combinatorics.FiniteSets]
isfinitebool [definition, in UniMath.Combinatorics.FiniteSets]
isfinitecompl [definition, in UniMath.Combinatorics.FiniteSets]
isfinitecontr [definition, in UniMath.Combinatorics.FiniteSets]
isfinitecoprod [definition, in UniMath.Combinatorics.FiniteSets]
isfinitecoprodwithunit [definition, in UniMath.Combinatorics.FiniteSets]
isfinitedecsubset [definition, in UniMath.Combinatorics.FiniteSets]
isfinitedirprod [definition, in UniMath.Combinatorics.FiniteSets]
isfiniteempty [definition, in UniMath.Combinatorics.FiniteSets]
isfiniteempty2 [definition, in UniMath.Combinatorics.FiniteSets]
isfiniteforall [definition, in UniMath.Combinatorics.FiniteSets]
isfinitefun [definition, in UniMath.Combinatorics.FiniteSets]
isfinitestn [definition, in UniMath.Combinatorics.FiniteSets]
isfinitetotal2 [definition, in UniMath.Combinatorics.FiniteSets]
isfiniteunit [definition, in UniMath.Combinatorics.FiniteSets]
isfiniteweq [definition, in UniMath.Combinatorics.FiniteSets]
isfiniteweqb [definition, in UniMath.Combinatorics.FiniteSets]
isfiniteweqf [definition, in UniMath.Combinatorics.FiniteSets]
isfinite_isdec_lessthan [lemma, in UniMath.Combinatorics.OrderedSets]
isfinite_isdec_ordering [lemma, in UniMath.Combinatorics.OrderedSets]
isfinite_to_DecidableEquality [definition, in UniMath.Combinatorics.FiniteSets]
isfinite_isaset [lemma, in UniMath.Combinatorics.FiniteSets]
isfinite_isdeceq [lemma, in UniMath.Combinatorics.FiniteSets]
isfinite_to_FiniteSet [definition, in UniMath.Combinatorics.FiniteSets]
isfixedpoint [definition, in UniMath.Algebra.FixedPointTheorems]
isfunctor_comm_functor_data_2 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
isfunctor_comm_functor_data [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
isf:121 [binder, in UniMath.Foundations.Propositions]
isf:1356 [binder, in UniMath.Foundations.PartA]
isf:1375 [binder, in UniMath.Foundations.PartA]
isf:308 [binder, in UniMath.Foundations.PartC]
isf:345 [binder, in UniMath.Foundations.PartC]
isf:402 [binder, in UniMath.Foundations.PartB]
isf:411 [binder, in UniMath.Foundations.PartB]
isf:475 [binder, in UniMath.Foundations.PartC]
isf:499 [binder, in UniMath.Foundations.PartC]
isf:741 [binder, in UniMath.Foundations.Sets]
isgf:130 [binder, in UniMath.Foundations.Propositions]
isgf:1345 [binder, in UniMath.Foundations.PartA]
isgf:1357 [binder, in UniMath.Foundations.PartA]
isgf:384 [binder, in UniMath.Foundations.PartB]
isgf:491 [binder, in UniMath.Foundations.PartC]
isgf:501 [binder, in UniMath.Foundations.PartC]
isgrcarrier [definition, in UniMath.Algebra.Groups]
isgrdirprod [lemma, in UniMath.Algebra.Groups]
isGreatestLowerBound [definition, in UniMath.RealNumbers.Sets]
isgrop [definition, in UniMath.Algebra.BinaryOperations]
isgropfpsplus [lemma, in UniMath.PAdics.fps]
isgropif [lemma, in UniMath.Algebra.BinaryOperations]
isgropisob [definition, in UniMath.Algebra.BinaryOperations]
isgropisof [definition, in UniMath.Algebra.BinaryOperations]
isgrop_ringofendabgr_op1 [lemma, in UniMath.Algebra.Modules.Core]
isgrop_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isgrop_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isgrop_section_op1 [definition, in UniMath.AlgebraicGeometry.Spec]
isGrothendieckTopology [definition, in UniMath.CategoryTheory.GrothendieckTopos]
isGrothendieckTopology_transitivity [definition, in UniMath.CategoryTheory.GrothendieckTopos]
isGrothendieckTopology_stability [definition, in UniMath.CategoryTheory.GrothendieckTopos]
isGrothendieckTopology_maximal_sieve [definition, in UniMath.CategoryTheory.GrothendieckTopos]
isgrquot [definition, in UniMath.Algebra.Groups]
isg:101 [binder, in UniMath.Algebra.Groups]
isg:106 [binder, in UniMath.Algebra.Groups]
isg:122 [binder, in UniMath.Foundations.Propositions]
isg:1346 [binder, in UniMath.Foundations.PartA]
isg:1376 [binder, in UniMath.Foundations.PartA]
isg:309 [binder, in UniMath.Foundations.PartC]
isg:346 [binder, in UniMath.Foundations.PartC]
isg:383 [binder, in UniMath.Foundations.PartB]
isg:476 [binder, in UniMath.Foundations.PartC]
isg:489 [binder, in UniMath.Foundations.PartC]
isg:91 [binder, in UniMath.Algebra.Groups]
isg:96 [binder, in UniMath.Algebra.Groups]
ishfsq [definition, in UniMath.Foundations.PartA]
ishfsqweqhfibersgtof' [lemma, in UniMath.Foundations.PartA]
ishfsqweqhfibersg'tof [lemma, in UniMath.Foundations.PartA]
ishinh [definition, in UniMath.Foundations.Propositions]
ishinhsubtypedirprod [lemma, in UniMath.Foundations.Sets]
ishinh_UU [definition, in UniMath.Foundations.Propositions]
ishinh_irrel [lemma, in UniMath.MoreFoundations.Propositions]
ishom [definition, in UniMath.Algebra.Universal.Algebras]
ishomcomp [lemma, in UniMath.Algebra.Universal.Algebras]
ishomeval [lemma, in UniMath.Algebra.Universal.FreeAlgebras]
ishomgeval [lemma, in UniMath.Algebra.Universal.TermAlgebras]
ishomid [lemma, in UniMath.Algebra.Universal.Algebras]
ishomotinclrecomplf [lemma, in UniMath.Foundations.PartC]
ishomtounit [lemma, in UniMath.Algebra.Universal.Algebras]
ishom_nat_to_z2 [lemma, in UniMath.Algebra.Universal.Examples.Nat]
isHQIS [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
ishssMor [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
ishssMor_InitAlg [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
ishssMor_comp [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
ishssMor_id [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
ishssMor_InitAlg [lemma, in UniMath.SubstitutionSystems.LiftingInitial]
isincl [definition, in UniMath.Foundations.PartB]
isinclbetweensets [lemma, in UniMath.Foundations.PartB]
isinclcomp [lemma, in UniMath.Foundations.PartB]
isincldi [lemma, in UniMath.Foundations.NaturalNumbers]
isincldni [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isinclfromcoprodwithnegimage [lemma, in UniMath.Foundations.PartC]
isinclfromhfiber [lemma, in UniMath.Foundations.PartB]
isinclfromstn1 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isinclfromunit [lemma, in UniMath.Foundations.PartB]
isinclgtogw [lemma, in UniMath.Foundations.PartB]
isinclgwtog [lemma, in UniMath.Foundations.PartB]
isinclhomot [lemma, in UniMath.Foundations.PartB]
isinclhqplusl [lemma, in UniMath.NumberSystems.RationalNumbers]
isinclhqplusr [lemma, in UniMath.NumberSystems.RationalNumbers]
isinclhzmultl [lemma, in UniMath.NumberSystems.Integers]
isinclhzmultr [lemma, in UniMath.NumberSystems.Integers]
isinclhzplusl [lemma, in UniMath.NumberSystems.Integers]
isinclhzplusr [lemma, in UniMath.NumberSystems.Integers]
isinclhztohq [definition, in UniMath.NumberSystems.RationalNumbers]
isinclii1 [lemma, in UniMath.Foundations.PartC]
isinclii2 [lemma, in UniMath.Foundations.PartC]
isinclnatplusl [lemma, in UniMath.Foundations.NaturalNumbers]
isinclnatplusr [lemma, in UniMath.Foundations.NaturalNumbers]
isinclnattohz [definition, in UniMath.NumberSystems.Integers]
isinclprabgrdiff [lemma, in UniMath.Algebra.Groups]
isinclprabmonoidfrac [lemma, in UniMath.Algebra.Monoids]
isinclprcommringfrac [lemma, in UniMath.Algebra.RigsAndRings]
isinclpr1 [definition, in UniMath.Foundations.PartB]
isinclpr1carrier [lemma, in UniMath.Foundations.Sets]
isinclpr1compl [lemma, in UniMath.Foundations.PartC]
isinclpr1compl_ne [lemma, in UniMath.MoreFoundations.NegativePropositions]
isinclpr1image [lemma, in UniMath.Foundations.Propositions]
isinclpr1isolated [lemma, in UniMath.Foundations.PartD]
isinclpr1setquot [lemma, in UniMath.Foundations.Sets]
isinclpr1weq [lemma, in UniMath.Foundations.PartD]
isinclS [lemma, in UniMath.Foundations.NaturalNumbers]
isinclsetquotfun [lemma, in UniMath.Foundations.Sets]
isinclstntonat [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isincltoabgrdiff [definition, in UniMath.Algebra.Groups]
isincltoabmonoidfrac [definition, in UniMath.Algebra.Monoids]
isincltocommringfrac [definition, in UniMath.Algebra.RigsAndRings]
isincltofldfrac [definition, in UniMath.Algebra.Domains_and_Fields]
isincltoringdiff [definition, in UniMath.Algebra.RigsAndRings]
isincltwooutof3a [lemma, in UniMath.Foundations.PartB]
isinclweq [lemma, in UniMath.Foundations.PartB]
isinclweqonpaths [lemma, in UniMath.Foundations.PartB]
isincl_underlyingPoset [lemma, in UniMath.Combinatorics.OrderedSets]
isincl_pr1_PosetEquivalence [lemma, in UniMath.Foundations.Sets]
isinhdneg [definition, in UniMath.Foundations.Propositions]
isInitial [definition, in UniMath.CategoryTheory.limits.initial]
isInitial [definition, in UniMath.CategoryTheory.limits.graphs.initial]
isInitialTermAlgebra [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
isInitial_InitHSS [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
isInitial_InitHSS [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
isInitial_pre_comp [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
isinitial_termalgebra [lemma, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
isInitial_Initial [lemma, in UniMath.CategoryTheory.limits.graphs.initial]
isInitial_opp [definition, in UniMath.CategoryTheory.limits.Opp]
isInitial_InitHSS [lemma, in UniMath.SubstitutionSystems.LiftingInitial]
isInjective [definition, in UniMath.Foundations.PartB]
isInjectiveFunction [definition, in UniMath.Foundations.Sets]
isinjinvmap [definition, in UniMath.Foundations.PartA]
isinjinvmap' [definition, in UniMath.Foundations.PartA]
isinjnatcoface [lemma, in UniMath.PAdics.lemmas]
isinjpr1weq [lemma, in UniMath.Foundations.PartD]
isinjstntonat [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isinj_pr1_PosetEquivalence [lemma, in UniMath.Foundations.Sets]
isintdom [definition, in UniMath.Algebra.Domains_and_Fields]
isintdomhz [lemma, in UniMath.NumberSystems.Integers]
isInterval [definition, in UniMath.Combinatorics.WellOrderedSets]
isinv [definition, in UniMath.Algebra.BinaryOperations]
isinvbinophrel [definition, in UniMath.Algebra.BinaryOperations]
isinvbinophrelgr [lemma, in UniMath.Algebra.Groups]
isinvbinophrelif [lemma, in UniMath.Algebra.BinaryOperations]
isinvbinophrellogeqf [definition, in UniMath.Algebra.BinaryOperations]
isinvbinoptoispartinvbinop [definition, in UniMath.Algebra.BinaryOperations]
isinvertible [definition, in UniMath.Algebra.BinaryOperations]
isinvertiblemonob [lemma, in UniMath.Algebra.BinaryOperations]
isinvertiblemonof [lemma, in UniMath.Algebra.BinaryOperations]
isinvisob [lemma, in UniMath.Algebra.BinaryOperations]
isinvisof [lemma, in UniMath.Algebra.BinaryOperations]
isinvmulthrelnatgth [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvmulthrelnatlth [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvolutive_invNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isinvoncarrier [lemma, in UniMath.Algebra.Groups]
isinvongrquot [lemma, in UniMath.Algebra.Groups]
isinvplushrelhqgth [lemma, in UniMath.NumberSystems.RationalNumbers]
isinvplushrelhzgth [lemma, in UniMath.NumberSystems.Integers]
isinvplushrelnatgeh [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvplushrelnatgth [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvplushrelnatleh [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvplushrelnatlth [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvrigmultgt [definition, in UniMath.Algebra.RigsAndRings]
isinvrigmultgtif [lemma, in UniMath.Algebra.RigsAndRings]
isinvrigmultgtnatgth [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvringmultgt [definition, in UniMath.Algebra.RigsAndRings]
isinvringmultgtaspartinvbinophrel [lemma, in UniMath.Algebra.RigsAndRings]
isinvringmultgtif [lemma, in UniMath.Algebra.Domains_and_Fields]
isinvringmultgttoisinvrigmultgt [lemma, in UniMath.Algebra.RigsAndRings]
isinvringmultgttoislinvringmultgt [lemma, in UniMath.Algebra.RigsAndRings]
isinvringmultgttoisrinvringmultgt [lemma, in UniMath.Algebra.RigsAndRings]
isinvringmulthqgth [lemma, in UniMath.NumberSystems.RationalNumbers]
isinvringmulthzgth [lemma, in UniMath.NumberSystems.Integers]
isinvringrigtoringmultgt [lemma, in UniMath.Algebra.RigsAndRings]
isinv_setofendabgr_inv [lemma, in UniMath.Algebra.Modules.Core]
isinv_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isinv_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isinv_section_inv [lemma, in UniMath.AlgebraicGeometry.Spec]
isinv' [definition, in UniMath.RealNumbers.Sets]
isirrefl [definition, in UniMath.Foundations.Sets]
isirreflabgrdiffrel [lemma, in UniMath.Algebra.Groups]
isirreflabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
isirreflabmonoidfracrelint [lemma, in UniMath.Algebra.Monoids]
isirreflafldfracapartrelpre [lemma, in UniMath.PAdics.frac]
isirreflapSet [lemma, in UniMath.Algebra.Apartness]
isirreflfldfracgt [lemma, in UniMath.Algebra.Domains_and_Fields]
isirreflhqgth [lemma, in UniMath.NumberSystems.RationalNumbers]
isirreflhqlth [definition, in UniMath.NumberSystems.RationalNumbers]
isirreflhzgth [lemma, in UniMath.NumberSystems.Integers]
isirreflhzlth [definition, in UniMath.NumberSystems.Integers]
isirrefllogeqf [definition, in UniMath.Foundations.Sets]
isirreflnatgth [lemma, in UniMath.Foundations.NaturalNumbers]
isirreflnatlth [definition, in UniMath.Foundations.NaturalNumbers]
isirreflpadicapart0 [lemma, in UniMath.PAdics.padics]
isirreflquotrel [lemma, in UniMath.Foundations.Sets]
isirreflresrel [definition, in UniMath.Foundations.Sets]
isirrefltightapSet [lemma, in UniMath.Algebra.Apartness]
isirrefl_apNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
isirrefl_ltNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
isirrefl_Dcuts_ap_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
isirrefl_Dcuts_lt_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
isirrefl_Rap [lemma, in UniMath.RealNumbers.Reals]
isirrefl_Rlt [lemma, in UniMath.RealNumbers.Reals]
isirrefl_natneq [lemma, in UniMath.Foundations.NaturalNumbers]
isirrefl_ltNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
isirrefl_Lgt [definition, in UniMath.Algebra.Lattice]
isirrefl_StrongOrder [definition, in UniMath.Algebra.Lattice]
isirrefl_EOlt [definition, in UniMath.RealNumbers.Sets]
isirrefl_EOgt [definition, in UniMath.RealNumbers.Sets]
isirrefl_reverse [lemma, in UniMath.RealNumbers.Sets]
isirrefl_StrongOrder [definition, in UniMath.RealNumbers.Sets]
isirrefl_CFap [lemma, in UniMath.Algebra.ConstructiveStructures]
isirrefl_CCDRap [lemma, in UniMath.Algebra.ConstructiveStructures]
isirrefl_CDRap [lemma, in UniMath.Algebra.ConstructiveStructures]
IsIsoIsMono [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isisolated [definition, in UniMath.Foundations.PartB]
isisolateddecinclf [lemma, in UniMath.Foundations.PartC]
isisolatedinclb [lemma, in UniMath.Foundations.PartB]
isisolatedinstn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isisolatedn [definition, in UniMath.Foundations.NaturalNumbers]
isisolatedweqf [lemma, in UniMath.Foundations.PartB]
isisolated_ne_to_isisolated [definition, in UniMath.MoreFoundations.NegativePropositions]
isisolated_to_isisolated_ne [definition, in UniMath.MoreFoundations.NegativePropositions]
isisolated_ne [definition, in UniMath.MoreFoundations.NegativePropositions]
isiso_from_Terminal_to_Terminal [lemma, in UniMath.CategoryTheory.limits.graphs.terminal]
isiso_from_Coequalizer_to_Coequalizer [lemma, in UniMath.CategoryTheory.limits.graphs.coequalizers]
isiso_from_Initial_to_Initial [lemma, in UniMath.CategoryTheory.limits.initial]
isiso_from_Pushout_to_Pushout [lemma, in UniMath.CategoryTheory.limits.graphs.pushouts]
isiso_from_Pushout_to_Pushout [lemma, in UniMath.CategoryTheory.limits.pushouts]
isiso_from_Equalizer_to_Equalizer [lemma, in UniMath.CategoryTheory.limits.graphs.equalizers]
isiso_from_Zero_to_Zero [lemma, in UniMath.CategoryTheory.limits.zero]
isiso_from_Equalizer_to_Equalizer [lemma, in UniMath.CategoryTheory.limits.equalizers]
isiso_from_Initial_to_Initial [lemma, in UniMath.CategoryTheory.limits.graphs.initial]
isiso_from_Pullback_to_Pullback [lemma, in UniMath.CategoryTheory.limits.graphs.pullbacks]
isiso_from_Pullback_to_Pullback [lemma, in UniMath.CategoryTheory.limits.pullbacks]
isiso_from_Zero_to_Zero [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
isiso_from_Coequalizer_to_Coequalizer [lemma, in UniMath.CategoryTheory.limits.coequalizers]
isiso_from_Terminal_to_Terminal [lemma, in UniMath.CategoryTheory.limits.terminal]
isiso:1072 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
isiso:281 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
isiso:284 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
isi:523 [binder, in UniMath.Algebra.Groups]
isi:665 [binder, in UniMath.Algebra.Monoids]
isKernel [definition, in UniMath.CategoryTheory.limits.kernels]
isKernelCokernelPair [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isKernel_iff [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isKernel_paths [lemma, in UniMath.CategoryTheory.limits.kernels]
isKernel_opp [lemma, in UniMath.CategoryTheory.limits.Opp]
isKernel' [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isKernel'_to_Kernel [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
iskm:569 [binder, in UniMath.Foundations.NaturalNumbers]
iskm:574 [binder, in UniMath.Foundations.NaturalNumbers]
iskm:579 [binder, in UniMath.Foundations.NaturalNumbers]
isK:158 [binder, in UniMath.CategoryTheory.ShortExactSequences]
isK:20 [binder, in UniMath.CategoryTheory.limits.kernels]
isK:203 [binder, in UniMath.CategoryTheory.ShortExactSequences]
isK:264 [binder, in UniMath.CategoryTheory.Abelian]
isK:272 [binder, in UniMath.CategoryTheory.Abelian]
isK:87 [binder, in UniMath.CategoryTheory.limits.kernels]
islabsorb_zero_multNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
islabsorb_Dcuts_mult_zero [lemma, in UniMath.RealNumbers.NonnegativeReals]
islabsorb_Rzero_Rmult [lemma, in UniMath.RealNumbers.Reals]
islabsorb_zero_multNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
islabsorb_CFzero_CFmult [lemma, in UniMath.Algebra.ConstructiveStructures]
islabsorb_CCDRzero_CCDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
islabsorb_CDRzero_CDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
islapbinop [definition, in UniMath.Algebra.Apartness]
islapbinop_Dcuts_mult [lemma, in UniMath.RealNumbers.NonnegativeReals]
islapbinop_Dcuts_plus [lemma, in UniMath.RealNumbers.NonnegativeReals]
islapbinop_mult [lemma, in UniMath.RealNumbers.Reals]
islapbinop_plus [lemma, in UniMath.RealNumbers.Reals]
islapbinop_op2 [lemma, in UniMath.Algebra.Apartness]
islapbinop_op1 [lemma, in UniMath.Algebra.Apartness]
islapbinop_op [lemma, in UniMath.Algebra.Apartness]
isLattice [definition, in UniMath.Combinatorics.OrderedSets]
islbub_Dcuts_of_Dcuts [lemma, in UniMath.RealNumbers.NonnegativeReals]
islcancelable [definition, in UniMath.Algebra.BinaryOperations]
islcancelableif [lemma, in UniMath.Algebra.Domains_and_Fields]
islcancelableisob [abbreviation, in UniMath.Algebra.BinaryOperations]
islcancelablemonob [lemma, in UniMath.Algebra.BinaryOperations]
isldistr [definition, in UniMath.Algebra.BinaryOperations]
isldistrax:24 [binder, in UniMath.Algebra.Matrix]
isldistrfps [lemma, in UniMath.PAdics.fps]
isldistrisob [abbreviation, in UniMath.Algebra.BinaryOperations]
isldistrisof [lemma, in UniMath.Algebra.BinaryOperations]
isldistrmonob [lemma, in UniMath.Algebra.BinaryOperations]
isldistr_setofendabgr_op [lemma, in UniMath.Algebra.Modules.Core]
isldistr_minus_multNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
isldistr_max_multNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
isldistr_max_plusNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
isldistr_plus_multNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
isldistr_Dcuts_max_plus [lemma, in UniMath.RealNumbers.NonnegativeReals]
isldistr_Dcuts_max_mult [lemma, in UniMath.RealNumbers.NonnegativeReals]
isldistr_Dcuts_plus_mult [lemma, in UniMath.RealNumbers.NonnegativeReals]
isldistr_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isldistr_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isldistr_Rplus_Rmult [lemma, in UniMath.RealNumbers.Reals]
isldistr_mult_minusNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isldistr_mult_plusNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
isldistr_hnnq_plus_mult [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isldistr_CFplus_CFmult [lemma, in UniMath.Algebra.ConstructiveStructures]
isldistr_CCDRplus_CCDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
isldistr_CDRplus_CDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
isldistr_section_ops [lemma, in UniMath.AlgebraicGeometry.Spec]
isLeastUpperBound [definition, in UniMath.RealNumbers.Sets]
isLimCone [definition, in UniMath.CategoryTheory.limits.cats.limits]
isLimCone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
isLimCone_LimCone [definition, in UniMath.CategoryTheory.limits.cats.limits]
isLimCone_LimCone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
islimcone:118 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
islimcone:126 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
isLimFunctor_is_pointwise_Lim [definition, in UniMath.CategoryTheory.limits.graphs.limits]
isLim_is_iso [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
islinear [definition, in UniMath.Algebra.Modules.Core]
islinearfuncomp [lemma, in UniMath.Algebra.Modules.Core]
islinearinvmap [lemma, in UniMath.Algebra.Modules.Core]
islinv [definition, in UniMath.Algebra.BinaryOperations]
islinvertible [definition, in UniMath.Algebra.BinaryOperations]
islinvertibleisob [lemma, in UniMath.Algebra.BinaryOperations]
islinvertibleisof [definition, in UniMath.Algebra.BinaryOperations]
islinvinfldfrac [lemma, in UniMath.Algebra.Domains_and_Fields]
islinvmultwithminus1_is_l [lemma, in UniMath.Algebra.BinaryOperations]
islinv_setofendabgr_inv [lemma, in UniMath.Algebra.Modules.Core]
islinv_invNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
islinv_Dcuts_inv [definition, in UniMath.RealNumbers.NonnegativeReals]
islinv_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
islinv_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
islinv_Rinv [lemma, in UniMath.RealNumbers.Reals]
islinv_Ropp [lemma, in UniMath.RealNumbers.Reals]
islinv_NonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
islinv_CFinv [lemma, in UniMath.Algebra.ConstructiveStructures]
islinv_CFopp [lemma, in UniMath.Algebra.ConstructiveStructures]
islinv_CCDRinv [lemma, in UniMath.Algebra.ConstructiveStructures]
islinv_CDRinv [lemma, in UniMath.Algebra.ConstructiveStructures]
islinv_section_inv [lemma, in UniMath.AlgebraicGeometry.Spec]
islinv' [definition, in UniMath.RealNumbers.Sets]
islinv'_hnnq_inv [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isLocalizingClass [definition, in UniMath.CategoryTheory.LocalizingClass]
isLocalizingClass_isLocalizingClass3 [definition, in UniMath.CategoryTheory.LocalizingClass]
isLocalizingClass_isLocalizingClass2 [definition, in UniMath.CategoryTheory.LocalizingClass]
isLocalizingClass_isLocalizingClass1 [definition, in UniMath.CategoryTheory.LocalizingClass]
isLocalizingClass1 [definition, in UniMath.CategoryTheory.LocalizingClass]
isLocalizingClass2 [definition, in UniMath.CategoryTheory.LocalizingClass]
isLocalizingClass3 [definition, in UniMath.CategoryTheory.LocalizingClass]
isLocClassComp [definition, in UniMath.CategoryTheory.LocalizingClass]
isLocClassIs [definition, in UniMath.CategoryTheory.LocalizingClass]
isLocClassPost [definition, in UniMath.CategoryTheory.LocalizingClass]
isLocClassPre [definition, in UniMath.CategoryTheory.LocalizingClass]
isLocClassSqr1 [definition, in UniMath.CategoryTheory.LocalizingClass]
isLocClassSqr2 [definition, in UniMath.CategoryTheory.LocalizingClass]
islogeqassochconj [lemma, in UniMath.MoreFoundations.Propositions]
islogeqassochdisj [lemma, in UniMath.MoreFoundations.Propositions]
islogeqcommhconj [lemma, in UniMath.MoreFoundations.Propositions]
islogeqcommhdisj [lemma, in UniMath.Foundations.Propositions]
islogeqhconj_absorb_hdisj [lemma, in UniMath.MoreFoundations.Propositions]
islogeqhdisj_absorb_hconj [lemma, in UniMath.MoreFoundations.Propositions]
islogeqhfalse_hdisj [lemma, in UniMath.MoreFoundations.Propositions]
islogeqhhtrue_hconj [lemma, in UniMath.MoreFoundations.Propositions]
islowerbound [definition, in UniMath.Algebra.FixedPointTheorems]
isLowerBound [definition, in UniMath.RealNumbers.Sets]
islowerbound_subtype_equiv [definition, in UniMath.Algebra.FixedPointTheorems]
islowerbound_subtype [definition, in UniMath.Algebra.FixedPointTheorems]
islringmultgttoisringmultgt [lemma, in UniMath.Algebra.RigsAndRings]
islrinvringmultgttoisinvringmultgt [lemma, in UniMath.Algebra.RigsAndRings]
islub [definition, in UniMath.Algebra.Dcpo]
islub_Dcuts_of_Dcuts [lemma, in UniMath.RealNumbers.NonnegativeReals]
islub_islubpointwise [lemma, in UniMath.Algebra.Dcpo]
islub_isleast [definition, in UniMath.Algebra.Dcpo]
islub_isupperbound [definition, in UniMath.Algebra.Dcpo]
islunit [definition, in UniMath.Algebra.BinaryOperations]
islunit_setofendabgr_un1 [lemma, in UniMath.Algebra.Modules.Core]
islunit_setofendabgr_un0 [lemma, in UniMath.Algebra.Modules.Core]
islunit_one_multNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
islunit_zero_plusNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
islunit_Dcuts_mult_one [lemma, in UniMath.RealNumbers.NonnegativeReals]
islunit_Dcuts_plus_zero [lemma, in UniMath.RealNumbers.NonnegativeReals]
islunit_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
islunit_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
islunit_Rone_Rmult [lemma, in UniMath.RealNumbers.Reals]
islunit_Rzero_Rplus [lemma, in UniMath.RealNumbers.Reals]
islunit_oneNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
islunit_zeroNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
islunit_hnnq_one_mult [lemma, in UniMath.RealNumbers.NonnegativeRationals]
islunit_hnnq_zero_plus [lemma, in UniMath.RealNumbers.NonnegativeRationals]
islunit_Lmin_Ltop [definition, in UniMath.Algebra.Lattice]
islunit_Lmax_Lbot [definition, in UniMath.Algebra.Lattice]
islunit_cat_comm [lemma, in UniMath.CategoryTheory.LatticeObject]
islunit_meet_mor_top_mor [definition, in UniMath.CategoryTheory.LatticeObject]
islunit_join_mor_bot_mor [definition, in UniMath.CategoryTheory.LatticeObject]
islunit_cat [definition, in UniMath.CategoryTheory.LatticeObject]
islunit_CFone_CFmult [lemma, in UniMath.Algebra.ConstructiveStructures]
islunit_CFzero_CFplus [lemma, in UniMath.Algebra.ConstructiveStructures]
islunit_CCDRone_CCDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
islunit_CCDRzero_CCDRplus [lemma, in UniMath.Algebra.ConstructiveStructures]
islunit_CDRone_CDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
islunit_CDRzero_CDRplus [lemma, in UniMath.Algebra.ConstructiveStructures]
islunit_section_unel2 [lemma, in UniMath.AlgebraicGeometry.Spec]
islunit_section_unel1 [lemma, in UniMath.AlgebraicGeometry.Spec]
isl:1111 [binder, in UniMath.Algebra.BinaryOperations]
isl:1120 [binder, in UniMath.Algebra.BinaryOperations]
isl:1200 [binder, in UniMath.Algebra.BinaryOperations]
isl:1208 [binder, in UniMath.Algebra.BinaryOperations]
isl:1276 [binder, in UniMath.Foundations.Sets]
isl:1284 [binder, in UniMath.Algebra.BinaryOperations]
isl:1293 [binder, in UniMath.Algebra.BinaryOperations]
isl:1293 [binder, in UniMath.Foundations.Sets]
isl:1306 [binder, in UniMath.Foundations.Sets]
isl:1311 [binder, in UniMath.Foundations.Sets]
isl:1312 [binder, in UniMath.Algebra.BinaryOperations]
isl:1316 [binder, in UniMath.Foundations.Sets]
isl:1320 [binder, in UniMath.Algebra.BinaryOperations]
isl:1321 [binder, in UniMath.Foundations.Sets]
isl:1328 [binder, in UniMath.Foundations.Sets]
isl:1341 [binder, in UniMath.Foundations.Sets]
isl:1354 [binder, in UniMath.Foundations.Sets]
isl:1363 [binder, in UniMath.Foundations.Sets]
isl:1377 [binder, in UniMath.Algebra.BinaryOperations]
isl:1380 [binder, in UniMath.Foundations.Sets]
isl:1393 [binder, in UniMath.Foundations.Sets]
isl:1463 [binder, in UniMath.Foundations.Sets]
isl:15 [binder, in UniMath.Algebra.RigsAndRings.Ideals]
isl:18 [binder, in UniMath.Algebra.Domains_and_Fields]
isL:19 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
isl:280 [binder, in UniMath.Foundations.Sets]
isl:287 [binder, in UniMath.Foundations.Sets]
isl:294 [binder, in UniMath.Foundations.Sets]
isl:301 [binder, in UniMath.Foundations.Sets]
isl:308 [binder, in UniMath.Foundations.Sets]
isl:315 [binder, in UniMath.Foundations.Sets]
isl:322 [binder, in UniMath.Foundations.Sets]
isl:329 [binder, in UniMath.Foundations.Sets]
isl:336 [binder, in UniMath.Foundations.Sets]
isl:343 [binder, in UniMath.Foundations.Sets]
isL:35 [binder, in UniMath.CategoryTheory.LatticeObject]
isl:350 [binder, in UniMath.Foundations.Sets]
isl:357 [binder, in UniMath.Foundations.Sets]
isl:364 [binder, in UniMath.Foundations.Sets]
isL:37 [binder, in UniMath.CategoryTheory.LatticeObject]
isl:371 [binder, in UniMath.Foundations.Sets]
isl:376 [binder, in UniMath.Algebra.RigsAndRings]
isl:378 [binder, in UniMath.Foundations.Sets]
isl:385 [binder, in UniMath.Foundations.Sets]
isL:39 [binder, in UniMath.CategoryTheory.LatticeObject]
isl:392 [binder, in UniMath.Algebra.RigsAndRings]
isl:424 [binder, in UniMath.Algebra.Groups]
isl:428 [binder, in UniMath.Algebra.Groups]
isl:432 [binder, in UniMath.Algebra.Groups]
isl:436 [binder, in UniMath.Algebra.Groups]
isl:440 [binder, in UniMath.Algebra.Groups]
isl:444 [binder, in UniMath.Algebra.Groups]
isl:448 [binder, in UniMath.Algebra.Groups]
isl:452 [binder, in UniMath.Algebra.Groups]
isl:456 [binder, in UniMath.Algebra.Groups]
isl:460 [binder, in UniMath.Algebra.Groups]
isl:464 [binder, in UniMath.Algebra.Groups]
isl:468 [binder, in UniMath.Algebra.Groups]
isl:472 [binder, in UniMath.Algebra.Monoids]
isl:472 [binder, in UniMath.Algebra.Groups]
isl:476 [binder, in UniMath.Algebra.Groups]
isl:477 [binder, in UniMath.Algebra.Monoids]
isl:480 [binder, in UniMath.Algebra.Groups]
isl:482 [binder, in UniMath.Algebra.Monoids]
isl:484 [binder, in UniMath.Algebra.Groups]
isl:487 [binder, in UniMath.Algebra.Monoids]
isl:488 [binder, in UniMath.Algebra.Groups]
isl:492 [binder, in UniMath.Algebra.Monoids]
isl:497 [binder, in UniMath.Algebra.Monoids]
isl:502 [binder, in UniMath.Algebra.Monoids]
isl:507 [binder, in UniMath.Algebra.Monoids]
isl:512 [binder, in UniMath.Algebra.Monoids]
isl:517 [binder, in UniMath.Algebra.Monoids]
isl:519 [binder, in UniMath.Algebra.Groups]
isl:519 [binder, in UniMath.Algebra.RigsAndRings]
isl:522 [binder, in UniMath.Algebra.Monoids]
isl:524 [binder, in UniMath.Algebra.Groups]
isl:527 [binder, in UniMath.Algebra.Monoids]
isl:532 [binder, in UniMath.Algebra.Monoids]
isl:537 [binder, in UniMath.Algebra.Monoids]
isl:542 [binder, in UniMath.Algebra.Monoids]
isl:547 [binder, in UniMath.Algebra.Monoids]
isl:552 [binder, in UniMath.Algebra.Monoids]
isl:557 [binder, in UniMath.Algebra.Monoids]
isl:562 [binder, in UniMath.Algebra.Monoids]
isl:567 [binder, in UniMath.Algebra.Monoids]
isl:572 [binder, in UniMath.Algebra.Monoids]
isl:585 [binder, in UniMath.Algebra.Monoids]
isL:60 [binder, in UniMath.CategoryTheory.LatticeObject]
isl:619 [binder, in UniMath.Foundations.Sets]
isL:62 [binder, in UniMath.CategoryTheory.LatticeObject]
isl:623 [binder, in UniMath.Foundations.Sets]
isl:627 [binder, in UniMath.Foundations.Sets]
isl:631 [binder, in UniMath.Foundations.Sets]
isl:635 [binder, in UniMath.Foundations.Sets]
isl:639 [binder, in UniMath.Foundations.Sets]
isl:643 [binder, in UniMath.Foundations.Sets]
isl:647 [binder, in UniMath.Foundations.Sets]
isl:651 [binder, in UniMath.Foundations.Sets]
isl:655 [binder, in UniMath.Foundations.Sets]
isl:659 [binder, in UniMath.Foundations.Sets]
isL:66 [binder, in UniMath.CategoryTheory.LatticeObject]
isl:660 [binder, in UniMath.Algebra.Monoids]
isl:663 [binder, in UniMath.Foundations.Sets]
isl:666 [binder, in UniMath.Algebra.Monoids]
isl:667 [binder, in UniMath.Foundations.Sets]
isl:671 [binder, in UniMath.Foundations.Sets]
isl:675 [binder, in UniMath.Foundations.Sets]
isl:679 [binder, in UniMath.Foundations.Sets]
isL:7 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
isl:762 [binder, in UniMath.Algebra.RigsAndRings]
isMaximal [definition, in UniMath.Combinatorics.OrderedSets]
isMaximal [definition, in UniMath.Foundations.Sets]
isMaximal_preserved [lemma, in UniMath.Combinatorics.OrderedSets]
isMinimal [definition, in UniMath.Combinatorics.OrderedSets]
isMinimal [definition, in UniMath.Foundations.Sets]
isMinimal_preserved [lemma, in UniMath.Combinatorics.OrderedSets]
isminusmultwithminus1_is_l [lemma, in UniMath.Algebra.BinaryOperations]
ismk:584 [binder, in UniMath.Foundations.NaturalNumbers]
ismk:589 [binder, in UniMath.Foundations.NaturalNumbers]
ismk:594 [binder, in UniMath.Foundations.NaturalNumbers]
ismodulefun [definition, in UniMath.Algebra.Modules.Core]
ismodulefun_comp [lemma, in UniMath.Algebra.Modules.Core]
ismodulefun_pr1 [lemma, in UniMath.Algebra.Modules.Submodule]
isMonadAlg [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
isMonic [definition, in UniMath.CategoryTheory.ShortExactSequences]
isMonic [definition, in UniMath.CategoryTheory.Monics]
isMonic_Ω_mor [lemma, in UniMath.CategoryTheory.Presheaf]
isMonic_path [lemma, in UniMath.CategoryTheory.Monics]
isMonic_postcomp [definition, in UniMath.CategoryTheory.Monics]
isMonic_comp [definition, in UniMath.CategoryTheory.Monics]
isMonic_opp [definition, in UniMath.CategoryTheory.limits.Opp]
isMonic_to_binop_BinDirectSum2 [lemma, in UniMath.CategoryTheory.Additive]
isMonic_to_binop_BinDirectSum1' [lemma, in UniMath.CategoryTheory.Additive]
isMonic_to_binop_BinDirectSum1 [lemma, in UniMath.CategoryTheory.Additive]
ismonoidcarrier [lemma, in UniMath.Algebra.Monoids]
ismonoiddirprod [definition, in UniMath.Algebra.Monoids]
ismonoidfun [definition, in UniMath.Algebra.Monoids]
ismonoidfuncomp [lemma, in UniMath.Algebra.Monoids]
ismonoidfuninvmap [lemma, in UniMath.Algebra.Monoids]
ismonoidfunisbinopfun [definition, in UniMath.Algebra.Monoids]
ismonoidfuntoabgrdiff [definition, in UniMath.Algebra.Groups]
ismonoidfuntoabmonoidfrac [definition, in UniMath.Algebra.Monoids]
ismonoidfununel [definition, in UniMath.Algebra.Monoids]
ismonoidfun_prop [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ismonoidfun_setquotuniv [lemma, in UniMath.Algebra.Monoids]
ismonoidfun_setquotpr [lemma, in UniMath.Algebra.Monoids]
ismonoidfun_pr1 [lemma, in UniMath.Algebra.Monoids]
ismonoidop [definition, in UniMath.Algebra.BinaryOperations]
ismonoidopfpsplus [lemma, in UniMath.PAdics.fps]
ismonoidopfpstimes [lemma, in UniMath.PAdics.fps]
ismonoidopisob [definition, in UniMath.Algebra.BinaryOperations]
ismonoidopisof [definition, in UniMath.Algebra.BinaryOperations]
ismonoidop_ringofendabgr_op2 [lemma, in UniMath.Algebra.Modules.Core]
ismonoidop_ringofendabgr_op1 [lemma, in UniMath.Algebra.Modules.Core]
ismonoidop_Dcuts_mult [definition, in UniMath.RealNumbers.NonnegativeReals]
ismonoidop_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
ismonoidop_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
ismonoidop_hnnq_mult [definition, in UniMath.RealNumbers.NonnegativeRationals]
ismonoidop_section_op2 [definition, in UniMath.AlgebraicGeometry.Spec]
ismonoidop_section_op1 [definition, in UniMath.AlgebraicGeometry.Spec]
ismonoidop_concatenate [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
ismonoidquot [definition, in UniMath.Algebra.Monoids]
ismultilinear [definition, in UniMath.Algebra.Modules.Multimodules]
ismultilinearfuncomp [definition, in UniMath.Algebra.Modules.Multimodules]
ismultimodulefun [definition, in UniMath.Algebra.Modules.Multimodules]
ismultmonoidfuntocommringfrac [definition, in UniMath.Algebra.RigsAndRings]
ismultmonoidfuntofldfrac [definition, in UniMath.Algebra.Domains_and_Fields]
ismultmonoidfuntoringdiff [definition, in UniMath.Algebra.RigsAndRings]
ismultmonoidfun_restriction_section [lemma, in UniMath.AlgebraicGeometry.Spec]
ism:185 [binder, in UniMath.Algebra.Domains_and_Fields]
isM:191 [binder, in UniMath.CategoryTheory.PreAdditive]
isM:263 [binder, in UniMath.CategoryTheory.categories.abgrs]
isM:267 [binder, in UniMath.CategoryTheory.categories.abgrs]
isM:271 [binder, in UniMath.CategoryTheory.categories.abgrs]
isM:280 [binder, in UniMath.CategoryTheory.categories.abgrs]
isM:285 [binder, in UniMath.CategoryTheory.categories.abgrs]
ism:307 [binder, in UniMath.NumberSystems.RationalNumbers]
ism:311 [binder, in UniMath.NumberSystems.RationalNumbers]
ism:315 [binder, in UniMath.NumberSystems.RationalNumbers]
isM:318 [binder, in UniMath.CategoryTheory.categories.abgrs]
ism:318 [binder, in UniMath.NumberSystems.Integers]
ism:319 [binder, in UniMath.NumberSystems.RationalNumbers]
ism:322 [binder, in UniMath.NumberSystems.Integers]
ism:323 [binder, in UniMath.NumberSystems.RationalNumbers]
isM:325 [binder, in UniMath.CategoryTheory.categories.abgrs]
ism:326 [binder, in UniMath.NumberSystems.Integers]
ism:327 [binder, in UniMath.NumberSystems.RationalNumbers]
ism:330 [binder, in UniMath.NumberSystems.Integers]
ism:331 [binder, in UniMath.NumberSystems.RationalNumbers]
isM:332 [binder, in UniMath.CategoryTheory.categories.abgrs]
ism:334 [binder, in UniMath.NumberSystems.Integers]
ism:335 [binder, in UniMath.NumberSystems.RationalNumbers]
ism:338 [binder, in UniMath.NumberSystems.Integers]
isM:339 [binder, in UniMath.CategoryTheory.categories.abgrs]
ism:339 [binder, in UniMath.NumberSystems.RationalNumbers]
ism:342 [binder, in UniMath.NumberSystems.Integers]
ism:343 [binder, in UniMath.NumberSystems.RationalNumbers]
isM:344 [binder, in UniMath.CategoryTheory.categories.abgrs]
ism:346 [binder, in UniMath.NumberSystems.Integers]
ism:347 [binder, in UniMath.NumberSystems.RationalNumbers]
isM:35 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
ism:350 [binder, in UniMath.NumberSystems.Integers]
isM:351 [binder, in UniMath.CategoryTheory.categories.abgrs]
ism:351 [binder, in UniMath.NumberSystems.RationalNumbers]
ism:354 [binder, in UniMath.NumberSystems.Integers]
ism:355 [binder, in UniMath.NumberSystems.RationalNumbers]
ism:358 [binder, in UniMath.NumberSystems.Integers]
isM:359 [binder, in UniMath.CategoryTheory.categories.abgrs]
ism:359 [binder, in UniMath.NumberSystems.RationalNumbers]
ism:362 [binder, in UniMath.NumberSystems.Integers]
ism:363 [binder, in UniMath.NumberSystems.RationalNumbers]
ism:366 [binder, in UniMath.NumberSystems.Integers]
isM:367 [binder, in UniMath.CategoryTheory.categories.abgrs]
ism:367 [binder, in UniMath.NumberSystems.RationalNumbers]
ism:370 [binder, in UniMath.NumberSystems.Integers]
isM:371 [binder, in UniMath.CategoryTheory.categories.abgrs]
ism:374 [binder, in UniMath.NumberSystems.Integers]
isM:375 [binder, in UniMath.CategoryTheory.categories.abgrs]
ism:378 [binder, in UniMath.NumberSystems.Integers]
ism:383 [binder, in UniMath.NumberSystems.Integers]
ism:568 [binder, in UniMath.Foundations.NaturalNumbers]
ism:573 [binder, in UniMath.Foundations.NaturalNumbers]
isM:575 [binder, in UniMath.CategoryTheory.categories.abgrs]
ism:578 [binder, in UniMath.Foundations.NaturalNumbers]
ism:583 [binder, in UniMath.Foundations.NaturalNumbers]
ism:588 [binder, in UniMath.Foundations.NaturalNumbers]
isM:591 [binder, in UniMath.CategoryTheory.categories.abgrs]
ism:593 [binder, in UniMath.Foundations.NaturalNumbers]
ism:6 [binder, in UniMath.Combinatorics.FiniteSequences]
isM:606 [binder, in UniMath.CategoryTheory.categories.abgrs]
isM:620 [binder, in UniMath.CategoryTheory.categories.abgrs]
isM:63 [binder, in UniMath.CategoryTheory.Monics]
isM:635 [binder, in UniMath.CategoryTheory.categories.abgrs]
isM:650 [binder, in UniMath.CategoryTheory.categories.abgrs]
isM:69 [binder, in UniMath.CategoryTheory.ShortExactSequences]
isM:7 [binder, in UniMath.CategoryTheory.Subobjects]
ism:71 [binder, in UniMath.Combinatorics.FiniteSequences]
isM:84 [binder, in UniMath.CategoryTheory.ShortExactSequences]
isM:88 [binder, in UniMath.CategoryTheory.Monics]
isM:94 [binder, in UniMath.CategoryTheory.ShortExactSequences]
isnatleh:65 [binder, in UniMath.Combinatorics.StandardFiniteSets]
isnattruncauto [definition, in UniMath.PAdics.fps]
isnattruncauto0S [lemma, in UniMath.PAdics.fps]
isnegnegrel [lemma, in UniMath.Foundations.Sets]
isnegrel [definition, in UniMath.Foundations.Sets]
isnegrelhqgeh [definition, in UniMath.NumberSystems.RationalNumbers]
isnegrelhqgth [lemma, in UniMath.NumberSystems.RationalNumbers]
isnegrelhqleh [definition, in UniMath.NumberSystems.RationalNumbers]
isnegrelhqlth [definition, in UniMath.NumberSystems.RationalNumbers]
isnegrelhzgeh [definition, in UniMath.NumberSystems.Integers]
isnegrelhzgth [lemma, in UniMath.NumberSystems.Integers]
isnegrelhzleh [definition, in UniMath.NumberSystems.Integers]
isnegrelhzlth [definition, in UniMath.NumberSystems.Integers]
isnegrellogeqf [definition, in UniMath.Foundations.Sets]
isnegrelnatgeh [definition, in UniMath.Foundations.NaturalNumbers]
isnegrelnatgth [lemma, in UniMath.Foundations.NaturalNumbers]
isnegrelnatleh [definition, in UniMath.Foundations.NaturalNumbers]
isnegrelnatlth [definition, in UniMath.Foundations.NaturalNumbers]
isnegrelresrel [definition, in UniMath.Foundations.Sets]
isNeighborhood [definition, in UniMath.Topology.Topology]
isNeighborhood_isFilter [lemma, in UniMath.Topology.Topology]
isNeighborhood_isPreFilter [lemma, in UniMath.Topology.Topology]
isNeighborhood_neighborhood [lemma, in UniMath.Topology.Topology]
isnm:103 [binder, in UniMath.Algebra.Domains_and_Fields]
isnm:107 [binder, in UniMath.Algebra.Domains_and_Fields]
isnm:111 [binder, in UniMath.Algebra.Domains_and_Fields]
isnm:115 [binder, in UniMath.Algebra.Domains_and_Fields]
isnm:54 [binder, in UniMath.NumberSystems.Integers]
isnm:57 [binder, in UniMath.NumberSystems.Integers]
isNNO [definition, in UniMath.CategoryTheory.NNO]
isNNO_NNO [lemma, in UniMath.CategoryTheory.NNO]
isNNO_nat [lemma, in UniMath.CategoryTheory.categories.HSET.Structures]
isnonnegative_NonnegativeReals' [lemma, in UniMath.RealNumbers.NonnegativeReals]
isnonnegative_NonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
isnonnegative_NonnegativeRationals' [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isnonnegative_NonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isnonzeroCCDR [lemma, in UniMath.Algebra.ConstructiveStructures]
isnonzeroCDR [lemma, in UniMath.Algebra.ConstructiveStructures]
isnonzeroCF [lemma, in UniMath.Algebra.ConstructiveStructures]
isnonzeroCR [definition, in UniMath.Algebra.ConstructiveStructures]
isnonzerofromlinvel [lemma, in UniMath.Algebra.Domains_and_Fields]
isnonzerofromrinvel [lemma, in UniMath.Algebra.Domains_and_Fields]
isnonzerolinvel [lemma, in UniMath.Algebra.Domains_and_Fields]
isnonzeroNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
isnonzeroReals [lemma, in UniMath.RealNumbers.Reals]
isnonzerorig [definition, in UniMath.Algebra.DivisionRig]
isnonzerorig [definition, in UniMath.Algebra.RigsAndRings]
isnonzerorighz [lemma, in UniMath.NumberSystems.Integers]
isnonzerorinvel [lemma, in UniMath.Algebra.Domains_and_Fields]
isn:184 [binder, in UniMath.Algebra.Domains_and_Fields]
isn:308 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:312 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:316 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:319 [binder, in UniMath.NumberSystems.Integers]
isn:320 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:323 [binder, in UniMath.NumberSystems.Integers]
isn:324 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:327 [binder, in UniMath.NumberSystems.Integers]
isn:328 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:331 [binder, in UniMath.NumberSystems.Integers]
isn:332 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:335 [binder, in UniMath.NumberSystems.Integers]
isn:336 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:339 [binder, in UniMath.NumberSystems.Integers]
isn:340 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:343 [binder, in UniMath.NumberSystems.Integers]
isn:344 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:347 [binder, in UniMath.NumberSystems.Integers]
isn:348 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:351 [binder, in UniMath.NumberSystems.Integers]
isn:352 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:355 [binder, in UniMath.NumberSystems.Integers]
isn:356 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:359 [binder, in UniMath.NumberSystems.Integers]
isn:360 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:363 [binder, in UniMath.NumberSystems.Integers]
isn:364 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:367 [binder, in UniMath.NumberSystems.Integers]
isn:368 [binder, in UniMath.NumberSystems.RationalNumbers]
isn:371 [binder, in UniMath.NumberSystems.Integers]
isn:375 [binder, in UniMath.NumberSystems.Integers]
isn:379 [binder, in UniMath.NumberSystems.Integers]
isn:382 [binder, in UniMath.NumberSystems.Integers]
iso [definition, in UniMath.CategoryTheory.Core.Isos]
isoAB:16 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
IsoArrow [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoArrowFrom [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoArrowFrom_isaprop [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoArrowFrom_pr1 [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoArrowTo [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoArrowTo_isaprop [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoArrowTo_pr1 [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoCommaCategory [section, in UniMath.CategoryTheory.IsoCommaCategory]
IsoCommaCategory [library]
IsoCommaCategory.UniversalMappingProperty [section, in UniMath.CategoryTheory.IsoCommaCategory]
IsoCommaUMP [section, in UniMath.Bicategories.Colimits.Pullback]
isofhlevel [definition, in UniMath.Foundations.PartB]
isofhlevelcontr [lemma, in UniMath.Foundations.PartB]
isofhleveldirprod [lemma, in UniMath.Foundations.PartB]
isofhlevelf [definition, in UniMath.Foundations.PartB]
isofhlevelfcoprodf [lemma, in UniMath.Foundations.PartC]
isofhlevelff [lemma, in UniMath.Foundations.PartB]
isofhlevelfffromZ [lemma, in UniMath.Foundations.PartB]
isofhlevelffib [lemma, in UniMath.Foundations.PartB]
isofhlevelffromXY [lemma, in UniMath.Foundations.PartB]
isofhlevelfgf [lemma, in UniMath.Foundations.PartB]
isofhlevelfgtogw [lemma, in UniMath.Foundations.PartB]
isofhlevelfgwtog [lemma, in UniMath.Foundations.PartB]
isofhlevelfhfiberpr1 [lemma, in UniMath.Foundations.PartB]
isofhlevelfhfiberpr1y [lemma, in UniMath.Foundations.PartB]
isofhlevelfhomot [lemma, in UniMath.Foundations.PartB]
isofhlevelfhomot2 [lemma, in UniMath.Foundations.PartB]
isofhlevelfonpaths [lemma, in UniMath.Foundations.PartB]
isofhlevelfpmap [lemma, in UniMath.Foundations.PartB]
isofhlevelfpr1 [lemma, in UniMath.Foundations.PartB]
isofhlevelfromfun [lemma, in UniMath.Foundations.PartB]
isofhlevelfsn [lemma, in UniMath.Foundations.PartB]
isofhlevelfsnfib [lemma, in UniMath.Foundations.PartB]
isofhlevelfsnhfiberpr1 [lemma, in UniMath.Foundations.PartB]
isofhlevelfsnincl [lemma, in UniMath.Foundations.PartB]
isofhlevelfssn [lemma, in UniMath.Foundations.PartB]
isofhlevelfssnsumofmaps [lemma, in UniMath.Foundations.PartC]
isofhlevelfsumofmapsnoi [lemma, in UniMath.Foundations.PartC]
isofhlevelfweq [lemma, in UniMath.Foundations.PartB]
isofhlevelhvec [lemma, in UniMath.Algebra.Universal.HVectors]
isofhlevellist [lemma, in UniMath.Combinatorics.Lists]
isofhlevelpathspace [lemma, in UniMath.Foundations.HLevels]
isofhlevelsn [lemma, in UniMath.Foundations.PartB]
isofhlevelsninclb [definition, in UniMath.Foundations.PartB]
isofhlevelSnpathspace [lemma, in UniMath.Foundations.HLevels]
isofhlevelsnprop [lemma, in UniMath.Foundations.PartB]
isofhlevelsnsummand1 [lemma, in UniMath.Foundations.PartC]
isofhlevelsnsummand2 [lemma, in UniMath.Foundations.PartC]
isofhlevelsnweqfromhlevelsn [lemma, in UniMath.Foundations.PartD]
isofhlevelsnweqtohlevelsn [lemma, in UniMath.Foundations.PartD]
isofhlevelssn [lemma, in UniMath.Foundations.PartB]
isofhlevelssncoprod [lemma, in UniMath.Foundations.PartC]
isofhlevelssnset [lemma, in UniMath.Foundations.PartB]
isofhleveltofun [lemma, in UniMath.Foundations.PartB]
isofhleveltotal2 [lemma, in UniMath.Foundations.PartB]
isofhlevelvec [lemma, in UniMath.Combinatorics.Vectors]
isofhlevelweqb [lemma, in UniMath.Foundations.PartB]
isofhlevelweqf [lemma, in UniMath.Foundations.PartB]
isofhlevelXfromfY [lemma, in UniMath.Foundations.PartB]
isofhlevelXfromg [lemma, in UniMath.Foundations.PartB]
isofhlevel_HLevel [lemma, in UniMath.Foundations.HLevels]
isofhlevel_unit [definition, in UniMath.Bicategories.Colimits.Final]
isofhlevel_hsubtype [lemma, in UniMath.MoreFoundations.PartA]
isofhlevel0pathspace [lemma, in UniMath.Foundations.HLevels]
Isofibrations [section, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
isofibration_from_disp_over_univalent [section, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
isofnel [definition, in UniMath.Combinatorics.FiniteSets]
isofnelbool [definition, in UniMath.Combinatorics.FiniteSets]
isofnelcompl [definition, in UniMath.Combinatorics.FiniteSets]
isofnelcontr [definition, in UniMath.Combinatorics.FiniteSets]
isofnelcoprod [definition, in UniMath.Combinatorics.FiniteSets]
isofnelcoprodwithunit [definition, in UniMath.Combinatorics.FiniteSets]
isofnelempty [definition, in UniMath.Combinatorics.FiniteSets]
isofnelempty2 [definition, in UniMath.Combinatorics.FiniteSets]
isofnelondirprod [definition, in UniMath.Combinatorics.FiniteSets]
isofnelonfun [definition, in UniMath.Combinatorics.FiniteSets]
isofnelonweq [definition, in UniMath.Combinatorics.FiniteSets]
isofnelstn [definition, in UniMath.Combinatorics.FiniteSets]
isofnelunit [definition, in UniMath.Combinatorics.FiniteSets]
isofneluniv [lemma, in UniMath.Combinatorics.FiniteSets]
isofnelweqb [definition, in UniMath.Combinatorics.FiniteSets]
isofnelweqf [definition, in UniMath.Combinatorics.FiniteSets]
isof:272 [binder, in UniMath.MoreFoundations.PartA]
isoh:47 [binder, in UniMath.CategoryTheory.slicecat]
IsoInvertible2Cells [section, in UniMath.Bicategories.Core.Univalence]
IsoInvertible2Cells.C_is_univalent_2_1 [variable, in UniMath.Bicategories.Core.Univalence]
IsoIsEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoIsMono [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isolated [definition, in UniMath.Foundations.PartB]
isolatedtoisolatedii1 [lemma, in UniMath.Foundations.PartC]
isolatedtoisolatedii2 [lemma, in UniMath.Foundations.PartC]
isolated_ne [definition, in UniMath.MoreFoundations.NegativePropositions]
isolation [definition, in UniMath.MoreFoundations.DecidablePropositions]
isolation_to_inequality [definition, in UniMath.MoreFoundations.DecidablePropositions]
isolfun1 [definition, in UniMath.Foundations.PartB]
isolfun2 [definition, in UniMath.Foundations.PartB]
isolfun3 [definition, in UniMath.Foundations.PartB]
IsoLModPb [section, in UniMath.CategoryTheory.Monads.LModules]
IsoLModPb.F_data2 [variable, in UniMath.CategoryTheory.Monads.LModules]
IsoLModPb.F_data1 [variable, in UniMath.CategoryTheory.Monads.LModules]
IsoLModPb.M1 [variable, in UniMath.CategoryTheory.Monads.LModules]
IsoLModPb.M2 [variable, in UniMath.CategoryTheory.Monads.LModules]
IsomEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsomEpi1 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsomMono [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsomMono1 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsomorphicToSplit [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isomorphismOnMor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
isomorphismRepresentability [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
isomorphismToEmbedding [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
isOneSided [definition, in UniMath.RealNumbers.DedekindCuts]
isOneSided_Dcuts_corr [lemma, in UniMath.RealNumbers.DedekindCuts]
isOneSided_translation [lemma, in UniMath.RealNumbers.DedekindCuts]
isOneSided_Dcuts_open [lemma, in UniMath.RealNumbers.DedekindCuts]
isOneSided_Dcuts_bot [lemma, in UniMath.RealNumbers.DedekindCuts]
isOneSided_TwoSided [lemma, in UniMath.RealNumbers.DedekindCuts]
isOpen [definition, in UniMath.Topology.Topology]
isOpen_or [lemma, in UniMath.Topology.Topology]
isOpen_and [lemma, in UniMath.Topology.Topology]
isOpen_htrue [lemma, in UniMath.Topology.Topology]
isOpen_hfalse [lemma, in UniMath.Topology.Topology]
isOpen_finite_intersection [lemma, in UniMath.Topology.Topology]
isOpen_union [lemma, in UniMath.Topology.Topology]
Isos [section, in UniMath.CategoryTheory.DisplayedCats.Core]
Isos [library]
IsoToAdmEpi [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoToAdmMono [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isotoid [definition, in UniMath.CategoryTheory.Core.Univalence]
isotoid_functorcat_pointwise [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
isotoid_functorcat_pointwise_aux [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
isotoid_idtoiso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
isotoid_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
isotoid_2_0_idtoiso_2_0 [definition, in UniMath.Bicategories.Core.Univalence]
isotoid_2_1_idtoiso_2_1 [definition, in UniMath.Bicategories.Core.Univalence]
isotoid_2_0 [definition, in UniMath.Bicategories.Core.Univalence]
isotoid_2_1 [definition, in UniMath.Bicategories.Core.Univalence]
isotoid_identity_iso [lemma, in UniMath.CategoryTheory.Core.Univalence]
isotoid_comp [lemma, in UniMath.CategoryTheory.Core.Univalence]
isotoid_inj [lemma, in UniMath.CategoryTheory.Core.Univalence]
isotoid_idtoiso [lemma, in UniMath.CategoryTheory.Core.Univalence]
isotoid_CONE_idtoiso [lemma, in UniMath.CategoryTheory.limits.cones]
isotoid_CONE [definition, in UniMath.CategoryTheory.limits.cones]
isotoid_CONE_pr1 [definition, in UniMath.CategoryTheory.limits.cones]
isotoid_2_1_vcomp [lemma, in UniMath.Bicategories.Core.TransportLaws]
isotoid_2_1_rwhisker [lemma, in UniMath.Bicategories.Core.TransportLaws]
isotoid_2_1_lwhisker [lemma, in UniMath.Bicategories.Core.TransportLaws]
isotoid_2_1_id [lemma, in UniMath.Bicategories.Core.TransportLaws]
isotoid2 [definition, in UniMath.Folds.folds_pre_2_cat]
IsoToisZero [definition, in UniMath.CategoryTheory.limits.zero]
IsoWithCokernel [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoWithKernel [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
iso_presheaf [section, in UniMath.CategoryTheory.Presheaf]
iso_from_is_relmonadmor_iso_inv_p [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
iso_from_is_relmonadmor_iso_idtoiso [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
iso_from_is_relmonadmor_iso_p [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
iso_from_is_relmonadmor_iso [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
iso_in_E_weq [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
iso_Representation_weq [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
iso_Universal_weq [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
iso_comma_pb_cone [definition, in UniMath.Bicategories.Colimits.Pullback]
iso_disp_weq_iso_disp_reindex [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
iso_disp_reindex_to_iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
iso_disp_to_iso_disp_reindex [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
iso_Terminals [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
iso_in_sub_from_iso [definition, in UniMath.CategoryTheory.Subcategory.Full]
iso_from_iso_in_sub [definition, in UniMath.CategoryTheory.Subcategory.Full]
iso_in_precat_is_iso_in_subcat [lemma, in UniMath.CategoryTheory.Subcategory.Full]
iso_in_subcat_is_iso_in_precat [lemma, in UniMath.CategoryTheory.Subcategory.Full]
iso_exp_precomp_prod_functor [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
iso_comp_left_isweq [lemma, in UniMath.CategoryTheory.yoneda]
iso_moduleiso [lemma, in UniMath.CategoryTheory.categories.modules]
iso_from_Coequalizer_to_Coequalizer [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
iso_equiv [definition, in UniMath.Bicategories.Core.Adjunctions]
iso_from_fully_faithful_reflection_functor_on_iso [lemma, in UniMath.CategoryTheory.Core.Functors]
iso_from_fully_faithful_reflection [definition, in UniMath.CategoryTheory.Core.Functors]
iso_in_E₂_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
iso_in_E₂_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
iso_in_E₂ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
iso_Initials [definition, in UniMath.CategoryTheory.limits.initial]
iso_from_Pushout_to_Pushout [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
iso_from_Pushout_to_Pushout [definition, in UniMath.CategoryTheory.limits.pushouts]
iso_to_BinCoproduct [definition, in UniMath.CategoryTheory.limits.bincoproducts]
iso_to_isBinCoproduct [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
iso_to_isBinCoproduct_unique [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
iso_to_isBinCoproduct_comm [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
iso_from_BinCoproduct_to_BinCoproduct [definition, in UniMath.CategoryTheory.limits.bincoproducts]
iso_disp_from_total [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
iso_base_from_total [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
iso_disp_postcomp [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
iso_disp_precomp [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
iso_disp_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
iso_inv_from_iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
iso_disp_after_inv_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
iso_from_Equalizer_to_Equalizer [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
iso_cleaving_functor_alg [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
iso_after_iso_inv' [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
iso_inv_after_iso' [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
iso_to_z_iso [definition, in UniMath.CategoryTheory.Core.Isos]
iso_eqrel [definition, in UniMath.CategoryTheory.Core.Isos]
iso_conjug_weq [definition, in UniMath.CategoryTheory.Core.Isos]
iso_comp_left_weq [definition, in UniMath.CategoryTheory.Core.Isos]
iso_comp_left_isweq [lemma, in UniMath.CategoryTheory.Core.Isos]
iso_comp_right_weq [definition, in UniMath.CategoryTheory.Core.Isos]
iso_comp_right_isweq [lemma, in UniMath.CategoryTheory.Core.Isos]
iso_inv_iso_inv [lemma, in UniMath.CategoryTheory.Core.Isos]
iso_inv_of_iso_id [lemma, in UniMath.CategoryTheory.Core.Isos]
iso_inv_of_iso_comp [lemma, in UniMath.CategoryTheory.Core.Isos]
iso_comp [definition, in UniMath.CategoryTheory.Core.Isos]
iso_inv_to_right [lemma, in UniMath.CategoryTheory.Core.Isos]
iso_inv_to_left [lemma, in UniMath.CategoryTheory.Core.Isos]
iso_inv_on_left [lemma, in UniMath.CategoryTheory.Core.Isos]
iso_inv_on_right [lemma, in UniMath.CategoryTheory.Core.Isos]
iso_inv_from_is_iso [definition, in UniMath.CategoryTheory.Core.Isos]
iso_inv_from_iso [definition, in UniMath.CategoryTheory.Core.Isos]
iso_after_iso_inv [definition, in UniMath.CategoryTheory.Core.Isos]
iso_inv_after_iso [definition, in UniMath.CategoryTheory.Core.Isos]
iso_is_iso [definition, in UniMath.CategoryTheory.Core.Isos]
iso_from_Kernel_to_Kernel [definition, in UniMath.CategoryTheory.limits.kernels]
iso_is_nat_iso [definition, in UniMath.CategoryTheory.FunctorCategory]
iso_to_nat_iso [definition, in UniMath.CategoryTheory.FunctorCategory]
iso_from_opp [definition, in UniMath.CategoryTheory.opp_precat]
iso_disp_iso_fiber [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_fiber_from_iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_from_iso_fiber [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_aux_weq [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_prod_weq [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_prod12 [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_prod21 [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_prod2 [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_prod1 [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_Zeros [definition, in UniMath.CategoryTheory.limits.zero]
iso_from_Cokernel_to_Cokernel [definition, in UniMath.CategoryTheory.limits.cokernels]
iso_from_Equalizer_to_Equalizer [definition, in UniMath.CategoryTheory.limits.equalizers]
iso_to_slice_precat_iso [lemma, in UniMath.CategoryTheory.slicecat]
iso_to_inv2cell [definition, in UniMath.Bicategories.Core.Univalence]
iso_cleaving_category [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
iso_fibration [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
iso_cleaving [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
iso_yoneda_binproducts [lemma, in UniMath.CategoryTheory.YonedaBinproducts]
iso_yoneda_binproducts.yon [variable, in UniMath.CategoryTheory.YonedaBinproducts]
iso_yoneda_binproducts [section, in UniMath.CategoryTheory.YonedaBinproducts]
iso_commring_opposite [definition, in UniMath.Algebra.RigsAndRings]
iso_commrig_opposite [definition, in UniMath.Algebra.RigsAndRings]
iso_from_folds_iso_folds_iso_from_iso [lemma, in UniMath.Folds.folds_isomorphism]
iso_from_folds_iso [definition, in UniMath.Folds.folds_isomorphism]
iso_Initials [definition, in UniMath.CategoryTheory.limits.graphs.initial]
iso_from_lim_to_lim [definition, in UniMath.CategoryTheory.limits.cats.limits]
iso_projects_from_CONE [definition, in UniMath.CategoryTheory.limits.cones]
iso_from_colim_to_colim [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
iso_from_Pullback_to_Pullback [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
iso_from_Pullback_to_Pullback [definition, in UniMath.CategoryTheory.limits.pullbacks]
iso_Zeros [definition, in UniMath.CategoryTheory.limits.graphs.zero]
iso_from_Coequalizer_to_Coequalizer [definition, in UniMath.CategoryTheory.limits.coequalizers]
iso_from_BinCoproduct_to_BinCoproduct [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
iso_comma_ump_eq [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump2_pr2 [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump2_pr1 [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump2 [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump2_is_nat_trans [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump2_nat_trans_data [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_commute [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr2 [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr2_nat_trans [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr2_is_nat_trans [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr2_nat_trans_data [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr1 [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr1_nat_trans [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr1_is_nat_trans [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr1_nat_trans_data [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1 [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_is_functor [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_data [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_commute [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_commute_nat_trans [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_commute_is_nat_trans [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_commute_nat_trans_data [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_pr2 [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_pr1 [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_disp_cat [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_disp_cat_axioms [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_disp_cat_data [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_disp_cat_id_comp [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_disp_cat_ob_mor [definition, in UniMath.CategoryTheory.IsoCommaCategory]
iso_Terminals [definition, in UniMath.CategoryTheory.limits.terminal]
iso_from_lim_to_lim [definition, in UniMath.CategoryTheory.limits.graphs.limits]
iso_to_BinProduct [definition, in UniMath.CategoryTheory.limits.binproducts]
iso_to_isBinProduct [lemma, in UniMath.CategoryTheory.limits.binproducts]
iso_to_isBinProduct_unique [lemma, in UniMath.CategoryTheory.limits.binproducts]
iso_to_isBinProduct_comm [lemma, in UniMath.CategoryTheory.limits.binproducts]
iso1' [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
iso1' [definition, in UniMath.SubstitutionSystems.LiftingInitial]
iso2' [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
iso2' [definition, in UniMath.SubstitutionSystems.LiftingInitial]
iso:12 [binder, in UniMath.Combinatorics.ZFstructures]
ispartbinopabmonoidfracrelint [lemma, in UniMath.Algebra.Monoids]
ispartbinopcommringfracgt [lemma, in UniMath.Algebra.RigsAndRings]
ispartbinophrel [definition, in UniMath.Algebra.BinaryOperations]
ispartbinophrelandfun [lemma, in UniMath.Algebra.BinaryOperations]
ispartbinophrelif [lemma, in UniMath.Algebra.BinaryOperations]
ispartbinophrellogeqf [definition, in UniMath.Algebra.BinaryOperations]
isPartialOrder [definition, in UniMath.Foundations.Sets]
ispartialorder_pointwiseorder [lemma, in UniMath.Algebra.FixedPointTheorems]
isPartialOrder_Lge [lemma, in UniMath.Algebra.Lattice]
isPartialOrder_Lle [lemma, in UniMath.Algebra.Lattice]
ispartialorder_pointwiseorder [lemma, in UniMath.Algebra.Dcpo]
ispartinvbinophrel [definition, in UniMath.Algebra.BinaryOperations]
ispartinvbinophrelandfun [lemma, in UniMath.Algebra.BinaryOperations]
ispartinvbinophrelif [lemma, in UniMath.Algebra.BinaryOperations]
ispartinvbinophrellogeqf [definition, in UniMath.Algebra.BinaryOperations]
ispartinvmulthrelnatgeh [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
ispartinvmulthrelnatleh [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
ispartlbinopabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
ispartrbinopabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
ispb:131 [binder, in UniMath.CategoryTheory.limits.pushouts]
ispb:145 [binder, in UniMath.CategoryTheory.limits.pullbacks]
isPb:334 [binder, in UniMath.CategoryTheory.limits.pullbacks]
isPb:338 [binder, in UniMath.CategoryTheory.limits.pullbacks]
isPb:341 [binder, in UniMath.CategoryTheory.limits.pullbacks]
isPb:344 [binder, in UniMath.CategoryTheory.limits.pullbacks]
ispb:57 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
isplushrelhqgth [definition, in UniMath.NumberSystems.RationalNumbers]
isplushrelhzgth [lemma, in UniMath.NumberSystems.Integers]
isplushrelnatgeh [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isplushrelnatgth [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isplushrelnatleh [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isplushrelnatlth [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
ispoabgrdiffrel [lemma, in UniMath.Algebra.Groups]
ispoabgrdiffrelint [lemma, in UniMath.Algebra.Groups]
ispoabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
ispoabmonoidfracrelint [lemma, in UniMath.Algebra.Monoids]
ispologeqf [definition, in UniMath.Foundations.Sets]
ispoquotrel [lemma, in UniMath.Foundations.Sets]
isporesrel [definition, in UniMath.Foundations.Sets]
isPosetEquivalence [definition, in UniMath.Foundations.Sets]
isPosetEquivalence_idweq [definition, in UniMath.Foundations.Sets]
ispositive_halfNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
ispositive_minusNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
ispositive_oneNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
ispositive_apNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
ispositive_Dcuts_half [lemma, in UniMath.RealNumbers.NonnegativeReals]
ispositive_Dcuts_minus [lemma, in UniMath.RealNumbers.NonnegativeReals]
ispositive_Rone [lemma, in UniMath.RealNumbers.Reals]
ispositive_multNonnegativeReals [lemma, in UniMath.RealNumbers.Reals]
ispositive_NQhalf [lemma, in UniMath.RealNumbers.NonnegativeRationals]
ispositive_divNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
ispositive_invNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
ispositive_multNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
ispositive_minusNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
ispositive_plusNonnegativeRationals_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
ispositive_plusNonnegativeRationals_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
ispositive_twoNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
ispositive_oneNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
ispostfixedpoint [definition, in UniMath.Algebra.FixedPointTheorems]
ispo:55 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
isPreAdditive [definition, in UniMath.CategoryTheory.PreAdditive]
isPredicate [definition, in UniMath.Foundations.PartB]
isPredicate_is_invertible_2cell [lemma, in UniMath.Bicategories.Core.Bicat]
isPredicate_is_coh_strictness_structure_from_locally_strict [lemma, in UniMath.Bicategories.Core.Strictness]
isPredicate_is_coh_strictness_structure [lemma, in UniMath.Bicategories.Core.Strictness]
isPredicate_strictness_structure_laws [lemma, in UniMath.Bicategories.Core.Strictness]
isPreFilter [definition, in UniMath.Topology.Filters]
isprefix [definition, in UniMath.Combinatorics.MoreLists]
isprefix_self [lemma, in UniMath.Combinatorics.MoreLists]
ispreorder [definition, in UniMath.Foundations.Sets]
ispreorder_Dcuts_eq [lemma, in UniMath.RealNumbers.NonnegativeReals]
ispreorder_Dcuts_le_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
ispreorder_hnnq_ge [lemma, in UniMath.RealNumbers.NonnegativeRationals]
ispreorder_hnnq_le [lemma, in UniMath.RealNumbers.NonnegativeRationals]
ispreorder_reverse [lemma, in UniMath.RealNumbers.Sets]
ispreorder_SubObj_rel [lemma, in UniMath.CategoryTheory.Subobjects]
ispreorder_monorel [lemma, in UniMath.CategoryTheory.Subobjects]
isPreTriang [definition, in UniMath.HomologicalAlgebra.Triangulated]
ispreZFS [definition, in UniMath.Combinatorics.ZFstructures]
isProduct [definition, in UniMath.CategoryTheory.limits.products]
isProduct_Product [definition, in UniMath.CategoryTheory.limits.products]
isprogressive [definition, in UniMath.Algebra.FixedPointTheorems]
isprogressive_compose [lemma, in UniMath.Algebra.FixedPointTheorems]
isprogressive_idfun [lemma, in UniMath.Algebra.FixedPointTheorems]
isProofIrrelevant [definition, in UniMath.Foundations.PartB]
isProofIrrelevantUnit [lemma, in UniMath.Foundations.PartA]
isProofIrrelevant_paths [lemma, in UniMath.Foundations.PartB]
isPullback [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
isPullback [definition, in UniMath.CategoryTheory.limits.pullbacks]
IsPullbackEpiIsEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isPullbackGluedSquare [lemma, in UniMath.CategoryTheory.limits.pullbacks]
isPullback_cartesian_in_cod_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Codomain]
isPullback_opp [definition, in UniMath.CategoryTheory.limits.Opp]
isPullback_to_isBinProduct [lemma, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
isPullback_Pullback [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
isPullback_mor_paths [lemma, in UniMath.CategoryTheory.limits.pullbacks]
isPullback_up_to_iso [lemma, in UniMath.CategoryTheory.limits.pullbacks]
isPullback_up_to_iso_eq [lemma, in UniMath.CategoryTheory.limits.pullbacks]
isPullback_image_square [lemma, in UniMath.CategoryTheory.limits.pullbacks]
isPullback_preimage_square [lemma, in UniMath.CategoryTheory.limits.pullbacks]
isPullback_iso_of_morphisms [lemma, in UniMath.CategoryTheory.limits.pullbacks]
isPullback_two_pullback [lemma, in UniMath.CategoryTheory.limits.pullbacks]
isPullback_Pullback [definition, in UniMath.CategoryTheory.limits.pullbacks]
isPullback' [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isPullback'_up_to_z_iso [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isPushout [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
isPushout [definition, in UniMath.CategoryTheory.limits.pushouts]
isPushout_Pushout [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
isPushout_mor_paths [lemma, in UniMath.CategoryTheory.limits.pushouts]
isPushout_up_to_iso [lemma, in UniMath.CategoryTheory.limits.pushouts]
isPushout_up_to_iso_eq [lemma, in UniMath.CategoryTheory.limits.pushouts]
isPushout_Pushout [definition, in UniMath.CategoryTheory.limits.pushouts]
isPushout_opp [definition, in UniMath.CategoryTheory.limits.Opp]
isPushout' [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isPushout'_up_to_z_iso [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isp:1496 [binder, in UniMath.Foundations.Sets]
isp:1498 [binder, in UniMath.Foundations.Sets]
isQIS [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
israbsorb_zero_multNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
israbsorb_Dcuts_mult_zero [lemma, in UniMath.RealNumbers.NonnegativeReals]
israbsorb_Rzero_Rmult [lemma, in UniMath.RealNumbers.Reals]
israbsorb_zero_multNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
israbsorb_CFzero_CFmult [lemma, in UniMath.Algebra.ConstructiveStructures]
israbsorb_CCDRzero_CCDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
israbsorb_CDRzero_CDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
israpbinop [definition, in UniMath.Algebra.Apartness]
israpbinop_Dcuts_mult [lemma, in UniMath.RealNumbers.NonnegativeReals]
israpbinop_Dcuts_plus [lemma, in UniMath.RealNumbers.NonnegativeReals]
israpbinop_mult [lemma, in UniMath.RealNumbers.Reals]
israpbinop_plus [lemma, in UniMath.RealNumbers.Reals]
israpbinop_op2 [lemma, in UniMath.Algebra.Apartness]
israpbinop_op1 [lemma, in UniMath.Algebra.Apartness]
israpbinop_op [lemma, in UniMath.Algebra.Apartness]
isrcancelable [definition, in UniMath.Algebra.BinaryOperations]
isrcancelableif [lemma, in UniMath.Algebra.Domains_and_Fields]
isrcancelableisob [abbreviation, in UniMath.Algebra.BinaryOperations]
isrcancelablemonob [lemma, in UniMath.Algebra.BinaryOperations]
isrdistr [definition, in UniMath.Algebra.BinaryOperations]
isrdistrax:25 [binder, in UniMath.Algebra.Matrix]
isrdistrfps [lemma, in UniMath.PAdics.fps]
isrdistrisob [abbreviation, in UniMath.Algebra.BinaryOperations]
isrdistrisof [lemma, in UniMath.Algebra.BinaryOperations]
isrdistrmonob [lemma, in UniMath.Algebra.BinaryOperations]
isrdistr_setofendabgr_op [lemma, in UniMath.Algebra.Modules.Core]
isrdistr_minus_multNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
isrdistr_max_multNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
isrdistr_max_plusNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
isrdistr_plus_multNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
isrdistr_Dcuts_max_mult [lemma, in UniMath.RealNumbers.NonnegativeReals]
isrdistr_Dcuts_plus_mult [lemma, in UniMath.RealNumbers.NonnegativeReals]
isrdistr_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isrdistr_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isrdistr_Rplus_Rmult [lemma, in UniMath.RealNumbers.Reals]
isrdistr_mult_minusNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isrdistr_mult_plusNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
isrdistr_hnnq_plus_mult [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isrdistr_CFplus_CFmult [lemma, in UniMath.Algebra.ConstructiveStructures]
isrdistr_CCDRplus_CCDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
isrdistr_section_ops [lemma, in UniMath.AlgebraicGeometry.Spec]
isrefl [definition, in UniMath.Foundations.Sets]
isreflabgrdiffrel [lemma, in UniMath.Algebra.Groups]
isreflabgrdiffrelint [lemma, in UniMath.Algebra.Groups]
isreflabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
isreflabmonoidfracrelint [lemma, in UniMath.Algebra.Monoids]
isrefldirprod [definition, in UniMath.Foundations.Sets]
isrefleqh [lemma, in UniMath.Foundations.Sets]
isreflhqgeh [definition, in UniMath.NumberSystems.RationalNumbers]
isreflhqleh [definition, in UniMath.NumberSystems.RationalNumbers]
isreflhzgeh [definition, in UniMath.NumberSystems.Integers]
isreflhzleh [definition, in UniMath.NumberSystems.Integers]
isrefllogeqf [definition, in UniMath.Foundations.Sets]
isreflnatgeh [definition, in UniMath.Foundations.NaturalNumbers]
isreflnatleh [definition, in UniMath.Foundations.NaturalNumbers]
isreflpathshrel [definition, in UniMath.Foundations.Sets]
isreflquotrel [lemma, in UniMath.Foundations.Sets]
isreflresrel [definition, in UniMath.Foundations.Sets]
isrefl_leNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
isrefl_Dcuts_eq [lemma, in UniMath.RealNumbers.NonnegativeReals]
isrefl_Dcuts_le_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
isrefl_leNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
isrefl_Lge [definition, in UniMath.Algebra.Lattice]
isrefl_Lle [definition, in UniMath.Algebra.Lattice]
isrefl_EOle [definition, in UniMath.RealNumbers.Sets]
isrefl_reverse [lemma, in UniMath.RealNumbers.Sets]
isrefl_po [definition, in UniMath.RealNumbers.Sets]
isrefl_SubObj_rel [lemma, in UniMath.CategoryTheory.Subobjects]
isrefl_monorel [lemma, in UniMath.CategoryTheory.Subobjects]
isrefl_filter_le [lemma, in UniMath.Topology.Filters]
isrefl_posetRelation [lemma, in UniMath.Foundations.Sets]
isrefl_logeq [lemma, in UniMath.Foundations.PartA]
isrefl'_posetRelation [definition, in UniMath.Algebra.FixedPointTheorems]
isRepresentable [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
isRepresentable_Map [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
isrigcarrier [lemma, in UniMath.Algebra.RigsAndRings]
isrigdirprod [lemma, in UniMath.Algebra.RigsAndRings]
isrigfun [definition, in UniMath.Algebra.RigsAndRings]
isrigfuninvmap [lemma, in UniMath.Algebra.RigsAndRings]
isrigfunisaddmonoidfun [definition, in UniMath.Algebra.RigsAndRings]
isrigfunismultmonoidfun [definition, in UniMath.Algebra.RigsAndRings]
isrigfuntoringdiff [definition, in UniMath.Algebra.RigsAndRings]
isrigid [definition, in UniMath.Combinatorics.ZFstructures]
isrigmultgt [definition, in UniMath.Algebra.RigsAndRings]
isrigmultgtnatgth [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
isrigmultgttoisringmultgt [lemma, in UniMath.Algebra.RigsAndRings]
isrigops [definition, in UniMath.Algebra.BinaryOperations]
isrigopsisob [definition, in UniMath.Algebra.BinaryOperations]
isrigopsisof [definition, in UniMath.Algebra.BinaryOperations]
isrigops_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isrigops_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isrigquot [lemma, in UniMath.Algebra.RigsAndRings]
isringaddcommringfracgt [lemma, in UniMath.Algebra.RigsAndRings]
isringaddfldfracgt [lemma, in UniMath.Algebra.Domains_and_Fields]
isringaddhzgth [definition, in UniMath.NumberSystems.RationalNumbers]
isringcarrier [lemma, in UniMath.Algebra.RigsAndRings]
isringdirprod [lemma, in UniMath.Algebra.RigsAndRings]
isringfun [definition, in UniMath.Algebra.RigsAndRings]
isringfuninvmap [definition, in UniMath.Algebra.RigsAndRings]
isringfuntocommringfrac [definition, in UniMath.Algebra.RigsAndRings]
isringfuntofldfrac [definition, in UniMath.Algebra.Domains_and_Fields]
isringfunweqfldfracgt_f [lemma, in UniMath.Algebra.Domains_and_Fields]
isringfunweqfldfracgt_b [lemma, in UniMath.Algebra.Domains_and_Fields]
isringfun_restriction_section [lemma, in UniMath.AlgebraicGeometry.Spec]
isringmultcommringfracgt [lemma, in UniMath.Algebra.RigsAndRings]
isringmultfldfracgt [lemma, in UniMath.Algebra.Domains_and_Fields]
isringmultgt [definition, in UniMath.Algebra.RigsAndRings]
isringmultgtaspartbinophrel [lemma, in UniMath.Algebra.RigsAndRings]
isringmultgttoislringmultgt [lemma, in UniMath.Algebra.RigsAndRings]
isringmultgttoisrigmultgt [lemma, in UniMath.Algebra.RigsAndRings]
isringmultgttoisrringmultgt [lemma, in UniMath.Algebra.RigsAndRings]
isringmulthqgth [lemma, in UniMath.NumberSystems.RationalNumbers]
isringmulthzgth [lemma, in UniMath.NumberSystems.Integers]
isringops [definition, in UniMath.Algebra.BinaryOperations]
isringopsif [lemma, in UniMath.Algebra.BinaryOperations]
isringopsisob [definition, in UniMath.Algebra.BinaryOperations]
isringopsisof [definition, in UniMath.Algebra.BinaryOperations]
isringopstoisrigops [definition, in UniMath.Algebra.BinaryOperations]
isringops_setofendabgr_op [lemma, in UniMath.Algebra.Modules.Core]
isringops_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isringops_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isringquot [lemma, in UniMath.Algebra.RigsAndRings]
isringrigtoringmultgt [lemma, in UniMath.Algebra.RigsAndRings]
isrinv [definition, in UniMath.Algebra.BinaryOperations]
isrinvertible [definition, in UniMath.Algebra.BinaryOperations]
isrinvertibleisob [lemma, in UniMath.Algebra.BinaryOperations]
isrinvertibleisof [definition, in UniMath.Algebra.BinaryOperations]
isrinvinfldfrac [lemma, in UniMath.Algebra.Domains_and_Fields]
isrinvmultwithminus1_is_l [lemma, in UniMath.Algebra.BinaryOperations]
isrinv_setofendabgr_inv [lemma, in UniMath.Algebra.Modules.Core]
isrinv_invNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
isrinv_Dcuts_inv [lemma, in UniMath.RealNumbers.NonnegativeReals]
isrinv_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isrinv_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isrinv_Rinv [lemma, in UniMath.RealNumbers.Reals]
isrinv_Ropp [lemma, in UniMath.RealNumbers.Reals]
isrinv_NonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
isrinv_CFinv [lemma, in UniMath.Algebra.ConstructiveStructures]
isrinv_CFopp [lemma, in UniMath.Algebra.ConstructiveStructures]
isrinv_CCDRinv [lemma, in UniMath.Algebra.ConstructiveStructures]
isrinv_CDRinv [lemma, in UniMath.Algebra.ConstructiveStructures]
isrinv_section_inv [lemma, in UniMath.AlgebraicGeometry.Spec]
isrinv' [definition, in UniMath.RealNumbers.Sets]
isrinv'_hnnq_inv [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isrringmultgttoisringmultgt [lemma, in UniMath.Algebra.RigsAndRings]
isrunit [definition, in UniMath.Algebra.BinaryOperations]
isrunit_setofendabgr_un1 [lemma, in UniMath.Algebra.Modules.Core]
isrunit_setofendabgr_un0 [lemma, in UniMath.Algebra.Modules.Core]
isrunit_one_multNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
isrunit_zero_plusNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
isrunit_Dcuts_mult_one [lemma, in UniMath.RealNumbers.NonnegativeReals]
isrunit_Dcuts_plus_zero [lemma, in UniMath.RealNumbers.NonnegativeReals]
isrunit_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isrunit_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isrunit_Rone_Rmult [lemma, in UniMath.RealNumbers.Reals]
isrunit_Rzero_Rplus [lemma, in UniMath.RealNumbers.Reals]
isrunit_oneNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
isrunit_zeroNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
isrunit_hnnq_one_mult [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isrunit_hnnq_zero_plus [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isrunit_CFone_CFmult [lemma, in UniMath.Algebra.ConstructiveStructures]
isrunit_CFzero_CFplus [lemma, in UniMath.Algebra.ConstructiveStructures]
isrunit_CCDRone_CCDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
isrunit_CCDRzero_CCDRplus [lemma, in UniMath.Algebra.ConstructiveStructures]
isrunit_CDRone_CDRmult [lemma, in UniMath.Algebra.ConstructiveStructures]
isrunit_CDRzero_CDRplus [lemma, in UniMath.Algebra.ConstructiveStructures]
isrunit_section_unel2 [lemma, in UniMath.AlgebraicGeometry.Spec]
isrunit_section_unel1 [lemma, in UniMath.AlgebraicGeometry.Spec]
isr:1127 [binder, in UniMath.Algebra.BinaryOperations]
isr:1247 [binder, in UniMath.Foundations.Sets]
isr:16 [binder, in UniMath.Algebra.RigsAndRings.Ideals]
isr:21 [binder, in UniMath.Algebra.Domains_and_Fields]
isr:262 [binder, in UniMath.Foundations.Sets]
isr:384 [binder, in UniMath.Algebra.RigsAndRings]
isr:394 [binder, in UniMath.Algebra.RigsAndRings]
isr:452 [binder, in UniMath.Algebra.Domains_and_Fields]
isr:460 [binder, in UniMath.Algebra.Domains_and_Fields]
isr:468 [binder, in UniMath.Algebra.Domains_and_Fields]
isr:476 [binder, in UniMath.Algebra.Domains_and_Fields]
isr:485 [binder, in UniMath.Algebra.Domains_and_Fields]
isr:502 [binder, in UniMath.Algebra.Domains_and_Fields]
isr:523 [binder, in UniMath.Algebra.RigsAndRings]
isr:527 [binder, in UniMath.Foundations.Sets]
isr:530 [binder, in UniMath.Foundations.Sets]
isr:533 [binder, in UniMath.Foundations.Sets]
isr:536 [binder, in UniMath.Algebra.RigsAndRings]
isr:536 [binder, in UniMath.Foundations.Sets]
isr:541 [binder, in UniMath.Foundations.Sets]
isr:543 [binder, in UniMath.Algebra.RigsAndRings]
isr:554 [binder, in UniMath.Algebra.RigsAndRings]
isSetOfOpen [definition, in UniMath.Topology.Topology]
isSetOfOpen_finite_intersection_carac [lemma, in UniMath.Topology.Topology]
isSetOfOpen_finite_intersection_and [lemma, in UniMath.Topology.Topology]
isSetOfOpen_finite_intersection_htrue [lemma, in UniMath.Topology.Topology]
isSetOfOpen_hfalse [lemma, in UniMath.Topology.Topology]
isSetOfOpen_and [definition, in UniMath.Topology.Topology]
isSetOfOpen_htrue [definition, in UniMath.Topology.Topology]
isSetOfOpen_finite_intersection [definition, in UniMath.Topology.Topology]
isSetOfOpen_union [definition, in UniMath.Topology.Topology]
isSheaf [definition, in UniMath.CategoryTheory.GrothendieckTopos]
isSmallerThanUpperBounds [definition, in UniMath.RealNumbers.Sets]
isSmallest [definition, in UniMath.Combinatorics.OrderedSets]
isSplit [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isSplitEpimorphism [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isSplitMonomorphism [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isSplitToKernelCokernelPair [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isSplit2 [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isstpo_Dcuts_lt_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
isStrongOrder [definition, in UniMath.Algebra.Lattice]
isStrongOrder [definition, in UniMath.RealNumbers.Sets]
isStrongOrder_hr_lt [lemma, in UniMath.RealNumbers.Reals]
isStrongOrder_hnnq_gt [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isStrongOrder_hnnq_lt [lemma, in UniMath.RealNumbers.NonnegativeRationals]
isStrongOrder_setquot [lemma, in UniMath.Algebra.Lattice]
isStrongOrder_reverse [lemma, in UniMath.RealNumbers.Sets]
isStrongOrder_quotrel [definition, in UniMath.RealNumbers.Sets]
issubgr [definition, in UniMath.Algebra.Groups]
issublinear_invNonnegativeRationals_lt [lemma, in UniMath.RealNumbers.NonnegativeRationals]
issublinear_invNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
issubmodule [definition, in UniMath.Algebra.Modules.Submodule]
issubmodule_image [lemma, in UniMath.Algebra.Modules.Submodule]
issubmodule_kernel [lemma, in UniMath.Algebra.Modules.Submodule]
issubmodule_is [definition, in UniMath.Algebra.Modules.Submodule]
issubmonoid [definition, in UniMath.Algebra.Monoids]
issubrig [definition, in UniMath.Algebra.RigsAndRings]
issubring [definition, in UniMath.Algebra.RigsAndRings]
issubsetwithbinop [definition, in UniMath.Algebra.BinaryOperations]
issubsetwithsmul [definition, in UniMath.Algebra.Modules.Submodule]
issubsetwith2binop [definition, in UniMath.Algebra.BinaryOperations]
issuperrigid [definition, in UniMath.Combinatorics.ZFstructures]
issurjcomp [lemma, in UniMath.Foundations.Propositions]
issurjective [definition, in UniMath.Foundations.Propositions]
issurjectiveweq [lemma, in UniMath.Foundations.Propositions]
issurjective_postcomp_with_weq [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
issurjprtoimage [lemma, in UniMath.Foundations.Propositions]
issurjsetquotfun [lemma, in UniMath.Foundations.Sets]
issurjsetquotpr [lemma, in UniMath.Foundations.Sets]
issurjsetquot2pr [lemma, in UniMath.Foundations.Sets]
issurjtwooutof3b [lemma, in UniMath.Foundations.Propositions]
issurjtwooutof3c [abbreviation, in UniMath.Foundations.Propositions]
issymm [definition, in UniMath.Foundations.Sets]
issymmabgrdiffrel [lemma, in UniMath.Algebra.Groups]
issymmabgrdiffrelint [lemma, in UniMath.Algebra.Groups]
issymmabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
issymmabmonoidfracrelint [lemma, in UniMath.Algebra.Monoids]
issymmafldfracapartrelpre [lemma, in UniMath.PAdics.frac]
issymmapSet [lemma, in UniMath.Algebra.Apartness]
issymmdirprod [definition, in UniMath.Foundations.Sets]
issymmetric [definition, in UniMath.Combinatorics.GraphPaths]
issymmetric_symmetric_closure [definition, in UniMath.Combinatorics.GraphPaths]
issymmlogeqf [definition, in UniMath.Foundations.Sets]
issymmpadicapart0 [lemma, in UniMath.PAdics.padics]
issymmpathshrel [definition, in UniMath.Foundations.Sets]
issymmquotrel [lemma, in UniMath.Foundations.Sets]
issymmresrel [definition, in UniMath.Foundations.Sets]
issymmtightapSet [lemma, in UniMath.Algebra.Apartness]
issymm_apNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
issymm_Dcuts_ap_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
issymm_Dcuts_eq [lemma, in UniMath.RealNumbers.NonnegativeReals]
issymm_Rap [lemma, in UniMath.RealNumbers.Reals]
issymm_natneq [lemma, in UniMath.Foundations.NaturalNumbers]
issymm_reverse [lemma, in UniMath.RealNumbers.Sets]
issymm_CFap [lemma, in UniMath.Algebra.ConstructiveStructures]
issymm_CCDRap [lemma, in UniMath.Algebra.ConstructiveStructures]
issymm_CDRap [lemma, in UniMath.Algebra.ConstructiveStructures]
issymm_logeq [lemma, in UniMath.Foundations.PartA]
iss:1338 [binder, in UniMath.Algebra.BinaryOperations]
iss:1364 [binder, in UniMath.Algebra.BinaryOperations]
isTerminal [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
isTerminal [definition, in UniMath.CategoryTheory.limits.terminal]
isTerminalX:44 [binder, in UniMath.CategoryTheory.FunctorCoalgebras]
isTerminal_Terminal [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
isTerminal_opp [definition, in UniMath.CategoryTheory.limits.Opp]
istight [definition, in UniMath.Algebra.Apartness]
istightap [definition, in UniMath.Algebra.Apartness]
istightapart [definition, in UniMath.PAdics.lemmas]
istightap_hr_ap [lemma, in UniMath.RealNumbers.Reals]
istighttightapSet [lemma, in UniMath.Algebra.Apartness]
istighttightapSet_rev [lemma, in UniMath.Algebra.Apartness]
istight_apNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
istight_Dcuts_ap_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
istight_Rap [lemma, in UniMath.RealNumbers.Reals]
istight_CFap [lemma, in UniMath.Algebra.ConstructiveStructures]
istight_CCDRap [lemma, in UniMath.Algebra.ConstructiveStructures]
istight_CDRap [lemma, in UniMath.Algebra.ConstructiveStructures]
isTopologicalSet [definition, in UniMath.Topology.Topology]
isTopological_ConstructiveField [definition, in UniMath.Topology.Topology]
isTopological_ConstructiveDivisionRig [definition, in UniMath.Topology.Topology]
isTopological_fld [definition, in UniMath.Topology.Topology]
isTopological_DivRig [definition, in UniMath.Topology.Topology]
isTopological_ring [definition, in UniMath.Topology.Topology]
isTopological_rig [definition, in UniMath.Topology.Topology]
isTopological_gr [definition, in UniMath.Topology.Topology]
isTopological_monoid [definition, in UniMath.Topology.Topology]
istotal [definition, in UniMath.Foundations.Sets]
istotalabgrdiffrel [lemma, in UniMath.Algebra.Groups]
istotalabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
istotalabmonoidfracrelint [lemma, in UniMath.Algebra.Monoids]
istotalhqgeh [definition, in UniMath.NumberSystems.RationalNumbers]
istotalhqleh [definition, in UniMath.NumberSystems.RationalNumbers]
istotalhzgeh [definition, in UniMath.NumberSystems.Integers]
istotalhzleh [definition, in UniMath.NumberSystems.Integers]
istotallogeqf [definition, in UniMath.Foundations.Sets]
istotalnatgeh [definition, in UniMath.Foundations.NaturalNumbers]
istotalnatleh [definition, in UniMath.Foundations.NaturalNumbers]
isTotalOrder [definition, in UniMath.Combinatorics.OrderedSets]
isTotalOrder_TOSubset_plus_point [lemma, in UniMath.Combinatorics.WellOrderedSets]
istotalquotrel [lemma, in UniMath.Foundations.Sets]
istotalresrel [definition, in UniMath.Foundations.Sets]
istotaltoiscoasymm [lemma, in UniMath.Foundations.Sets]
istotal_FiniteOrderedSet [lemma, in UniMath.Combinatorics.OrderedSets]
istotal_latticedec [definition, in UniMath.Algebra.Lattice]
istotal_reverse [lemma, in UniMath.RealNumbers.Sets]
istrans [definition, in UniMath.Foundations.Sets]
istransabgrdiffrel [lemma, in UniMath.Algebra.Groups]
istransabgrdiffrelint [lemma, in UniMath.Algebra.Groups]
istransabmonoidfracrel [lemma, in UniMath.Algebra.Monoids]
istransabmonoidfracrelint [lemma, in UniMath.Algebra.Monoids]
istransandirrefltoasymm [lemma, in UniMath.Foundations.Sets]
istransdirprod [definition, in UniMath.Foundations.Sets]
istransfldfracgt [lemma, in UniMath.Algebra.Domains_and_Fields]
istranshqgeh [definition, in UniMath.NumberSystems.RationalNumbers]
istranshqgth [lemma, in UniMath.NumberSystems.RationalNumbers]
istranshqleh [definition, in UniMath.NumberSystems.RationalNumbers]
istranshqlth [definition, in UniMath.NumberSystems.RationalNumbers]
istranshzgeh [definition, in UniMath.NumberSystems.Integers]
istranshzgth [lemma, in UniMath.NumberSystems.Integers]
istranshzleh [definition, in UniMath.NumberSystems.Integers]
istranshzlth [definition, in UniMath.NumberSystems.Integers]
istranslogeqf [definition, in UniMath.Foundations.Sets]
istransnatgeh [definition, in UniMath.Foundations.NaturalNumbers]
istransnatgth [lemma, in UniMath.Foundations.NaturalNumbers]
istransnatleh [definition, in UniMath.Foundations.NaturalNumbers]
istransnatlth [definition, in UniMath.Foundations.NaturalNumbers]
istransnegrel [lemma, in UniMath.Foundations.Sets]
istranspathshrel [definition, in UniMath.Foundations.Sets]
istransquotrel [lemma, in UniMath.Foundations.Sets]
istransresrel [definition, in UniMath.Foundations.Sets]
istrans_le_lt_ltNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
istrans_lt_le_ltNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
istrans_ltNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
istrans_leNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
istrans_Dcuts_eq [lemma, in UniMath.RealNumbers.NonnegativeReals]
istrans_Dcuts_le_lt_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
istrans_Dcuts_lt_le_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
istrans_Dcuts_lt_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
istrans_Dcuts_le_rel [lemma, in UniMath.RealNumbers.NonnegativeReals]
istrans_subtype_containment [definition, in UniMath.Algebra.FixedPointTheorems]
istrans_setquot_aux [lemma, in UniMath.Algebra.Archimedean]
istrans_Rlt_le [lemma, in UniMath.RealNumbers.Reals]
istrans_Rle_lt [lemma, in UniMath.RealNumbers.Reals]
istrans_Rle [lemma, in UniMath.RealNumbers.Reals]
istrans_Rlt [lemma, in UniMath.RealNumbers.Reals]
istrans_le_lt_ltNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
istrans_lt_le_ltNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
istrans_ltNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
istrans_leNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
istrans_latticedec_gt_rel [lemma, in UniMath.Algebra.Lattice]
istrans_Lge_Lgt [lemma, in UniMath.Algebra.Lattice]
istrans_Lgt_Lge [lemma, in UniMath.Algebra.Lattice]
istrans_Lgt [definition, in UniMath.Algebra.Lattice]
istrans_Lge [lemma, in UniMath.Algebra.Lattice]
istrans_Lle [lemma, in UniMath.Algebra.Lattice]
istrans_StrongOrder [definition, in UniMath.Algebra.Lattice]
istrans_EOle_lt [lemma, in UniMath.RealNumbers.Sets]
istrans_EOlt_le [lemma, in UniMath.RealNumbers.Sets]
istrans_EOlt [definition, in UniMath.RealNumbers.Sets]
istrans_EOgt [definition, in UniMath.RealNumbers.Sets]
istrans_EOle [definition, in UniMath.RealNumbers.Sets]
istrans_reverse [lemma, in UniMath.RealNumbers.Sets]
istrans_StrongOrder [definition, in UniMath.RealNumbers.Sets]
istrans_po [definition, in UniMath.RealNumbers.Sets]
istrans_SubObj_rel [lemma, in UniMath.CategoryTheory.Subobjects]
istrans_monorel [lemma, in UniMath.CategoryTheory.Subobjects]
istrans_filter_le [lemma, in UniMath.Topology.Filters]
istrans_posetRelation [lemma, in UniMath.Foundations.Sets]
istrans2 [definition, in UniMath.Combinatorics.OrderedSets]
istriangle_Rabs' [lemma, in UniMath.RealNumbers.Reals]
istriangle_Rabs [lemma, in UniMath.RealNumbers.Reals]
istriangle_hr_abs' [lemma, in UniMath.RealNumbers.Reals]
istriangle_hr_abs [lemma, in UniMath.RealNumbers.Reals]
isTrivialDirectSum [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
isTrivialDirectSum' [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
isTRR [definition, in UniMath.Combinatorics.ZFstructures]
isTRRGhomo [definition, in UniMath.Combinatorics.ZFstructures]
isTRRGhomo_Branch_of_Branch_to_Branch [lemma, in UniMath.Combinatorics.ZFstructures]
isTRRGhomo_Up_to_Up [lemma, in UniMath.Combinatorics.ZFstructures]
isTrue [definition, in UniMath.MoreFoundations.DecidablePropositions]
istruncminus [definition, in UniMath.Algebra.Lattice]
istruncminus_ex [lemma, in UniMath.Algebra.Lattice]
istwobinopfun [definition, in UniMath.Algebra.BinaryOperations]
istwobinopfuncomp [lemma, in UniMath.Algebra.BinaryOperations]
istwobinopfuninvmap [lemma, in UniMath.Algebra.BinaryOperations]
isTwoSided [definition, in UniMath.RealNumbers.DedekindCuts]
isTwoSided_OneSided [lemma, in UniMath.RealNumbers.DedekindCuts]
ist:1123 [binder, in UniMath.Algebra.BinaryOperations]
isub_Dcuts_of_Dcuts [lemma, in UniMath.RealNumbers.NonnegativeReals]
isunit [definition, in UniMath.Algebra.BinaryOperations]
isunital [definition, in UniMath.Algebra.BinaryOperations]
isunitalfuntoabgrdiff [lemma, in UniMath.Algebra.Groups]
isunitalfuntoabmonoidfrac [lemma, in UniMath.Algebra.Monoids]
isunitalisob [definition, in UniMath.Algebra.BinaryOperations]
isunitalisof [definition, in UniMath.Algebra.BinaryOperations]
isunital_ringofendabgr_op2 [lemma, in UniMath.Algebra.Modules.Core]
isunital_ringofendabgr_op1 [lemma, in UniMath.Algebra.Modules.Core]
isunital_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isunital_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isunital1funtocommringfrac [lemma, in UniMath.Algebra.RigsAndRings]
isunital1funtofldfrac [lemma, in UniMath.Algebra.Domains_and_Fields]
isunital1funtoringdiff [lemma, in UniMath.Algebra.RigsAndRings]
isunital2funtocommringfrac [lemma, in UniMath.Algebra.RigsAndRings]
isunital2funtofldfrac [lemma, in UniMath.Algebra.Domains_and_Fields]
isunital2funtoringdiff [lemma, in UniMath.Algebra.RigsAndRings]
isunitindirprod [lemma, in UniMath.Algebra.Monoids]
isunitisob [lemma, in UniMath.Algebra.BinaryOperations]
isunitisof [lemma, in UniMath.Algebra.BinaryOperations]
isunitquot [lemma, in UniMath.Algebra.Monoids]
isunit_setofendabgr_un1 [lemma, in UniMath.Algebra.Modules.Core]
isunit_setofendabgr_un0 [lemma, in UniMath.Algebra.Modules.Core]
isunit_weq_bck [lemma, in UniMath.Algebra.BinaryOperations]
isunit_weq_fwd [lemma, in UniMath.Algebra.BinaryOperations]
isunit_section_unel2 [lemma, in UniMath.AlgebraicGeometry.Spec]
isunit_section_unel1 [lemma, in UniMath.AlgebraicGeometry.Spec]
isUniversal [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
isUniversal_isom [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
isUpperBound [definition, in UniMath.RealNumbers.Sets]
isupperbound [definition, in UniMath.Algebra.Dcpo]
isupperbound_if_pointwise [definition, in UniMath.Algebra.FixedPointTheorems]
isupperbound_subtype_equiv [definition, in UniMath.Algebra.FixedPointTheorems]
isupperbound_subtype [definition, in UniMath.Algebra.FixedPointTheorems]
isupperbound_hprop [definition, in UniMath.Algebra.FixedPointTheorems]
isuv:1443 [binder, in UniMath.Foundations.PartA]
isuv:1452 [binder, in UniMath.Foundations.PartA]
isuv:1461 [binder, in UniMath.Foundations.PartA]
isvw:1444 [binder, in UniMath.Foundations.PartA]
isvw:1453 [binder, in UniMath.Foundations.PartA]
isvw:1462 [binder, in UniMath.Foundations.PartA]
isWellFoundedDown [definition, in UniMath.Combinatorics.ZFstructures]
isWellFoundedUp [definition, in UniMath.Combinatorics.ZFstructures]
isWellOrder [definition, in UniMath.Combinatorics.WellOrderedSets]
isweq [definition, in UniMath.Foundations.PartA]
isweqbandfmap [lemma, in UniMath.Foundations.PartA]
isweqboolsumtocoprod [lemma, in UniMath.Foundations.PartA]
isweqcompwithweqUAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
isweqcontrcontr [lemma, in UniMath.Foundations.PartA]
isweqcontrprop [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
isweqcontrtounit [lemma, in UniMath.Foundations.PartA]
isweqcoprodasstol [lemma, in UniMath.Foundations.PartA]
isweqcoprodasstor [lemma, in UniMath.Foundations.PartA]
isweqcoprodcomm [lemma, in UniMath.Foundations.PartA]
isweqcoprodf [lemma, in UniMath.Foundations.PartA]
isweqcoprodtoboolsum [lemma, in UniMath.Foundations.PartA]
isweqdeltap [lemma, in UniMath.Foundations.PartA]
isweqdirprodf [lemma, in UniMath.Foundations.PartA]
isweqdnitocompl [lemma, in UniMath.Combinatorics.StandardFiniteSets]
isweqezmaphf [lemma, in UniMath.Foundations.PartA]
isweqezmappr1 [definition, in UniMath.Foundations.PartA]
isweqezmap1 [lemma, in UniMath.Foundations.PartA]
isweqfibtototal [lemma, in UniMath.Foundations.PartA]
isweqfibtototal' [lemma, in UniMath.Foundations.PartA]
isweqfinfibseq [lemma, in UniMath.Foundations.PartB]
isweqforalltohfiber [lemma, in UniMath.Foundations.PartD]
isweqforalltototal [lemma, in UniMath.Foundations.PartD]
isweqfpmap [lemma, in UniMath.Foundations.PartA]
isweqfromcoconusf [lemma, in UniMath.Foundations.PartA]
isweqfromcompltodisjoint [lemma, in UniMath.Foundations.PartC]
isweqhff [lemma, in UniMath.Foundations.PartA]
isweqhfiberfp [lemma, in UniMath.Foundations.PartA]
isweqhfibersgtof' [lemma, in UniMath.Foundations.PartA]
isweqhfibersg'tof [lemma, in UniMath.Foundations.PartA]
isweqhfibertoforall [lemma, in UniMath.Foundations.PartD]
isweqhomot [lemma, in UniMath.Foundations.PartA]
isweqhomot_iff [lemma, in UniMath.Foundations.PartA]
isweqhomot' [definition, in UniMath.CategoryTheory.Core.Isos]
isweqii1withneg [lemma, in UniMath.Foundations.PartA]
isweqii2withneg [lemma, in UniMath.Foundations.PartA]
isweqimplimpl [lemma, in UniMath.Foundations.PartB]
isweqinclandsurj [lemma, in UniMath.Foundations.Propositions]
isweqinvezmaphf [definition, in UniMath.Foundations.PartA]
isweqinvmap [lemma, in UniMath.Foundations.PartA]
isweqlcompwithweqUAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
isweqleFtototal2withnat [lemma, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
isweqletoleh [lemma, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
isweqlistfun [lemma, in UniMath.Combinatorics.Lists]
isweqlmultingr_is [lemma, in UniMath.Algebra.BinaryOperations]
isweql3 [lemma, in UniMath.Foundations.PartA]
isweqmaponpaths [lemma, in UniMath.Foundations.PartA]
isweqmaponsec [lemma, in UniMath.Foundations.PartD]
isweqmaponsec1 [lemma, in UniMath.Foundations.PartD]
isweqonpathsincl [lemma, in UniMath.Foundations.PartB]
isweqpathscomp0r [lemma, in UniMath.Foundations.PartA]
isweqpathscomp0r' [lemma, in UniMath.MoreFoundations.PartA]
isweqpathsinv0 [lemma, in UniMath.Foundations.PartA]
isweqpr1 [lemma, in UniMath.Foundations.PartB]
isweqpr1pr1 [lemma, in UniMath.Foundations.PartA]
isweqrcompwithweqUAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
isweqrdistrtocoprod [lemma, in UniMath.Foundations.PartA]
isweqrdistrtoprod [lemma, in UniMath.Foundations.PartA]
isweqrecompl [lemma, in UniMath.Foundations.PartC]
isweqrecompl_ne' [lemma, in UniMath.MoreFoundations.NegativePropositions]
isweqrecompl_ne [lemma, in UniMath.MoreFoundations.NegativePropositions]
isweqrecompl' [lemma, in UniMath.MoreFoundations.NegativePropositions]
isweqrmultingr_is [lemma, in UniMath.Algebra.BinaryOperations]
isweqtococonusf [lemma, in UniMath.Foundations.PartA]
isweqtocompltodisjoint [lemma, in UniMath.Foundations.PartC]
isweqtocompltoii1x [lemma, in UniMath.Foundations.PartC]
isweqtocompltoii2y [lemma, in UniMath.Foundations.PartC]
isweqtoempty [definition, in UniMath.Foundations.PartA]
isweqtoempty2 [lemma, in UniMath.Foundations.PartA]
isweqtoforallpaths [definition, in UniMath.Foundations.UnivalenceAxiom]
isweqtoforallpathsAxiom [axiom, in UniMath.Foundations.UnivalenceAxiom]
isweqtoforallpathsStatement [definition, in UniMath.Foundations.UnivalenceAxiom]
isweqtoforallpathsUAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
isweqtotaltofib [lemma, in UniMath.Foundations.PartA]
isweqtotaltoforall [lemma, in UniMath.Foundations.PartD]
isweqtransportb [lemma, in UniMath.Foundations.PartA]
isweqtransportb10 [lemma, in UniMath.Foundations.UnivalenceAxiom]
isweqtransportf [lemma, in UniMath.Foundations.PartA]
isweqtransportf10 [lemma, in UniMath.Foundations.UnivalenceAxiom]
isweqvecfun [definition, in UniMath.Combinatorics.Vectors]
isweqweqtransportbUAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
isweq_idtoiso_RelMonad [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
isweq_Branch_of_Branch_to_Branch [definition, in UniMath.Combinatorics.ZFstructures]
isweq_Up_to_Up [lemma, in UniMath.Combinatorics.ZFstructures]
isweq_TRRGraph_univalence_map [lemma, in UniMath.Combinatorics.ZFstructures]
isweq_sub_precat_paths_to_iso [lemma, in UniMath.CategoryTheory.Subcategory.Full]
isweq_Id_in_sub_to_iso [lemma, in UniMath.CategoryTheory.Subcategory.Full]
isweq_iso_in_sub_from_iso [lemma, in UniMath.CategoryTheory.Subcategory.Full]
isweq_iso_from_iso_in_sub [lemma, in UniMath.CategoryTheory.Subcategory.Full]
isweq_hom_in_subcat_from_hom_in_precat [lemma, in UniMath.CategoryTheory.Subcategory.Full]
isweq_hom_in_precat_from_hom_in_full_subcat [lemma, in UniMath.CategoryTheory.Subcategory.Full]
isweq_yoneda_map_1 [lemma, in UniMath.CategoryTheory.yoneda]
isweq_idtoiso_FunctorAlg [lemma, in UniMath.CategoryTheory.FunctorAlgebras]
isweq_idtoiso_functorcat [lemma, in UniMath.CategoryTheory.FunctorCategory]
isweq_Monad_to_Kleisli [definition, in UniMath.CategoryTheory.Monads.Kleisli]
isweq_flipsec [lemma, in UniMath.MoreFoundations.PartA]
isweq_binprod_to_pullback [definition, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
isweq_slice_isBinProduct_to_isPullback [lemma, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
isweq_isPullback_to_isBinProduct [lemma, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
isweq_iso [lemma, in UniMath.Foundations.PartA]
isweq_to_isweq_unit [lemma, in UniMath.Foundations.PartA]
iswklin [definition, in UniMath.Combinatorics.OrderedSets]
iswofun [definition, in UniMath.Combinatorics.WellOrderedSets]
iswofun_funcomp [lemma, in UniMath.Combinatorics.WellOrderedSets]
iswofun_idfun [lemma, in UniMath.Combinatorics.WellOrderedSets]
isx:101 [binder, in UniMath.Foundations.PartC]
isx:109 [binder, in UniMath.Foundations.PartC]
isx:115 [binder, in UniMath.Foundations.PartC]
isx:120 [binder, in UniMath.Foundations.PartC]
isx:1406 [binder, in UniMath.Foundations.PartA]
isx:1412 [binder, in UniMath.Foundations.PartA]
isx:205 [binder, in UniMath.Foundations.Propositions]
isx:270 [binder, in UniMath.Foundations.PartC]
isx:278 [binder, in UniMath.Foundations.PartC]
isx:313 [binder, in UniMath.Foundations.PartB]
isx:323 [binder, in UniMath.Foundations.PartB]
isx:424 [binder, in UniMath.Foundations.PartC]
isx:43 [binder, in UniMath.Foundations.Propositions]
isx:439 [binder, in UniMath.Algebra.RigsAndRings]
isx:447 [binder, in UniMath.Algebra.RigsAndRings]
isx:455 [binder, in UniMath.Algebra.RigsAndRings]
isx:494 [binder, in UniMath.Foundations.Sets]
isx:505 [binder, in UniMath.Foundations.Sets]
isx:512 [binder, in UniMath.Foundations.Sets]
isx:544 [binder, in UniMath.Foundations.PartB]
isx:574 [binder, in UniMath.Foundations.PartB]
isx:579 [binder, in UniMath.Foundations.PartB]
isx:64 [binder, in UniMath.Foundations.Propositions]
isx:70 [binder, in UniMath.Foundations.Sets]
isx:71 [binder, in UniMath.Foundations.Propositions]
isx:78 [binder, in UniMath.Foundations.PartC]
isx:84 [binder, in UniMath.Foundations.PartC]
isx:91 [binder, in UniMath.Foundations.PartC]
isy:110 [binder, in UniMath.Foundations.PartC]
isy:1407 [binder, in UniMath.Foundations.PartA]
isy:1413 [binder, in UniMath.Foundations.PartA]
isy:206 [binder, in UniMath.Foundations.Propositions]
isy:271 [binder, in UniMath.Foundations.PartC]
isy:279 [binder, in UniMath.Foundations.PartC]
isy:314 [binder, in UniMath.Foundations.PartB]
isy:324 [binder, in UniMath.Foundations.PartB]
isy:425 [binder, in UniMath.Foundations.PartC]
isy:440 [binder, in UniMath.Algebra.RigsAndRings]
isy:448 [binder, in UniMath.Algebra.RigsAndRings]
isy:456 [binder, in UniMath.Algebra.RigsAndRings]
isy:490 [binder, in UniMath.Foundations.PartD]
isy:495 [binder, in UniMath.Foundations.Sets]
isy:506 [binder, in UniMath.Foundations.Sets]
isy:513 [binder, in UniMath.Foundations.Sets]
isy:545 [binder, in UniMath.Foundations.PartB]
isy:575 [binder, in UniMath.Foundations.PartB]
isy:580 [binder, in UniMath.Foundations.PartB]
isy:65 [binder, in UniMath.Foundations.Propositions]
isy:71 [binder, in UniMath.Foundations.Sets]
isy:72 [binder, in UniMath.Foundations.Propositions]
isy:85 [binder, in UniMath.Foundations.PartC]
isZero [definition, in UniMath.CategoryTheory.limits.zero]
isZero [definition, in UniMath.CategoryTheory.limits.graphs.zero]
isZero_zero_module [lemma, in UniMath.CategoryTheory.categories.modules]
isZero_opp [lemma, in UniMath.CategoryTheory.limits.Opp]
isz:271 [binder, in UniMath.Foundations.PartB]
isz:58 [binder, in UniMath.Foundations.PartB]
is_nat_trans_ψ_from_comps [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration]
is_functor_hom_functor_type [lemma, in UniMath.CategoryTheory.categories.Type.Core]
is_precategory_ring_precategory_data [lemma, in UniMath.CategoryTheory.categories.rings]
is_univalent_structure_unit_binop [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
is_unit_point [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
is_univalent_property_unit_binop [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
is_unit [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
is_univalent_binop [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
is_exists_unique [lemma, in UniMath.CategoryTheory.limits.graphs.eqdiag]
is_preinitial_sec [definition, in UniMath.Induction.W.Fibered]
is_algebra_morphism_pr1_PL_fold [lemma, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
is_functor_Ω_PreShv_data [lemma, in UniMath.CategoryTheory.Presheaf]
is_univalent_RelMonad [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
is_relmonadmor_iso_from_is_iso [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
is_iso_from_is_relmonadmor_iso [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
is_nat_trans_RelMonadMor [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
is_nat_trans_r_eta [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
is_functor_r_lift [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
is_pseudo_morphism [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
is_precategory_hset_precategory_data [lemma, in UniMath.CategoryTheory.categories.HSET.Core]
is_omega_cocont_BinSum_of_Signatures [lemma, in UniMath.SubstitutionSystems.BinSumOfSignatures]
is_nat_trans_θ_ob [lemma, in UniMath.SubstitutionSystems.BinSumOfSignatures]
is_nat_trans_θ_ob_fun [lemma, in UniMath.SubstitutionSystems.BinSumOfSignatures]
is_precategory_cat_of_elems_data [lemma, in UniMath.CategoryTheory.Elements]
is_pb_to_cartesian_1cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
is_pb_to_cartesian_lift_2cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
is_pb_to_cartesian_lift_1cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
is_precategory_setwith2binop_precategory_data [lemma, in UniMath.CategoryTheory.categories.setwith2binops]
is_precategory_gr_precategory_data [lemma, in UniMath.CategoryTheory.categories.grs]
is_univalent_Strong_Functor_category [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
is_univalent_Strong_Functor_category_displayed [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
is_disp_invertible_2cell_rwhisker [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_disp_invertible_2cell_lwhisker [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_disp_invertible_2cell_rassociator [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_disp_invertible_2cell_lassociator [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_disp_invertible_2cell_rinvunitor [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_disp_invertible_2cell_runitor [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_disp_invertible_2cell_lunitor [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_invertible_total_to_disp_weq [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_invertible_disp_to_total [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_invertible_total_to_disp [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_invertible_total_to_fiber [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_invertible_total_to_base [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_precategory_data_from_prebicat_and_ob [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
is_prime [definition, in UniMath.Algebra.RigsAndRings.Ideals]
is_ideal [definition, in UniMath.Algebra.RigsAndRings.Ideals]
is_rideal [definition, in UniMath.Algebra.RigsAndRings.Ideals]
is_lideal [definition, in UniMath.Algebra.RigsAndRings.Ideals]
is_precategory_relmodule [lemma, in UniMath.CategoryTheory.Monads.RelativeModules]
is_relmodule_mor_comp [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
is_relmodule_mor_id [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
is_nat_trans_relmodule_mor [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
is_relmodule_mor [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
is_functor_mlift [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
is_prebicategory_bicate [lemma, in UniMath.Bicategories.BicategoryOfBicat]
is_catiso [definition, in UniMath.CategoryTheory.catiso]
is_precategory_cat_of_elems_data [lemma, in UniMath.CategoryTheory.ElementsOp]
is_strict_psfunctor_isaprop [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
is_strict_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
is_precategory_fld_precategory_data [lemma, in UniMath.CategoryTheory.categories.flds]
is_cartesian_2cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
is_precategory_binop_precategory_data [lemma, in UniMath.CategoryTheory.category_binops]
is_disp_psfunctor_from_total [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
is_disp_psfunctor [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
is_iso_pre [lemma, in UniMath.CategoryTheory.LocalizingClass]
is_precategory_loc_precategory_data [lemma, in UniMath.CategoryTheory.LocalizingClass]
is_disp_internal_adjunction_identity [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
is_disp_biequiv_unit_counit_path_pgroupoid [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
is_omega_cocont_BinProduct_of_Signatures [lemma, in UniMath.SubstitutionSystems.BinProductOfSignatures]
is_nat_trans_θ_ob [lemma, in UniMath.SubstitutionSystems.BinProductOfSignatures]
is_nat_trans_θ_ob_fun [lemma, in UniMath.SubstitutionSystems.BinProductOfSignatures]
is_cartesian_lift_functor_into_reindex [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
is_cartesian_reindex_disp_cat_disp_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
is_cartesian_from_reindex_disp_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
is_cartesian_in_reindex_disp_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
is_univalent_reindex_disp_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
is_univalent_full_subcat [lemma, in UniMath.CategoryTheory.Subcategory.Full]
is_functor_full_img [lemma, in UniMath.CategoryTheory.Subcategory.Full]
is_sub_precategory_full [lemma, in UniMath.CategoryTheory.Subcategory.Full]
is_pstrans_on_data [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
is_pstrans [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
is_iso_runitor [lemma, in UniMath.Bicategories.Core.Bicat]
is_z_iso_runitor [lemma, in UniMath.Bicategories.Core.Bicat]
is_iso_lunitor [lemma, in UniMath.Bicategories.Core.Bicat]
is_z_iso_lunitor [lemma, in UniMath.Bicategories.Core.Bicat]
is_iso_rassociator [lemma, in UniMath.Bicategories.Core.Bicat]
is_z_iso_rassociator [lemma, in UniMath.Bicategories.Core.Bicat]
is_iso_lassociator [lemma, in UniMath.Bicategories.Core.Bicat]
is_z_iso_lassociator [lemma, in UniMath.Bicategories.Core.Bicat]
is_discrete_discrete_prebicat [lemma, in UniMath.Bicategories.Core.Bicat]
is_discrete_prebicat [definition, in UniMath.Bicategories.Core.Bicat]
is_functor_hcomp [lemma, in UniMath.Bicategories.Core.Bicat]
is_precategory_hom [lemma, in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_rinvunitor [lemma, in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_runitor [lemma, in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_linvunitor [lemma, in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_lunitor [lemma, in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_lassociator [lemma, in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_rassociator [lemma, in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_id₂ [definition, in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_inv [definition, in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell [definition, in UniMath.Bicategories.Core.Bicat]
is_lim_seq_unique [lemma, in UniMath.RealNumbers.NonnegativeReals]
is_lim_seq_unique_aux [lemma, in UniMath.RealNumbers.NonnegativeReals]
is_lim_seq [definition, in UniMath.RealNumbers.NonnegativeReals]
is_Dcuts_lim_seq [definition, in UniMath.RealNumbers.NonnegativeReals]
is_Dcuts_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
is_Dcuts_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
is_Dcuts_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
is_functor_from_empty [definition, in UniMath.CategoryTheory.categories.StandardCategories]
is_functor_to_unit [definition, in UniMath.CategoryTheory.categories.StandardCategories]
is_discrete_cat_n [lemma, in UniMath.CategoryTheory.categories.StandardCategories]
is_nat_trans_discrete_precategory [definition, in UniMath.CategoryTheory.categories.StandardCategories]
is_univalent_path_groupoid [lemma, in UniMath.CategoryTheory.categories.StandardCategories]
is_univalent_path_pregroupoid [lemma, in UniMath.CategoryTheory.categories.StandardCategories]
is_prop:14 [binder, in UniMath.Induction.M.Core]
is_pre:13 [binder, in UniMath.Induction.M.Core]
is_prop:11 [binder, in UniMath.Induction.M.Core]
is_pre:10 [binder, in UniMath.Induction.M.Core]
is_prefinal_to_is_final [lemma, in UniMath.Induction.M.Core]
is_final [definition, in UniMath.Induction.M.Core]
is_prefinal [definition, in UniMath.Induction.M.Core]
is_univalent_2_full_image [definition, in UniMath.Bicategories.Core.Examples.Image]
is_univalent_2_0_full_image [definition, in UniMath.Bicategories.Core.Examples.Image]
is_univalent_2_1_full_image [definition, in UniMath.Bicategories.Core.Examples.Image]
is_left_adjoint_exp_yoneda [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
is_functor_Fun3 [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
is_functor_Fun2 [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
is_functor_Fun1 [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
is_chaotic_disp_bicat_cells_unit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
is_chaotic [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
is_precategory_abgr_precategory_data [lemma, in UniMath.CategoryTheory.categories.abgrs]
is_omega_cocont_BindingSigToSignature [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_pre_composition_functor [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_binproduct_functor [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_constprod_functor2 [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_constprod_functor2 [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_constprod_functor1 [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_constprod_functor1 [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_family_functor [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_family_functor [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_tuple_functor [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_tuple_functor [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_functor_composite [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_functor_composite [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_coproduct_functor [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_coproduct_functor [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_delta_functor [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_delta_functor [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_constant_functor [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_least_upper_bound_if_pointwise [definition, in UniMath.Algebra.FixedPointTheorems]
is_least_upper_bound_pointwise [definition, in UniMath.Algebra.FixedPointTheorems]
is_chain_complete_subposet [definition, in UniMath.Algebra.FixedPointTheorems]
is_chain_in_subposet [definition, in UniMath.Algebra.FixedPointTheorems]
is_least_upper_bound_in_subposet [definition, in UniMath.Algebra.FixedPointTheorems]
is_upper_bound_in_subposet [definition, in UniMath.Algebra.FixedPointTheorems]
is_directed_complete [definition, in UniMath.Algebra.FixedPointTheorems]
is_chain_complete [definition, in UniMath.Algebra.FixedPointTheorems]
is_complete [definition, in UniMath.Algebra.FixedPointTheorems]
is_chain [definition, in UniMath.Algebra.FixedPointTheorems]
is_least_upper_bound_image [definition, in UniMath.Algebra.FixedPointTheorems]
is_least_upper_bound_subtype [definition, in UniMath.Algebra.FixedPointTheorems]
is_least_upper_bound [definition, in UniMath.Algebra.FixedPointTheorems]
is_greatest_suchthat [definition, in UniMath.Algebra.FixedPointTheorems]
is_least_suchthat [definition, in UniMath.Algebra.FixedPointTheorems]
is_upper_bound_subfamily [definition, in UniMath.Algebra.FixedPointTheorems]
is_lower_bound_subfamily [definition, in UniMath.Algebra.FixedPointTheorems]
is_chain_complete:3 [binder, in UniMath.Algebra.FixedPointTheorems]
is_directed_complete:2 [binder, in UniMath.Algebra.FixedPointTheorems]
is_complete:1 [binder, in UniMath.Algebra.FixedPointTheorems]
is_iso_yoneda_functor_precomp [lemma, in UniMath.CategoryTheory.yoneda]
is_natural_yoneda_iso_inv [lemma, in UniMath.CategoryTheory.yoneda]
is_natural_yoneda_iso [lemma, in UniMath.CategoryTheory.yoneda]
is_functor_yoneda [lemma, in UniMath.CategoryTheory.yoneda]
is_nat_trans_yoneda_morphisms_data [lemma, in UniMath.CategoryTheory.yoneda]
is_functor_yoneda_functor_data [lemma, in UniMath.CategoryTheory.yoneda]
is_precategory_precategory_monoid_data [lemma, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
is_monoid_mor [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
is_monoid_ob [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
is_univalent_mod [definition, in UniMath.CategoryTheory.categories.modules]
is_precategory_mod_precategory_data [lemma, in UniMath.CategoryTheory.categories.modules]
is_ptd_mor_μ [lemma, in UniMath.SubstitutionSystems.ModulesFromSignatures]
is_ptd_mor_pt [lemma, in UniMath.SubstitutionSystems.ModulesFromSignatures]
is_catiso [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_left_adjoint_functor_unkleislify [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_natural_eta [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_iso_eta_morph [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_inverse_etainv [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_nat_trans_etainv [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_natural_eps [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_iso_eps_morph [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_inverse_epsinv [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_functor_kleislify [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_functor_unkleislify [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_precategory_product_precategory_data [lemma, in UniMath.CategoryTheory.ProductCategory]
is_nat_trans_coproduct_nat_trans_data [lemma, in UniMath.CategoryTheory.limits.coproducts]
is_nat_trans_coproduct_nat_trans_in_data [lemma, in UniMath.CategoryTheory.limits.coproducts]
is_functor_coproduct_of_functors_data [lemma, in UniMath.CategoryTheory.limits.coproducts]
is_in_img_functor [definition, in UniMath.CategoryTheory.Core.Functors]
is_functor_constant [lemma, in UniMath.CategoryTheory.Core.Functors]
is_functor_identity [lemma, in UniMath.CategoryTheory.Core.Functors]
is_functor_composite [lemma, in UniMath.CategoryTheory.Core.Functors]
is_inverse_functor_image [lemma, in UniMath.CategoryTheory.Core.Functors]
is_functor [definition, in UniMath.CategoryTheory.Core.Functors]
is_nat_trans_post_whisker [lemma, in UniMath.CategoryTheory.whiskering]
is_nat_trans_pre_whisker [lemma, in UniMath.CategoryTheory.whiskering]
is_adjequiv_to_all_is_adjequiv [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
is_invertible_2cell_to_all_is_invertible [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
is_symmetric_isPushout [lemma, in UniMath.CategoryTheory.limits.pushouts]
is_initial_functor_from [definition, in UniMath.CategoryTheory.rezk_completion]
is_bicategory [definition, in UniMath.Bicategories.WkCatEnrichment.bicategory]
is_nat_trans_coproduct_nat_trans_data [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
is_nat_trans_coproduct_nat_trans_in2_data [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
is_nat_trans_coproduct_nat_trans_in1_data [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
is_functor_BinCoproduct_of_functors_data [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
is_functor_bincoproduct_functor_data [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
is_iso_from_BinCoproduct_to_BinCoproduct [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
is_univalent_total_category [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_disp_from_total [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_base_from_total [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_total [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
is_u:574 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
is_univalent_in_fibers_from_univalent_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
is_univalent_disp_from_fibers [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
is_univalent_in_fibers [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
is_univalent_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_disp_independent_of_is_iso [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_inv_from_is_iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_inv_from_iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_disp_transportf [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_disp_from_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
is_precategory_precategory_Alg_data [lemma, in UniMath.CategoryTheory.Monads.MonadAlgebras]
is_Algebra_mor [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
is_disp_invmodification_from_total [lemma, in UniMath.Bicategories.DisplayedBicats.DispModification]
is_invertible_disp_invmodification [lemma, in UniMath.Bicategories.DisplayedBicats.DispModification]
is_disp_invmodification [definition, in UniMath.Bicategories.DisplayedBicats.DispModification]
is_invertible_disp_modification [definition, in UniMath.Bicategories.DisplayedBicats.DispModification]
is_disp_modification_from_total [lemma, in UniMath.Bicategories.DisplayedBicats.DispModification]
is_disp_modification [definition, in UniMath.Bicategories.DisplayedBicats.DispModification]
is_folds_precat_implies_is_univalent [lemma, in UniMath.Folds.folds_pre_2_cat]
is_univalent_implies_is_folds_precat [lemma, in UniMath.Folds.folds_pre_2_cat]
is_univalent_implies_folds_precat.H [variable, in UniMath.Folds.folds_pre_2_cat]
is_univalent_implies_folds_precat.C [variable, in UniMath.Folds.folds_pre_2_cat]
is_univalent_implies_folds_precat [section, in UniMath.Folds.folds_pre_2_cat]
is_folds_precategory [definition, in UniMath.Folds.folds_pre_2_cat]
is_univalent_folds_pre_2_cat [definition, in UniMath.Folds.folds_pre_2_cat]
is_folds_pre_2_cat [definition, in UniMath.Folds.folds_pre_2_cat]
is_nat_trans_pdelta [lemma, in UniMath.CategoryTheory.precomp_fully_faithful]
is_coh_strictness_from_univalent_2_1 [lemma, in UniMath.Bicategories.Core.Strictness]
is_strict_bicat [definition, in UniMath.Bicategories.Core.Strictness]
is_coh_strictness_structure [definition, in UniMath.Bicategories.Core.Strictness]
is_univalent_disp_functor_alg [lemma, in UniMath.CategoryTheory.DisplayedCats.Examples]
is_lim_seq [definition, in UniMath.RealNumbers.Reals]
is_nat_trans_iso2' [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
is_omega_cocont_Id_H [lemma, in UniMath.SubstitutionSystems.LiftingInitial_alt]
is_nat_z_iso_nat_trans_id [lemma, in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_z_iso_id [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_z_iso_comp [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
is_z_iso:255 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_z_iso [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_iso_id [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
is_iso:177 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_id [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_iso [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_trans_comp [lemma, in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_trans_id [lemma, in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_trans [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
is_functor_covyoneda [lemma, in UniMath.CategoryTheory.covyoneda]
is_nat_trans_covyoneda_morphisms_data [lemma, in UniMath.CategoryTheory.covyoneda]
is_functor_covyoneda_functor_data [lemma, in UniMath.CategoryTheory.covyoneda]
is_z_iso_from_is_iso' [lemma, in UniMath.CategoryTheory.Core.Isos]
is_z_iso_from_is_iso [lemma, in UniMath.CategoryTheory.Core.Isos]
is_iso_from_is_z_iso [lemma, in UniMath.CategoryTheory.Core.Isos]
is_z_iso_inv_from_z_iso [lemma, in UniMath.CategoryTheory.Core.Isos]
is_z_iso_comp_of_is_z_isos [lemma, in UniMath.CategoryTheory.Core.Isos]
is_z_isomorphism_mor_eq [lemma, in UniMath.CategoryTheory.Core.Isos]
is_z_isomorphism_identity [definition, in UniMath.CategoryTheory.Core.Isos]
is_z_isomorphism_comp [definition, in UniMath.CategoryTheory.Core.Isos]
is_z_isomorphism_inv [definition, in UniMath.CategoryTheory.Core.Isos]
is_z_isomorphism_is_inverse_in_precat [definition, in UniMath.CategoryTheory.Core.Isos]
is_z_isomorphism_mor [definition, in UniMath.CategoryTheory.Core.Isos]
is_z_isomorphism [definition, in UniMath.CategoryTheory.Core.Isos]
is_iso_qinv [definition, in UniMath.CategoryTheory.Core.Isos]
is_inverse_in_precat_identity [definition, in UniMath.CategoryTheory.Core.Isos]
is_inverse_in_precat_comp [definition, in UniMath.CategoryTheory.Core.Isos]
is_inverse_in_precat_inv [definition, in UniMath.CategoryTheory.Core.Isos]
is_inverse_in_precat2 [definition, in UniMath.CategoryTheory.Core.Isos]
is_inverse_in_precat1 [definition, in UniMath.CategoryTheory.Core.Isos]
is_inverse_in_precat [definition, in UniMath.CategoryTheory.Core.Isos]
is_iso' [definition, in UniMath.CategoryTheory.Core.Isos]
is_iso_comp_of_is_isos [lemma, in UniMath.CategoryTheory.Core.Isos]
is_iso_comp_of_isos [lemma, in UniMath.CategoryTheory.Core.Isos]
is_iso_inv_from_iso [definition, in UniMath.CategoryTheory.Core.Isos]
is_iso [definition, in UniMath.CategoryTheory.Core.Isos]
is_omega_cont [definition, in UniMath.CategoryTheory.Chains.Chains]
is_omega_cocont [definition, in UniMath.CategoryTheory.Chains.Chains]
is_cont [definition, in UniMath.CategoryTheory.Chains.Chains]
is_cocont [definition, in UniMath.CategoryTheory.Chains.Chains]
is_univalent_FunctorAlg [lemma, in UniMath.CategoryTheory.FunctorAlgebras]
is_algebra_iso_from_is_iso [definition, in UniMath.CategoryTheory.FunctorAlgebras]
is_iso_from_is_algebra_iso [definition, in UniMath.CategoryTheory.FunctorAlgebras]
is_precategory_precategory_alg_data [lemma, in UniMath.CategoryTheory.FunctorAlgebras]
is_algebra_mor [definition, in UniMath.CategoryTheory.FunctorAlgebras]
is_univalent_functor_category [lemma, in UniMath.CategoryTheory.FunctorCategory]
is_functor_iso_pointwise_if_iso [lemma, in UniMath.CategoryTheory.FunctorCategory]
is_inverse_nat_trans_inv_from_pointwise_inv [lemma, in UniMath.CategoryTheory.FunctorCategory]
is_nat_trans_inv_from_pointwise_inv [lemma, in UniMath.CategoryTheory.FunctorCategory]
is_nat_trans_inv_from_pointwise_inv_ext [lemma, in UniMath.CategoryTheory.FunctorCategory]
is_precategory_functor_precategory_data [lemma, in UniMath.CategoryTheory.FunctorCategory]
is_zero_dec [lemma, in UniMath.RealNumbers.DecidableDedekindCuts]
is_functor_from_opp_opp_to_opp [lemma, in UniMath.CategoryTheory.opp_precat]
is_functor_from_opp_to_opp_opp [lemma, in UniMath.CategoryTheory.opp_precat]
is_functor_functor_opp [lemma, in UniMath.CategoryTheory.opp_precat]
is_precat_opp_precat_data [definition, in UniMath.CategoryTheory.opp_precat]
is_iso_fiber_from_is_iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_functor_fiber_functor [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_univalent_disp_iff_fibers_are_univalent [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_univalent_disp_from_is_univalent_fiber [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_univalent_fiber [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_univalent_fiber_cat [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_disp_functor_cat_iso_iff_pointwise_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_disp_functor_cat_iso_if_pointwise_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_disp_nat_trans_pointwise_inv [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_pointwise_iso_if_is_disp_functor_cat_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_iso_sigma_disp [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_iso_sigma_disp_aux2 [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_iso_sigma_disp_aux1 [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_omega_cocont_slicecat_to_cat [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_slicecat_to_cat_HSET [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_functor_cat_swap [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_functor_cat_swap [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_post_composition_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_post_composition_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_pre_composition_functor_kan [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_pre_composition_functor_kan [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_pre_composition_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_BinProduct_of_functors [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_BinProduct_of_functors_alt [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_binproduct_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_unique_cocone_morphism [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocone_morphism [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_constprod_functor2 [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_constprod_functor2 [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_constprod_functor1 [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_constprod_functor1 [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_coproduct_of_functors [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_coproduct_of_functors [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_BinCoproduct_of_functors_alt2 [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_BinCoproduct_of_functors_alt2 [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_BinCoproduct_of_functors [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_BinCoproduct_of_functors [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_BinCoproduct_of_functors_alt [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_BinCoproduct_of_functors_alt [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_coproduct_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_coproduct_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_bincoproduct_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_bincoproduct_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_delta_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_delta_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_bindelta_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_bindelta_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_family_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_family_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_pr_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_tuple_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_tuple_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_functor_into_product_category [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_functor_into_product_category [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_pair_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_pair_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_pr2_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_pr1_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_iter_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_iter_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_functor_composite [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_functor_composite [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_constant_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_functor_identity [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_functor_identity [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_iso [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_iso [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_precategory_coslice_precat_data [lemma, in UniMath.CategoryTheory.coslicecat]
is_invertible_2cell_hcomp [definition, in UniMath.Bicategories.Core.Invertible_2cells]
is_invertible_2cell_rwhisker [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
is_invertible_2cell_lwhisker [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
is_invertible_2cell_vcomp [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
is_nat_trans_pr_quot_functor [lemma, in UniMath.CategoryTheory.SetValuedFunctors]
is_functor_quot_functor_data [lemma, in UniMath.CategoryTheory.SetValuedFunctors]
is_pointwise_epi_from_set_nat_trans_epi [lemma, in UniMath.CategoryTheory.SetValuedFunctors]
is_strict [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
is_z_iso_tensor_z_iso [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
is_iso_tensor_iso [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
is_setcategory [definition, in UniMath.CategoryTheory.Core.Setcategories]
is_disp_invertible_2cell_rassociator [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
is_disp_invertible_2cell_lassociator [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
is_disp_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
is_disp_invertible_2cell' [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
is_nat_trans_eta_data [lemma, in UniMath.CategoryTheory.slicecat]
is_functor_base_change_functor [lemma, in UniMath.CategoryTheory.slicecat]
is_functor_slicecat_functor [lemma, in UniMath.CategoryTheory.slicecat]
is_univalent_slicecat [lemma, in UniMath.CategoryTheory.slicecat]
is_catC:68 [binder, in UniMath.CategoryTheory.slicecat]
is_left_adjoint_slicecat_to_cat [lemma, in UniMath.CategoryTheory.slicecat]
is_functor_cat_to_slicecat_data [lemma, in UniMath.CategoryTheory.slicecat]
is_precategory_slice_precat_data [lemma, in UniMath.CategoryTheory.slicecat]
is_left_adjoint_inv [definition, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
is_iso_comp_is_iso [lemma, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
is_disp_pstrans_from_total [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
is_disp_pstrans [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
is_univalent_category_algebras [lemma, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
is_univalent_shSet_category [definition, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
is_univalent_algebras_disp [lemma, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
is_precategory_shSet_precategory_data [definition, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
is_biequiv_path_groupoid [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
is_left_adjoint_slicecat_to_cat_HSET [lemma, in UniMath.CategoryTheory.categories.HSET.Slice]
is_bifinal'_to_is_bifinal [definition, in UniMath.Bicategories.Colimits.Final]
is_bifinal'_eq_property [definition, in UniMath.Bicategories.Colimits.Final]
is_bifinal'_2cell_property [definition, in UniMath.Bicategories.Colimits.Final]
is_bifinal'_1cell_property [definition, in UniMath.Bicategories.Colimits.Final]
is_bifinal_to_is_bifinal' [definition, in UniMath.Bicategories.Colimits.Final]
is_bifinal' [definition, in UniMath.Bicategories.Colimits.Final]
is_bifinal [definition, in UniMath.Bicategories.Colimits.Final]
is_univalent_2_1_weq_local_univ [definition, in UniMath.Bicategories.Core.Univalence]
is_univalent_2_1_if_hom_is_univ [definition, in UniMath.Bicategories.Core.Univalence]
is_univ_hom [definition, in UniMath.Bicategories.Core.Univalence]
is_inv2cell_to_is_iso [definition, in UniMath.Bicategories.Core.Univalence]
is_univalent_2 [definition, in UniMath.Bicategories.Core.Univalence]
is_univalent_2_0 [definition, in UniMath.Bicategories.Core.Univalence]
is_univalent_2_1 [definition, in UniMath.Bicategories.Core.Univalence]
is_internal_adjunction_identity [lemma, in UniMath.Bicategories.Core.Univalence]
is_precategory_Quotcategory_data [lemma, in UniMath.CategoryTheory.PreAdditive]
is_precategory_hss [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
is_functor_ptd_from_alg_functor_data [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
is_ptd_mor_alg_mor [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
is_cartesian_precomp [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cartesian_transportf [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cartesian_disp_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cartesian_comp_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cartesian_id_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_functor_from_cleaving_data [lemma, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_split_fibration_from_discrete_fibration [lemma, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_split [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_split_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_split_id [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_functor_functor_data_preShv_Disc_fibs [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_discrete_fibration [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_isofibration_from_is_fibration [lemma, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_iso_from_is_cartesian [lemma, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cleaving [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cartesian_disp_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cartesian [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_isofibration_iff_is_op_isofibration [lemma, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_op_isofibration [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_uncloven_iso_cleaving [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_adj_int_equivalence [definition, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
is_int_equivalence [definition, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
is_quotient [lemma, in UniMath.Algebra.GroupAction]
is_torsor_prop [definition, in UniMath.Algebra.GroupAction]
is_torsor_isaprop [lemma, in UniMath.Algebra.GroupAction]
is_torsor [definition, in UniMath.Algebra.GroupAction]
is_equivariant_comp [definition, in UniMath.Algebra.GroupAction]
is_equivariant_identity [definition, in UniMath.Algebra.GroupAction]
is_equivariant_isaprop [definition, in UniMath.Algebra.GroupAction]
is_equivariant [definition, in UniMath.Algebra.GroupAction]
is_nat_trans_l_functors [lemma, in UniMath.CategoryTheory.HorizontalComposition]
is_nat_trans_a_functors [lemma, in UniMath.CategoryTheory.HorizontalComposition]
is_functor_functorial_composition_data [lemma, in UniMath.CategoryTheory.HorizontalComposition]
is_functor_functorial_composition_legacy_data [lemma, in UniMath.CategoryTheory.HorizontalComposition]
is_nat_trans_horcomp [lemma, in UniMath.CategoryTheory.HorizontalComposition]
is_disp_univalent_unit_disp_cat [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
is_catiso_reord_functor [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
is_guided_WOSubset [definition, in UniMath.Combinatorics.WellOrderedSets]
is_wosubset_chain [definition, in UniMath.Combinatorics.WellOrderedSets]
is_omega_cocont_BindingSigToSignatureHSET [lemma, in UniMath.SubstitutionSystems.BindingSigToMonad]
is_omega_cocont_BindingSigToSignature [lemma, in UniMath.SubstitutionSystems.BindingSigToMonad]
is_omega_cocont_Arity_to_Signature [lemma, in UniMath.SubstitutionSystems.BindingSigToMonad]
is_omega_cocont_precomp_option_iter [lemma, in UniMath.SubstitutionSystems.BindingSigToMonad]
is_nat_trans_yon_binprod_inv [lemma, in UniMath.CategoryTheory.YonedaBinproducts]
is_nat_trans_yon_binprod [lemma, in UniMath.CategoryTheory.YonedaBinproducts]
is_univalent_HSET [lemma, in UniMath.CategoryTheory.categories.HSET.Univalence]
is_weq_precat_paths_to_iso_hset [lemma, in UniMath.CategoryTheory.categories.HSET.Univalence]
is_set_sub_precategory_morphisms [lemma, in UniMath.CategoryTheory.Subcategory.Core]
is_functor_sub_precategory_inclusion [definition, in UniMath.CategoryTheory.Subcategory.Core]
is_precategory_sub_precategory [definition, in UniMath.CategoryTheory.Subcategory.Core]
is_sub_precategory [definition, in UniMath.CategoryTheory.Subcategory.Core]
is_omega_cocont_Sum_of_Signatures [lemma, in UniMath.SubstitutionSystems.SumOfSignatures]
is_nat_trans_θ_ob [lemma, in UniMath.SubstitutionSystems.SumOfSignatures]
is_nat_trans_θ_ob_fun [lemma, in UniMath.SubstitutionSystems.SumOfSignatures]
is_monic_post_whisker_left_adjoint_unit [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_monic_post_whisker_left_adjoint_unit_pointwise [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_epi_pre_whisker_left_adjoint_counit [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_epi_pre_whisker_left_adjoint_counit_pointwise [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_monic_pre_whisker_right_adjoint_unit [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_monic_pre_whisker_right_adjoint_unit_pointwise [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_epi_post_whisker_right_adjoint_counit [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_epi_post_whisker_right_adjoint_counit_pointwise [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_left_adjoint_post_composition_functor [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_universal_arrow_to [definition, in UniMath.CategoryTheory.Adjunctions.Core]
is_universal_arrow_from [definition, in UniMath.CategoryTheory.Adjunctions.Core]
is_left_adjoint_functor_identity [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_left_adjoint_iso [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_left_adjoint_functor_composite [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_left_adjoint_left_adjoint [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_right_adjoint_right_adjoint [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
is_right_adjoint [definition, in UniMath.CategoryTheory.Adjunctions.Core]
is_left_adjoint [definition, in UniMath.CategoryTheory.Adjunctions.Core]
is_discrete [definition, in UniMath.CategoryTheory.Groupoids]
is_pregroupoid_functor_cat [lemma, in UniMath.CategoryTheory.Groupoids]
is_univalent_pregroupoid_is_univalent [lemma, in UniMath.CategoryTheory.Groupoids]
is_univalent_pregroupoid [definition, in UniMath.CategoryTheory.Groupoids]
is_pregroupoid [definition, in UniMath.CategoryTheory.Groupoids]
is_z_iso_odot_z_iso [definition, in UniMath.CategoryTheory.Monoidal.Actions]
is_precategory_commrig_precategory_data [lemma, in UniMath.CategoryTheory.categories.commrigs]
is_unvialent_category_binproduct [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
is_nat_trans_post_whisker_snd_param [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
is_nat_trans_post_whisker_fst_param [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
is_functor_bindelta_pair_functor_data [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
is_functor_functor_fix_snd_arg_data [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
is_functor_functor_fix_fst_arg_data [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
is_z_iso_binprod_z_iso [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
is_iso_binprod_iso [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
is_iso_binprod_iso_aux [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
is_precategory_precategory_binproduct_data [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
is_omega_cocont_Lam [lemma, in UniMath.SubstitutionSystems.LamSignature]
is_nat_trans_Flat_θ_data [lemma, in UniMath.SubstitutionSystems.LamSignature]
is_nat_trans_Abs_θ_data [lemma, in UniMath.SubstitutionSystems.LamSignature]
is_nat_trans_Abs_θ_data_data [lemma, in UniMath.SubstitutionSystems.LamSignature]
is_nat_trans_App_θ_data [lemma, in UniMath.SubstitutionSystems.LamSignature]
is_omega_cocont_Abs_H [lemma, in UniMath.SubstitutionSystems.LamSignature]
is_omega_cocont_App_H [lemma, in UniMath.SubstitutionSystems.LamSignature]
is_lim_base_correct [lemma, in UniMath.Topology.Topology]
is_lim_base [definition, in UniMath.Topology.Topology]
is_lim [definition, in UniMath.Topology.Topology]
is_filter_lim_base_correct [lemma, in UniMath.Topology.Topology]
is_filter_lim_base [definition, in UniMath.Topology.Topology]
is_filter_lim [definition, in UniMath.Topology.Topology]
is_base_of_neighborhood [definition, in UniMath.Topology.Topology]
is_omega_cocont_MultiSortedSigToSignature [lemma, in UniMath.SubstitutionSystems.MultiSorted_alt]
is_omega_cocont_MultiSortedSigToFunctor [lemma, in UniMath.SubstitutionSystems.MultiSorted_alt]
is_omega_cocont_hat_exp_functor_list [lemma, in UniMath.SubstitutionSystems.MultiSorted_alt]
is_omega_cocont_post_comp_hat_functor [lemma, in UniMath.SubstitutionSystems.MultiSorted_alt]
is_left_adjoint_hat [lemma, in UniMath.SubstitutionSystems.MultiSorted_alt]
is_omega_cocont_exp_functor_list [lemma, in UniMath.SubstitutionSystems.MultiSorted_alt]
is_omega_cocont_exp_functor [lemma, in UniMath.SubstitutionSystems.MultiSorted_alt]
is_omega_cocont_post_comp_projSortToC [lemma, in UniMath.SubstitutionSystems.MultiSorted_alt]
is_left_adjoint_projSortToC [lemma, in UniMath.SubstitutionSystems.MultiSorted_alt]
is_nat_trans_monic_from_pointwise_monics [lemma, in UniMath.CategoryTheory.Monics]
is_iso_Monic [lemma, in UniMath.CategoryTheory.Monics]
is_iso_isMonic [lemma, in UniMath.CategoryTheory.Monics]
is_nat_trans_product_nat_trans_data [lemma, in UniMath.CategoryTheory.limits.products]
is_nat_trans_product_nat_trans_pr_data [lemma, in UniMath.CategoryTheory.limits.products]
is_functor_product_of_functors_data [lemma, in UniMath.CategoryTheory.limits.products]
is_psfunctor_isaprop [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
is_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
is_univalent_2_total_dirprod [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
is_univalent_2_0_total_dirprod [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
is_univalent_2_1_total_dirprod [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
is_univalent_2_dirprod_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
is_univalent_2_0_dirprod_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
is_univalent_2_1_dirprod_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
is_eqalgebra [definition, in UniMath.Algebra.Universal.EqAlgebras]
is_precategory_base_precategory_data [lemma, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
is_iso_colim_algebra_mor [definition, in UniMath.CategoryTheory.Chains.Adamek]
is_functor_LimFunctor_data [lemma, in UniMath.CategoryTheory.limits.cats.limits]
is_invertible_modcomponent_of [definition, in UniMath.Bicategories.Modifications.Modification]
is_invertible_modification [definition, in UniMath.Bicategories.Modifications.Modification]
is_modification [definition, in UniMath.Bicategories.Modifications.Modification]
is_univalent [definition, in UniMath.CategoryTheory.Core.Univalence]
is_univalent_CONE [lemma, in UniMath.CategoryTheory.limits.cones]
is_precategory_Cone [lemma, in UniMath.CategoryTheory.limits.cones]
is_functor_ColimFunctor_data [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
is_iso_isColim [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
is_cocone_mor [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
is_adjointequivalence_discrete_weq_iso [lemma, in UniMath.Bicategories.Discreteness]
is_discrete_bicategory_iscontr_is_invertible_2cell [lemma, in UniMath.Bicategories.Discreteness]
is_discrete_bicategory_has_homsets [lemma, in UniMath.Bicategories.Discreteness]
is_discrete_discrete_bicategory [lemma, in UniMath.Bicategories.Discreteness]
is_discrete_bicategory_trivial_2cells [definition, in UniMath.Bicategories.Discreteness]
is_discrete_bicategory_cellprop [definition, in UniMath.Bicategories.Discreteness]
is_discrete_bicategory [definition, in UniMath.Bicategories.Discreteness]
is_z_isomorphism_weq_is_iso [lemma, in UniMath.Bicategories.Discreteness]
is_catiso_left_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
is_catiso_to_left_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
is_nat_iso_to_is_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
is_invertible_2cell_to_is_nat_iso [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
is_incr_impl_strincr [lemma, in UniMath.Combinatorics.StandardFiniteSets]
is_strincr_impl_incr [lemma, in UniMath.Combinatorics.StandardFiniteSets]
is_stn_strictly_increasing [definition, in UniMath.Combinatorics.StandardFiniteSets]
is_stn_increasing [definition, in UniMath.Combinatorics.StandardFiniteSets]
is_reflective [definition, in UniMath.CategoryTheory.Subcategory.Reflective]
is_nat_trans_Gθ_mor [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
is_nat_trans_δ_genoption_mor_nat_trans [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
is_nat_trans_δ_genoption_mor [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
is_nat_trans_δ_comp_mor [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
is_nat_trans_θ_from_δ_mor [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
is_precategory_graph [lemma, in UniMath.CategoryTheory.categories.Graph]
is_precategory_pregraph [lemma, in UniMath.CategoryTheory.categories.Graph]
is_strict_modification [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
is_strict_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
is_disp_biequivalence_unit_counit [definition, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
is_open_union_open_hsubtype [lemma, in UniMath.AlgebraicGeometry.Topology]
is_univalent_category_eqalgebras [lemma, in UniMath.CategoryTheory.categories.Universal_Algebra.EqAlgebras]
is_univalent_eqalg_disp [lemma, in UniMath.CategoryTheory.categories.Universal_Algebra.EqAlgebras]
is_precategory_rig_precategory_data [lemma, in UniMath.CategoryTheory.categories.rigs]
is_precategory_ComplexPreCat_data [lemma, in UniMath.HomologicalAlgebra.Complexes]
is_nat_iso_to_is_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.BicatOfCats]
is_invertible_2cell_to_is_nat_iso [definition, in UniMath.Bicategories.Core.Examples.BicatOfCats]
is_equiv_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
is_iso_counit_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
is_iso_unit_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
is_prebicategory [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
is_univalent_2_fullsubbicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
is_univalent_2_0_fullsubbicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
is_univalent_2_1_fullsubbicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
is_equiv_from_ff_ess_over_id [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
is_equiv_of_equiv_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
is_equiv_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
is_iso_counit_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
is_iso_unit_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
is_merely_split_epi [definition, in UniMath.CategoryTheory.SplitMonicsAndEpis]
is_split_epi [definition, in UniMath.CategoryTheory.SplitMonicsAndEpis]
is_merely_split_monic_weq_precomp_is_surjection [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
is_split_monic_to_precomp_is_surjection [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
is_merely_split_monic [definition, in UniMath.CategoryTheory.SplitMonicsAndEpis]
is_split_monic [definition, in UniMath.CategoryTheory.SplitMonicsAndEpis]
is_nat_trans_g [lemma, in UniMath.CategoryTheory.limits.pullbacks]
is_symmetric_isPullback [lemma, in UniMath.CategoryTheory.limits.pullbacks]
is_nat_trans_PreShv_unit [definition, in UniMath.CategoryTheory.elems_slice_equiv]
is_nat_trans_slice_counit [definition, in UniMath.CategoryTheory.elems_slice_equiv]
is_functor_lifting_from_distr_law_data [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
is_lifting [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
is_nat_trans_τ_data_from_σ [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
is_nat_trans_σ_data_from_τ [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
is_left_adj_L':19 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
is_left_adj_L:16 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
is_end [definition, in UniMath.CategoryTheory.Profunctors.Core]
is_wedge [definition, in UniMath.CategoryTheory.Profunctors.Core]
is_dinat:36 [binder, in UniMath.CategoryTheory.Profunctors.Core]
is_dinatural [definition, in UniMath.CategoryTheory.Profunctors.Core]
is_univalent_Signature_category [definition, in UniMath.SubstitutionSystems.SignatureCategory]
is_univalent_Signature_category_displayed [definition, in UniMath.SubstitutionSystems.SignatureCategory]
is_left_adjoint_functor_cat_swap [lemma, in UniMath.CategoryTheory.Adjunctions.Examples]
is_left_adjoint_coproduct_functor [lemma, in UniMath.CategoryTheory.Adjunctions.Examples]
is_left_adjoint_bincoproduct_functor [lemma, in UniMath.CategoryTheory.Adjunctions.Examples]
is_left_adjoint_delta_functor [lemma, in UniMath.CategoryTheory.Adjunctions.Examples]
is_left_adjoint_bindelta_functor [lemma, in UniMath.CategoryTheory.Adjunctions.Examples]
is_functor_structure_presheaf_data [lemma, in UniMath.AlgebraicGeometry.Spec]
is_section_restriction_section_map [lemma, in UniMath.AlgebraicGeometry.Spec]
is_section_unel2 [lemma, in UniMath.AlgebraicGeometry.Spec]
is_section_op2 [lemma, in UniMath.AlgebraicGeometry.Spec]
is_section_inv [lemma, in UniMath.AlgebraicGeometry.Spec]
is_section_unel1 [lemma, in UniMath.AlgebraicGeometry.Spec]
is_section_op1 [lemma, in UniMath.AlgebraicGeometry.Spec]
is_section [definition, in UniMath.AlgebraicGeometry.Spec]
is_quotient_on [definition, in UniMath.AlgebraicGeometry.Spec]
is_left_adjoint_constprod_functor2 [lemma, in UniMath.CategoryTheory.exponentials]
is_iso_constprod_functor2 [lemma, in UniMath.CategoryTheory.exponentials]
is_iso_constprod_functor1 [lemma, in UniMath.CategoryTheory.exponentials]
is_exponentiable [definition, in UniMath.CategoryTheory.exponentials]
is_precategory_monoid_precategory_data [lemma, in UniMath.CategoryTheory.categories.monoids]
is_functor_hss_to_monad [lemma, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
is_cartesian_from_iso_to_cartesian [lemma, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
is_cartesian_disp_functor [definition, in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
is_precategory_intdom_precategory_data [lemma, in UniMath.CategoryTheory.categories.intdoms]
is_functor_ptd_forget [lemma, in UniMath.CategoryTheory.PointedFunctors]
is_precategory_ptd [lemma, in UniMath.CategoryTheory.PointedFunctors]
is_ptd_mor [definition, in UniMath.CategoryTheory.PointedFunctors]
is_limit_cone [definition, in UniMath.Induction.M.Limits]
is_functor_Under_mor_functor_data [lemma, in UniMath.CategoryTheory.UnderCategories]
is_precategory_Undercategory_data [definition, in UniMath.CategoryTheory.UnderCategories]
is_coalgebra_homo [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
is_biequivalence_of_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
is_biequivalence_adjoint_counit [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
is_biequivalence_adjoint_unit [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
is_biequivalence_adjoints [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
is_biequivalence_unit_counit [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
is_precategory_comma_cat_data [definition, in UniMath.CategoryTheory.CommaCategories]
is_functor_cComma_mor_functor_data [lemma, in UniMath.CategoryTheory.CommaCategories]
is_functor_ccomma_pr1 [lemma, in UniMath.CategoryTheory.CommaCategories]
is_precategory_ccomma_precategory_data [definition, in UniMath.CategoryTheory.CommaCategories]
is_nat_trans_epi_from_pointwise_epis [lemma, in UniMath.CategoryTheory.Epis]
is_iso_Epi [lemma, in UniMath.CategoryTheory.Epis]
is_iso_isEpi [lemma, in UniMath.CategoryTheory.Epis]
is_biinitial'_to_is_biinitial [definition, in UniMath.Bicategories.Colimits.Initial]
is_biinitial'_eq_property [definition, in UniMath.Bicategories.Colimits.Initial]
is_biinitial'_2cell_property [definition, in UniMath.Bicategories.Colimits.Initial]
is_biinitial'_1cell_property [definition, in UniMath.Bicategories.Colimits.Initial]
is_biinitial_to_is_biinitial' [definition, in UniMath.Bicategories.Colimits.Initial]
is_biinitial' [definition, in UniMath.Bicategories.Colimits.Initial]
is_biinitial [definition, in UniMath.Bicategories.Colimits.Initial]
is_omega_cocont_MultiSortedSigToSignature [lemma, in UniMath.SubstitutionSystems.MultiSorted]
is_omega_cocont_MultiSortedSigToFunctor [lemma, in UniMath.SubstitutionSystems.MultiSorted]
is_omega_cocont_hat_exp_functor_list [lemma, in UniMath.SubstitutionSystems.MultiSorted]
is_omega_cocont_post_comp_hat_functor [lemma, in UniMath.SubstitutionSystems.MultiSorted]
is_omega_cocont_exp_functor_list [lemma, in UniMath.SubstitutionSystems.MultiSorted]
is_omega_cocont_exp_functor [lemma, in UniMath.SubstitutionSystems.MultiSorted]
is_left_adjoint_hat [lemma, in UniMath.SubstitutionSystems.MultiSorted]
is_omega_cocont_post_comp_proj [lemma, in UniMath.SubstitutionSystems.MultiSorted]
is_left_adjoint_proj_functor [lemma, in UniMath.SubstitutionSystems.MultiSorted]
is_left_adjoint_proj_functor' [lemma, in UniMath.SubstitutionSystems.MultiSorted]
is_iso_nat_trans_proj_functor [lemma, in UniMath.SubstitutionSystems.MultiSorted]
is_prop:14 [binder, in UniMath.Induction.W.Core]
is_pre:13 [binder, in UniMath.Induction.W.Core]
is_prop:11 [binder, in UniMath.Induction.W.Core]
is_pre:10 [binder, in UniMath.Induction.W.Core]
is_preinitial_to_is_initial [lemma, in UniMath.Induction.W.Core]
is_initial [definition, in UniMath.Induction.W.Core]
is_preinitial [definition, in UniMath.Induction.W.Core]
is_precategory_precat_from_folds_data [lemma, in UniMath.Folds.from_precats_to_folds_and_back]
is_precategory_commring_precategory_data [lemma, in UniMath.CategoryTheory.categories.commrings]
is_omega_cocont_Lam_S [lemma, in UniMath.SubstitutionSystems.LamHSET]
is_disp_invertible_2cell_cod [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
is_preimage_for_pre_composition [lemma, in UniMath.CategoryTheory.precomp_ess_surj]
is_functor_preimage_functor_data [lemma, in UniMath.CategoryTheory.precomp_ess_surj]
is_nat_trans_iso2' [lemma, in UniMath.SubstitutionSystems.LiftingInitial]
is_iso_from_BinCoproduct_to_BinCoproduct [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
is_nat_trans_fam_unit [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
is_nat_trans_fam_unit_fun [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
is_nat_trans_slice_counit [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
is_functor_fam_to_slice [lemma, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
is_functor_slice_to_fam [lemma, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
is_nat_trans_slice_to_fam_mor [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
is_univalent_iso_comma [definition, in UniMath.CategoryTheory.IsoCommaCategory]
is_univalent_disp_iso_comma_disp_cat [definition, in UniMath.CategoryTheory.IsoCommaCategory]
is_nat_trans_μ [lemma, in UniMath.CategoryTheory.Monads.KTriples]
is_nat_trans_η [lemma, in UniMath.CategoryTheory.Monads.KTriples]
is_nat_trans_kleisli_mor [lemma, in UniMath.CategoryTheory.Monads.KTriples]
is_functor_kleisli [definition, in UniMath.CategoryTheory.Monads.KTriples]
is_nat_trans_ψ_from_comps [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
is_iso_inF [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
is_precategory_abmonoid_precategory_data [lemma, in UniMath.CategoryTheory.categories.abmonoids]
is_retraction [definition, in UniMath.CategoryTheory.Core.Categories]
is_precategory_one_assoc_to_two [definition, in UniMath.CategoryTheory.Core.Categories]
is_precategory_one_assoc [definition, in UniMath.CategoryTheory.Core.Categories]
is_precategory [definition, in UniMath.CategoryTheory.Core.Categories]
is_univalent_disp_from_SIP_data [lemma, in UniMath.CategoryTheory.DisplayedCats.SIP]
is_functor_LimFunctor_data [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
is_iso_isLim [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
is_cone_mor [definition, in UniMath.CategoryTheory.limits.graphs.limits]
is_nat_trans_binproduct_nat_trans_data [lemma, in UniMath.CategoryTheory.limits.binproducts]
is_nat_trans_binproduct_nat_trans_pr2_data [lemma, in UniMath.CategoryTheory.limits.binproducts]
is_nat_trans_binproduct_nat_trans_pr1_data [lemma, in UniMath.CategoryTheory.limits.binproducts]
is_functor_BinProduct_of_functors_data [lemma, in UniMath.CategoryTheory.limits.binproducts]
is':1016 [binder, in UniMath.Algebra.RigsAndRings]
is':1407 [binder, in UniMath.Foundations.Sets]
is':1427 [binder, in UniMath.Foundations.Sets]
is':1477 [binder, in UniMath.Foundations.Sets]
is':214 [binder, in UniMath.PAdics.padics]
is':233 [binder, in UniMath.PAdics.padics]
is':33 [binder, in UniMath.MoreFoundations.QuotientSet]
is':415 [binder, in UniMath.Foundations.NaturalNumbers]
is':451 [binder, in UniMath.Foundations.NaturalNumbers]
is':457 [binder, in UniMath.Foundations.NaturalNumbers]
is':493 [binder, in UniMath.Algebra.Groups]
is':504 [binder, in UniMath.Algebra.Groups]
is':556 [binder, in UniMath.Combinatorics.StandardFiniteSets]
is':598 [binder, in UniMath.Foundations.PartB]
is':638 [binder, in UniMath.Algebra.Monoids]
is':650 [binder, in UniMath.Algebra.Monoids]
is':696 [binder, in UniMath.Algebra.RigsAndRings]
is0:1012 [binder, in UniMath.Algebra.RigsAndRings]
is0:1021 [binder, in UniMath.Algebra.RigsAndRings]
is0:124 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:16 [binder, in UniMath.Topology.Topology]
is0:197 [binder, in UniMath.Algebra.BinaryOperations]
is0:202 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:210 [binder, in UniMath.Algebra.Lattice]
is0:235 [binder, in UniMath.Algebra.Archimedean]
is0:290 [binder, in UniMath.Algebra.Lattice]
is0:309 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:316 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:331 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:355 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:411 [binder, in UniMath.Algebra.RigsAndRings]
is0:413 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:416 [binder, in UniMath.Algebra.RigsAndRings]
is0:421 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:421 [binder, in UniMath.Algebra.RigsAndRings]
is0:426 [binder, in UniMath.Algebra.RigsAndRings]
is0:432 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:435 [binder, in UniMath.Algebra.RigsAndRings]
is0:440 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:443 [binder, in UniMath.Algebra.RigsAndRings]
is0:448 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:451 [binder, in UniMath.Algebra.RigsAndRings]
is0:456 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:459 [binder, in UniMath.Algebra.RigsAndRings]
is0:464 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:472 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:472 [binder, in UniMath.Algebra.RigsAndRings]
is0:480 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:485 [binder, in UniMath.Algebra.RigsAndRings]
is0:489 [binder, in UniMath.Algebra.RigsAndRings]
is0:497 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:5 [binder, in UniMath.AlgebraicGeometry.Topology]
is0:502 [binder, in UniMath.Algebra.RigsAndRings]
is0:506 [binder, in UniMath.Algebra.Domains_and_Fields]
is0:509 [binder, in UniMath.Algebra.RigsAndRings]
is0:526 [binder, in UniMath.Algebra.RigsAndRings]
is0:530 [binder, in UniMath.Algebra.RigsAndRings]
is0:645 [binder, in UniMath.Foundations.PartB]
is0:675 [binder, in UniMath.Algebra.RigsAndRings]
is0:700 [binder, in UniMath.Algebra.RigsAndRings]
is0:721 [binder, in UniMath.Algebra.RigsAndRings]
is0:944 [binder, in UniMath.Algebra.RigsAndRings]
is0:951 [binder, in UniMath.Algebra.RigsAndRings]
is0:958 [binder, in UniMath.Algebra.RigsAndRings]
is0:985 [binder, in UniMath.Algebra.RigsAndRings]
is12:443 [binder, in UniMath.Algebra.BinaryOperations]
is12:450 [binder, in UniMath.Algebra.BinaryOperations]
is12:462 [binder, in UniMath.Algebra.BinaryOperations]
is12:469 [binder, in UniMath.Algebra.BinaryOperations]
is12:476 [binder, in UniMath.Algebra.BinaryOperations]
is12:483 [binder, in UniMath.Algebra.BinaryOperations]
is12:499 [binder, in UniMath.Foundations.Sets]
is12:516 [binder, in UniMath.Foundations.Sets]
is1:1013 [binder, in UniMath.Algebra.RigsAndRings]
is1:1019 [binder, in UniMath.Foundations.Sets]
is1:1022 [binder, in UniMath.Algebra.RigsAndRings]
is1:1082 [binder, in UniMath.Foundations.Sets]
is1:1135 [binder, in UniMath.Foundations.Sets]
is1:118 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:125 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:133 [binder, in UniMath.Foundations.PartC]
is1:144 [binder, in UniMath.Algebra.BinaryOperations]
is1:144 [binder, in UniMath.Foundations.PartC]
is1:149 [binder, in UniMath.Foundations.PartC]
is1:158 [binder, in UniMath.Foundations.PartC]
is1:163 [binder, in UniMath.Foundations.PartC]
is1:168 [binder, in UniMath.Combinatorics.Lists]
is1:168 [binder, in UniMath.Foundations.PartC]
is1:17 [binder, in UniMath.Topology.Topology]
is1:176 [binder, in UniMath.Foundations.PartC]
is1:203 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:221 [binder, in UniMath.Foundations.PartB]
is1:229 [binder, in UniMath.Foundations.PartB]
is1:235 [binder, in UniMath.Foundations.PartB]
is1:236 [binder, in UniMath.Algebra.Archimedean]
is1:249 [binder, in UniMath.Algebra.Lattice]
is1:251 [binder, in UniMath.Foundations.Sets]
is1:259 [binder, in UniMath.Foundations.PartC]
is1:294 [binder, in UniMath.Algebra.Lattice]
is1:310 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:317 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:332 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:337 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:343 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:349 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:356 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:375 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:414 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:422 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:433 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:441 [binder, in UniMath.Algebra.BinaryOperations]
is1:441 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:448 [binder, in UniMath.Algebra.BinaryOperations]
is1:449 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:455 [binder, in UniMath.Algebra.BinaryOperations]
is1:457 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:460 [binder, in UniMath.Algebra.BinaryOperations]
is1:465 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:467 [binder, in UniMath.Algebra.BinaryOperations]
is1:473 [binder, in UniMath.Algebra.Domains_and_Fields]
is1:474 [binder, in UniMath.Algebra.BinaryOperations]
is1:474 [binder, in UniMath.Foundations.Sets]
is1:481 [binder, in UniMath.Algebra.BinaryOperations]
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is:300 [binder, in UniMath.NumberSystems.RationalNumbers]
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is:302 [binder, in UniMath.Algebra.BinaryOperations]
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is:31 [binder, in UniMath.NumberSystems.Integers]
is:31 [binder, in UniMath.NumberSystems.RationalNumbers]
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is:313 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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is:32 [binder, in UniMath.MoreFoundations.QuotientSet]
is:325 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
is:326 [binder, in UniMath.Foundations.PartD]
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is:37 [binder, in UniMath.RealNumbers.Sets]
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is:377 [binder, in UniMath.Algebra.Groups]
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is:38 [binder, in UniMath.Algebra.Modules.Quotient]
is:38 [binder, in UniMath.SyntheticHomotopyTheory.Test]
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is:385 [binder, in UniMath.Foundations.NaturalNumbers]
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is:390 [binder, in UniMath.Foundations.Sets]
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is:392 [binder, in UniMath.NumberSystems.RationalNumbers]
is:393 [binder, in UniMath.Algebra.BinaryOperations]
is:393 [binder, in UniMath.Foundations.NaturalNumbers]
is:393 [binder, in UniMath.Algebra.Groups]
is:395 [binder, in UniMath.NumberSystems.RationalNumbers]
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is:398 [binder, in UniMath.NumberSystems.RationalNumbers]
is:399 [binder, in UniMath.Foundations.NaturalNumbers]
is:399 [binder, in UniMath.Algebra.Groups]
is:4 [binder, in UniMath.AlgebraicGeometry.Topology]
is:40 [binder, in UniMath.Tactics.Abmonoids_Tactics]
is:40 [binder, in UniMath.MoreFoundations.QuotientSet]
is:400 [binder, in UniMath.Topology.Topology]
is:400 [binder, in UniMath.Foundations.Sets]
is:400 [binder, in UniMath.Foundations.PartC]
is:401 [binder, in UniMath.NumberSystems.RationalNumbers]
is:402 [binder, in UniMath.Topology.Topology]
is:403 [binder, in UniMath.Foundations.NaturalNumbers]
is:404 [binder, in UniMath.Algebra.Groups]
is:404 [binder, in UniMath.Topology.Topology]
is:406 [binder, in UniMath.Foundations.NaturalNumbers]
is:406 [binder, in UniMath.Topology.Topology]
is:406 [binder, in UniMath.Foundations.PartC]
is:407 [binder, in UniMath.Foundations.PartB]
is:408 [binder, in UniMath.Topology.Topology]
is:41 [binder, in UniMath.Algebra.Monoids]
is:410 [binder, in UniMath.Algebra.BinaryOperations]
is:410 [binder, in UniMath.Topology.Topology]
is:411 [binder, in UniMath.Algebra.Domains_and_Fields]
is:412 [binder, in UniMath.Topology.Topology]
is:413 [binder, in UniMath.Algebra.RigsAndRings]
is:414 [binder, in UniMath.Algebra.BinaryOperations]
is:414 [binder, in UniMath.Foundations.NaturalNumbers]
is:414 [binder, in UniMath.Topology.Topology]
is:416 [binder, in UniMath.Topology.Topology]
is:418 [binder, in UniMath.Foundations.PartD]
is:418 [binder, in UniMath.Algebra.BinaryOperations]
is:418 [binder, in UniMath.Foundations.NaturalNumbers]
is:418 [binder, in UniMath.Algebra.RigsAndRings]
is:419 [binder, in UniMath.Algebra.Domains_and_Fields]
is:42 [binder, in UniMath.Algebra.DivisionRig]
is:42 [binder, in UniMath.SyntheticHomotopyTheory.Test]
is:421 [binder, in UniMath.Foundations.NaturalNumbers]
is:421 [binder, in UniMath.Topology.Topology]
is:422 [binder, in UniMath.Algebra.BinaryOperations]
is:423 [binder, in UniMath.Algebra.Groups]
is:423 [binder, in UniMath.Topology.Topology]
is:423 [binder, in UniMath.Algebra.RigsAndRings]
is:426 [binder, in UniMath.Algebra.BinaryOperations]
is:426 [binder, in UniMath.Topology.Topology]
is:427 [binder, in UniMath.Algebra.Groups]
is:428 [binder, in UniMath.Topology.Topology]
is:428 [binder, in UniMath.Algebra.RigsAndRings]
is:430 [binder, in UniMath.Algebra.BinaryOperations]
is:430 [binder, in UniMath.Algebra.Domains_and_Fields]
is:431 [binder, in UniMath.Algebra.Groups]
is:431 [binder, in UniMath.Topology.Topology]
is:432 [binder, in UniMath.Foundations.PartB]
is:433 [binder, in UniMath.Topology.Topology]
is:434 [binder, in UniMath.Algebra.BinaryOperations]
is:435 [binder, in UniMath.Algebra.Groups]
is:436 [binder, in UniMath.Topology.Topology]
is:436 [binder, in UniMath.Algebra.RigsAndRings]
is:436 [binder, in UniMath.Foundations.PartC]
is:437 [binder, in UniMath.Combinatorics.StandardFiniteSets]
is:438 [binder, in UniMath.Algebra.Domains_and_Fields]
is:438 [binder, in UniMath.NumberSystems.Integers]
is:439 [binder, in UniMath.Algebra.Groups]
is:440 [binder, in UniMath.Foundations.PartC]
is:443 [binder, in UniMath.Foundations.NaturalNumbers]
is:443 [binder, in UniMath.Algebra.Groups]
is:443 [binder, in UniMath.NumberSystems.Integers]
is:444 [binder, in UniMath.Algebra.RigsAndRings]
is:446 [binder, in UniMath.Foundations.PartB]
is:446 [binder, in UniMath.Algebra.Domains_and_Fields]
is:447 [binder, in UniMath.Foundations.NaturalNumbers]
is:447 [binder, in UniMath.Algebra.Groups]
is:448 [binder, in UniMath.NumberSystems.Integers]
is:45 [binder, in UniMath.MoreFoundations.NullHomotopies]
is:451 [binder, in UniMath.Algebra.Groups]
is:452 [binder, in UniMath.Foundations.NaturalNumbers]
is:452 [binder, in UniMath.Algebra.RigsAndRings]
is:453 [binder, in UniMath.Algebra.Monoids]
is:453 [binder, in UniMath.Foundations.PartB]
is:454 [binder, in UniMath.Algebra.Domains_and_Fields]
is:454 [binder, in UniMath.PAdics.fps]
is:455 [binder, in UniMath.Algebra.Groups]
is:455 [binder, in UniMath.NumberSystems.Integers]
is:456 [binder, in UniMath.Foundations.NaturalNumbers]
is:459 [binder, in UniMath.Algebra.Groups]
is:459 [binder, in UniMath.PAdics.fps]
is:460 [binder, in UniMath.NumberSystems.Integers]
is:460 [binder, in UniMath.Algebra.RigsAndRings]
is:462 [binder, in UniMath.Algebra.Domains_and_Fields]
is:462 [binder, in UniMath.Foundations.PartC]
is:463 [binder, in UniMath.Algebra.Monoids]
is:463 [binder, in UniMath.Algebra.Groups]
is:463 [binder, in UniMath.NumberSystems.Integers]
is:464 [binder, in UniMath.PAdics.fps]
is:466 [binder, in UniMath.Foundations.PartD]
is:466 [binder, in UniMath.NumberSystems.Integers]
is:467 [binder, in UniMath.Algebra.Monoids]
is:467 [binder, in UniMath.Algebra.Groups]
is:469 [binder, in UniMath.NumberSystems.Integers]
is:469 [binder, in UniMath.Algebra.RigsAndRings]
is:469 [binder, in UniMath.Foundations.PartC]
is:47 [binder, in UniMath.Tactics.Abmonoids_Tactics]
is:47 [binder, in UniMath.Induction.M.Limits]
is:470 [binder, in UniMath.Algebra.Domains_and_Fields]
is:470 [binder, in UniMath.Foundations.Sets]
is:471 [binder, in UniMath.Algebra.Monoids]
is:471 [binder, in UniMath.Algebra.Groups]
is:471 [binder, in UniMath.NumberSystems.Integers]
is:473 [binder, in UniMath.Foundations.PartB]
is:473 [binder, in UniMath.Algebra.RigsAndRings]
is:475 [binder, in UniMath.Algebra.Groups]
is:476 [binder, in UniMath.Algebra.Monoids]
is:477 [binder, in UniMath.NumberSystems.Integers]
is:478 [binder, in UniMath.Algebra.Domains_and_Fields]
is:479 [binder, in UniMath.Algebra.Groups]
is:479 [binder, in UniMath.NumberSystems.Integers]
is:48 [binder, in UniMath.Algebra.DivisionRig]
is:48 [binder, in UniMath.MoreFoundations.QuotientSet]
is:481 [binder, in UniMath.Algebra.Monoids]
is:483 [binder, in UniMath.Algebra.Groups]
is:485 [binder, in UniMath.NumberSystems.Integers]
is:486 [binder, in UniMath.Algebra.Monoids]
is:487 [binder, in UniMath.Foundations.PartD]
is:487 [binder, in UniMath.Algebra.BinaryOperations]
is:487 [binder, in UniMath.Algebra.Groups]
is:490 [binder, in UniMath.Algebra.RigsAndRings]
is:491 [binder, in UniMath.Algebra.Monoids]
is:492 [binder, in UniMath.Algebra.BinaryOperations]
is:492 [binder, in UniMath.Algebra.Groups]
is:493 [binder, in UniMath.Foundations.PartD]
is:493 [binder, in UniMath.Algebra.RigsAndRings]
is:495 [binder, in UniMath.Foundations.PartD]
is:495 [binder, in UniMath.Foundations.PartB]
is:495 [binder, in UniMath.Algebra.Domains_and_Fields]
is:496 [binder, in UniMath.Algebra.Monoids]
is:497 [binder, in UniMath.Foundations.PartB]
is:497 [binder, in UniMath.Algebra.BinaryOperations]
is:50 [binder, in UniMath.MoreFoundations.NullHomotopies]
is:50 [binder, in UniMath.Algebra.DivisionRig]
is:50 [binder, in UniMath.Algebra.Modules.Quotient]
is:501 [binder, in UniMath.Algebra.Monoids]
is:501 [binder, in UniMath.Algebra.BinaryOperations]
is:503 [binder, in UniMath.Algebra.Groups]
is:503 [binder, in UniMath.Algebra.RigsAndRings]
is:504 [binder, in UniMath.Algebra.Domains_and_Fields]
is:506 [binder, in UniMath.Algebra.Monoids]
is:506 [binder, in UniMath.Algebra.BinaryOperations]
is:509 [binder, in UniMath.Foundations.PartB]
is:51 [binder, in UniMath.Algebra.Universal.Algebras]
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is:511 [binder, in UniMath.Algebra.Monoids]
is:512 [binder, in UniMath.Algebra.Groups]
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is:516 [binder, in UniMath.Foundations.PartB]
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is:518 [binder, in UniMath.Algebra.Groups]
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is:522 [binder, in UniMath.Algebra.Groups]
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is:525 [binder, in UniMath.Foundations.PartC]
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is:527 [binder, in UniMath.Algebra.Groups]
is:529 [binder, in UniMath.Algebra.BinaryOperations]
is:53 [binder, in UniMath.Tactics.Abmonoids_Tactics]
is:53 [binder, in UniMath.Algebra.Lattice]
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is:531 [binder, in UniMath.Algebra.RigsAndRings]
is:532 [binder, in UniMath.Combinatorics.StandardFiniteSets]
is:536 [binder, in UniMath.Algebra.Monoids]
is:536 [binder, in UniMath.Algebra.BinaryOperations]
is:539 [binder, in UniMath.Foundations.PartB]
is:539 [binder, in UniMath.Combinatorics.StandardFiniteSets]
is:54 [binder, in UniMath.MoreFoundations.MoreEquivalences]
is:54 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
is:540 [binder, in UniMath.Foundations.PartC]
is:541 [binder, in UniMath.Algebra.Monoids]
is:543 [binder, in UniMath.Foundations.Sets]
is:544 [binder, in UniMath.Combinatorics.StandardFiniteSets]
is:544 [binder, in UniMath.Foundations.PartC]
is:546 [binder, in UniMath.Algebra.Monoids]
is:547 [binder, in UniMath.Foundations.Sets]
is:55 [binder, in UniMath.Algebra.Lattice]
is:55 [binder, in UniMath.Foundations.Sets]
is:550 [binder, in UniMath.Foundations.PartC]
is:551 [binder, in UniMath.Algebra.Monoids]
is:551 [binder, in UniMath.Foundations.PartB]
is:551 [binder, in UniMath.Foundations.Sets]
is:553 [binder, in UniMath.Foundations.NaturalNumbers]
is:553 [binder, in UniMath.Foundations.Sets]
is:555 [binder, in UniMath.Combinatorics.StandardFiniteSets]
is:556 [binder, in UniMath.Algebra.Monoids]
is:556 [binder, in UniMath.Foundations.NaturalNumbers]
is:557 [binder, in UniMath.Foundations.Sets]
is:56 [binder, in UniMath.Combinatorics.OrderedSets]
is:561 [binder, in UniMath.Algebra.Monoids]
is:565 [binder, in UniMath.Foundations.PartB]
is:565 [binder, in UniMath.Foundations.Sets]
is:566 [binder, in UniMath.Algebra.Monoids]
is:57 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
is:57 [binder, in UniMath.Algebra.Lattice]
is:57 [binder, in UniMath.Foundations.PartC]
is:571 [binder, in UniMath.Algebra.Monoids]
is:584 [binder, in UniMath.Algebra.Monoids]
is:589 [binder, in UniMath.Foundations.PartB]
is:593 [binder, in UniMath.Foundations.PartB]
is:595 [binder, in UniMath.Algebra.BinaryOperations]
is:596 [binder, in UniMath.Foundations.Sets]
is:597 [binder, in UniMath.Algebra.Monoids]
is:597 [binder, in UniMath.Foundations.PartB]
is:598 [binder, in UniMath.Foundations.PartD]
is:6 [binder, in UniMath.Algebra.DivisionRig]
is:6 [binder, in UniMath.Tactics.Abmonoids_Tactics]
is:6 [binder, in UniMath.Algebra.Domains_and_Fields]
is:6 [binder, in UniMath.Foundations.PartC]
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is:60 [binder, in UniMath.MoreFoundations.QuotientSet]
is:60 [binder, in UniMath.MoreFoundations.NegativePropositions]
is:601 [binder, in UniMath.Foundations.PartB]
is:602 [binder, in UniMath.Foundations.PartD]
is:602 [binder, in UniMath.Algebra.Monoids]
is:605 [binder, in UniMath.Foundations.PartD]
is:605 [binder, in UniMath.Foundations.PartB]
is:608 [binder, in UniMath.Foundations.PartD]
is:61 [binder, in UniMath.Combinatorics.OrderedSets]
is:61 [binder, in UniMath.Foundations.Sets]
is:61 [binder, in UniMath.Foundations.PartC]
is:611 [binder, in UniMath.Foundations.PartD]
is:614 [binder, in UniMath.Foundations.PartD]
is:617 [binder, in UniMath.Foundations.PartD]
is:619 [binder, in UniMath.Algebra.Monoids]
is:620 [binder, in UniMath.Foundations.PartD]
is:624 [binder, in UniMath.Foundations.PartD]
is:624 [binder, in UniMath.Foundations.PartB]
is:628 [binder, in UniMath.Foundations.PartD]
is:63 [binder, in UniMath.Algebra.Modules.Multimodules]
is:63 [binder, in UniMath.Foundations.Sets]
is:633 [binder, in UniMath.Foundations.PartD]
is:634 [binder, in UniMath.Foundations.PartB]
is:637 [binder, in UniMath.Foundations.PartD]
is:637 [binder, in UniMath.Algebra.Monoids]
is:641 [binder, in UniMath.Foundations.PartD]
is:643 [binder, in UniMath.Foundations.PartB]
is:645 [binder, in UniMath.Foundations.PartD]
is:649 [binder, in UniMath.Algebra.Monoids]
is:65 [binder, in UniMath.Algebra.DivisionRig]
is:65 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
is:65 [binder, in UniMath.Algebra.RigsAndRings]
is:659 [binder, in UniMath.Algebra.Monoids]
is:66 [binder, in UniMath.Tactics.Abmonoids_Tactics]
is:664 [binder, in UniMath.Algebra.Monoids]
is:67 [binder, in UniMath.Combinatorics.OrderedSets]
is:67 [binder, in UniMath.Foundations.Sets]
is:670 [binder, in UniMath.Algebra.Monoids]
is:672 [binder, in UniMath.Algebra.RigsAndRings]
is:676 [binder, in UniMath.Algebra.RigsAndRings]
is:68 [binder, in UniMath.Foundations.PartC]
is:69 [binder, in UniMath.PAdics.frac]
is:69 [binder, in UniMath.Algebra.Lattice]
is:695 [binder, in UniMath.Algebra.RigsAndRings]
is:7 [binder, in UniMath.Algebra.Lattice]
is:700 [binder, in UniMath.Foundations.Sets]
is:702 [binder, in UniMath.Algebra.RigsAndRings]
is:706 [binder, in UniMath.Foundations.Sets]
is:71 [binder, in UniMath.Algebra.BinaryOperations]
is:71 [binder, in UniMath.PAdics.frac]
is:712 [binder, in UniMath.Foundations.Sets]
is:716 [binder, in UniMath.Algebra.BinaryOperations]
is:725 [binder, in UniMath.Algebra.RigsAndRings]
is:73 [binder, in UniMath.Algebra.Lattice]
is:744 [binder, in UniMath.Foundations.PartA]
is:746 [binder, in UniMath.Foundations.PartA]
is:76 [binder, in UniMath.Algebra.Groups]
is:789 [binder, in UniMath.Foundations.Sets]
is:8 [binder, in UniMath.Algebra.DivisionRig]
is:8 [binder, in UniMath.CategoryTheory.Groupoids]
is:817 [binder, in UniMath.Algebra.BinaryOperations]
is:826 [binder, in UniMath.Foundations.Sets]
is:83 [binder, in UniMath.Algebra.Groups]
is:831 [binder, in UniMath.Foundations.Sets]
is:838 [binder, in UniMath.Foundations.Sets]
is:84 [binder, in UniMath.Combinatorics.FiniteSets]
is:841 [binder, in UniMath.Algebra.BinaryOperations]
is:848 [binder, in UniMath.Foundations.Sets]
is:858 [binder, in UniMath.Algebra.BinaryOperations]
is:86 [binder, in UniMath.Algebra.BinaryOperations]
is:86 [binder, in UniMath.Algebra.Groups]
is:86 [binder, in UniMath.Combinatorics.FiniteSets]
is:870 [binder, in UniMath.Foundations.Sets]
is:878 [binder, in UniMath.Foundations.Sets]
is:884 [binder, in UniMath.Foundations.Sets]
is:89 [binder, in UniMath.Algebra.BinaryOperations]
is:89 [binder, in UniMath.Algebra.Groups]
is:891 [binder, in UniMath.Foundations.Sets]
is:9 [binder, in UniMath.CategoryTheory.SimplicialSets]
is:904 [binder, in UniMath.Foundations.Sets]
is:906 [binder, in UniMath.Algebra.BinaryOperations]
is:908 [binder, in UniMath.Foundations.PartA]
is:917 [binder, in UniMath.Algebra.BinaryOperations]
is:919 [binder, in UniMath.Foundations.Sets]
is:92 [binder, in UniMath.Algebra.BinaryOperations]
is:920 [binder, in UniMath.Foundations.PartA]
is:924 [binder, in UniMath.Foundations.PartA]
is:928 [binder, in UniMath.Algebra.BinaryOperations]
is:93 [binder, in UniMath.Algebra.RigsAndRings]
is:933 [binder, in UniMath.Algebra.BinaryOperations]
is:94 [binder, in UniMath.Algebra.Groups]
is:940 [binder, in UniMath.Algebra.RigsAndRings]
is:940 [binder, in UniMath.Foundations.Sets]
is:944 [binder, in UniMath.Algebra.BinaryOperations]
is:95 [binder, in UniMath.Algebra.BinaryOperations]
is:955 [binder, in UniMath.Algebra.BinaryOperations]
is:96 [binder, in UniMath.Algebra.Monoids]
is:960 [binder, in UniMath.Algebra.BinaryOperations]
is:964 [binder, in UniMath.Foundations.Sets]
is:969 [binder, in UniMath.Algebra.BinaryOperations]
is:97 [binder, in UniMath.Algebra.Lattice]
is:978 [binder, in UniMath.Algebra.BinaryOperations]
is:98 [binder, in UniMath.PAdics.z_mod_p]
is:982 [binder, in UniMath.Algebra.BinaryOperations]
is:986 [binder, in UniMath.Algebra.BinaryOperations]
is:99 [binder, in UniMath.Algebra.Groups]
is:99 [binder, in UniMath.RealNumbers.Sets]
is:990 [binder, in UniMath.Algebra.BinaryOperations]
is:994 [binder, in UniMath.Algebra.BinaryOperations]
is:999 [binder, in UniMath.Algebra.BinaryOperations]
isμ:286 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
isν:287 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
It [definition, in UniMath.SubstitutionSystems.GenMendlerIteration]
It [definition, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
iter [definition, in UniMath.Algebra.Dcpo]
IteratedBinaryOperations [library]
iteration [definition, in UniMath.Foundations.PartA]
iterbuild [section, in UniMath.Algebra.Universal.Terms]
itercurry [definition, in UniMath.Algebra.Universal.Terms]
iterfun [definition, in UniMath.Algebra.Universal.Terms]
iterop_unoseq_unoseq_mon [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_unoseq_abgr [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_unoseq_mon [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_fun_nat [lemma, in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_mon_concatenate [lemma, in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_mon_homot [lemma, in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_seq_mon_step [lemma, in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_mon_append [lemma, in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_mon_singleton [lemma, in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_mon_step [lemma, in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_mon_nil [lemma, in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_mon_step [lemma, in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_mon_len1 [lemma, in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_list_mon [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_seq_mon [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_mon [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_mon [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_fun_mon [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_fun_append [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_fun_step [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_fun_step' [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_step [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_seq [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_fun_fun [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_list [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_fun [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_list [definition, in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_mon_map [lemma, in UniMath.CategoryTheory.categories.monoids]
iter_functor [definition, in UniMath.CategoryTheory.Core.Functors]
iter_functor1 [definition, in UniMath.SubstitutionSystems.SignatureExamples]
iter_isdcpomorphism' [lemma, in UniMath.Algebra.Dcpo]
iter_preservesorder [lemma, in UniMath.Algebra.Dcpo]
iter' [definition, in UniMath.Algebra.Dcpo]
iter'_isdirected [lemma, in UniMath.Algebra.Dcpo]
iter'_increases [lemma, in UniMath.Algebra.Dcpo]
iter'_isomegachain [lemma, in UniMath.Algebra.Dcpo]
ith_modulefun [definition, in UniMath.Algebra.Modules.Multimodules]
ith_linearfun [definition, in UniMath.Algebra.Modules.Multimodules]
ith_module [definition, in UniMath.Algebra.Modules.Multimodules]
It_is_preIt [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration]
It_is_preIt [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
I_D [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
I_C [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
I_inhab:466 [binder, in UniMath.Algebra.FixedPointTheorems]
I_graph [definition, in UniMath.CategoryTheory.limits.coproducts]
I_func_I [lemma, in UniMath.Folds.folds_precat]
I_func [definition, in UniMath.Folds.folds_precat]
I_contr [lemma, in UniMath.Folds.folds_precat]
I_unique [lemma, in UniMath.Folds.folds_precat]
I_posttensor_ok [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
I_posttensor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
I_pretensor_ok [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
I_pretensor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
I_A [definition, in UniMath.CategoryTheory.Monoidal.Actions]
I_graph [definition, in UniMath.CategoryTheory.limits.products]
I_A [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
I_mult_laws [lemma, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
I':102 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
I':105 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
i':11 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
i':1106 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
i':1129 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
i':202 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':210 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':218 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':226 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':235 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':236 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
i':243 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':297 [binder, in UniMath.Combinatorics.StandardFiniteSets]
i':304 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':305 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':351 [binder, in UniMath.CategoryTheory.limits.pullbacks]
i':360 [binder, in UniMath.CategoryTheory.limits.pullbacks]
i':428 [binder, in UniMath.CategoryTheory.Core.Isos]
i':434 [binder, in UniMath.CategoryTheory.Core.Isos]
i':560 [binder, in UniMath.Foundations.NaturalNumbers]
i':576 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':584 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':593 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':600 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':607 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':614 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':621 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':628 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':63 [binder, in UniMath.Folds.folds_isomorphism]
i':635 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':642 [binder, in UniMath.HomologicalAlgebra.Complexes]
i':65 [binder, in UniMath.Folds.folds_precat]
i':652 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
I':76 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
i':79 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
i':82 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
I':86 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
i':88 [binder, in UniMath.Folds.folds_isomorphism]
I':89 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
I':92 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
I':96 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
I':99 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
i0:100 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:101 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1016 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1018 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:102 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1025 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1027 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1028 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:103 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1030 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1031 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1033 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1034 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1036 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1038 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1040 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1041 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1042 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1043 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1044 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1045 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1046 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1047 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1048 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1049 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1050 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1051 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1052 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1053 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1054 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1056 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1058 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:106 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1060 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1062 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1064 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1066 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1068 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1069 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1071 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1072 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1074 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1075 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1076 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1077 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1078 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1079 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1080 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1081 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1082 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1083 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1084 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1085 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1086 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1087 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1088 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1089 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:109 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:109 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1090 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1091 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1092 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1093 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1094 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1095 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1096 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1097 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1098 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1099 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1100 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1101 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1102 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1103 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1104 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1105 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1106 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1107 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1108 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:111 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:111 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:113 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:113 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1135 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1137 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1139 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:114 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:114 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1140 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1141 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1142 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1143 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1144 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1145 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1146 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1147 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1148 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1149 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:115 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:115 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1150 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1151 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1152 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1153 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1154 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1155 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1156 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1157 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1158 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:1159 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:116 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:116 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:117 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:117 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:118 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:119 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:119 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:120 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:121 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:121 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:122 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:122 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:123 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:123 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:124 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:124 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:125 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:125 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:126 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:127 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:128 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:128 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:129 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:129 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:130 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:130 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:131 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:131 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:132 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:133 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:134 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:135 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:136 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:136 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:137 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:138 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:138 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:139 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:139 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:140 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:140 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:140 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:141 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:141 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:142 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:142 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:142 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:143 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:143 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:143 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:144 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:144 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:144 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:145 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:145 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:146 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:146 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:147 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:147 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:148 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:148 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:149 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:149 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:150 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:150 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:151 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:151 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:152 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:153 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:153 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:154 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:155 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:155 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:156 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:156 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:157 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:157 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:158 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:159 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:160 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:161 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:162 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:163 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:164 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:165 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:165 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:166 [binder, in UniMath.HomologicalAlgebra.MappingCylinder]
i0:167 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:168 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:169 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:169 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:170 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:170 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:171 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:171 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:172 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:173 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:175 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:176 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:177 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:178 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:179 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:180 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:181 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:182 [binder, in UniMath.CategoryTheory.slicecat]
i0:182 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:183 [binder, in UniMath.CategoryTheory.slicecat]
i0:183 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:184 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:184 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:185 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:187 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:187 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:188 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:189 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:189 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:190 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:191 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:191 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:192 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:192 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:193 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:193 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:194 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:194 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:195 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:196 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:197 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:197 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:198 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:198 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:199 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:199 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:200 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:200 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:201 [binder, in UniMath.HomologicalAlgebra.MappingCone]
i0:201 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
i0:202 [binder, in UniMath.HomologicalAlgebra.MappingCone]
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i₂:11 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
i₂:16 [binder, in UniMath.CategoryTheory.IsoCommaCategory]

J

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jb:5 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
jkp:51 [binder, in UniMath.CategoryTheory.CommaCategories]
jkp:58 [binder, in UniMath.CategoryTheory.CommaCategories]
join [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
joinHasEtaLaw [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
joinHasPermutationLaw [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
joinHomomorphic [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
joinLookup [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
join_mor_M:105 [binder, in UniMath.CategoryTheory.LatticeObject]
join_mor_M:81 [binder, in UniMath.CategoryTheory.LatticeObject]
join_mor_absorb_meet_mor [definition, in UniMath.CategoryTheory.LatticeObject]
join_mor [definition, in UniMath.CategoryTheory.LatticeObject]
join_mor:34 [binder, in UniMath.CategoryTheory.LatticeObject]
join_mor:31 [binder, in UniMath.CategoryTheory.LatticeObject]
join_mor:28 [binder, in UniMath.CategoryTheory.LatticeObject]
jp:165 [binder, in UniMath.Combinatorics.StandardFiniteSets]
just [definition, in UniMath.Combinatorics.Maybe]
just_injectivity [definition, in UniMath.Combinatorics.Maybe]
j_mon [definition, in UniMath.SubstitutionSystems.ModulesFromSignatures]
j_mon_laws [lemma, in UniMath.SubstitutionSystems.ModulesFromSignatures]
j_mon_square_eq2 [lemma, in UniMath.SubstitutionSystems.ModulesFromSignatures]
j_mon_square_eq1 [lemma, in UniMath.SubstitutionSystems.ModulesFromSignatures]
j_mon_η [lemma, in UniMath.SubstitutionSystems.ModulesFromSignatures]
j_mor_rep [lemma, in UniMath.SubstitutionSystems.ModulesFromSignatures]
j_mor [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
J_2_0_comp [lemma, in UniMath.Bicategories.Core.Univalence]
J_2_0 [definition, in UniMath.Bicategories.Core.Univalence]
J_2_1_comp [definition, in UniMath.Bicategories.Core.Univalence]
J_2_1 [definition, in UniMath.Bicategories.Core.Univalence]
J'_2_0_transport [lemma, in UniMath.Bicategories.Core.Univalence]
J'_2_0 [definition, in UniMath.Bicategories.Core.Univalence]
J'_2_1_transport [lemma, in UniMath.Bicategories.Core.Univalence]
J'_2_1 [definition, in UniMath.Bicategories.Core.Univalence]
j':15 [binder, in UniMath.CategoryTheory.limits.cones]
j':238 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
j':258 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j':269 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j':27 [binder, in UniMath.CategoryTheory.limits.cones]
j':299 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j':561 [binder, in UniMath.Foundations.NaturalNumbers]
j0:100 [binder, in UniMath.Algebra.IteratedBinaryOperations]
j0:101 [binder, in UniMath.Algebra.IteratedBinaryOperations]
J20 [section, in UniMath.Bicategories.Core.Univalence]
J20.HB [variable, in UniMath.Bicategories.Core.Univalence]
J20.r [variable, in UniMath.Bicategories.Core.Univalence]
J20.Y [variable, in UniMath.Bicategories.Core.Univalence]
J21 [section, in UniMath.Bicategories.Core.Univalence]
J21.HB [variable, in UniMath.Bicategories.Core.Univalence]
J21.r [variable, in UniMath.Bicategories.Core.Univalence]
J21.Y [variable, in UniMath.Bicategories.Core.Univalence]
J:1 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:10 [binder, in UniMath.CategoryTheory.Chains.Chains]
J:10 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:100 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
j:101 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
J:103 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
J:104 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:104 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:107 [binder, in UniMath.PAdics.fps]
j:108 [binder, in UniMath.Combinatorics.StandardFiniteSets]
J:109 [binder, in UniMath.MoreFoundations.Univalence]
j:109 [binder, in UniMath.PAdics.fps]
j:11 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
J:113 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
J:113 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:114 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:115 [binder, in UniMath.Combinatorics.StandardFiniteSets]
J:118 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:118 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:12 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
j:121 [binder, in UniMath.Algebra.IteratedBinaryOperations]
J:123 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
J:123 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:123 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:123 [binder, in UniMath.Algebra.IteratedBinaryOperations]
j:1254 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:126 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
j:1260 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:1268 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
J:127 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:1282 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:13 [binder, in UniMath.Algebra.IteratedBinaryOperations]
J:130 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:1321 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
J:133 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
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j:139 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
j:139 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:14 [binder, in UniMath.CategoryTheory.limits.cones]
J:140 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
j:140 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:1403 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:141 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:141 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
J:142 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:142 [binder, in UniMath.Combinatorics.StandardFiniteSets]
J:143 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
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j:1433 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:144 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
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j:1451 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:1456 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:1459 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:146 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
j:146 [binder, in UniMath.CategoryTheory.Core.Categories]
j:1463 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:1467 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:1471 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:148 [binder, in UniMath.CategoryTheory.limits.coproducts]
j:148 [binder, in UniMath.Combinatorics.StandardFiniteSets]
J:15 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
j:15 [binder, in UniMath.Algebra.IteratedBinaryOperations]
J:150 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:150 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:150 [binder, in UniMath.MoreFoundations.NegativePropositions]
J:151 [binder, in UniMath.Algebra.FixedPointTheorems]
j:152 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:152 [binder, in UniMath.CategoryTheory.Core.Categories]
j:153 [binder, in UniMath.Algebra.FixedPointTheorems]
j:154 [binder, in UniMath.Combinatorics.StandardFiniteSets]
J:155 [binder, in UniMath.CategoryTheory.limits.cats.limits]
J:155 [binder, in UniMath.CategoryTheory.Core.Univalence]
j:156 [binder, in UniMath.CategoryTheory.Core.Categories]
J:158 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:158 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:16 [binder, in UniMath.CategoryTheory.Chains.Chains]
j:160 [binder, in UniMath.Topology.Topology]
j:161 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:162 [binder, in UniMath.CategoryTheory.limits.coproducts]
j:163 [binder, in UniMath.CategoryTheory.limits.coproducts]
j:163 [binder, in UniMath.Topology.Topology]
j:164 [binder, in UniMath.CategoryTheory.limits.products]
J:166 [binder, in UniMath.CategoryTheory.Core.Univalence]
J:168 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:168 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
j:170 [binder, in UniMath.Combinatorics.StandardFiniteSets]
J:172 [binder, in UniMath.Algebra.FixedPointTheorems]
J:172 [binder, in UniMath.CategoryTheory.limits.cats.limits]
J:174 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:174 [binder, in UniMath.Algebra.FixedPointTheorems]
J:175 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
j:176 [binder, in UniMath.CategoryTheory.limits.products]
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j:18 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
j:18 [binder, in UniMath.CategoryTheory.CategoriesWithBinOps]
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j:180 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
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j:181 [binder, in UniMath.PAdics.fps]
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j:185 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:185 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
J:186 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
J:187 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
J:187 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:188 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
j:189 [binder, in UniMath.Algebra.Dcpo]
J:194 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
J:196 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:196 [binder, in UniMath.PAdics.fps]
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j:20 [binder, in UniMath.CategoryTheory.Chains.Cochains]
J:20 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:20 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:20 [binder, in UniMath.Algebra.IteratedBinaryOperations]
J:201 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
J:203 [binder, in UniMath.CategoryTheory.limits.cats.limits]
J:207 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
J:209 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:21 [binder, in UniMath.CategoryTheory.Chains.Chains]
j:21 [binder, in UniMath.Algebra.Dcpo]
J:211 [binder, in UniMath.CategoryTheory.limits.cats.limits]
J:213 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:214 [binder, in UniMath.Foundations.NaturalNumbers]
J:214 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:217 [binder, in UniMath.CategoryTheory.limits.equalizers]
J:218 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
J:222 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:23 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
J:23 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
J:231 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:233 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
j:236 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
j:237 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
J:239 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:24 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
J:242 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
J:246 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:247 [binder, in UniMath.Combinatorics.WellOrderedSets]
j:247 [binder, in UniMath.Combinatorics.StandardFiniteSets]
J:250 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
J:254 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:255 [binder, in UniMath.Combinatorics.WellOrderedSets]
j:255 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:256 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:256 [binder, in UniMath.Combinatorics.WellOrderedSets]
J:257 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:257 [binder, in UniMath.Combinatorics.WellOrderedSets]
J:26 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:26 [binder, in UniMath.CategoryTheory.limits.cones]
j:26 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:26 [binder, in UniMath.Algebra.Dcpo]
j:26 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
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J:260 [binder, in UniMath.CategoryTheory.limits.cats.limits]
J:265 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:267 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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j:29 [binder, in UniMath.Algebra.IteratedBinaryOperations]
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j:296 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
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j:298 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:299 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
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J:3 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
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j:309 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
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J:310 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
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J:317 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
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J:325 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
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J:33 [binder, in UniMath.CategoryTheory.ElementsOp]
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j:34 [binder, in UniMath.CategoryTheory.limits.cones]
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J:341 [binder, in UniMath.Combinatorics.WellOrderedSets]
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j:346 [binder, in UniMath.Algebra.FixedPointTheorems]
j:349 [binder, in UniMath.CategoryTheory.limits.Opp]
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j:38 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
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j:389 [binder, in UniMath.Combinatorics.WellOrderedSets]
j:39 [binder, in UniMath.Induction.W.Fibered]
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j:47 [binder, in UniMath.CategoryTheory.limits.cones]
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j:561 [binder, in UniMath.CategoryTheory.limits.pullbacks]
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j:569 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:57 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
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J:58 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:584 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
j:584 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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j:617 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:62 [binder, in UniMath.Induction.W.Fibered]
J:62 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:621 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:623 [binder, in UniMath.Foundations.NaturalNumbers]
j:626 [binder, in UniMath.Foundations.NaturalNumbers]
J:63 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
j:63 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
j:634 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
J:64 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
J:64 [binder, in UniMath.CategoryTheory.ElementsOp]
j:644 [binder, in UniMath.Foundations.PartA]
j:649 [binder, in UniMath.Bicategories.Core.Bicat]
J:65 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
j:65 [binder, in UniMath.Algebra.Matrix]
j:65 [binder, in UniMath.PAdics.fps]
j:66 [binder, in UniMath.PAdics.fps]
j:66 [binder, in UniMath.Combinatorics.FiniteSequences]
j:660 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:661 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:662 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:663 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:664 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:665 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:666 [binder, in UniMath.Combinatorics.StandardFiniteSets]
j:67 [binder, in UniMath.Algebra.GroupAction]
J:67 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:671 [binder, in UniMath.Combinatorics.StandardFiniteSets]
J:68 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:69 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
j:7 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
j:7 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
j:7 [binder, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
J:70 [binder, in UniMath.CategoryTheory.ElementsOp]
j:704 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:71 [binder, in UniMath.PAdics.fps]
J:72 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:72 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
j:72 [binder, in UniMath.PAdics.fps]
j:720 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
J:74 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
J:74 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:75 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
J:76 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
j:76 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
j:76 [binder, in UniMath.CategoryTheory.Morphisms]
J:77 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
j:77 [binder, in UniMath.CategoryTheory.limits.zero]
j:77 [binder, in UniMath.PAdics.fps]
j:77 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
j:78 [binder, in UniMath.PAdics.fps]
j:78 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
J:79 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
j:79 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
J:8 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
j:8 [binder, in UniMath.CategoryTheory.limits.cones]
j:81 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
J:82 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:82 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
j:83 [binder, in UniMath.PAdics.fps]
j:83 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
j:84 [binder, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
j:84 [binder, in UniMath.PAdics.fps]
J:85 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
J:85 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
j:85 [binder, in UniMath.MoreFoundations.Subtypes]
j:85 [binder, in UniMath.CategoryTheory.Morphisms]
j:853 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
j:858 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
J:87 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:9 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
j:9 [binder, in UniMath.Algebra.IteratedBinaryOperations]
J:90 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
J:91 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:91 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
j:91 [binder, in UniMath.Algebra.IteratedBinaryOperations]
j:92 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
j:93 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
J:95 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
J:95 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
j:95 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
J:97 [binder, in UniMath.CategoryTheory.limits.cats.limits]
j:97 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
j:98 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
j:99 [binder, in UniMath.SubstitutionSystems.SignatureCategory]

K

k [definition, in UniMath.CategoryTheory.precomp_ess_surj]
KA [library]
KAConeDTri [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KADTriData [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KADTriDataDTri [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KADTriDataFiber [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KADTriDataIso [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KADTriDataMor [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KADTrisIsos [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAExt [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAExt_Comm3 [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAExt_Comm2 [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAExt_MorEq [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAExt_Comm1 [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAFiber [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAFiberisDTri [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAFiberIso [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAFiberIsoMor [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAFiberIsoMorComms [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAFiberIsoMorComm3 [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAIdComm [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAIdComml [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAIdCommr [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAInvRotDTris [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAInvRotDTris_Iso [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAInvRotDTris_Comm3 [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAInvRotDTris_Comm2 [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAInvRotDTris_Comm1 [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAisDTri [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KanExt:55 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
KanExt:63 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
KanExt:89 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
KanExt:97 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
KAOctaComm2 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm2Eq [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm2Homot [definition, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm2' [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm3 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm3' [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm4 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm4' [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm5 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm5' [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor1 [definition, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor1Comm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor1_comm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor2 [definition, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor2Comm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor2_comm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3 [definition, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3Inv [definition, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3InvComm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3InvHomot [definition, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3InvMor [definition, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3Iso [definition, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3IsoInverses [definition, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3Iso1 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3Iso2 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3_comm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
KAPreTriang [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAPreTriangData [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAPreTriangulated [section, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAPreTriangulated [library]
KARotDTris [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KARotDTris_Iso [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KARotDTris_Comm3 [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KARotDTris_Comm2 [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KATriang [definition, in UniMath.HomologicalAlgebra.KATriangulated]
KATriangOcta [lemma, in UniMath.HomologicalAlgebra.KATriangulated]
KATriangOcta_hfiber_comp_eq [lemma, in UniMath.HomologicalAlgebra.KATriangulated]
KATriangOcta_KADTriData [definition, in UniMath.HomologicalAlgebra.KATriangulated]
KATriangOcta_TriIso [definition, in UniMath.HomologicalAlgebra.KATriangulated]
KATriangulated [section, in UniMath.HomologicalAlgebra.KATriangulated]
KATriangulated [library]
KATrivialDistinguished [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KATrivialDistinguished_TriMor [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KATrivialDistinguished_MPMorsComm [lemma, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KATrivialDistinguished_MPMorMors [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
KC:36 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
KD:37 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kelly_left [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_region_1 [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_region_12 [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_region_123 [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_region_1235 [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.h [variable, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.g [variable, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.f [variable, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.d [variable, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.c [variable, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.b [variable, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.a [variable, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.C [variable, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces [section, in UniMath.Bicategories.WkCatEnrichment.whiskering]
kerCokerDirectSum [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
kerCoker01 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
kerCoker10 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Kernel [definition, in UniMath.CategoryTheory.Abelian]
Kernel [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Kernel [definition, in UniMath.CategoryTheory.limits.graphs.kernels]
Kernel [definition, in UniMath.CategoryTheory.limits.kernels]
KernelArrow [definition, in UniMath.CategoryTheory.limits.kernels]
KernelArrowisMonic [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelCokernelPairs [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
KernelCommutes [definition, in UniMath.CategoryTheory.limits.kernels]
KernelComplex [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
KernelComplex_comm [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
KernelComplex_Kernel_comm [lemma, in UniMath.HomologicalAlgebra.CohomologyComplex]
KernelCompMonic [definition, in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic_isKernel [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic_eq [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic_mor2 [definition, in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic_eq2 [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic_mor1 [definition, in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic_eq1 [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic1 [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic2 [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelCompZero [definition, in UniMath.CategoryTheory.limits.kernels]
KernelEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelEqualizer [definition, in UniMath.CategoryTheory.limits.kernels]
KernelEqualizer_isEqualizer [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelEqualizer_eq [lemma, in UniMath.CategoryTheory.limits.kernels]
kernelEquation [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
KernelIn [definition, in UniMath.CategoryTheory.limits.kernels]
KernelInComp [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelInOp [lemma, in UniMath.CategoryTheory.PreAdditive]
KernelInOp_Eq [lemma, in UniMath.CategoryTheory.PreAdditive]
KernelInPaths_is_iso [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelInPaths_is_iso_mor [definition, in UniMath.CategoryTheory.limits.kernels]
KernelInsEq [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelInUnique [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelisKernel [definition, in UniMath.CategoryTheory.limits.kernels]
KernelIsMonic [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
kernelMap [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
KernelMorphism_eq' [lemma, in UniMath.HomologicalAlgebra.Complexes]
KernelMorphism_eq [lemma, in UniMath.HomologicalAlgebra.Complexes]
KernelOb [definition, in UniMath.CategoryTheory.limits.kernels]
KernelOfIdentity [definition, in UniMath.CategoryTheory.limits.kernels]
KernelOfIdentity_isKernel [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelOfPr1 [definition, in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr1_isKernel [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr1_isKernel_unique [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr1_isKernel_comm [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr1_Eq [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr2 [definition, in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr2_isKernel [definition, in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr2_isKernel_unique [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr2_isKernel_comm [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr2_Eq [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
KernelofZeroArrow [definition, in UniMath.CategoryTheory.limits.kernels]
KernelofZeroArrow_iso [definition, in UniMath.CategoryTheory.limits.kernels]
KernelofZeroArrow_is_iso [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelOfZeroArrow_isKernel [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelOfZeroMapIsIso [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
KernelPath [definition, in UniMath.CategoryTheory.limits.kernels]
KernelPath_isKernel [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelPath_eq [lemma, in UniMath.CategoryTheory.limits.kernels]
KernelPlusIdentity [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Kernels [definition, in UniMath.CategoryTheory.limits.kernels]
kernels [library]
kernels [library]
KernelSequence [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
KernelsIn_is_iso [lemma, in UniMath.CategoryTheory.limits.kernels]
kernels_monics.Z [variable, in UniMath.CategoryTheory.limits.kernels]
kernels_monics.hs [variable, in UniMath.CategoryTheory.limits.kernels]
kernels_monics.C [variable, in UniMath.CategoryTheory.limits.kernels]
kernels_monics [section, in UniMath.CategoryTheory.limits.kernels]
kernels_iso.Z [variable, in UniMath.CategoryTheory.limits.kernels]
kernels_iso.hs [variable, in UniMath.CategoryTheory.limits.kernels]
kernels_iso.C [variable, in UniMath.CategoryTheory.limits.kernels]
kernels_iso [section, in UniMath.CategoryTheory.limits.kernels]
Kernels_opp [definition, in UniMath.CategoryTheory.limits.Opp]
KernelUniqueness [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
KernelZeroisMonic [lemma, in UniMath.CategoryTheory.Abelian]
KernelZeroMonic [definition, in UniMath.CategoryTheory.Abelian]
KernelZeroMonic_cokernel [definition, in UniMath.CategoryTheory.Abelian]
kernel_ideal [definition, in UniMath.Algebra.RigsAndRings.Ideals]
kernel_submonoid [definition, in UniMath.Algebra.Monoids]
kernel_issubmonoid [definition, in UniMath.Algebra.Monoids]
kernel_pair [definition, in UniMath.CategoryTheory.EpiFacts]
kernel_in_paths.Z [variable, in UniMath.CategoryTheory.limits.kernels]
kernel_in_paths.hs [variable, in UniMath.CategoryTheory.limits.kernels]
kernel_in_paths.C [variable, in UniMath.CategoryTheory.limits.kernels]
kernel_in_paths [section, in UniMath.CategoryTheory.limits.kernels]
Kernel_up_to_iso2 [definition, in UniMath.CategoryTheory.limits.kernels]
Kernel_up_to_iso2_isKernel [definition, in UniMath.CategoryTheory.limits.kernels]
Kernel_up_to_iso2_eq [lemma, in UniMath.CategoryTheory.limits.kernels]
Kernel_up_to_iso [definition, in UniMath.CategoryTheory.limits.kernels]
Kernel_up_to_iso_isKernel [lemma, in UniMath.CategoryTheory.limits.kernels]
Kernel_up_to_iso_eq [definition, in UniMath.CategoryTheory.limits.kernels]
kernel_equalizers.Z [variable, in UniMath.CategoryTheory.limits.kernels]
kernel_equalizers.hs [variable, in UniMath.CategoryTheory.limits.kernels]
kernel_equalizers [section, in UniMath.CategoryTheory.limits.kernels]
Kernel_opp [definition, in UniMath.CategoryTheory.limits.Opp]
Kernel_opp_isCokernel [lemma, in UniMath.CategoryTheory.limits.Opp]
Kernel_opp_eq [lemma, in UniMath.CategoryTheory.limits.Opp]
kernel_pair_HSET [definition, in UniMath.CategoryTheory.categories.HSET.Structures]
kernel_pair_Set.f [variable, in UniMath.CategoryTheory.categories.HSET.Structures]
kernel_pair_Set [section, in UniMath.CategoryTheory.categories.HSET.Structures]
ker:100 [binder, in UniMath.CategoryTheory.Abelian]
ker:109 [binder, in UniMath.CategoryTheory.Abelian]
ker:118 [binder, in UniMath.CategoryTheory.Abelian]
ker:125 [binder, in UniMath.CategoryTheory.Abelian]
ker:502 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
kFa [definition, in UniMath.CategoryTheory.precomp_ess_surj]
kf:129 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kf:136 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kf:18 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kf:26 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kf:32 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
KF:38 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kH1:175 [binder, in UniMath.CategoryTheory.limits.pushouts]
kH1:177 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
kH1:207 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
kH1:212 [binder, in UniMath.CategoryTheory.limits.pullbacks]
kH2:176 [binder, in UniMath.CategoryTheory.limits.pushouts]
kH2:178 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
kH2:208 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
kH2:213 [binder, in UniMath.CategoryTheory.limits.pullbacks]
kH:111 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
kH:139 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
kh:36 [binder, in UniMath.CategoryTheory.CommaCategories]
Kid [definition, in UniMath.CategoryTheory.RightKanExtension]
kk:1173 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
kk:1197 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
kk:1222 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
kk:249 [binder, in UniMath.CategoryTheory.slicecat]
kk:250 [binder, in UniMath.CategoryTheory.slicecat]
kk:251 [binder, in UniMath.CategoryTheory.slicecat]
kk:252 [binder, in UniMath.CategoryTheory.slicecat]
kk:340 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
kk:62 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
kk:630 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
kk:649 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
kk:72 [binder, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
kk:936 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
Kleisli [library]
KleisliCategory [library]
kleislify [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
kleislify_unkleislify [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
kleislify_mor [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
kleislify_mor_law [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
KleisliMonad [definition, in UniMath.CategoryTheory.Monads.KTriples]
KleisliTriple [library]
Kleisli_cat [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_precat_has_homsets [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_cat [section, in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_precat [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_precat_is_precat [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_precat_data [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_precat_ob_mor [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_precat [section, in UniMath.CategoryTheory.Monads.RelativeMonads]
kleisli_triple_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_laws [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_prebicat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_prebicat_ops [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_nat_trans [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_cat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_on_identity_functor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_on_functor_bind_kt [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_on_functor_unit_kt [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_on_functor_iso [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_on_functor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
Kleisli_adjunction_monad_eq [lemma, in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_functors_are_adjoints [definition, in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_homset_iso [definition, in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_functor_left_right_compose [definition, in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_cat_monad [definition, in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_precat_monad_has_homsets [lemma, in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_precat_monad [definition, in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_precat_monad_is_precat [lemma, in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_precat_data_monad [definition, in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_precat_ob_mor_monad [definition, in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_Categories [section, in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_to_Monad_to_Kleisli [lemma, in UniMath.CategoryTheory.Monads.Kleisli]
Kleisli_to_Monad [definition, in UniMath.CategoryTheory.Monads.Kleisli]
Kleisli_to_η [definition, in UniMath.CategoryTheory.Monads.Kleisli]
Kleisli_to_μ [definition, in UniMath.CategoryTheory.Monads.Kleisli]
Kleisli_to_functor [definition, in UniMath.CategoryTheory.Monads.Kleisli]
Kleisli_composition [definition, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_composition_laws [lemma, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_identity [definition, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_identity_laws [lemma, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Mor_eq [lemma, in UniMath.CategoryTheory.Monads.KTriples]
kleisli_functor [definition, in UniMath.CategoryTheory.Monads.KTriples]
kleisli_functor_data [definition, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Mor_equiv [definition, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Mor_bind [definition, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Mor_η [definition, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Mor [definition, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Mor_laws [definition, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_precategory [section, in UniMath.CategoryTheory.Monads.KTriples]
kleisli_laws [definition, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Data_from_Kleisli [definition, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Laws [definition, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Data_ob [definition, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Data [definition, in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_defn [section, in UniMath.CategoryTheory.Monads.KTriples]
Knaster_Tarski_fixpoint [lemma, in UniMath.Algebra.FixedPointTheorems]
KTriples [library]
KTriplesEquiv [library]
Ktriple_to_Monad [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kX [definition, in UniMath.CategoryTheory.precomp_ess_surj]
kx:111 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kx:113 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kx:127 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kx:134 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kx:141 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kx:143 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kx:16 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kx:24 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kx:30 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
ky:128 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
ky:135 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
ky:17 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
ky:25 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
ky:31 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
K_0_universal_map [definition, in UniMath.Ktheory.GrothendieckGroup]
K_0_map_universal_property [lemma, in UniMath.Ktheory.GrothendieckGroup]
K_0_eqn [lemma, in UniMath.Ktheory.GrothendieckGroup]
K_0_class [definition, in UniMath.Ktheory.GrothendieckGroup]
K_0_map [definition, in UniMath.Ktheory.GrothendieckGroup]
K_0 [definition, in UniMath.Ktheory.GrothendieckGroup]
K_0_related [definition, in UniMath.Ktheory.GrothendieckGroup]
K_0_hrel [definition, in UniMath.Ktheory.GrothendieckGroup]
K'':44 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
k'':48 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
K':128 [binder, in UniMath.CategoryTheory.limits.kernels]
K':133 [binder, in UniMath.CategoryTheory.limits.kernels]
K':138 [binder, in UniMath.CategoryTheory.limits.kernels]
K':143 [binder, in UniMath.CategoryTheory.limits.kernels]
k':173 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
K':21 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
k':211 [binder, in UniMath.PAdics.padics]
k':231 [binder, in UniMath.PAdics.padics]
K':248 [binder, in UniMath.CategoryTheory.limits.Opp]
k':363 [binder, in UniMath.PAdics.padics]
k':41 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
K':43 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
k':47 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
K':75 [binder, in UniMath.CategoryTheory.limits.Opp]
k0:165 [binder, in UniMath.CategoryTheory.limits.pullbacks]
k0:173 [binder, in UniMath.CategoryTheory.limits.pullbacks]
K1:105 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K1:110 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K1:129 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K1:132 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K1:133 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K1:142 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K1:163 [binder, in UniMath.CategoryTheory.limits.kernels]
k1:178 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
k1:184 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
K1:251 [binder, in UniMath.CategoryTheory.limits.kernels]
K1:258 [binder, in UniMath.CategoryTheory.limits.kernels]
K1:265 [binder, in UniMath.CategoryTheory.limits.kernels]
K1:272 [binder, in UniMath.CategoryTheory.limits.kernels]
K1:279 [binder, in UniMath.CategoryTheory.limits.kernels]
K1:286 [binder, in UniMath.CategoryTheory.limits.kernels]
K1:313 [binder, in UniMath.CategoryTheory.limits.kernels]
K1:320 [binder, in UniMath.CategoryTheory.limits.kernels]
K1:52 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K1:59 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K1:66 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
k1:67 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
k1:67 [binder, in UniMath.CategoryTheory.limits.binproducts]
K1:71 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K1:78 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K1:85 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K1:91 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K1:97 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K2:164 [binder, in UniMath.CategoryTheory.limits.kernels]
k2:179 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
k2:185 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
K2:252 [binder, in UniMath.CategoryTheory.limits.kernels]
K2:259 [binder, in UniMath.CategoryTheory.limits.kernels]
K2:266 [binder, in UniMath.CategoryTheory.limits.kernels]
K2:273 [binder, in UniMath.CategoryTheory.limits.kernels]
K2:280 [binder, in UniMath.CategoryTheory.limits.kernels]
K2:287 [binder, in UniMath.CategoryTheory.limits.kernels]
K2:314 [binder, in UniMath.CategoryTheory.limits.kernels]
K2:321 [binder, in UniMath.CategoryTheory.limits.kernels]
K2:53 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K2:60 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K2:67 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
k2:68 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
k2:68 [binder, in UniMath.CategoryTheory.limits.binproducts]
K2:72 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K2:79 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K2:86 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K4:113 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K4:143 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K4:148 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
K4:151 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
k:100 [binder, in UniMath.CategoryTheory.limits.pushouts]
k:100 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
k:100 [binder, in UniMath.PAdics.fps]
k:101 [binder, in UniMath.MoreFoundations.Univalence]
k:101 [binder, in UniMath.CategoryTheory.limits.pullbacks]
k:1019 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:102 [binder, in UniMath.CategoryTheory.limits.coproducts]
k:102 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
k:102 [binder, in UniMath.PAdics.fps]
k:102 [binder, in UniMath.Algebra.IteratedBinaryOperations]
k:103 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k:103 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
k:103 [binder, in UniMath.Algebra.IteratedBinaryOperations]
k:103 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
k:104 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
K:104 [binder, in UniMath.CategoryTheory.limits.kernels]
k:104 [binder, in UniMath.PAdics.fps]
k:104 [binder, in UniMath.Algebra.IteratedBinaryOperations]
k:105 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
k:105 [binder, in UniMath.PAdics.fps]
k:105 [binder, in UniMath.Algebra.IteratedBinaryOperations]
k:106 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
k:106 [binder, in UniMath.NumberSystems.RationalNumbers]
k:106 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
k:106 [binder, in UniMath.PAdics.fps]
k:107 [binder, in UniMath.NumberSystems.Integers]
k:108 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
k:108 [binder, in UniMath.RealNumbers.NonnegativeRationals]
k:108 [binder, in UniMath.CategoryTheory.limits.products]
k:108 [binder, in UniMath.PAdics.fps]
k:109 [binder, in UniMath.Bicategories.Core.Strictness]
k:109 [binder, in UniMath.Foundations.NaturalNumbers]
k:109 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
k:110 [binder, in UniMath.CategoryTheory.limits.pushouts]
k:110 [binder, in UniMath.CategoryTheory.limits.graphs.equalizers]
k:110 [binder, in UniMath.NumberSystems.Integers]
k:110 [binder, in UniMath.CategoryTheory.limits.cats.limits]
k:110 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
k:110 [binder, in UniMath.PAdics.fps]
K:110 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
k:110 [binder, in UniMath.Algebra.IteratedBinaryOperations]
k:111 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
k:111 [binder, in UniMath.RealNumbers.NonnegativeRationals]
k:111 [binder, in UniMath.CategoryTheory.limits.pullbacks]
k:111 [binder, in UniMath.Algebra.IteratedBinaryOperations]
k:111 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
k:112 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
K:114 [binder, in UniMath.CategoryTheory.limits.kernels]
k:114 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
k:115 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
k:116 [binder, in UniMath.Algebra.IteratedBinaryOperations]
k:1162 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
k:117 [binder, in UniMath.CategoryTheory.limits.products]
K:117 [binder, in UniMath.CategoryTheory.limits.Opp]
k:118 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
k:118 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
K:118 [binder, in UniMath.CategoryTheory.limits.cokernels]
k:118 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
k:1187 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
K:119 [binder, in UniMath.CategoryTheory.limits.kernels]
k:119 [binder, in UniMath.NumberSystems.Integers]
k:12 [binder, in UniMath.Combinatorics.Graph]
k:12 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
k:120 [binder, in UniMath.CategoryTheory.limits.pushouts]
k:120 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
k:120 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
k:121 [binder, in UniMath.CategoryTheory.limits.binproducts]
k:1212 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
k:122 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
k:124 [binder, in UniMath.CategoryTheory.limits.pullbacks]
k:126 [binder, in UniMath.PAdics.lemmas]
K:127 [binder, in UniMath.CategoryTheory.limits.kernels]
K:127 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
k:1273 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:128 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
k:1287 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:129 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
K:13 [binder, in UniMath.CategoryTheory.limits.graphs.kernels]
k:13 [binder, in UniMath.CategoryTheory.limits.pushouts]
k:13 [binder, in UniMath.Combinatorics.BoundedSearch]
k:130 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
k:130 [binder, in UniMath.CategoryTheory.limits.binproducts]
k:131 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
k:131 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
k:131 [binder, in UniMath.Algebra.IteratedBinaryOperations]
k:132 [binder, in UniMath.Foundations.NaturalNumbers]
K:132 [binder, in UniMath.CategoryTheory.limits.kernels]
k:134 [binder, in UniMath.CategoryTheory.limits.pullbacks]
k:135 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
k:137 [binder, in UniMath.CategoryTheory.PseudoElements]
K:137 [binder, in UniMath.CategoryTheory.limits.kernels]
k:137 [binder, in UniMath.CategoryTheory.limits.products]
k:1374 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:1375 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:1376 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:1377 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:1378 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:1379 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:138 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
K:14 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
K:14 [binder, in UniMath.CategoryTheory.categories.Graph]
k:14 [binder, in UniMath.CategoryTheory.limits.pullbacks]
K:141 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
K:142 [binder, in UniMath.CategoryTheory.limits.kernels]
k:143 [binder, in UniMath.CategoryTheory.limits.pushouts]
K:1439 [binder, in UniMath.Foundations.PartA]
k:144 [binder, in UniMath.MoreFoundations.Sets]
K:1448 [binder, in UniMath.Foundations.PartA]
k:145 [binder, in UniMath.MoreFoundations.Sets]
K:1457 [binder, in UniMath.Foundations.PartA]
k:146 [binder, in UniMath.MoreFoundations.Nat]
k:147 [binder, in UniMath.Foundations.NaturalNumbers]
k:147 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
k:147 [binder, in UniMath.MoreFoundations.Nat]
k:147 [binder, in UniMath.CategoryTheory.Core.Categories]
k:148 [binder, in UniMath.CategoryTheory.limits.binproducts]
k:15 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Test]
K:152 [binder, in UniMath.CategoryTheory.limits.kernels]
k:154 [binder, in UniMath.MoreFoundations.Nat]
K:155 [binder, in UniMath.CategoryTheory.limits.kernels]
K:155 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
k:157 [binder, in UniMath.PAdics.z_mod_p]
k:157 [binder, in UniMath.CategoryTheory.limits.pullbacks]
k:158 [binder, in UniMath.Bicategories.Core.Bicat]
k:158 [binder, in UniMath.MoreFoundations.Nat]
K:159 [binder, in UniMath.CategoryTheory.limits.kernels]
k:159 [binder, in UniMath.Topology.Topology]
K:16 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
k:160 [binder, in UniMath.PAdics.z_mod_p]
k:160 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
k:161 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
k:161 [binder, in UniMath.RealNumbers.NonnegativeRationals]
k:162 [binder, in UniMath.Topology.Topology]
k:163 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
k:163 [binder, in UniMath.NumberSystems.RationalNumbers]
k:164 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
k:164 [binder, in UniMath.RealNumbers.NonnegativeRationals]
k:165 [binder, in UniMath.PAdics.z_mod_p]
k:166 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
k:166 [binder, in UniMath.NumberSystems.RationalNumbers]
k:166 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
k:167 [binder, in UniMath.PAdics.z_mod_p]
k:167 [binder, in UniMath.RealNumbers.NonnegativeRationals]
K:167 [binder, in UniMath.CategoryTheory.PreAdditive]
k:169 [binder, in UniMath.NumberSystems.RationalNumbers]
k:169 [binder, in UniMath.CategoryTheory.limits.pullbacks]
K:169 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
k:17 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
K:17 [binder, in UniMath.CategoryTheory.limits.graphs.kernels]
K:170 [binder, in UniMath.CategoryTheory.limits.kernels]
k:170 [binder, in UniMath.RealNumbers.NonnegativeRationals]
k:172 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
k:172 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
k:172 [binder, in UniMath.NumberSystems.RationalNumbers]
k:173 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
k:173 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
k:174 [binder, in UniMath.CategoryTheory.limits.pushouts]
K:174 [binder, in UniMath.CategoryTheory.limits.kernels]
k:175 [binder, in UniMath.NumberSystems.RationalNumbers]
k:176 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
k:176 [binder, in UniMath.NumberSystems.Integers]
K:178 [binder, in UniMath.CategoryTheory.limits.kernels]
k:179 [binder, in UniMath.NumberSystems.Integers]
k:179 [binder, in UniMath.NumberSystems.RationalNumbers]
k:181 [binder, in UniMath.CategoryTheory.limits.pullbacks]
k:182 [binder, in UniMath.NumberSystems.Integers]
k:183 [binder, in UniMath.NumberSystems.RationalNumbers]
K:183 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
k:185 [binder, in UniMath.NumberSystems.Integers]
k:186 [binder, in UniMath.NumberSystems.RationalNumbers]
k:188 [binder, in UniMath.NumberSystems.Integers]
k:190 [binder, in UniMath.NumberSystems.RationalNumbers]
k:191 [binder, in UniMath.NumberSystems.Integers]
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k:96 [binder, in UniMath.Algebra.IteratedBinaryOperations]
k:97 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
k:97 [binder, in UniMath.NumberSystems.RationalNumbers]
k:98 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
k:98 [binder, in UniMath.CategoryTheory.limits.coproducts]
k:98 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
k:98 [binder, in UniMath.PAdics.fps]
k:98 [binder, in UniMath.Algebra.IteratedBinaryOperations]
k:980 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:981 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:982 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:983 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k₁:123 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₁:132 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₁:139 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₁:146 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₁:153 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₁:161 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₁:171 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₁:181 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₁:24 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
k₁:37 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
k₁:8 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
k₂:124 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₂:133 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₂:140 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₂:147 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₂:154 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₂:162 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₂:172 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₂:182 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
k₂:25 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
k₂:38 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
k₂:9 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]

L

Lam [section, in UniMath.SubstitutionSystems.STLC]
Lam [section, in UniMath.SubstitutionSystems.STLC_alt]
Lam [section, in UniMath.SubstitutionSystems.LamFromBindingSig]
Lam [library]
Lambda [section, in UniMath.SubstitutionSystems.Lam]
lambda [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Lambda [section, in UniMath.SubstitutionSystems.LamSignature]
lambda [definition, in UniMath.CategoryTheory.RightKanExtension]
LambdaCalculus [definition, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambdacalculus [section, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
LambdaCalculus [library]
lambdacalculus.is_omega_cocont_lambdaFunctor [variable, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambdacalculus.LambdaCalculus_alg [variable, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambdacalculus.LambdaCalculus_mor [variable, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambdacalculus.lambdaFunctor [variable, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambdacalculus.precomp_option [variable, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
_ + _ [notation, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
_ * _ [notation, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
HSET2 [notation, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
Id [notation, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
'_' o option [notation, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
' _ [notation, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambdaFunctor_Initial [lemma, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambdaFunctor_Initial [lemma, in UniMath.SubstitutionSystems.LamFromBindingSig]
lambdaOmegaFunctor [definition, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambda'':47 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda':23 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda':322 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda':46 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Lambda.C [variable, in UniMath.SubstitutionSystems.LamSignature]
Lambda.CC [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.CC [variable, in UniMath.SubstitutionSystems.LamSignature]
Lambda.CP [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.CP [variable, in UniMath.SubstitutionSystems.LamSignature]
Lambda.CPEndC [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.CPEndEndC [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.EndEndC [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.KanExt [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.Lam [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.LamEHSS [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.LamE_Initial [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.LamE_S [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.LamHSS [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.Lam_Initial [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.Lam_S [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.one [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.one [variable, in UniMath.SubstitutionSystems.LamSignature]
Lambda.terminal [variable, in UniMath.SubstitutionSystems.Lam]
Lambda.terminal [variable, in UniMath.SubstitutionSystems.LamSignature]
EndC [notation, in UniMath.SubstitutionSystems.Lam]
EndC [notation, in UniMath.SubstitutionSystems.LamSignature]
Ptd [notation, in UniMath.SubstitutionSystems.Lam]
⦃ _ ⦄ [notation, in UniMath.SubstitutionSystems.Lam]
⦃ _ ⦄ [notation, in UniMath.SubstitutionSystems.Lam]
lambda:22 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda:279 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda:285 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda:294 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda:300 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda:306 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda:312 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda:321 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda:45 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda:56 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda:65 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Lambeks_lemma.AaIsInitial [variable, in UniMath.CategoryTheory.FunctorAlgebras]
Lambeks_lemma.Aa [variable, in UniMath.CategoryTheory.FunctorAlgebras]
Lambeks_lemma.F [variable, in UniMath.CategoryTheory.FunctorAlgebras]
Lambeks_lemma.C [variable, in UniMath.CategoryTheory.FunctorAlgebras]
Lambeks_lemma [section, in UniMath.CategoryTheory.FunctorAlgebras]
Lambek_dual [section, in UniMath.CategoryTheory.FunctorCoalgebras]
LamEHSS_Initial [definition, in UniMath.SubstitutionSystems.Lam]
LamE_model_on_Lam [definition, in UniMath.SubstitutionSystems.Lam]
LamE_algebra_on_Lam [definition, in UniMath.SubstitutionSystems.Lam]
LamE_Sig [definition, in UniMath.SubstitutionSystems.LamSignature]
LamE_Initial:99 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
LamFromBindingSig [library]
LamFunctor [definition, in UniMath.SubstitutionSystems.LamFromBindingSig]
LamHSET [section, in UniMath.SubstitutionSystems.LamHSET]
LamHSET [library]
LamHSET.Lam_S [variable, in UniMath.SubstitutionSystems.LamHSET]
EndHSET [notation, in UniMath.SubstitutionSystems.LamHSET]
LamHSS_Initial [definition, in UniMath.SubstitutionSystems.Lam]
LamHSS_Initial_HSET [definition, in UniMath.SubstitutionSystems.LamHSET]
LamMonad [definition, in UniMath.SubstitutionSystems.LamFromBindingSig]
LamMonad [definition, in UniMath.SubstitutionSystems.LamHSET]
LamSig [definition, in UniMath.SubstitutionSystems.LamFromBindingSig]
LamSignature [definition, in UniMath.SubstitutionSystems.LamFromBindingSig]
LamSignature [library]
lam_map [definition, in UniMath.SubstitutionSystems.STLC]
lam_source [definition, in UniMath.SubstitutionSystems.STLC]
lam_map [definition, in UniMath.SubstitutionSystems.CCS_alt]
lam_source [definition, in UniMath.SubstitutionSystems.CCS_alt]
lam_map [definition, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lam_map [definition, in UniMath.SubstitutionSystems.STLC_alt]
lam_source [definition, in UniMath.SubstitutionSystems.STLC_alt]
Lam_Flatten [definition, in UniMath.SubstitutionSystems.Lam]
Lam_App_Abs [definition, in UniMath.SubstitutionSystems.Lam]
Lam_Abs [definition, in UniMath.SubstitutionSystems.Lam]
Lam_App [definition, in UniMath.SubstitutionSystems.Lam]
Lam_Var [definition, in UniMath.SubstitutionSystems.Lam]
Lam_Sig [definition, in UniMath.SubstitutionSystems.LamSignature]
lam_map [definition, in UniMath.SubstitutionSystems.CCS]
lam_source [definition, in UniMath.SubstitutionSystems.CCS]
lam_map [definition, in UniMath.SubstitutionSystems.LamFromBindingSig]
Lam_Initial:98 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Lam_Initial:90 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Lam_Initial:82 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Lam_Flatten [definition, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Lam_Sig [definition, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Lam_Initial_HSET [lemma, in UniMath.SubstitutionSystems.LamHSET]
Lam.arr [variable, in UniMath.SubstitutionSystems.STLC]
Lam.arr [variable, in UniMath.SubstitutionSystems.STLC_alt]
Lam.HSET_over_sort2 [variable, in UniMath.SubstitutionSystems.STLC]
Lam.Id_H [variable, in UniMath.SubstitutionSystems.STLC]
Lam.Id_H [variable, in UniMath.SubstitutionSystems.LamFromBindingSig]
Lam.LC_alg [variable, in UniMath.SubstitutionSystems.LamFromBindingSig]
Lam.LC_mor [variable, in UniMath.SubstitutionSystems.LamFromBindingSig]
Lam.precomp_option [variable, in UniMath.SubstitutionSystems.LamFromBindingSig]
Lam.sort [variable, in UniMath.SubstitutionSystems.STLC]
Lam.sort [variable, in UniMath.SubstitutionSystems.STLC_alt]
Lam.sortToSet [variable, in UniMath.SubstitutionSystems.STLC_alt]
Lam.sortToSet2 [variable, in UniMath.SubstitutionSystems.STLC_alt]
Lam.STLC [variable, in UniMath.SubstitutionSystems.STLC_alt]
Lam.STLC_alg [variable, in UniMath.SubstitutionSystems.STLC]
Lam.STLC_mor [variable, in UniMath.SubstitutionSystems.STLC]
Lam.STLC_M_alg [variable, in UniMath.SubstitutionSystems.STLC_alt]
Lam.STLC_M_mor [variable, in UniMath.SubstitutionSystems.STLC_alt]
_ + _ (set) [notation, in UniMath.SubstitutionSystems.STLC]
_ + _ (set) [notation, in UniMath.SubstitutionSystems.STLC_alt]
_ ⊗ _ [notation, in UniMath.SubstitutionSystems.STLC]
_ / _ [notation, in UniMath.SubstitutionSystems.STLC]
_ :: _ [notation, in UniMath.SubstitutionSystems.STLC]
_ ⊗ _ [notation, in UniMath.SubstitutionSystems.STLC_alt]
_ ⊕ _ [notation, in UniMath.SubstitutionSystems.STLC_alt]
_ ⇒ _ [notation, in UniMath.SubstitutionSystems.STLC_alt]
_ :: _ [notation, in UniMath.SubstitutionSystems.STLC_alt]
_ ⊛ _ [notation, in UniMath.SubstitutionSystems.LamFromBindingSig]
_ ⊕ _ [notation, in UniMath.SubstitutionSystems.LamFromBindingSig]
_ + 1 [notation, in UniMath.SubstitutionSystems.LamFromBindingSig]
_ ⊗ _ [notation, in UniMath.SubstitutionSystems.LamFromBindingSig]
_ + _ [notation, in UniMath.SubstitutionSystems.LamFromBindingSig]
_ * _ [notation, in UniMath.SubstitutionSystems.LamFromBindingSig]
_ :: _ [notation, in UniMath.SubstitutionSystems.LamFromBindingSig]
HSET2 [notation, in UniMath.SubstitutionSystems.LamFromBindingSig]
Id [notation, in UniMath.SubstitutionSystems.STLC_alt]
Id [notation, in UniMath.SubstitutionSystems.LamFromBindingSig]
'_' o option [notation, in UniMath.SubstitutionSystems.LamFromBindingSig]
1 [notation, in UniMath.SubstitutionSystems.STLC]
1 [notation, in UniMath.SubstitutionSystems.STLC_alt]
1 [notation, in UniMath.SubstitutionSystems.LamFromBindingSig]
1 [notation, in UniMath.SubstitutionSystems.LamFromBindingSig]
[] [notation, in UniMath.SubstitutionSystems.STLC]
[] [notation, in UniMath.SubstitutionSystems.STLC_alt]
[] [notation, in UniMath.SubstitutionSystems.LamFromBindingSig]
lassociator [definition, in UniMath.Bicategories.Core.Bicat]
lassociator_transf [definition, in UniMath.Bicategories.Core.Bicat]
lassociator_fun_natural [lemma, in UniMath.Bicategories.Core.Bicat]
lassociator_fun [definition, in UniMath.Bicategories.Core.Bicat]
lassociator_to_rassociator_pre [lemma, in UniMath.Bicategories.Core.Bicat]
lassociator_to_rassociator_post [lemma, in UniMath.Bicategories.Core.Bicat]
lassociator_lassociator [definition, in UniMath.Bicategories.Core.Bicat]
lassociator_rassociator [definition, in UniMath.Bicategories.Core.Bicat]
lassociator_invertible_2cell [definition, in UniMath.Bicategories.Core.Invertible_2cells]
lassociator_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Associativity]
lassociator_pstrans_is_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Associativity]
lassociator_pstrans_data [definition, in UniMath.Bicategories.Transformations.Examples.Associativity]
lassociator_rassociator_pstrans [definition, in UniMath.Bicategories.Modifications.Examples.Associativity]
lassociator_rassociator_pstrans_modification [definition, in UniMath.Bicategories.Modifications.Examples.Associativity]
lassociator_rassociator_pstrans_data [definition, in UniMath.Bicategories.Modifications.Examples.Associativity]
lassocor:486 [binder, in UniMath.Bicategories.Core.Bicat]
lastelement [definition, in UniMath.Combinatorics.StandardFiniteSets]
lastelement_eq [lemma, in UniMath.Combinatorics.StandardFiniteSets]
lastelement_ge [lemma, in UniMath.Combinatorics.StandardFiniteSets]
lastValue [definition, in UniMath.Combinatorics.StandardFiniteSets]
lattice [definition, in UniMath.Algebra.Lattice]
Lattice [library]
latticedec [definition, in UniMath.Algebra.Lattice]
latticedec_gt [definition, in UniMath.Algebra.Lattice]
latticedec_gtmax [lemma, in UniMath.Algebra.Lattice]
latticedec_gtmin [lemma, in UniMath.Algebra.Lattice]
latticedec_lenotgt [lemma, in UniMath.Algebra.Lattice]
latticedec_notgtle [lemma, in UniMath.Algebra.Lattice]
latticedec_gt_so [definition, in UniMath.Algebra.Lattice]
latticedec_gt_ge [lemma, in UniMath.Algebra.Lattice]
latticedec_gt_rel [definition, in UniMath.Algebra.Lattice]
latticedec_gt [section, in UniMath.Algebra.Lattice]
latticedec_pty [section, in UniMath.Algebra.Lattice]
latticeob [definition, in UniMath.CategoryTheory.LatticeObject]
LatticeObject [library]
LatticeObject_accessors [section, in UniMath.CategoryTheory.LatticeObject]
LatticeObject_def.ι [variable, in UniMath.CategoryTheory.LatticeObject]
LatticeObject_def.τ [variable, in UniMath.CategoryTheory.LatticeObject]
LatticeObject_def.δ [variable, in UniMath.CategoryTheory.LatticeObject]
LatticeObject_def.α [variable, in UniMath.CategoryTheory.LatticeObject]
LatticeObject_def.π2 [variable, in UniMath.CategoryTheory.LatticeObject]
LatticeObject_def.π1 [variable, in UniMath.CategoryTheory.LatticeObject]
1 (cat) [notation, in UniMath.CategoryTheory.LatticeObject]
_ ×× _ (cat) [notation, in UniMath.CategoryTheory.LatticeObject]
_ ⊗ _ (cat) [notation, in UniMath.CategoryTheory.LatticeObject]
LatticeObject_def [section, in UniMath.CategoryTheory.LatticeObject]
latticeop [definition, in UniMath.Algebra.Lattice]
latticeop_cat [definition, in UniMath.CategoryTheory.LatticeObject]
latticewithgt [definition, in UniMath.Algebra.Lattice]
latticewithgtrel [definition, in UniMath.Algebra.Lattice]
latticewithgt_pty [section, in UniMath.Algebra.Lattice]
lattice_abmonoid [section, in UniMath.Algebra.Lattice]
lattice_latticedec [definition, in UniMath.Algebra.Lattice]
lattice_latticewithgt [definition, in UniMath.Algebra.Lattice]
lattice_le [section, in UniMath.Algebra.Lattice]
lattice_pty [section, in UniMath.Algebra.Lattice]
latt:220 [binder, in UniMath.Combinatorics.OrderedSets]
lawless_monad_is_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
lawless_monad_is_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
lawless_monad_is_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
lawless_monad [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
laws [section, in UniMath.Bicategories.Core.BicategoryLaws]
LaxFunctorBicat [section, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
LaxFunctorBicat.C [variable, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
LaxFunctorBicat.D [variable, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
laxfunctor_bicat_is_univalent_2 [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
laxfunctor_bicat_is_univalent_2_0 [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
laxfunctor_bicat_is_univalent_2_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
laxfunctor_bicat [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
lax_monoidal_functor_unital [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lax_monoidal_functor_assoc [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lax_monoidal_functor_μ [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lax_monoidal_functor_ϵ [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lax_monoidal_functor_functor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lax_monoidal_functor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
LA:10 [binder, in UniMath.CategoryTheory.RightKanExtension]
Lbot [definition, in UniMath.Algebra.Lattice]
LC [definition, in UniMath.SubstitutionSystems.LamFromBindingSig]
lcanfromlinv [definition, in UniMath.Algebra.Domains_and_Fields]
LC:19 [binder, in UniMath.SubstitutionSystems.LamSignature]
LC:27 [binder, in UniMath.CategoryTheory.Subcategory.Limits]
LC:373 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
le [definition, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
le [definition, in UniMath.Combinatorics.WellFoundedRelations]
leadingcoefficientapartdec [lemma, in UniMath.PAdics.fps]
leaf [definition, in UniMath.CategoryTheory.Inductives.Trees]
leaf_map [definition, in UniMath.CategoryTheory.Inductives.Trees]
Least [section, in UniMath.Algebra.FixedPointTheorems]
leastelementprinciple [lemma, in UniMath.PAdics.lemmas]
leastfixedpoint [definition, in UniMath.Algebra.Dcpo]
leastfixedpoint [section, in UniMath.Algebra.Dcpo]
leastfixedpoint_isleast [lemma, in UniMath.Algebra.Dcpo]
leastfixedpoint_isfixedpoint [lemma, in UniMath.Algebra.Dcpo]
μ (DCPO) [notation, in UniMath.Algebra.Dcpo]
LeastUpperBound [definition, in UniMath.RealNumbers.Sets]
LeastUpperBound [section, in UniMath.RealNumbers.Sets]
leastupperbound [section, in UniMath.Algebra.Dcpo]
LeastUpperBounds [section, in UniMath.Algebra.FixedPointTheorems]
leastupperbound.f [variable, in UniMath.Algebra.Dcpo]
_ <= _ [notation, in UniMath.RealNumbers.Sets]
least_upper_bound_in_subposet [definition, in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_image [definition, in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_subtype_univ [definition, in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_subtype_is_upper_bound [definition, in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_subtype [definition, in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_univ [definition, in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_property [definition, in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_is_upper_bound [definition, in UniMath.Algebra.FixedPointTheorems]
least_upper_bound [definition, in UniMath.Algebra.FixedPointTheorems]
least_suchthat_property [definition, in UniMath.Algebra.FixedPointTheorems]
least_suchthat_is_least [definition, in UniMath.Algebra.FixedPointTheorems]
least_suchthat_satisfies [definition, in UniMath.Algebra.FixedPointTheorems]
least_suchthat [definition, in UniMath.Algebra.FixedPointTheorems]
least_is_least [definition, in UniMath.Algebra.FixedPointTheorems]
least_of_family_index [definition, in UniMath.Algebra.FixedPointTheorems]
least_of_family [definition, in UniMath.Algebra.FixedPointTheorems]
leF [inductive, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
leFiter [lemma, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
left [definition, in UniMath.MoreFoundations.Interval]
leftCompHomo [definition, in UniMath.CategoryTheory.PreAdditive]
leftCompIsHomo [definition, in UniMath.CategoryTheory.PreAdditive]
leftDistribute [lemma, in UniMath.CategoryTheory.PreAdditive]
leftMinus [lemma, in UniMath.CategoryTheory.PreAdditive]
leFtototal2withnat [lemma, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
leFtototal2withnat_l0 [lemma, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
LeftShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
LeftShortExact_Equalizer [definition, in UniMath.CategoryTheory.ShortExactSequences]
LeftShortExact_Equalizer_ShortShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
LeftShortExact_Equalizer_ShortShortExactData [definition, in UniMath.CategoryTheory.ShortExactSequences]
LeftShortExact_from_ShortShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
LeftShortExact_opp [definition, in UniMath.CategoryTheory.ShortExactSequences]
LeftShortExact_ShortShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
leftunit [section, in UniMath.CategoryTheory.HorizontalComposition]
LeftUnitality [section, in UniMath.Bicategories.Transformations.Examples.Unitality]
LeftUnitality [section, in UniMath.Bicategories.Modifications.Examples.Unitality]
LeftUnitality.F [variable, in UniMath.Bicategories.Transformations.Examples.Unitality]
LeftUnitality.F [variable, in UniMath.Bicategories.Modifications.Examples.Unitality]
LeftWhisker [section, in UniMath.Bicategories.Transformations.Examples.Whiskering]
LeftWhisker.G [variable, in UniMath.Bicategories.Transformations.Examples.Whiskering]
LeftWhisker.η [variable, in UniMath.Bicategories.Transformations.Examples.Whiskering]
left_unit_inv_assoc₂ [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
left_unit_inv_assoc [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
left_unit_assoc [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
Left_rKleisli_functor [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
Left_rKleisli_is_functor [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
Left_rKleisli_functor_data [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
left_whisker [definition, in UniMath.Bicategories.Transformations.Examples.Whiskering]
left_whisker_is_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Whiskering]
left_whisker_data [definition, in UniMath.Bicategories.Transformations.Examples.Whiskering]
left_adjoint_equivalence_total_disp_weq [lemma, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_equivalence_axioms_total_weq [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_equivalence_axioms_disp_to_total [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_equivalence_axioms_total_to_disp [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_equivalence_axioms_total_to_fiber [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_equivalence_axioms_total_to_base [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_axioms_total_weq [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_axioms_disp_to_total [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_axioms_total_to_disp [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_axioms_total_to_fiber [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_axioms_total_to_base [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_data_total_weq [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_data_disp_to_total [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_data_total_to_disp [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_data_total_to_fiber [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_data_total_to_base [definition, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_cocont [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
left_adjoint_equivalence_of_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_of_adjunction [definition, in UniMath.Bicategories.Core.Adjunctions]
left_equivalence_counit_iso [definition, in UniMath.Bicategories.Core.Adjunctions]
left_equivalence_unit_iso [definition, in UniMath.Bicategories.Core.Adjunctions]
left_equivalence_of_left_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_of_left_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Adjunctions]
left_equivalence [definition, in UniMath.Bicategories.Core.Adjunctions]
left_equivalence_axioms [definition, in UniMath.Bicategories.Core.Adjunctions]
left_adjoint [definition, in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_axioms [definition, in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_counit [definition, in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_unit [definition, in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_right_adjoint [definition, in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_data [definition, in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
left_unitor_of_pointedfunctors [definition, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
left_biadj_data_to_left_biadj_unit_counit [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
left_biadj_data [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
left_biadj_unit_counit [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
left_inverse_of_iso_is_inverse [lemma, in UniMath.CategoryTheory.Core.Isos]
Left_Kleisli_is_left_adjoint [definition, in UniMath.CategoryTheory.Monads.KleisliCategory]
Left_Kleisli_functor [definition, in UniMath.CategoryTheory.Monads.KleisliCategory]
Left_Kleisli_is_functor [lemma, in UniMath.CategoryTheory.Monads.KleisliCategory]
Left_Kleisli_functor_data [definition, in UniMath.CategoryTheory.Monads.KleisliCategory]
left_adjoint_cocont [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
left_unitor_to_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
left_unitor_funclass [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
left_unitor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
left_adj_from_adj_equiv [definition, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
left_adjequiv_invertible_2cell [definition, in UniMath.Bicategories.Core.Univalence]
left_mult_Iso [definition, in UniMath.Algebra.GroupAction]
left_mult [definition, in UniMath.Algebra.GroupAction]
left_unit_as_nat_z_iso [definition, in UniMath.CategoryTheory.HorizontalComposition]
left_adjoint_left_from_partial [definition, in UniMath.CategoryTheory.Adjunctions.Core]
left_adj_from_partial [definition, in UniMath.CategoryTheory.Adjunctions.Core]
left_adjoint_from_partial [definition, in UniMath.CategoryTheory.Adjunctions.Core]
left_adjoint [definition, in UniMath.CategoryTheory.Adjunctions.Core]
left_functor [definition, in UniMath.CategoryTheory.Adjunctions.Core]
left_unitor_id_is_right_unitor_id [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
left_unitor_on_id [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
left_unitor_naturality [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
left_right_shortexact_and_pullbacks_pushouts.A [variable, in UniMath.CategoryTheory.ShortExactSequences]
left_right_shortexact_and_pullbacks_pushouts [section, in UniMath.CategoryTheory.ShortExactSequences]
left_adjoint_preserves_colimit [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
left_adjoint_equivalence_to_is_catiso [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
left_adj_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
left_adjequiv [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
left_unitor [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
left_unitor_2mor [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
left_unitor_trans [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
left_unitor_trans_type [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
left_adj_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
left_adj_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
left:158 [binder, in UniMath.CategoryTheory.Core.Categories]
leF_S [constructor, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
leF_O [constructor, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
LEM [definition, in UniMath.MoreFoundations.DecidablePropositions]
Lemmas [section, in UniMath.Combinatorics.FiniteSequences]
lemmas [library]
lemmas_on_pushouts.H [variable, in UniMath.CategoryTheory.limits.pushouts]
lemmas_on_pushouts [section, in UniMath.CategoryTheory.limits.pushouts]
lemmas_on_pullbacks.pullback_iso [section, in UniMath.CategoryTheory.limits.pullbacks]
lemmas_on_pullbacks.H [variable, in UniMath.CategoryTheory.limits.pullbacks]
lemmas_on_pullbacks [section, in UniMath.CategoryTheory.limits.pullbacks]
_ ↓ _ [notation, in UniMath.CategoryTheory.CommaCategories]
lemmas_on_const_comma_cats [section, in UniMath.CategoryTheory.CommaCategories]
lemma_11_unfolded [definition, in UniMath.Induction.M.Chains]
lemma_11 [lemma, in UniMath.Induction.M.Chains]
Lemma0_2_4 [lemma, in UniMath.MoreFoundations.PathsOver]
Lemma023 [lemma, in UniMath.MoreFoundations.PathsOver]
LEM_for_sets [lemma, in UniMath.MoreFoundations.DecidablePropositions]
lem:176 [binder, in UniMath.Combinatorics.WellOrderedSets]
length [definition, in UniMath.CategoryTheory.Inductives.Lists]
length [definition, in UniMath.Combinatorics.Lists]
length [definition, in UniMath.Combinatorics.FiniteSequences]
length_map [lemma, in UniMath.CategoryTheory.Inductives.Lists]
length_term [lemma, in UniMath.Algebra.Universal.Terms]
length_drop [lemma, in UniMath.Combinatorics.MoreLists]
length_fill [lemma, in UniMath.Combinatorics.MoreLists]
length_map [lemma, in UniMath.Combinatorics.MoreLists]
length_sublist2 [lemma, in UniMath.Combinatorics.MoreLists]
length_sublist1 [lemma, in UniMath.Combinatorics.MoreLists]
length_concatenate [lemma, in UniMath.Combinatorics.MoreLists]
length_one_back [lemma, in UniMath.Combinatorics.MoreLists]
length_zero_back [lemma, in UniMath.Combinatorics.MoreLists]
length_cons [lemma, in UniMath.Combinatorics.MoreLists]
length' [definition, in UniMath.Combinatorics.FiniteSequences]
lenm1:177 [binder, in UniMath.Algebra.Universal.Terms]
lenm2:178 [binder, in UniMath.Algebra.Universal.Terms]
leNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
leNonnegativeRationals_correct [lemma, in UniMath.RealNumbers.NonnegativeRationals]
leNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
leq_BC:66 [binder, in UniMath.Algebra.FixedPointTheorems]
leq_AB:65 [binder, in UniMath.Algebra.FixedPointTheorems]
letoleh [lemma, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
levels:44 [binder, in UniMath.Algebra.Universal.HVectors]
lexicalEnumeration [definition, in UniMath.Combinatorics.StandardFiniteSets]
lexicographicOrder [definition, in UniMath.Combinatorics.OrderedSets]
lex_istotal [lemma, in UniMath.Combinatorics.OrderedSets]
lex_isantisymm [lemma, in UniMath.Combinatorics.OrderedSets]
lex_istrans [lemma, in UniMath.Combinatorics.OrderedSets]
lex_isrefl [lemma, in UniMath.Combinatorics.OrderedSets]
le_S [definition, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
le_n [definition, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
le_istotal [lemma, in UniMath.Combinatorics.OrderedSets]
le_eqorltNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
le0_NonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
le:145 [binder, in UniMath.Combinatorics.WellOrderedSets]
le:147 [binder, in UniMath.RealNumbers.Sets]
le:152 [binder, in UniMath.Combinatorics.WellOrderedSets]
le:154 [binder, in UniMath.RealNumbers.Sets]
le:156 [binder, in UniMath.Combinatorics.WellOrderedSets]
le:185 [binder, in UniMath.Combinatorics.OrderedSets]
le:198 [binder, in UniMath.Combinatorics.OrderedSets]
le:205 [binder, in UniMath.Combinatorics.WellOrderedSets]
le:219 [binder, in UniMath.Combinatorics.OrderedSets]
le:237 [binder, in UniMath.Combinatorics.WellOrderedSets]
le:36 [binder, in UniMath.Combinatorics.WellOrderedSets]
le:42 [binder, in UniMath.Combinatorics.WellOrderedSets]
le:46 [binder, in UniMath.Combinatorics.WellOrderedSets]
le:83 [binder, in UniMath.RealNumbers.Sets]
le:83 [binder, in UniMath.Combinatorics.WellOrderedSets]
le:94 [binder, in UniMath.RealNumbers.Sets]
le:97 [binder, in UniMath.RealNumbers.Sets]
lf:380 [binder, in UniMath.Topology.Topology]
LGD₁:14 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
LGD₂:19 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
Lge [definition, in UniMath.Algebra.Lattice]
Lge_pty [section, in UniMath.Algebra.Lattice]
Lgt [definition, in UniMath.Algebra.Lattice]
Lgt_Lge [lemma, in UniMath.Algebra.Lattice]
lg:1091 [binder, in UniMath.Foundations.Sets]
lg:1110 [binder, in UniMath.Algebra.BinaryOperations]
lg:1145 [binder, in UniMath.Foundations.Sets]
lg:1153 [binder, in UniMath.Foundations.Sets]
lg:1199 [binder, in UniMath.Algebra.BinaryOperations]
lg:1260 [binder, in UniMath.Foundations.Sets]
lg:1266 [binder, in UniMath.Foundations.Sets]
lg:1283 [binder, in UniMath.Algebra.BinaryOperations]
lg:1311 [binder, in UniMath.Algebra.BinaryOperations]
lg:1430 [binder, in UniMath.Foundations.Sets]
lg:279 [binder, in UniMath.Foundations.Sets]
lg:286 [binder, in UniMath.Foundations.Sets]
lg:293 [binder, in UniMath.Foundations.Sets]
lg:300 [binder, in UniMath.Foundations.Sets]
lg:307 [binder, in UniMath.Foundations.Sets]
lg:314 [binder, in UniMath.Foundations.Sets]
lg:321 [binder, in UniMath.Foundations.Sets]
lg:328 [binder, in UniMath.Foundations.Sets]
lg:335 [binder, in UniMath.Foundations.Sets]
lg:342 [binder, in UniMath.Foundations.Sets]
lg:349 [binder, in UniMath.Foundations.Sets]
lg:356 [binder, in UniMath.Foundations.Sets]
lg:363 [binder, in UniMath.Foundations.Sets]
lg:370 [binder, in UniMath.Foundations.Sets]
lg:377 [binder, in UniMath.Foundations.Sets]
lg:381 [binder, in UniMath.Topology.Topology]
lg:384 [binder, in UniMath.Foundations.Sets]
lg:507 [binder, in UniMath.Algebra.Groups]
lg:576 [binder, in UniMath.Foundations.PartB]
lg:581 [binder, in UniMath.Foundations.PartB]
lg:653 [binder, in UniMath.Algebra.Monoids]
lg:824 [binder, in UniMath.Foundations.Sets]
lg:868 [binder, in UniMath.Foundations.Sets]
lg:876 [binder, in UniMath.Foundations.Sets]
LG₁:253 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
LG₂:254 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
lhs [definition, in UniMath.Algebra.Universal.Equations]
LHS [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
lhs_left_invert_cell [lemma, in UniMath.Bicategories.Core.Bicat]
lhs_right_invert_cell [lemma, in UniMath.Bicategories.Core.Bicat]
Lh':111 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':127 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':138 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':231 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':33 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':45 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Lh':45 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':45 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
Lh':55 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':60 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
Lh':66 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':78 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':90 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:110 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:126 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:137 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:18 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:23 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:230 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:32 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:44 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Lh:44 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:44 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
Lh:54 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:59 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
Lh:65 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:77 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:89 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
lic:13 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
lideal [definition, in UniMath.Algebra.RigsAndRings.Ideals]
lid:108 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
lifted_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
lifted_functor_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
lifted_functor_data [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
lifted_action [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifted_action_plaw [lemma, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifted_action_tlaw [lemma, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifted_action_convertor [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifted_action_convertor_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifted_action_right_unitor [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifted_action_right_unitor_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifted_odot [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
LiftEpiNatTrans [section, in UniMath.CategoryTheory.SetValuedFunctors]
LiftEpiNatTrans.comp_epi [variable, in UniMath.CategoryTheory.SetValuedFunctors]
LiftEpiNatTrans.surjectivep [variable, in UniMath.CategoryTheory.SetValuedFunctors]
lifting [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
LiftingInitial [library]
LiftingInitial_alt [library]
Liftings [section, in UniMath.CategoryTheory.Monads.MonadAlgebras]
Liftings [section, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
liftings_from_distr_laws_compose [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Liftings.Lifting_from_dist_law [section, in UniMath.CategoryTheory.Monads.MonadAlgebras]
lifting_from_dist_law [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
lifting_from_distr_law_is_lifting [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lifting_from_distr_law [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lifting_from_distr_law_data [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lifting_from_distr_law_data_aux [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lifting_from_distr_law_data_on_ob [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
LiftSurjection [section, in UniMath.Foundations.Sets]
LiftSurjection.comp_f_epi [variable, in UniMath.Foundations.Sets]
LiftSurjection.f [variable, in UniMath.Foundations.Sets]
LiftSurjection.hsc [variable, in UniMath.Foundations.Sets]
LiftSurjection.p [variable, in UniMath.Foundations.Sets]
LiftSurjection.surjectivep [variable, in UniMath.Foundations.Sets]
lift_1cell_of_pb_1cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
lift_2cell_to_cone_cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
lift_2cell_cone [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
lift_1cell_to_pb_1cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
lift_2cell_factor [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
lift_2cell_factor_type [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
lift_1cell_factor [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
lift_functor_into_reindex_disp_nat_trans [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_disp_nat_trans_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_disp_nat_trans_data [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_commute [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_commute_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_commute_data [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_data [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_lmodule [definition, in UniMath.SubstitutionSystems.ModulesFromSignatures]
lift_lm_mult_laws [lemma, in UniMath.SubstitutionSystems.ModulesFromSignatures]
lift_LModule_data [definition, in UniMath.SubstitutionSystems.ModulesFromSignatures]
lift_lm_mult [definition, in UniMath.SubstitutionSystems.ModulesFromSignatures]
lift_monad [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_μ [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_η [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_functor [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_μ_commutes [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_η_commutes [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_eq [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_diagram_full_subcategory [definition, in UniMath.CategoryTheory.Subcategory.Limits]
Lift2CellFibs [section, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
Lift2CellInvertible [section, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lift2CellInvertible.inv [variable, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
lim [definition, in UniMath.CategoryTheory.limits.cats.limits]
lim [definition, in UniMath.CategoryTheory.limits.graphs.limits]
limArrow [definition, in UniMath.CategoryTheory.limits.cats.limits]
limArrow [definition, in UniMath.CategoryTheory.limits.graphs.limits]
limArrowCommutes [lemma, in UniMath.CategoryTheory.limits.cats.limits]
limArrowCommutes [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
limArrowEta [lemma, in UniMath.CategoryTheory.limits.cats.limits]
limArrowEta [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
limArrowUnique [lemma, in UniMath.CategoryTheory.limits.cats.limits]
limArrowUnique [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
limCone [definition, in UniMath.CategoryTheory.limits.cats.limits]
LimCone [definition, in UniMath.CategoryTheory.limits.cats.limits]
limCone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
LimCone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
LimConeHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
LimFunctor [definition, in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor [section, in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor [definition, in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctor [section, in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctorCone [lemma, in UniMath.CategoryTheory.limits.cats.limits]
LimFunctorCone [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctor_unique [lemma, in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor_data [definition, in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor_mor [definition, in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor_ob [definition, in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor_unique [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctor_data [definition, in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctor_mor [definition, in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctor_ob [definition, in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctor.A [variable, in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor.C [variable, in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor.D [variable, in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor.HCg [variable, in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor.HCg [variable, in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctor.hsC [variable, in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor.J [variable, in UniMath.CategoryTheory.limits.cats.limits]
Limit [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
limits [section, in UniMath.CategoryTheory.Presheaf]
Limits [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
limits [section, in UniMath.CategoryTheory.categories.HSET.Limits]
Limits [section, in UniMath.CategoryTheory.Subcategory.Limits]
limits [library]
limits [library]
Limits [library]
Limits [library]
Limits [library]
Limits [library]
Limits [library]
limits_isBinCoproduct_from_isBinCoproductCocone [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
limits_isBinCoproductCocone_from_isBinCoproduct [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
limits.D [variable, in UniMath.CategoryTheory.categories.HSET.Limits]
limits.g [variable, in UniMath.CategoryTheory.categories.HSET.Limits]
limit_universal [lemma, in UniMath.Induction.M.Limits]
limit_up_weq [definition, in UniMath.Induction.M.Limits]
limOfArrows [definition, in UniMath.CategoryTheory.limits.cats.limits]
limOfArrows [definition, in UniMath.CategoryTheory.limits.graphs.limits]
limOfArrowsOut [lemma, in UniMath.CategoryTheory.limits.cats.limits]
limOfArrowsOut [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
limOut [definition, in UniMath.CategoryTheory.limits.cats.limits]
limOut [definition, in UniMath.CategoryTheory.limits.graphs.limits]
limOutCommutes [lemma, in UniMath.CategoryTheory.limits.cats.limits]
limOutCommutes [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
Lims [definition, in UniMath.CategoryTheory.limits.cats.limits]
Lims [section, in UniMath.CategoryTheory.limits.cats.limits]
Lims [definition, in UniMath.CategoryTheory.limits.graphs.limits]
Lims [section, in UniMath.CategoryTheory.limits.graphs.limits]
limset [definition, in UniMath.CategoryTheory.categories.HSET.Limits]
limset_UU [definition, in UniMath.CategoryTheory.categories.HSET.Limits]
LimsFunctorCategory [lemma, in UniMath.CategoryTheory.limits.cats.limits]
LimsFunctorCategory [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
LimsFunctorCategory_of_shape [lemma, in UniMath.CategoryTheory.limits.cats.limits]
LimsFunctorCategory_of_shape [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
LimsHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
LimsHSET_of_shape [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
Lims_PreShv_of_shape [lemma, in UniMath.CategoryTheory.Presheaf]
Lims_of_shape [definition, in UniMath.CategoryTheory.limits.cats.limits]
Lims_of_shape [definition, in UniMath.CategoryTheory.limits.graphs.limits]
Lims.Universal_Unique.H [variable, in UniMath.CategoryTheory.limits.cats.limits]
Lims.Universal_Unique [section, in UniMath.CategoryTheory.limits.cats.limits]
Lims.Universal_Unique.H [variable, in UniMath.CategoryTheory.limits.graphs.limits]
Lims.Universal_Unique.C [variable, in UniMath.CategoryTheory.limits.graphs.limits]
Lims.Universal_Unique [section, in UniMath.CategoryTheory.limits.graphs.limits]
limUnivProp [lemma, in UniMath.CategoryTheory.limits.cats.limits]
limUnivProp [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
lim_functor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Lim_seq [definition, in UniMath.RealNumbers.NonnegativeReals]
lim_nat_trans_in_data [definition, in UniMath.CategoryTheory.limits.cats.limits]
lim_endo_is_identity [lemma, in UniMath.CategoryTheory.limits.cats.limits]
lim_def [section, in UniMath.CategoryTheory.limits.cats.limits]
lim_cone_in_full_subcategory [lemma, in UniMath.CategoryTheory.Subcategory.Limits]
lim_equiv [lemma, in UniMath.Induction.M.Limits]
lim_nat_trans_in_data [definition, in UniMath.CategoryTheory.limits.graphs.limits]
lim_endo_is_identity [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
lim_def [section, in UniMath.CategoryTheory.limits.graphs.limits]
lim:565 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
lim:575 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
lim:593 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
linearfun [definition, in UniMath.Algebra.Modules.Core]
linearfuncomp [definition, in UniMath.Algebra.Modules.Core]
linearfun_islinear [definition, in UniMath.Algebra.Modules.Core]
linvax [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
linvpair [definition, in UniMath.Algebra.Domains_and_Fields]
linvpairxy [definition, in UniMath.Algebra.Domains_and_Fields]
linvunitor [definition, in UniMath.Bicategories.Core.Bicat]
linvunitor_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Unitality]
linvunitor_pstrans_is_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Unitality]
linvunitor_pstrans_data [definition, in UniMath.Bicategories.Transformations.Examples.Unitality]
linvunitor_assoc [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
linvunitor_natural [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
linvunitor_lunitor [definition, in UniMath.Bicategories.Core.Bicat]
linvunitor_lunitor_pstrans [definition, in UniMath.Bicategories.Modifications.Examples.Unitality]
linvunitor_lunitor_pstrans_is_modification [definition, in UniMath.Bicategories.Modifications.Examples.Unitality]
linvunitor_lunitor_pstrans_data [definition, in UniMath.Bicategories.Modifications.Examples.Unitality]
linvunitor_invertible_2cell [definition, in UniMath.Bicategories.Core.Invertible_2cells]
list [section, in UniMath.CategoryTheory.Inductives.Lists]
List [definition, in UniMath.CategoryTheory.Inductives.Lists]
list [definition, in UniMath.Combinatorics.Lists]
ListDataType [library]
listFunctor_Initial [lemma, in UniMath.CategoryTheory.Inductives.Lists]
listInd [lemma, in UniMath.CategoryTheory.Inductives.Lists]
listIndhProp [lemma, in UniMath.CategoryTheory.Inductives.Lists]
listIndProp [lemma, in UniMath.CategoryTheory.Inductives.Lists]
lists [section, in UniMath.CategoryTheory.Inductives.Lists]
lists [section, in UniMath.Combinatorics.Lists]
Lists [library]
Lists [library]
listset [definition, in UniMath.Combinatorics.MoreLists]
lists.A [variable, in UniMath.CategoryTheory.Inductives.Lists]
lists.is_omega_cocont_listFunctor [variable, in UniMath.CategoryTheory.Inductives.Lists]
lists.listFunctor [variable, in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.Pc' [variable, in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.P0' [variable, in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.P' [variable, in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.Pc [variable, in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.P0 [variable, in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.PhSet [variable, in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.P [variable, in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction [section, in UniMath.CategoryTheory.Inductives.Lists]
lists.List_alg [variable, in UniMath.CategoryTheory.Inductives.Lists]
lists.List_mor [variable, in UniMath.CategoryTheory.Inductives.Lists]
lists.Test [section, in UniMath.Combinatorics.Lists]
lists.Test.x [variable, in UniMath.Combinatorics.Lists]
_ :: _ [notation, in UniMath.Combinatorics.Lists]
A [notation, in UniMath.CategoryTheory.Inductives.Lists]
[] [notation, in UniMath.Combinatorics.Lists]
list_tail_cons [lemma, in UniMath.Combinatorics.MoreLists]
list_head_cons [lemma, in UniMath.Combinatorics.MoreLists]
list_cons [definition, in UniMath.Algebra.Universal.Examples.ListDataType]
list_cons_dom_id [lemma, in UniMath.Algebra.Universal.Examples.ListDataType]
list_nil_id [lemma, in UniMath.Algebra.Universal.Examples.ListDataType]
list_nil [definition, in UniMath.Algebra.Universal.Examples.ListDataType]
list_sort_id [lemma, in UniMath.Algebra.Universal.Examples.ListDataType]
list_algebra [definition, in UniMath.Algebra.Universal.Examples.ListDataType]
list_signature [definition, in UniMath.Algebra.Universal.Examples.ListDataType]
list_sort_idx [definition, in UniMath.Algebra.Universal.Examples.ListDataType]
list_ind_compute_2 [lemma, in UniMath.Combinatorics.Lists]
list_ind [lemma, in UniMath.Combinatorics.Lists]
lj':563 [binder, in UniMath.Foundations.NaturalNumbers]
lj:562 [binder, in UniMath.Foundations.NaturalNumbers]
Lle [definition, in UniMath.Algebra.Lattice]
Lle_notLgt [definition, in UniMath.Algebra.Lattice]
LL:11 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:15 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:179 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
LL:19 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:23 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:27 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:32 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:38 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:42 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:7 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
lmap [definition, in UniMath.CategoryTheory.Profunctors.Core]
Lmax [definition, in UniMath.Algebra.Lattice]
Lmax_case [lemma, in UniMath.Algebra.Lattice]
Lmax_case_strong [lemma, in UniMath.Algebra.Lattice]
Lmax_Lgt [definition, in UniMath.Algebra.Lattice]
Lmax_ge_eq_r [definition, in UniMath.Algebra.Lattice]
Lmax_ge_eq_l [definition, in UniMath.Algebra.Lattice]
Lmax_ge_case [definition, in UniMath.Algebra.Lattice]
Lmax_ge_r [definition, in UniMath.Algebra.Lattice]
Lmax_ge_l [definition, in UniMath.Algebra.Lattice]
Lmax_le_eq_r [lemma, in UniMath.Algebra.Lattice]
Lmax_le_eq_l [lemma, in UniMath.Algebra.Lattice]
Lmax_le_case [lemma, in UniMath.Algebra.Lattice]
Lmax_le_r [lemma, in UniMath.Algebra.Lattice]
Lmax_le_l [lemma, in UniMath.Algebra.Lattice]
Lmax_Ltop [lemma, in UniMath.Algebra.Lattice]
Lmax_id [lemma, in UniMath.Algebra.Lattice]
Lmax_absorb [definition, in UniMath.Algebra.Lattice]
lmf_from_param_distr_bicat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_unital [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_assoc [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_μ [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_μ_data_is_nat [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_μ_data [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_μ_aux [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_ε [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_ε_aux [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_functor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmF:23 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lmF:24 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lmF:25 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lmF:26 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lmF:27 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lmF:28 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lmF:38 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Lmin [definition, in UniMath.Algebra.Lattice]
Lmin_case [lemma, in UniMath.Algebra.Lattice]
Lmin_case_strong [lemma, in UniMath.Algebra.Lattice]
Lmin_Lgt [definition, in UniMath.Algebra.Lattice]
Lmin_ge_eq_r [definition, in UniMath.Algebra.Lattice]
Lmin_ge_eq_l [definition, in UniMath.Algebra.Lattice]
Lmin_ge_case [definition, in UniMath.Algebra.Lattice]
Lmin_ge_r [definition, in UniMath.Algebra.Lattice]
Lmin_ge_l [definition, in UniMath.Algebra.Lattice]
Lmin_le_eq_r [lemma, in UniMath.Algebra.Lattice]
Lmin_le_eq_l [lemma, in UniMath.Algebra.Lattice]
Lmin_le_case [lemma, in UniMath.Algebra.Lattice]
Lmin_le_r [lemma, in UniMath.Algebra.Lattice]
Lmin_le_l [lemma, in UniMath.Algebra.Lattice]
Lmin_Lbot [lemma, in UniMath.Algebra.Lattice]
Lmin_id [lemma, in UniMath.Algebra.Lattice]
Lmin_absorb [definition, in UniMath.Algebra.Lattice]
lmk:78 [binder, in UniMath.NumberSystems.RationalNumbers]
lmk:88 [binder, in UniMath.Foundations.NaturalNumbers]
lmk:88 [binder, in UniMath.NumberSystems.Integers]
lmn:83 [binder, in UniMath.NumberSystems.RationalNumbers]
lmn:96 [binder, in UniMath.Foundations.NaturalNumbers]
lmn:96 [binder, in UniMath.NumberSystems.Integers]
LModule [definition, in UniMath.CategoryTheory.Monads.LModules]
LModules [library]
LModule_deriv [definition, in UniMath.CategoryTheory.Monads.Derivative]
LModule_comp_laws [definition, in UniMath.CategoryTheory.Monads.Derivative]
LModule_comp_data [definition, in UniMath.CategoryTheory.Monads.Derivative]
LModule_comp_law2 [lemma, in UniMath.CategoryTheory.Monads.Derivative]
LModule_comp_law1 [lemma, in UniMath.CategoryTheory.Monads.Derivative]
LModule_same_func_iso [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_same_func_Mor_is_inverse [lemma, in UniMath.CategoryTheory.Monads.LModules]
LModule_same_func_Mor [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_same_func_Mor_laws [lemma, in UniMath.CategoryTheory.Monads.LModules]
LModule_forget_functor [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_forget_is_functor [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_forget_functor_data [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_Mor_equiv [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_composition [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_composition_laws [lemma, in UniMath.CategoryTheory.Monads.LModules]
LModule_identity [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_identity_laws [lemma, in UniMath.CategoryTheory.Monads.LModules]
LModule_Mor_σ [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_Mor [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_Mor_laws [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_over_monad.LModule_precategory [section, in UniMath.CategoryTheory.Monads.LModules]
LModule_law2 [lemma, in UniMath.CategoryTheory.Monads.LModules]
LModule_law1 [lemma, in UniMath.CategoryTheory.Monads.LModules]
LModule_data_from_LModule [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_laws [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_data [definition, in UniMath.CategoryTheory.Monads.LModules]
LModule_over_monad.LModule_def [section, in UniMath.CategoryTheory.Monads.LModules]
LModule_over_monad [section, in UniMath.CategoryTheory.Monads.LModules]
lmq:52 [binder, in UniMath.CategoryTheory.CommaCategories]
lmq:59 [binder, in UniMath.CategoryTheory.CommaCategories]
lm_mult [definition, in UniMath.CategoryTheory.Monads.LModules]
LM:317 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
lnm:134 [binder, in UniMath.NumberSystems.RationalNumbers]
lnm:138 [binder, in UniMath.NumberSystems.RationalNumbers]
lnm:147 [binder, in UniMath.NumberSystems.Integers]
lnm:151 [binder, in UniMath.NumberSystems.Integers]
lnm:175 [binder, in UniMath.Foundations.NaturalNumbers]
lnm:179 [binder, in UniMath.Foundations.NaturalNumbers]
lnm:77 [binder, in UniMath.NumberSystems.RationalNumbers]
lnm:82 [binder, in UniMath.NumberSystems.RationalNumbers]
lnm:87 [binder, in UniMath.Foundations.NaturalNumbers]
lnm:87 [binder, in UniMath.NumberSystems.Integers]
lnm:95 [binder, in UniMath.Foundations.NaturalNumbers]
lnm:95 [binder, in UniMath.NumberSystems.Integers]
LocalIsoFibration [section, in UniMath.Bicategories.DisplayedBicats.Fibration]
LocalIsoFibration [section, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.c [variable, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.D [variable, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.h [variable, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator [section, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.a₁ [variable, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.a₂ [variable, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.a₃ [variable, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.a₄ [variable, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.a₅ [variable, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.f₁ [variable, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.f₂ [variable, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.f₃ [variable, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.f₄ [variable, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.Projections [section, in UniMath.Bicategories.DisplayedBicats.Fibration]
_ ^-1 [notation, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
ℓ1 [notation, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
ℓ2 [notation, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
locality [definition, in UniMath.AlgebraicGeometry.SheavesOfRings]
locality_structure_presheaf [lemma, in UniMath.AlgebraicGeometry.Spec]
localization [section, in UniMath.Algebra.RigsAndRings.Ideals]
localization [definition, in UniMath.CategoryTheory.Subcategory.Reflective]
LocalizationUniversalCategory [lemma, in UniMath.CategoryTheory.LocalizingClass]
LocalizationUniversalFunctor [definition, in UniMath.CategoryTheory.LocalizingClass]
LocalizationUniversalFunctorComm [definition, in UniMath.CategoryTheory.LocalizingClass]
LocalizationUniversalFunctorUnique [lemma, in UniMath.CategoryTheory.LocalizingClass]
LocalizationUniversalFunctor_isfunctor [lemma, in UniMath.CategoryTheory.LocalizingClass]
LocalizationUniversalProperty [lemma, in UniMath.CategoryTheory.LocalizingClass]
localization_at [definition, in UniMath.Algebra.RigsAndRings.Ideals]
localization_is_idempotent [lemma, in UniMath.CategoryTheory.Subcategory.Reflective]
LocalizingClass [library]
locally [definition, in UniMath.Topology.Topology]
locally_contractible_to_obj_prop [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_contractible_disp_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_propositional_to_obj_set [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_contractible_if_locally_inhabited_prop [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_inhabited_if_locally_contractible [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_propositional_if_locally_contractible [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_contractible [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_inhabited [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_propositional [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_groupoid [definition, in UniMath.Bicategories.Core.Bicat]
locally_strict [definition, in UniMath.Bicategories.Core.Strictness]
locally_base [definition, in UniMath.Topology.Topology]
locally_base_and [lemma, in UniMath.Topology.Topology]
locally_base_htrue [lemma, in UniMath.Topology.Topology]
locally_base_imply [lemma, in UniMath.Topology.Topology]
locally_base [section, in UniMath.Topology.Topology]
locally_groupoid_psfunctor_bicat [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
locally2d [definition, in UniMath.Topology.Topology]
locally2d_correct [lemma, in UniMath.Topology.Topology]
LocalNotation [section, in UniMath.Bicategories.Transformations.PseudoTransformation]
## [notation, in UniMath.Bicategories.Transformations.PseudoTransformation]
local_fib_weq_local_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
local_fib_to_local_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
local_cleaving_to_local_fib [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
local_fib [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
local_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
local_iso_cleaving_1cell [definition, in UniMath.Bicategories.DisplayedBicats.Fibration]
local_iso_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.Fibration]
local_equivalence [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
local_iso_cleaving_id [definition, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
LocSqr1 [definition, in UniMath.CategoryTheory.LocalizingClass]
LocSqr1Comm [definition, in UniMath.CategoryTheory.LocalizingClass]
LocSqr1Mor1 [definition, in UniMath.CategoryTheory.LocalizingClass]
LocSqr1Mor2 [definition, in UniMath.CategoryTheory.LocalizingClass]
LocSqr1Mor2Is [definition, in UniMath.CategoryTheory.LocalizingClass]
LocSqr1Ob [definition, in UniMath.CategoryTheory.LocalizingClass]
LocSqr2 [definition, in UniMath.CategoryTheory.LocalizingClass]
LocSqr2Comm [definition, in UniMath.CategoryTheory.LocalizingClass]
LocSqr2Mor1 [definition, in UniMath.CategoryTheory.LocalizingClass]
LocSqr2Mor2 [definition, in UniMath.CategoryTheory.LocalizingClass]
LocSqr2Mor2Is [definition, in UniMath.CategoryTheory.LocalizingClass]
LocSqr2Ob [definition, in UniMath.CategoryTheory.LocalizingClass]
loc_precategory [definition, in UniMath.CategoryTheory.LocalizingClass]
loc_precategory_assoc [lemma, in UniMath.CategoryTheory.LocalizingClass]
loc_precategory_assoc_eqrel [lemma, in UniMath.CategoryTheory.LocalizingClass]
loc_precategory_assoc_eqrel2 [lemma, in UniMath.CategoryTheory.LocalizingClass]
loc_precategory_assoc_eqrel1 [lemma, in UniMath.CategoryTheory.LocalizingClass]
loc_precategory_assoc_Roof [definition, in UniMath.CategoryTheory.LocalizingClass]
loc_id_right [lemma, in UniMath.CategoryTheory.LocalizingClass]
loc_id_left [lemma, in UniMath.CategoryTheory.LocalizingClass]
loc_id_left_in [lemma, in UniMath.CategoryTheory.LocalizingClass]
loc_precategory_data [definition, in UniMath.CategoryTheory.LocalizingClass]
loc_precategory_ob_mor [definition, in UniMath.CategoryTheory.LocalizingClass]
logeq [definition, in UniMath.Foundations.PartA]
logeqabgrdiffrelints [lemma, in UniMath.Algebra.Groups]
logeqabgrdiffrels [definition, in UniMath.Algebra.Groups]
logeqhrelsabgrdiff [lemma, in UniMath.Algebra.Groups]
logeqnegs [definition, in UniMath.Foundations.PartA]
logeqweq [definition, in UniMath.Foundations.Propositions]
logeq_dec [lemma, in UniMath.MoreFoundations.DecidablePropositions]
logeq_if_both_false [lemma, in UniMath.MoreFoundations.Propositions]
logeq_if_both_true [lemma, in UniMath.MoreFoundations.Propositions]
logeq_trans [definition, in UniMath.Foundations.PartA]
logeq_both_false [definition, in UniMath.Foundations.PartA]
logeq_both_true [definition, in UniMath.Foundations.PartA]
loop [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
loopsBG [lemma, in UniMath.Algebra.GroupAction]
loopsBG_comp_2 [definition, in UniMath.Algebra.GroupAction]
loopsBG_comp' [definition, in UniMath.Algebra.GroupAction]
loopsBG_comp [definition, in UniMath.Algebra.GroupAction]
loopSpace [definition, in UniMath.MoreFoundations.PartA]
loops_circle [lemma, in UniMath.SyntheticHomotopyTheory.Circle]
loops_circle [lemma, in UniMath.SyntheticHomotopyTheory.Circle2]
loop_compute [lemma, in UniMath.SyntheticHomotopyTheory.Circle]
loop_correspondence' [definition, in UniMath.MoreFoundations.MoreEquivalences]
loop_correspondence [definition, in UniMath.MoreFoundations.MoreEquivalences]
loop_power [definition, in UniMath.NumberSystems.Integers]
loop_power_nat [definition, in UniMath.MoreFoundations.PartA]
loop_loop' [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
loop' [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
loop':74 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
loop:14 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
loop:24 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
loop:32 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
loop:41 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
loop:5 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
loop:50 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
loop:57 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
loop:60 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
loop:65 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
loop:68 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
loop:73 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
LowerBounds [section, in UniMath.Algebra.FixedPointTheorems]
LSE:145 [binder, in UniMath.CategoryTheory.ShortExactSequences]
LSE:147 [binder, in UniMath.CategoryTheory.ShortExactSequences]
LSE:85 [binder, in UniMath.CategoryTheory.ShortExactSequences]
LSE:86 [binder, in UniMath.CategoryTheory.ShortExactSequences]
lstack:106 [binder, in UniMath.Algebra.Universal.Terms]
lstack:72 [binder, in UniMath.Algebra.Universal.Terms]
LS1:42 [binder, in UniMath.CategoryTheory.LocalizingClass]
LS1:50 [binder, in UniMath.CategoryTheory.LocalizingClass]
LS1:58 [binder, in UniMath.CategoryTheory.LocalizingClass]
LS1:66 [binder, in UniMath.CategoryTheory.LocalizingClass]
LS1:74 [binder, in UniMath.CategoryTheory.LocalizingClass]
LS2:107 [binder, in UniMath.CategoryTheory.LocalizingClass]
LS2:115 [binder, in UniMath.CategoryTheory.LocalizingClass]
LS2:123 [binder, in UniMath.CategoryTheory.LocalizingClass]
LS2:91 [binder, in UniMath.CategoryTheory.LocalizingClass]
LS2:99 [binder, in UniMath.CategoryTheory.LocalizingClass]
lt [definition, in UniMath.Combinatorics.WellOrderedSets]
ltg':132 [binder, in UniMath.Combinatorics.FiniteSequences]
ltg':141 [binder, in UniMath.Combinatorics.FiniteSequences]
ltg:131 [binder, in UniMath.Combinatorics.FiniteSequences]
ltg:140 [binder, in UniMath.Combinatorics.FiniteSequences]
lthnatrem [lemma, in UniMath.Foundations.NaturalNumbers]
ltNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
ltNonnegativeRationals_noteq [definition, in UniMath.RealNumbers.NonnegativeRationals]
ltNonnegativeRationals_correct [lemma, in UniMath.RealNumbers.NonnegativeRationals]
ltNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
Ltop [definition, in UniMath.Algebra.Lattice]
lt_leNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
lt_to_nleq [definition, in UniMath.Algebra.FixedPointTheorems]
lt_implies_le [lemma, in UniMath.Combinatorics.OrderedSets]
lt_gtNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
lt_leNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
lt:124 [binder, in UniMath.Combinatorics.WellFoundedRelations]
lt:126 [binder, in UniMath.Combinatorics.WellFoundedRelations]
lt:148 [binder, in UniMath.RealNumbers.Sets]
lt:15 [binder, in UniMath.Combinatorics.WellFoundedRelations]
lt:153 [binder, in UniMath.RealNumbers.Sets]
lt:17 [binder, in UniMath.SubstitutionSystems.MultiSorted]
lt:19 [binder, in UniMath.Combinatorics.WellFoundedRelations]
lt:199 [binder, in UniMath.Combinatorics.OrderedSets]
lt:2 [binder, in UniMath.Combinatorics.WellFoundedRelations]
lt:209 [binder, in UniMath.Combinatorics.OrderedSets]
lt:214 [binder, in UniMath.Combinatorics.OrderedSets]
lt:27 [binder, in UniMath.SubstitutionSystems.MultiSorted]
lt:28 [binder, in UniMath.Combinatorics.Tests]
lt:28 [binder, in UniMath.SubstitutionSystems.MultiSorted]
lt:29 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
lt:3 [binder, in UniMath.Paradoxes.GirardsParadox]
lt:39 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
lt:40 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
lt:7 [binder, in UniMath.Combinatorics.WellFoundedRelations]
lt:84 [binder, in UniMath.RealNumbers.Sets]
lt:95 [binder, in UniMath.RealNumbers.Sets]
lt:98 [binder, in UniMath.RealNumbers.Sets]
lubpreservesorder [lemma, in UniMath.Algebra.Dcpo]
lubsareunique [lemma, in UniMath.Algebra.Dcpo]
lub:161 [binder, in UniMath.RealNumbers.Sets]
lub:164 [binder, in UniMath.RealNumbers.Sets]
lub:166 [binder, in UniMath.RealNumbers.Sets]
lub:168 [binder, in UniMath.RealNumbers.Sets]
lub:180 [binder, in UniMath.RealNumbers.Sets]
lub:192 [binder, in UniMath.Combinatorics.OrderedSets]
lunax [definition, in UniMath.Algebra.Monoids]
lunax_is [definition, in UniMath.Algebra.BinaryOperations]
lunax:12 [binder, in UniMath.Algebra.Matrix]
lunax:39 [binder, in UniMath.Algebra.IteratedBinaryOperations]
lunax:45 [binder, in UniMath.Algebra.IteratedBinaryOperations]
lunax:48 [binder, in UniMath.Algebra.IteratedBinaryOperations]
lunax:50 [binder, in UniMath.Algebra.Matrix]
lunitor [definition, in UniMath.Bicategories.Core.Bicat]
lunitor_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Unitality]
lunitor_pstrans_is_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Unitality]
lunitor_pstrans_data [definition, in UniMath.Bicategories.Transformations.Examples.Unitality]
lunitor_V_id_is_left_unit_V_id [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
lunitor_id_is_left_unit_id [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
lunitor_assoc [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
lunitor_transf [definition, in UniMath.Bicategories.Core.Bicat]
lunitor_natural [lemma, in UniMath.Bicategories.Core.Bicat]
lunitor_lwhisker [lemma, in UniMath.Bicategories.Core.Bicat]
lunitor_inv:470 [binder, in UniMath.Bicategories.Core.Bicat]
lunitor_linvunitor [definition, in UniMath.Bicategories.Core.Bicat]
lunitor_linvunitor_pstrans [definition, in UniMath.Bicategories.Modifications.Examples.Unitality]
lunitor_linvunitor_pstrans_is_modification [definition, in UniMath.Bicategories.Modifications.Examples.Unitality]
lunitor_linvunitor_pstrans_data [definition, in UniMath.Bicategories.Modifications.Examples.Unitality]
lunitor_invertible_2cell [definition, in UniMath.Bicategories.Core.Invertible_2cells]
lunitor_triangle [definition, in UniMath.Bicategories.Core.Unitors]
lunitor_runitor_identity [lemma, in UniMath.Bicategories.Core.Unitors]
lunitor_is_lunitor_lwhisker [lemma, in UniMath.Bicategories.Core.Unitors]
lunitor:466 [binder, in UniMath.Bicategories.Core.Bicat]
lunit_left_gen [definition, in UniMath.CategoryTheory.HorizontalComposition]
lun:11 [binder, in UniMath.Algebra.Matrix]
lun:49 [binder, in UniMath.Algebra.Matrix]
lu:117 [binder, in UniMath.Algebra.Dcpo]
LU:32 [binder, in UniMath.RealNumbers.DedekindCuts]
LU:38 [binder, in UniMath.RealNumbers.DedekindCuts]
Lu:724 [binder, in UniMath.RealNumbers.NonnegativeReals]
lv:118 [binder, in UniMath.Algebra.Dcpo]
lwhisker [definition, in UniMath.Bicategories.Core.Bicat]
lwhisker [definition, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
lwhisker [definition, in UniMath.CategoryTheory.Core.TwoCategories]
lwhisker_hcomp [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
lwhisker_cartesian [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
lwhisker_lwhisker_rassociator [lemma, in UniMath.Bicategories.Core.Bicat]
lwhisker_lwhisker [definition, in UniMath.Bicategories.Core.Bicat]
lwhisker_vcomp [definition, in UniMath.Bicategories.Core.Bicat]
lwhisker_id2 [definition, in UniMath.Bicategories.Core.Bicat]
lwhisker_of_invertible_2cell [definition, in UniMath.Bicategories.Core.Invertible_2cells]
lwhisker_with_ϵ_inv2cell [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lwhisker_with_invrunitor_inv2cell [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lwhisker_with_invlunitor_inv2cell [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lwhisker_with_linvunitor_inv2cell [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lwhisker_rwhisker_with_ϵ_inv_inv2cell [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lwhisker_with_μ_inv_inv2cell [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lwhisker_runitor_lunitor [lemma, in UniMath.Bicategories.Core.Unitors]
lwhisker_id_inj [lemma, in UniMath.Bicategories.Core.Unitors]
lwhisker_lwhisker [definition, in UniMath.CategoryTheory.Core.TwoCategories]
lwhisker_vcomp [definition, in UniMath.CategoryTheory.Core.TwoCategories]
lwhisker_id2 [definition, in UniMath.CategoryTheory.Core.TwoCategories]
lwhisk:455 [binder, in UniMath.Bicategories.Core.Bicat]
LX:1142 [binder, in UniMath.Foundations.Sets]
LX:865 [binder, in UniMath.Foundations.Sets]
LY:1151 [binder, in UniMath.Foundations.Sets]
LY:874 [binder, in UniMath.Foundations.Sets]
lzy:109 [binder, in UniMath.Combinatorics.WellFoundedRelations]
L_A [definition, in UniMath.CategoryTheory.Inductives.Lists]
L_A [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
L':107 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L':124 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L':1265 [binder, in UniMath.Foundations.Sets]
L':138 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L':1405 [binder, in UniMath.Foundations.Sets]
L':1425 [binder, in UniMath.Foundations.Sets]
L':152 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L':166 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L':18 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
L':180 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L':193 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L':206 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L':220 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L':234 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L':247 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L':260 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L':262 [binder, in UniMath.Topology.Filters]
L':268 [binder, in UniMath.Topology.Filters]
L':275 [binder, in UniMath.Topology.Filters]
L':286 [binder, in UniMath.Topology.Filters]
L':296 [binder, in UniMath.Topology.Filters]
L':375 [binder, in UniMath.Topology.Filters]
L':389 [binder, in UniMath.Topology.Filters]
L':491 [binder, in UniMath.Algebra.Groups]
L':502 [binder, in UniMath.Algebra.Groups]
l':60 [binder, in UniMath.CategoryTheory.Inductives.Lists]
L':636 [binder, in UniMath.Algebra.Monoids]
L':648 [binder, in UniMath.Algebra.Monoids]
l':715 [binder, in UniMath.RealNumbers.NonnegativeReals]
l':718 [binder, in UniMath.RealNumbers.NonnegativeReals]
L':90 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
l1 [lemma, in UniMath.Foundations.UnivalenceAxiom]
l1 [lemma, in UniMath.Algebra.Universal.Examples.Tests]
l1:112 [binder, in UniMath.Combinatorics.MoreLists]
l1:118 [binder, in UniMath.Combinatorics.MoreLists]
l1:123 [binder, in UniMath.Combinatorics.MoreLists]
l1:128 [binder, in UniMath.Combinatorics.MoreLists]
l1:132 [binder, in UniMath.Combinatorics.MoreLists]
l1:135 [binder, in UniMath.Combinatorics.MoreLists]
l1:20 [binder, in UniMath.CategoryTheory.Inductives.Trees]
l1:244 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
l1:29 [binder, in UniMath.CategoryTheory.Inductives.Trees]
l1:40 [binder, in UniMath.CategoryTheory.Inductives.Trees]
l1:42 [binder, in UniMath.Algebra.Universal.Terms]
l1:44 [binder, in UniMath.Combinatorics.MoreLists]
l1:44 [binder, in UniMath.CategoryTheory.Inductives.Trees]
l1:47 [binder, in UniMath.Combinatorics.MoreLists]
l1:50 [binder, in UniMath.Combinatorics.MoreLists]
l1:51 [binder, in UniMath.Algebra.Universal.Terms]
l1:53 [binder, in UniMath.Combinatorics.MoreLists]
l1:71 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
l1:84 [binder, in UniMath.Combinatorics.MoreLists]
l1:92 [binder, in UniMath.Combinatorics.MoreLists]
l2 [lemma, in UniMath.Algebra.Universal.Examples.Tests]
l2:113 [binder, in UniMath.Combinatorics.MoreLists]
l2:119 [binder, in UniMath.Combinatorics.MoreLists]
l2:124 [binder, in UniMath.Combinatorics.MoreLists]
l2:129 [binder, in UniMath.Combinatorics.MoreLists]
l2:133 [binder, in UniMath.Combinatorics.MoreLists]
l2:136 [binder, in UniMath.Combinatorics.MoreLists]
l2:21 [binder, in UniMath.CategoryTheory.Inductives.Trees]
l2:245 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
l2:30 [binder, in UniMath.CategoryTheory.Inductives.Trees]
l2:41 [binder, in UniMath.CategoryTheory.Inductives.Trees]
l2:43 [binder, in UniMath.Algebra.Universal.Terms]
l2:45 [binder, in UniMath.CategoryTheory.Inductives.Trees]
l2:48 [binder, in UniMath.Combinatorics.MoreLists]
l2:51 [binder, in UniMath.Combinatorics.MoreLists]
l2:52 [binder, in UniMath.Algebra.Universal.Terms]
l2:54 [binder, in UniMath.Combinatorics.MoreLists]
l2:72 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
l2:85 [binder, in UniMath.Combinatorics.MoreLists]
l2:93 [binder, in UniMath.Combinatorics.MoreLists]
l3 [lemma, in UniMath.Algebra.Universal.Examples.Tests]
l3:114 [binder, in UniMath.Combinatorics.MoreLists]
l3:125 [binder, in UniMath.Combinatorics.MoreLists]
l3:130 [binder, in UniMath.Combinatorics.MoreLists]
l4 [lemma, in UniMath.Algebra.Universal.Examples.Tests]
L:1 [binder, in UniMath.RealNumbers.DedekindCuts]
l:10 [binder, in UniMath.CategoryTheory.Monads.Derivative]
l:100 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
L:100 [binder, in UniMath.CategoryTheory.Monads.Derivative]
l:101 [binder, in UniMath.PAdics.fps]
l:102 [binder, in UniMath.CategoryTheory.LatticeObject]
l:102 [binder, in UniMath.Foundations.PartA]
L:1020 [binder, in UniMath.Algebra.RigsAndRings]
L:103 [binder, in UniMath.Bicategories.Core.Adjunctions]
l:103 [binder, in UniMath.PAdics.fps]
l:105 [binder, in UniMath.Algebra.Universal.Terms]
l:105 [binder, in UniMath.MoreFoundations.Univalence]
L:105 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
l:107 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
L:1089 [binder, in UniMath.Foundations.Sets]
l:109 [binder, in UniMath.CategoryTheory.Inductives.Lists]
l:11 [binder, in UniMath.Algebra.Universal.Terms]
L:11 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
l:11 [binder, in UniMath.Algebra.Universal.Examples.ListDataType]
l:11 [binder, in UniMath.Combinatorics.BoundedSearch]
l:11 [binder, in UniMath.Induction.M.Limits]
L:1108 [binder, in UniMath.Algebra.BinaryOperations]
l:111 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
l:111 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
l:112 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
l:112 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
l:113 [binder, in UniMath.CategoryTheory.Inductives.Lists]
l:116 [binder, in UniMath.Combinatorics.MoreLists]
l:117 [binder, in UniMath.CategoryTheory.Inductives.Lists]
l:118 [binder, in UniMath.Combinatorics.Lists]
l:119 [binder, in UniMath.CategoryTheory.Inductives.Lists]
L:1193 [binder, in UniMath.Algebra.BinaryOperations]
L:1197 [binder, in UniMath.Algebra.BinaryOperations]
l:12 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
L:12 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
l:12 [binder, in UniMath.CategoryTheory.Monads.Derivative]
l:120 [binder, in UniMath.Combinatorics.WellFoundedRelations]
l:121 [binder, in UniMath.CategoryTheory.Inductives.Lists]
l:121 [binder, in UniMath.Combinatorics.MoreLists]
l:122 [binder, in UniMath.CategoryTheory.Inductives.Lists]
l:122 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
L:122 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
l:123 [binder, in UniMath.Combinatorics.Lists]
l:123 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
l:124 [binder, in UniMath.CategoryTheory.Inductives.Lists]
L:1243 [binder, in UniMath.Foundations.Sets]
L:1246 [binder, in UniMath.Foundations.Sets]
L:1259 [binder, in UniMath.Foundations.Sets]
l:126 [binder, in UniMath.CategoryTheory.Inductives.Lists]
L:1264 [binder, in UniMath.Foundations.Sets]
l:127 [binder, in UniMath.Foundations.NaturalNumbers]
l:127 [binder, in UniMath.Combinatorics.Lists]
L:1270 [binder, in UniMath.Foundations.Sets]
L:1274 [binder, in UniMath.Foundations.Sets]
l:128 [binder, in UniMath.CategoryTheory.Inductives.Lists]
l:128 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
L:1281 [binder, in UniMath.Algebra.BinaryOperations]
L:1291 [binder, in UniMath.Foundations.Sets]
l:13 [binder, in UniMath.Algebra.Universal.Terms]
L:13 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
l:130 [binder, in UniMath.NumberSystems.RationalNumbers]
L:1304 [binder, in UniMath.Foundations.Sets]
L:1305 [binder, in UniMath.Algebra.BinaryOperations]
L:1309 [binder, in UniMath.Algebra.BinaryOperations]
L:1309 [binder, in UniMath.Foundations.Sets]
l:131 [binder, in UniMath.Combinatorics.Lists]
L:1314 [binder, in UniMath.Foundations.Sets]
L:1319 [binder, in UniMath.Foundations.Sets]
L:1326 [binder, in UniMath.Foundations.Sets]
l:133 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
l:133 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
L:1339 [binder, in UniMath.Foundations.Sets]
l:134 [binder, in UniMath.Combinatorics.Lists]
l:135 [binder, in UniMath.CategoryTheory.Inductives.Lists]
L:1352 [binder, in UniMath.Foundations.Sets]
L:136 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L:1361 [binder, in UniMath.Foundations.Sets]
l:137 [binder, in UniMath.CategoryTheory.Inductives.Lists]
L:1375 [binder, in UniMath.Algebra.BinaryOperations]
L:1378 [binder, in UniMath.Foundations.Sets]
l:138 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
L:1391 [binder, in UniMath.Foundations.Sets]
L:14 [binder, in UniMath.Algebra.Lattice]
l:14 [binder, in UniMath.CategoryTheory.Monads.Derivative]
L:1404 [binder, in UniMath.Foundations.Sets]
l:142 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
L:1424 [binder, in UniMath.Foundations.Sets]
l:143 [binder, in UniMath.NumberSystems.Integers]
l:143 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
l:144 [binder, in UniMath.RealNumbers.Reals]
L:1443 [binder, in UniMath.Foundations.Sets]
L:1447 [binder, in UniMath.Foundations.Sets]
L:1461 [binder, in UniMath.Foundations.Sets]
L:1466 [binder, in UniMath.Foundations.Sets]
l:148 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
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l:15 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
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l:68 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
L:68 [binder, in UniMath.Topology.Prelim]
l:68 [binder, in UniMath.PAdics.fps]
l:68 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
l:69 [binder, in UniMath.RealNumbers.Sets]
l:69 [binder, in UniMath.PAdics.fps]
L:7 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
L:70 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
L:70 [binder, in UniMath.CategoryTheory.LatticeObject]
L:70 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
l:705 [binder, in UniMath.RealNumbers.NonnegativeReals]
l:71 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
l:71 [binder, in UniMath.Algebra.Universal.Terms]
l:71 [binder, in UniMath.Combinatorics.MoreLists]
l:71 [binder, in UniMath.RealNumbers.Sets]
l:71 [binder, in UniMath.CategoryTheory.LatticeObject]
l:714 [binder, in UniMath.RealNumbers.NonnegativeReals]
l:717 [binder, in UniMath.RealNumbers.NonnegativeReals]
L:72 [binder, in UniMath.Topology.Prelim]
l:720 [binder, in UniMath.RealNumbers.NonnegativeReals]
L:720 [binder, in UniMath.Algebra.RigsAndRings]
l:722 [binder, in UniMath.RealNumbers.NonnegativeReals]
l:73 [binder, in UniMath.RealNumbers.Sets]
l:73 [binder, in UniMath.Combinatorics.WellFoundedRelations]
l:74 [binder, in UniMath.PAdics.fps]
L:75 [binder, in UniMath.CategoryTheory.LatticeObject]
l:75 [binder, in UniMath.PAdics.fps]
l:76 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
l:76 [binder, in UniMath.Combinatorics.MoreLists]
l:76 [binder, in UniMath.Algebra.IteratedBinaryOperations]
L:77 [binder, in UniMath.Topology.Prelim]
l:77 [binder, in UniMath.RealNumbers.Sets]
l:77 [binder, in UniMath.CategoryTheory.Monads.Derivative]
l:78 [binder, in UniMath.CategoryTheory.LatticeObject]
L:78 [binder, in UniMath.CategoryTheory.Monads.Derivative]
L:79 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
L:79 [binder, in UniMath.Topology.Prelim]
l:79 [binder, in UniMath.RealNumbers.Sets]
L:79 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
l:8 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
l:80 [binder, in UniMath.PAdics.fps]
l:80 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
l:81 [binder, in UniMath.RealNumbers.Sets]
l:81 [binder, in UniMath.PAdics.fps]
l:82 [binder, in UniMath.Combinatorics.MoreLists]
L:823 [binder, in UniMath.Foundations.Sets]
l:83 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
l:84 [binder, in UniMath.CategoryTheory.Monads.Derivative]
L:85 [binder, in UniMath.CategoryTheory.Monads.Derivative]
l:86 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
l:86 [binder, in UniMath.PAdics.fps]
l:87 [binder, in UniMath.PAdics.fps]
l:88 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
L:88 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L:882 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
l:89 [binder, in UniMath.Combinatorics.MoreLists]
l:89 [binder, in UniMath.PAdics.fps]
l:9 [binder, in UniMath.Algebra.Universal.Terms]
L:9 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
l:9 [binder, in UniMath.Induction.M.Limits]
L:90 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
L:91 [binder, in UniMath.CategoryTheory.Monads.Derivative]
l:91 [binder, in UniMath.PAdics.fps]
l:93 [binder, in UniMath.PAdics.fps]
l:94 [binder, in UniMath.Combinatorics.MoreLists]
l:95 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
l:95 [binder, in UniMath.Combinatorics.MoreLists]
l:95 [binder, in UniMath.PAdics.fps]
l:96 [binder, in UniMath.Algebra.Universal.Terms]
l:96 [binder, in UniMath.CategoryTheory.Monads.Derivative]
l:97 [binder, in UniMath.Algebra.Universal.Terms]
L:97 [binder, in UniMath.CategoryTheory.Monads.Derivative]
l:97 [binder, in UniMath.PAdics.fps]
L:98 [binder, in UniMath.Bicategories.Core.Adjunctions]
l:98 [binder, in UniMath.Algebra.Universal.Terms]
l:99 [binder, in UniMath.Algebra.Universal.Terms]
L:99 [binder, in UniMath.CategoryTheory.LatticeObject]
l:99 [binder, in UniMath.PAdics.fps]

M

M [definition, in UniMath.Induction.M.Core]
M [section, in UniMath.Induction.M.Core]
M [definition, in UniMath.Induction.M.ComputationalM]
M [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
magnitude [definition, in UniMath.Algebra.Matrix]
Main [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
MainResult [section, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
MainResult.Colims_of_shape_nat_graph_EndC [variable, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
MainResult.Const_plus_H [variable, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
MainResult.CPEndC [variable, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
MainResult.CPEndEndC [variable, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
MainResult.EndEndC [variable, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
MainResult.Id_H [variable, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
MainResult.InitialEndC [variable, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
EndC [notation, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Ptd [notation, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Main.ActionViaBicat [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Main.Functor [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Main.FunctorViaBicat [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Main.FunctorViaBicat.IntoMonoidalFunctorBicat [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Main.Functor.H [variable, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Main.Functor.H' [variable, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
_ ⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
make [definition, in UniMath.Algebra.GroupAction]
make [definition, in UniMath.Combinatorics.MetricTree]
makeAction [definition, in UniMath.Algebra.GroupAction]
makecategory [definition, in UniMath.CategoryTheory.Core.Categories]
makecategory_data [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makecategory_ob_mor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeEpiCokernel [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
makeEquivalence [definition, in UniMath.MoreFoundations.Equivalences]
makeFunctor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeFunctor_op [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeGH [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_diagonalLoop_comp2 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_diagonalLoop_comp1 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_diagonalLoop [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_transPath_comp2 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_transPath_comp1 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_transPath [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_horizontalPath_comp2 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_horizontalPath_comp1 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_horizontalPath [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_verticalPath_comp2 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_verticalPath_comp1 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_verticalPath [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_localPath_comp2 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_localPath_comp1 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_localPath [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGH1 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
makeGuidedHomotopy [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_diagonalPath_comp [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_diagonalPath [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_transPath_comp [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_transPath [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_verticalPath_comp [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_verticalPath [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_localPath_comp [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_localPath [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy1 [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy2 [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
makeMonicKernel [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
makeNatiso [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeNatiso_op [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeNattrans [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeNattrans_op [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeNullHomotopy [definition, in UniMath.SyntheticHomotopyTheory.Halfline]
makeRepresentation [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
makeSubset [definition, in UniMath.MoreFoundations.Sets]
make_sheaf_commring [definition, in UniMath.AlgebraicGeometry.SheavesOfRings]
make_KADTriData [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
make_Presheaf [definition, in UniMath.CategoryTheory.GrothendieckTopos]
make_AddEquiv [definition, in UniMath.CategoryTheory.AdditiveFunctors]
make_AdditiveFunctor [definition, in UniMath.CategoryTheory.AdditiveFunctors]
make_isAdditiveFunctor' [definition, in UniMath.CategoryTheory.AdditiveFunctors]
make_isAdditiveFunctor [definition, in UniMath.CategoryTheory.AdditiveFunctors]
make_listAlgebra [definition, in UniMath.CategoryTheory.Inductives.Lists]
make_PreShv_functor_iso [lemma, in UniMath.CategoryTheory.Presheaf]
make_PreShv_functor_iso_helper [definition, in UniMath.CategoryTheory.Presheaf]
make_fully_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
make_mor [definition, in UniMath.CategoryTheory.Elements]
make_ob [definition, in UniMath.CategoryTheory.Elements]
make_Abelian [definition, in UniMath.CategoryTheory.Abelian]
make_AbelianData [definition, in UniMath.CategoryTheory.Abelian]
make_EpisAreCokernels [definition, in UniMath.CategoryTheory.Abelian]
make_MonicsAreKernels [definition, in UniMath.CategoryTheory.Abelian]
make_Data2 [definition, in UniMath.CategoryTheory.Abelian]
make_Data1 [definition, in UniMath.CategoryTheory.Abelian]
make_prime_ideal [definition, in UniMath.Algebra.RigsAndRings.Ideals]
make_ideal [definition, in UniMath.Algebra.RigsAndRings.Ideals]
make_rideal [definition, in UniMath.Algebra.RigsAndRings.Ideals]
make_lideal [definition, in UniMath.Algebra.RigsAndRings.Ideals]
make_moduleiso [definition, in UniMath.Algebra.Modules.Core]
make_modulefun [definition, in UniMath.Algebra.Modules.Core]
make_ismodulefun [definition, in UniMath.Algebra.Modules.Core]
make_linearfun [definition, in UniMath.Algebra.Modules.Core]
make_module [definition, in UniMath.Algebra.Modules.Core]
make_RelModule [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
make_relmodule_data [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
make_has_pb_ump [definition, in UniMath.Bicategories.Colimits.Pullback]
make_pb_2cell [definition, in UniMath.Bicategories.Colimits.Pullback]
make_pb_1cell [definition, in UniMath.Bicategories.Colimits.Pullback]
make_pb_cone [definition, in UniMath.Bicategories.Colimits.Pullback]
make_ob_comp_eq [lemma, in UniMath.CategoryTheory.ElementsOp]
make_ob_identity_eq [lemma, in UniMath.CategoryTheory.ElementsOp]
make_mor [definition, in UniMath.CategoryTheory.ElementsOp]
make_ob [definition, in UniMath.CategoryTheory.ElementsOp]
make_STLC_Algebra [definition, in UniMath.SubstitutionSystems.STLC]
make_varspec [definition, in UniMath.Algebra.Universal.VTerms]
make_disp_psfunctor_data [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
make_ExactCategory [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
make_RoofEqclass [definition, in UniMath.CategoryTheory.LocalizingClass]
make_RoofTop [definition, in UniMath.CategoryTheory.LocalizingClass]
make_Coroof [definition, in UniMath.CategoryTheory.LocalizingClass]
make_Roof [definition, in UniMath.CategoryTheory.LocalizingClass]
make_GH [definition, in UniMath.SyntheticHomotopyTheory.Circle]
make_Terminal [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
make_isTerminal [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
make_pstrans_data_on_data [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
make_pstrans [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
make_pstrans_data [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
make_vec_el [lemma, in UniMath.Combinatorics.Vectors]
make_vec [definition, in UniMath.Combinatorics.Vectors]
make_invertible_2cell [definition, in UniMath.Bicategories.Core.Bicat]
make_is_invertible_2cell [definition, in UniMath.Bicategories.Core.Bicat]
make_prebicat_data [definition, in UniMath.Bicategories.Core.Bicat]
make_Dcuts [definition, in UniMath.RealNumbers.NonnegativeReals]
make_FiveRowMorphism [definition, in UniMath.CategoryTheory.FiveLemma]
make_FiveRowMorsComm [definition, in UniMath.CategoryTheory.FiveLemma]
make_FiveRowMors [definition, in UniMath.CategoryTheory.FiveLemma]
make_FiveRow [definition, in UniMath.CategoryTheory.FiveLemma]
make_FiveRowExacts [definition, in UniMath.CategoryTheory.FiveLemma]
make_FiveRowDiffsEq [definition, in UniMath.CategoryTheory.FiveLemma]
make_FiveRowDiffs [definition, in UniMath.CategoryTheory.FiveLemma]
make_FiveRowObs [definition, in UniMath.CategoryTheory.FiveLemma]
make_disp_invmodification' [definition, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
make_disp_invmodification [definition, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
make_disp_pstrans [definition, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
make_disp_psfunctor [definition, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
make_abgr_isKernel_Criteria [definition, in UniMath.CategoryTheory.categories.abgrs]
make_abgr_epi_cokernel_isCokernel [definition, in UniMath.CategoryTheory.categories.abgrs]
make_abgr_monic_Kernel_isKernel [definition, in UniMath.CategoryTheory.categories.abgrs]
make_abgr_CokernelOut [definition, in UniMath.CategoryTheory.categories.abgrs]
make_kleisli_triple_on_functor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
make_kleisli_triple [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
make_directed [definition, in UniMath.Algebra.FixedPointTheorems]
make_least_upper_bound [definition, in UniMath.Algebra.FixedPointTheorems]
make_greatest_suchthat [definition, in UniMath.Algebra.FixedPointTheorems]
make_least_suchthat [definition, in UniMath.Algebra.FixedPointTheorems]
make_abmonoid' [definition, in UniMath.Algebra.Monoids]
make_abmonoid [definition, in UniMath.Algebra.Monoids]
make_submonoid [definition, in UniMath.Algebra.Monoids]
make_issubmonoid [definition, in UniMath.Algebra.Monoids]
make_monoidiso [definition, in UniMath.Algebra.Monoids]
make_monoidmono [definition, in UniMath.Algebra.Monoids]
make_ismonoidfun [definition, in UniMath.Algebra.Monoids]
make_monoid [definition, in UniMath.Algebra.Monoids]
make_Coequalizer [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
make_isCoequalizer [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
make_isolated [definition, in UniMath.Foundations.PartB]
make_incl [definition, in UniMath.Foundations.PartB]
make_isCoproduct [definition, in UniMath.CategoryTheory.limits.coproducts]
make_Coproduct [definition, in UniMath.CategoryTheory.limits.coproducts]
make_functor [definition, in UniMath.CategoryTheory.Core.Functors]
make_functor_data [definition, in UniMath.CategoryTheory.Core.Functors]
make_total_cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
make_total_mor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
make_total_ob [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
make_isInitial [definition, in UniMath.CategoryTheory.limits.initial]
make_Initial [definition, in UniMath.CategoryTheory.limits.initial]
make_Pushout [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
make_isPushout [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
make_isPushout [definition, in UniMath.CategoryTheory.limits.pushouts]
make_Pushout [definition, in UniMath.CategoryTheory.limits.pushouts]
make_isBinCoproduct [definition, in UniMath.CategoryTheory.limits.bincoproducts]
make_BinCoproduct [definition, in UniMath.CategoryTheory.limits.bincoproducts]
make_module_eqrel [definition, in UniMath.Algebra.Modules.Quotient]
make_term [definition, in UniMath.Algebra.Universal.Terms]
make_CCS_Algebra [definition, in UniMath.SubstitutionSystems.CCS_alt]
make_disp_univalent_category [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
make_iso_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
make_disp_cat_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
make_twobinopeqrel [definition, in UniMath.Algebra.BinaryOperations]
make_twobinoppo [definition, in UniMath.Algebra.BinaryOperations]
make_twobinophrel [definition, in UniMath.Algebra.BinaryOperations]
make_subsetswith2binop [definition, in UniMath.Algebra.BinaryOperations]
make_twobinopiso [definition, in UniMath.Algebra.BinaryOperations]
make_twobinopmono [definition, in UniMath.Algebra.BinaryOperations]
make_twobinopfun [definition, in UniMath.Algebra.BinaryOperations]
make_istwobinopfun [definition, in UniMath.Algebra.BinaryOperations]
make_setwith2binop [definition, in UniMath.Algebra.BinaryOperations]
make_binopeqrel [definition, in UniMath.Algebra.BinaryOperations]
make_binoppo [definition, in UniMath.Algebra.BinaryOperations]
make_binophrel [definition, in UniMath.Algebra.BinaryOperations]
make_isbinophrel [definition, in UniMath.Algebra.BinaryOperations]
make_subsetswithbinop [definition, in UniMath.Algebra.BinaryOperations]
make_binopiso [definition, in UniMath.Algebra.BinaryOperations]
make_binopmono [definition, in UniMath.Algebra.BinaryOperations]
make_binopfun [definition, in UniMath.Algebra.BinaryOperations]
make_isbinopfun [definition, in UniMath.Algebra.BinaryOperations]
make_setwithbinop [definition, in UniMath.Algebra.BinaryOperations]
make_isringops [definition, in UniMath.Algebra.BinaryOperations]
make_isrigops [definition, in UniMath.Algebra.BinaryOperations]
make_isabgrop [definition, in UniMath.Algebra.BinaryOperations]
make_isabmonoidop [definition, in UniMath.Algebra.BinaryOperations]
make_isgrop [definition, in UniMath.Algebra.BinaryOperations]
make_invstruct [definition, in UniMath.Algebra.BinaryOperations]
make_isinv [definition, in UniMath.Algebra.BinaryOperations]
make_ismonoidop [definition, in UniMath.Algebra.BinaryOperations]
make_isunital [definition, in UniMath.Algebra.BinaryOperations]
make_isunit [definition, in UniMath.Algebra.BinaryOperations]
make_signature_simple_single_sorted [definition, in UniMath.Algebra.Universal.Signatures]
make_signature_simple [definition, in UniMath.Algebra.Universal.Signatures]
make_signature_single_sorted [definition, in UniMath.Algebra.Universal.Signatures]
make_signature [definition, in UniMath.Algebra.Universal.Signatures]
make_folds_3_ob_mor [definition, in UniMath.Folds.folds_pre_2_cat]
make_is_strict_bicat [definition, in UniMath.Bicategories.Core.Strictness]
make_Equalizer [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
make_isEqualizer [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
make_disp_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
make_PDiff [definition, in UniMath.CategoryTheory.PseudoElements]
make_PFiber [definition, in UniMath.CategoryTheory.PseudoElements]
make_PEq [definition, in UniMath.CategoryTheory.PseudoElements]
make_PseudoElem [definition, in UniMath.CategoryTheory.PseudoElements]
make_image [definition, in UniMath.Foundations.Propositions]
make_tildehProp [definition, in UniMath.Foundations.Propositions]
make_hProp [definition, in UniMath.Foundations.Propositions]
make_precategoryWithBinOps [definition, in UniMath.CategoryTheory.CategoriesWithBinOps]
make_nat_z_iso [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
make_nat_iso [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
make_nat_trans [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
make_biadj_data [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
make_biadj_unit_counit [definition, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
make_z_iso [definition, in UniMath.CategoryTheory.Core.Isos]
make_is_z_isomorphism [definition, in UniMath.CategoryTheory.Core.Isos]
make_is_inverse_in_precat [definition, in UniMath.CategoryTheory.Core.Isos]
make_iso [definition, in UniMath.CategoryTheory.Core.Isos]
make_Kernel [definition, in UniMath.CategoryTheory.limits.kernels]
make_isKernel [definition, in UniMath.CategoryTheory.limits.kernels]
make_F_alg [definition, in UniMath.CategoryTheory.FunctorAlgebras]
make_CoproductCocone [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
make_isCoproductCocone [definition, in UniMath.CategoryTheory.RepresentableFunctors.Test]
make_boolDcuts [definition, in UniMath.RealNumbers.DecidableDedekindCuts]
make_cat_monad_cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_cat_monad_mor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_cat_monad [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_bigmonad [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_monad_cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_monad_mor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_monad [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_one_type [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
make_afld [definition, in UniMath.PAdics.lemmas]
make_aintdom [definition, in UniMath.PAdics.lemmas]
make_acommring [definition, in UniMath.PAdics.lemmas]
make_isZero [definition, in UniMath.CategoryTheory.limits.zero]
make_Zero [definition, in UniMath.CategoryTheory.limits.zero]
make_Cokernel [definition, in UniMath.CategoryTheory.limits.cokernels]
make_isCokernel [definition, in UniMath.CategoryTheory.limits.cokernels]
make_isCokernel_uniqueness [lemma, in UniMath.CategoryTheory.limits.cokernels]
make_abgr' [definition, in UniMath.Algebra.Groups]
make_abgr [definition, in UniMath.Algebra.Groups]
make_subgr [definition, in UniMath.Algebra.Groups]
make_issubgr [definition, in UniMath.Algebra.Groups]
make_gr' [definition, in UniMath.Algebra.Groups]
make_gr [definition, in UniMath.Algebra.Groups]
make_lambdaAlgebra [definition, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
make_subobject_classifier [definition, in UniMath.CategoryTheory.SubobjectClassifier]
make_folds_ob_mor [definition, in UniMath.Folds.folds_precat]
make_STLC_M_Algebra [definition, in UniMath.SubstitutionSystems.STLC_alt]
make_fld [definition, in UniMath.Algebra.Domains_and_Fields]
make_multimodulefun [definition, in UniMath.Algebra.Modules.Multimodules]
make_multilinearfun [definition, in UniMath.Algebra.Modules.Multimodules]
make_disp_locally_groupoid_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
make_disp_locally_groupoid [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
make_Equalizer [definition, in UniMath.CategoryTheory.limits.equalizers]
make_isEqualizer [definition, in UniMath.CategoryTheory.limits.equalizers]
make_BinDirectSums [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
make_BinDirectSum [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
make_isBinDirectSum [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
make_disp_pstrans_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
make_decSet [definition, in UniMath.Combinatorics.DecSet]
make_enriched_functor [definition, in UniMath.CategoryTheory.Enriched.Enriched]
make_enriched_functor_data [definition, in UniMath.CategoryTheory.Enriched.Enriched]
make_enriched_precat [definition, in UniMath.CategoryTheory.Enriched.Enriched]
make_enriched_precat_data [definition, in UniMath.CategoryTheory.Enriched.Enriched]
make_is_bifinal [definition, in UniMath.Bicategories.Colimits.Final]
make_is_bifinal' [definition, in UniMath.Bicategories.Colimits.Final]
make_submodule [definition, in UniMath.Algebra.Modules.Submodule]
make_issubmodule [definition, in UniMath.Algebra.Modules.Submodule]
make_QuotcategoryComp [definition, in UniMath.CategoryTheory.PreAdditive]
make_PreAdditive [definition, in UniMath.CategoryTheory.PreAdditive]
make_isPreAdditive' [definition, in UniMath.CategoryTheory.PreAdditive]
make_isPreAdditive [definition, in UniMath.CategoryTheory.PreAdditive]
make_graph_mor_eq [lemma, in UniMath.Combinatorics.Graph]
make_graph_mor [definition, in UniMath.Combinatorics.Graph]
make_graph [definition, in UniMath.Combinatorics.Graph]
make_pregraph [definition, in UniMath.Combinatorics.Graph]
make_dispprodmor [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
make_prodmor [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
make_BinProductCone [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
make_isBinProductCone [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
make_CohomologyFunctorHIm [definition, in UniMath.HomologicalAlgebra.CohomologyComplex]
make_are_adjoints [definition, in UniMath.CategoryTheory.Adjunctions.Core]
make_form_adjunction [definition, in UniMath.CategoryTheory.Adjunctions.Core]
make_discrete_category [definition, in UniMath.CategoryTheory.Groupoids]
make_univalent_groupoid [definition, in UniMath.CategoryTheory.Groupoids]
make_groupoid [definition, in UniMath.CategoryTheory.Groupoids]
make_pregroupoid [definition, in UniMath.CategoryTheory.Groupoids]
make_finstruct [definition, in UniMath.Combinatorics.FiniteSets]
make_Triang [definition, in UniMath.HomologicalAlgebra.Triangulated]
make_Octa [definition, in UniMath.HomologicalAlgebra.Triangulated]
make_PreTriang [definition, in UniMath.HomologicalAlgebra.Triangulated]
make_isPreTriang [definition, in UniMath.HomologicalAlgebra.Triangulated]
make_TExt [definition, in UniMath.HomologicalAlgebra.Triangulated]
make_DTri' [definition, in UniMath.HomologicalAlgebra.Triangulated]
make_DTri [definition, in UniMath.HomologicalAlgebra.Triangulated]
make_PreTriangData [definition, in UniMath.HomologicalAlgebra.Triangulated]
make_ConeData [definition, in UniMath.HomologicalAlgebra.Triangulated]
make_TriIso [definition, in UniMath.HomologicalAlgebra.Triangulated]
make_TriMor_is_iso [definition, in UniMath.HomologicalAlgebra.Triangulated]
make_TriMor [definition, in UniMath.HomologicalAlgebra.Triangulated]
make_Tri [definition, in UniMath.HomologicalAlgebra.Triangulated]
make_ShortShortExact_isCokernel [definition, in UniMath.CategoryTheory.ShortExactSequences]
make_ShortShortExact_isCokernel_isKernel [lemma, in UniMath.CategoryTheory.ShortExactSequences]
make_ShortShortExact_isKernel [definition, in UniMath.CategoryTheory.ShortExactSequences]
make_ShortShortExact_isKernel_isKernel [lemma, in UniMath.CategoryTheory.ShortExactSequences]
make_ShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
make_RightShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
make_LeftShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
make_ShortShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
make_adj_equivalence_of_cats [definition, in UniMath.CategoryTheory.Equivalences.Core]
make_catbinprod [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
make_commring' [definition, in UniMath.Algebra.RigsAndRings]
make_commring [definition, in UniMath.Algebra.RigsAndRings]
make_gsubring [definition, in UniMath.Algebra.RigsAndRings]
make_ring_from_ring' [definition, in UniMath.Algebra.RigsAndRings]
make_ring' [definition, in UniMath.Algebra.RigsAndRings]
make_ringiso [definition, in UniMath.Algebra.RigsAndRings]
make_ring [definition, in UniMath.Algebra.RigsAndRings]
make_commrig' [definition, in UniMath.Algebra.RigsAndRings]
make_commrig [definition, in UniMath.Algebra.RigsAndRings]
make_subrig [definition, in UniMath.Algebra.RigsAndRings]
make_rigiso' [definition, in UniMath.Algebra.RigsAndRings]
make_rigiso [definition, in UniMath.Algebra.RigsAndRings]
make_isrigfun [definition, in UniMath.Algebra.RigsAndRings]
make_rig [definition, in UniMath.Algebra.RigsAndRings]
make_Monic [definition, in UniMath.CategoryTheory.Monics]
make_isMonic [definition, in UniMath.CategoryTheory.Monics]
make_isProduct [definition, in UniMath.CategoryTheory.limits.products]
make_Product [definition, in UniMath.CategoryTheory.limits.products]
make_eqalgebra [definition, in UniMath.Algebra.Universal.EqAlgebras]
make_binprod_ump [definition, in UniMath.Bicategories.Colimits.Products]
make_binprod_1cell [definition, in UniMath.Bicategories.Colimits.Products]
make_binprod_cone [definition, in UniMath.Bicategories.Colimits.Products]
make_CCS_Algebra [definition, in UniMath.SubstitutionSystems.CCS]
make_Initial [definition, in UniMath.CategoryTheory.limits.graphs.initial]
make_isInitial [definition, in UniMath.CategoryTheory.limits.graphs.initial]
make_LimCone [definition, in UniMath.CategoryTheory.limits.cats.limits]
make_cone [definition, in UniMath.CategoryTheory.limits.cats.limits]
make_bounded_latticeob [definition, in UniMath.CategoryTheory.LatticeObject]
make_latticeob [definition, in UniMath.CategoryTheory.LatticeObject]
make_invertible_modification_on_data [definition, in UniMath.Bicategories.Modifications.Modification]
make_invertible_modification [definition, in UniMath.Bicategories.Modifications.Modification]
make_is_invertible_modification [definition, in UniMath.Bicategories.Modifications.Modification]
make_modification [definition, in UniMath.Bicategories.Modifications.Modification]
make_lambdaAlgebra [definition, in UniMath.SubstitutionSystems.LamFromBindingSig]
make_univalent_category [definition, in UniMath.CategoryTheory.Core.Univalence]
make_NNO [definition, in UniMath.CategoryTheory.NNO]
make_ColimCocone [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
make_cocone [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
make_graph [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
make_bimodule [definition, in UniMath.Algebra.Modules.Examples]
make_stn [definition, in UniMath.Combinatorics.StandardFiniteSets]
make_is_invertible_strict_modification [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
make_is_invertible_strict_modification_inv_is_modification [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
make_strict_modification [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
make_strict_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
make_strict_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
make_strict_psfunctor_data [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
make_treeAlgebra [definition, in UniMath.CategoryTheory.Inductives.Trees]
make_Morphism [definition, in UniMath.HomologicalAlgebra.Complexes]
make_Complex [definition, in UniMath.HomologicalAlgebra.Complexes]
make_hom [definition, in UniMath.Algebra.Universal.Algebras]
make_algebra_simple [definition, in UniMath.Algebra.Universal.Algebras]
make_algebra_simple_single_sorted [definition, in UniMath.Algebra.Universal.Algebras]
make_algebra [definition, in UniMath.Algebra.Universal.Algebras]
make_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
make_psfunctor_data [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
make_Pullback [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
make_isPullback [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
make_dcpo [definition, in UniMath.Algebra.Dcpo]
make_compfun [definition, in UniMath.Foundations.Sets]
make_setquot [definition, in UniMath.Foundations.Sets]
make_decrel [definition, in UniMath.Foundations.Sets]
make_eqrel [definition, in UniMath.Foundations.Sets]
make_posetmorphism [definition, in UniMath.Foundations.Sets]
make_Poset [definition, in UniMath.Foundations.Sets]
make_PartialOrder [definition, in UniMath.Foundations.Sets]
make_po [definition, in UniMath.Foundations.Sets]
make_carrier [definition, in UniMath.Foundations.Sets]
make_hSet [definition, in UniMath.Foundations.Sets]
make_isPullback [definition, in UniMath.CategoryTheory.limits.pullbacks]
make_Pullback [definition, in UniMath.CategoryTheory.limits.pullbacks]
make_Zero [definition, in UniMath.CategoryTheory.limits.graphs.zero]
make_isZero [definition, in UniMath.CategoryTheory.limits.graphs.zero]
make_categoryWithAbgrops [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
make_categoryWithAbgropsData [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
make_mor [definition, in UniMath.CategoryTheory.elems_slice_equiv]
make_ob [definition, in UniMath.CategoryTheory.elems_slice_equiv]
make_isAdditive [definition, in UniMath.CategoryTheory.Additive]
make_Additive [definition, in UniMath.CategoryTheory.Additive]
make_AdditiveStructure [definition, in UniMath.CategoryTheory.Additive]
make_wedge [definition, in UniMath.CategoryTheory.Profunctors.Core]
make_dinatural_transformation [definition, in UniMath.CategoryTheory.Profunctors.Core]
make_neqProp [definition, in UniMath.MoreFoundations.NegativePropositions]
make_negProp [definition, in UniMath.MoreFoundations.NegativePropositions]
make_compl_ne [definition, in UniMath.MoreFoundations.NegativePropositions]
make_isolated_ne [definition, in UniMath.MoreFoundations.NegativePropositions]
make_negimage [definition, in UniMath.Foundations.PartC]
make_compl [definition, in UniMath.Foundations.PartC]
make_section [definition, in UniMath.AlgebraicGeometry.Spec]
make_InvTranslationFunctorHIm [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
make_TranslationFunctorHIm [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
make_hfsqstr [definition, in UniMath.Foundations.PartA]
make_fibseqstr [definition, in UniMath.Foundations.PartA]
make_weq [definition, in UniMath.Foundations.PartA]
make_hfiber [definition, in UniMath.Foundations.PartA]
make_iscontr [definition, in UniMath.Foundations.PartA]
make_dirprod [definition, in UniMath.Foundations.PartA]
make_Coequalizer [definition, in UniMath.CategoryTheory.limits.coequalizers]
make_isCoequalizer [definition, in UniMath.CategoryTheory.limits.coequalizers]
make_Under_mor [definition, in UniMath.CategoryTheory.UnderCategories]
make_Under_ob [definition, in UniMath.CategoryTheory.UnderCategories]
make_is_biequivalence_from_unit_counit [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
make_is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
make_Epi [definition, in UniMath.CategoryTheory.Epis]
make_isEpi [definition, in UniMath.CategoryTheory.Epis]
make_is_biinitial [definition, in UniMath.Bicategories.Colimits.Initial]
make_is_biinitial' [definition, in UniMath.Bicategories.Colimits.Initial]
make_monfunstn [definition, in UniMath.CategoryTheory.SimplicialSets]
make_disp_2cell_cod [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
make_disp_1cell_cod [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
make_ar [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
make_BinCoproductCocone [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
make_isBinCoproductCocone [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
make_nat_alg_sec' [definition, in UniMath.Induction.W.Naturals]
make_nat_alg_sec [definition, in UniMath.Induction.W.Naturals]
make_nat_functor_algebra_mor [definition, in UniMath.Induction.W.Naturals]
make_DirectSum [definition, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
make_category [definition, in UniMath.CategoryTheory.Core.Categories]
make_precategory_one_assoc [definition, in UniMath.CategoryTheory.Core.Categories]
make_precategory [definition, in UniMath.CategoryTheory.Core.Categories]
make_is_precategory_one_assoc [definition, in UniMath.CategoryTheory.Core.Categories]
make_is_precategory [definition, in UniMath.CategoryTheory.Core.Categories]
make_precategory_data [definition, in UniMath.CategoryTheory.Core.Categories]
make_precategory_ob_mor [definition, in UniMath.CategoryTheory.Core.Categories]
make_isTerminal [definition, in UniMath.CategoryTheory.limits.terminal]
make_Terminal [definition, in UniMath.CategoryTheory.limits.terminal]
make_ShortShortExactData [definition, in UniMath.CategoryTheory.Morphisms]
make_MorphismPairIsomorphism [definition, in UniMath.CategoryTheory.Morphisms]
make_MPMor [definition, in UniMath.CategoryTheory.Morphisms]
make_MPMorComms [definition, in UniMath.CategoryTheory.Morphisms]
make_MPMorMors [definition, in UniMath.CategoryTheory.Morphisms]
make_MorphismPair [definition, in UniMath.CategoryTheory.Morphisms]
make_Morphism [definition, in UniMath.CategoryTheory.Morphisms]
make_LimCone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
make_cone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
make_isBinProduct [definition, in UniMath.CategoryTheory.limits.binproducts]
make_BinProduct [definition, in UniMath.CategoryTheory.limits.binproducts]
map [definition, in UniMath.CategoryTheory.Inductives.Lists]
map [section, in UniMath.CategoryTheory.limits.graphs.colimits]
map [definition, in UniMath.CategoryTheory.Inductives.Trees]
map [definition, in UniMath.Combinatorics.Lists]
map [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
map [definition, in UniMath.SyntheticHomotopyTheory.Halfline]
map [definition, in UniMath.CategoryTheory.Monads.KTriples]
map [section, in UniMath.CategoryTheory.limits.graphs.limits]
mapchain [definition, in UniMath.CategoryTheory.Chains.Chains]
mapcochain [definition, in UniMath.CategoryTheory.Chains.Cochains]
mapcocone [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
mapcocone_functor_composite [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
mapcocone_functor_composite [section, in UniMath.CategoryTheory.limits.graphs.colimits]
mapcone [definition, in UniMath.CategoryTheory.limits.graphs.limits]
mapdiagram [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
mapdiagram_coequalizer_eq_diag [lemma, in UniMath.CategoryTheory.limits.graphs.coequalizers]
mapdiagram_bincoproduct_eq_diag [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
MapingCylinder_Diff3_Diff3 [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
maponcomplincl [definition, in UniMath.Foundations.PartC]
maponcomplincl_ne [definition, in UniMath.MoreFoundations.NegativePropositions]
maponpaths [definition, in UniMath.Foundations.PartA]
maponpathscomp [lemma, in UniMath.Foundations.PartA]
maponpathscomp0 [definition, in UniMath.Foundations.PartA]
maponpathshomidinv [definition, in UniMath.Foundations.PartA]
maponpathshomid1 [lemma, in UniMath.Foundations.PartA]
maponpathshomid2 [lemma, in UniMath.Foundations.PartA]
maponpathsidfun [lemma, in UniMath.Foundations.PartA]
maponpathsinv0 [definition, in UniMath.Foundations.PartA]
maponpaths_fun_fun_fun_natl [definition, in UniMath.MoreFoundations.Equivalences]
maponpaths_fun_fun_natl [definition, in UniMath.MoreFoundations.Equivalences]
maponpaths_isotoid [lemma, in UniMath.CategoryTheory.Core.Functors]
maponpaths_idtoiso [lemma, in UniMath.CategoryTheory.Core.Functors]
maponpaths_pr2_pathsdirprod [definition, in UniMath.MoreFoundations.PartA]
maponpaths_pr1_pathsdirprod [definition, in UniMath.MoreFoundations.PartA]
maponpaths_hfpg'_path_hfp [definition, in UniMath.MoreFoundations.PartA]
maponpaths_hfpg_path_hfp [definition, in UniMath.MoreFoundations.PartA]
maponpaths_pr1_pr2 [definition, in UniMath.MoreFoundations.PartA]
maponpaths_idpath [definition, in UniMath.MoreFoundations.PartA]
maponpaths_naturality' [definition, in UniMath.MoreFoundations.PartA]
maponpaths_naturality [definition, in UniMath.MoreFoundations.PartA]
maponpaths_for_constant_function [lemma, in UniMath.MoreFoundations.PartA]
maponpaths_1234 [definition, in UniMath.MoreFoundations.PartA]
maponpaths_4 [definition, in UniMath.MoreFoundations.PartA]
maponpaths_13 [definition, in UniMath.MoreFoundations.PartA]
maponpaths_123 [definition, in UniMath.MoreFoundations.PartA]
maponpaths_3 [definition, in UniMath.MoreFoundations.PartA]
maponpaths_12 [definition, in UniMath.MoreFoundations.PartA]
maponpaths_2 [definition, in UniMath.MoreFoundations.PartA]
maponpaths_1 [definition, in UniMath.MoreFoundations.PartA]
maponpaths_funextsec [lemma, in UniMath.MoreFoundations.Univalence]
maponsec [definition, in UniMath.Foundations.PartD]
maponsec1 [definition, in UniMath.Foundations.PartD]
maponsec1l0 [definition, in UniMath.Foundations.PartD]
maponsec1l1 [lemma, in UniMath.Foundations.PartD]
maponsec1l2 [lemma, in UniMath.Foundations.PartD]
mapPathOver [definition, in UniMath.MoreFoundations.PathsOver]
MappingCone [definition, in UniMath.HomologicalAlgebra.MappingCone]
MappingCone [library]
MappingConeDiff [definition, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeDiff1 [definition, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeDiff2 [definition, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeDiff3 [definition, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeIdHomot [definition, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeIn2 [definition, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeIn2Eq [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeIn2Homot [definition, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeIn2_comm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeMorExt [definition, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeMorExtComm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeMorExtComm1 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeMorExtComm2 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeMorExtMor [definition, in UniMath.HomologicalAlgebra.MappingCone]
MappingConePr1 [definition, in UniMath.HomologicalAlgebra.MappingCone]
MappingConePr1Eq [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingConePr1Homot [definition, in UniMath.HomologicalAlgebra.MappingCone]
MappingConePr1_comm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingConeTri [definition, in UniMath.HomologicalAlgebra.KAPreTriangulated]
MappingCone_comp [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff3_Diff3 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff3_Diff2 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff3_Diff1 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff2_Diff2 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff2_Diff1 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff1_Diff3 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff1_Diff1 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
MappingCylinder [definition, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinder [library]
MappingCylinderDiff [definition, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderDiff1 [definition, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderDiff2 [definition, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderDiff3 [definition, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIso [definition, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIsoHomot [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIsoHomot_eq [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderisoHomot_eq3 [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIsoHomot_mor2 [definition, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIsoHomot_eq1 [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIsoHomot_mor1 [definition, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIso_eq2 [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIso_eq1 [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIso_eq1' [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderMor1 [definition, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderMor1_comm [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderMor1_mor [definition, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderMor2 [definition, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderMor2_comm [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderMor2_mor [definition, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinder_comp [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinder_Diff2_Diff3 [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinder_Diff2_Diff2 [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinder_Diff1_Diff3 [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinder_Diff1_Diff2 [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinder_Diff1_Diff1 [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
mapping_cylinder_KA_iso.A [variable, in UniMath.HomologicalAlgebra.MappingCylinder]
mapping_cylinder_KA_iso [section, in UniMath.HomologicalAlgebra.MappingCylinder]
mapping_cylinder.A [variable, in UniMath.HomologicalAlgebra.MappingCylinder]
mapping_cylinder [section, in UniMath.HomologicalAlgebra.MappingCylinder]
mapping_cone_octa [section, in UniMath.HomologicalAlgebra.MappingCone]
mapping_cone_ext.A [variable, in UniMath.HomologicalAlgebra.MappingCone]
mapping_cone_ext [section, in UniMath.HomologicalAlgebra.MappingCone]
mapping_cone_of_id.A [variable, in UniMath.HomologicalAlgebra.MappingCone]
mapping_cone_of_id [section, in UniMath.HomologicalAlgebra.MappingCone]
mapping_cone.A [variable, in UniMath.HomologicalAlgebra.MappingCone]
mapping_cone [section, in UniMath.HomologicalAlgebra.MappingCone]
MapPlusIdentityToCommSq [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
MapPlusIdentityToPullback [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
MappyngCylinderIsoHomot_eq2 [lemma, in UniMath.HomologicalAlgebra.MappingCylinder]
mapStep [lemma, in UniMath.Combinatorics.Lists]
maps_pb_squares_to_pb_squares [definition, in UniMath.CategoryTheory.limits.pullbacks]
maps_pb_square_to_pb_square [definition, in UniMath.CategoryTheory.limits.pullbacks]
mapUniqueness [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
map_inv_alg [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
map_const [lemma, in UniMath.Combinatorics.MoreLists]
map_to_K_commutes [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
map_to_K [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
map_reverse [lemma, in UniMath.Combinatorics.Lists]
map_append [lemma, in UniMath.Combinatorics.Lists]
map_concatenate [lemma, in UniMath.Combinatorics.Lists]
map_homot [lemma, in UniMath.Combinatorics.Lists]
map_idfun [lemma, in UniMath.Combinatorics.Lists]
map_compose [lemma, in UniMath.Combinatorics.Lists]
map_cons [lemma, in UniMath.Combinatorics.Lists]
map_nil [lemma, in UniMath.Combinatorics.Lists]
map_path_check [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
map_path [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
map_on_two_paths [definition, in UniMath.Foundations.PartA]
map_path_check [definition, in UniMath.SyntheticHomotopyTheory.Halfline]
map_path [definition, in UniMath.SyntheticHomotopyTheory.Halfline]
map_η [lemma, in UniMath.CategoryTheory.Monads.KTriples]
map_bind [lemma, in UniMath.CategoryTheory.Monads.KTriples]
map_map [lemma, in UniMath.CategoryTheory.Monads.KTriples]
map_id [lemma, in UniMath.CategoryTheory.Monads.KTriples]
Map1 [definition, in UniMath.CategoryTheory.Morphisms]
map1cells [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells [section, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells [library]
map1cells_is_univalent_2 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_is_univalent_2_0 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_is_univalent_2_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_univalent_2_0 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_univalent_2_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_bicat [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_prebicat [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_ops_laws [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_ops [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_prebicat_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_cat_2cell [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_cat_id_comp [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_cat [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells.AllInvertible2CellToDispAdjEquiv [section, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells.AllInvertible2CellToDispAdjEquiv.F₀ [variable, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells.AllInvertible2CellToDispAdjEquiv.F₁ [variable, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells.AllInvertible2CellToDispAdjEquiv.F₁' [variable, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells.AllInvertible2CellToDispAdjEquiv.η [variable, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells.C [variable, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells.D [variable, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map2 [definition, in UniMath.CategoryTheory.Morphisms]
Map2Cells [section, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
Map2Cells [library]
map2cells_is_disp_univalent_2 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
map2cells_is_disp_univalent_2_0 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
map2cells_is_disp_univalent_2_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
map2cells_disp_cat [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
map2cells_disp_cat_id_comp [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
map2cells_disp_cat_data [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
Map2Cells.C [variable, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
Map2Cells.D [variable, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
Map3 [definition, in UniMath.CategoryTheory.Morphisms]
massoc:112 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
Matrix [definition, in UniMath.Combinatorics.FiniteSequences]
Matrix [library]
MatrixMult [section, in UniMath.Algebra.Matrix]
_ ** _ [notation, in UniMath.Algebra.Matrix]
_ ^ _ [notation, in UniMath.Algebra.Matrix]
matrix_mult_assoc_statement [definition, in UniMath.Algebra.Matrix]
matrix_mult_vectors [lemma, in UniMath.Algebra.Matrix]
matrix_mult [definition, in UniMath.Algebra.Matrix]
matrix_hlevel [lemma, in UniMath.Combinatorics.FiniteSequences]
mat1:41 [binder, in UniMath.Algebra.Matrix]
mat1:61 [binder, in UniMath.Algebra.Matrix]
mat1:85 [binder, in UniMath.Algebra.Matrix]
mat2:42 [binder, in UniMath.Algebra.Matrix]
mat2:63 [binder, in UniMath.Algebra.Matrix]
mat2:87 [binder, in UniMath.Algebra.Matrix]
mat3:89 [binder, in UniMath.Algebra.Matrix]
mat:102 [binder, in UniMath.Algebra.Matrix]
mat:48 [binder, in UniMath.Combinatorics.FiniteSequences]
mat:52 [binder, in UniMath.Combinatorics.FiniteSequences]
mat:56 [binder, in UniMath.Combinatorics.FiniteSequences]
mat:70 [binder, in UniMath.Algebra.Matrix]
mat:74 [binder, in UniMath.Algebra.Matrix]
mat:92 [binder, in UniMath.Algebra.Matrix]
max [definition, in UniMath.Foundations.Preamble]
maxi [lemma, in UniMath.Paradoxes.GirardsParadox]
maxidom [lemma, in UniMath.Paradoxes.GirardsParadox]
maximal_sieve [definition, in UniMath.CategoryTheory.Presheaf]
maximal_progressive_endomorphism_on_dcpo [lemma, in UniMath.Algebra.FixedPointTheorems]
maximal_subgroupoid [definition, in UniMath.CategoryTheory.Groupoids]
maxi_homo [lemma, in UniMath.Paradoxes.GirardsParadox]
maxi_fun [definition, in UniMath.Paradoxes.GirardsParadox]
maxNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_minus_plus [lemma, in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_le [lemma, in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_lt [lemma, in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_le_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_le_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_carac_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_carac_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_lt' [lemma, in UniMath.RealNumbers.Reals]
max_plusNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
max_le_r [lemma, in UniMath.Topology.Prelim]
max_le_l [lemma, in UniMath.Topology.Prelim]
max_common_initial_is_common_initial [lemma, in UniMath.Combinatorics.WellOrderedSets]
max_common_initial_is_sub [lemma, in UniMath.Combinatorics.WellOrderedSets]
max_common_initial_is_max [lemma, in UniMath.Combinatorics.WellOrderedSets]
max_common_initial [definition, in UniMath.Combinatorics.WellOrderedSets]
max:187 [binder, in UniMath.Combinatorics.OrderedSets]
max:216 [binder, in UniMath.Combinatorics.OrderedSets]
max:22 [binder, in UniMath.Algebra.Lattice]
max:29 [binder, in UniMath.Algebra.Lattice]
max:32 [binder, in UniMath.Algebra.Lattice]
maybe [definition, in UniMath.Combinatorics.Maybe]
Maybe [library]
maybe_def.deriv_def [section, in UniMath.CategoryTheory.Monads.Derivative]
maybe_monad [definition, in UniMath.CategoryTheory.Monads.Derivative]
maybe_monad_law3 [lemma, in UniMath.CategoryTheory.Monads.Derivative]
maybe_monad_law2 [lemma, in UniMath.CategoryTheory.Monads.Derivative]
maybe_monad_law1 [lemma, in UniMath.CategoryTheory.Monads.Derivative]
maybe_monad_data [definition, in UniMath.CategoryTheory.Monads.Derivative]
maybe_eta [definition, in UniMath.CategoryTheory.Monads.Derivative]
maybe_mu [definition, in UniMath.CategoryTheory.Monads.Derivative]
maybe_functor [definition, in UniMath.CategoryTheory.Monads.Derivative]
maybe_def [section, in UniMath.CategoryTheory.Monads.Derivative]
mbind [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
MBindingSig [section, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig [section, in UniMath.SubstitutionSystems.MultiSorted]
MBindingSigMonadHSET [section, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSigMonadHSET.sortToSet [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.BC [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.BC [variable, in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.BCsortToC [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.BP [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.BPC [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.C [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.CC [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.expSortToCC [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.functor [section, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.functor [section, in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.functor.Sorted_Option_Functor [section, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.HC [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.Hsort [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.IC [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.make_sortToC [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.monad [section, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.monad [section, in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.monad.HSS [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.monad.HSS [variable, in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.monad.Id_H [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.monad.Id_H [variable, in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.omega_cocont [section, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.omega_cocont [section, in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.PC [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.sort [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.sort [variable, in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.sortToC [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.sort_cat [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.strength [section, in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.strength [section, in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.TC [variable, in UniMath.SubstitutionSystems.MultiSorted_alt]
_ ⊕ _ [notation, in UniMath.SubstitutionSystems.MultiSorted_alt]
1 [notation, in UniMath.SubstitutionSystems.MultiSorted_alt]
mbind_mlift [lemma, in UniMath.CategoryTheory.Monads.RelativeModules]
mbind_mbind [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
mbind_r_eta [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
mbind:17 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
MComm [definition, in UniMath.HomologicalAlgebra.Complexes]
MC:60 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MC:71 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MC:84 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MC:94 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MC₁:110 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MC₂:111 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MD:61 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MD:72 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MD:85 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
meet_mor_M:103 [binder, in UniMath.CategoryTheory.LatticeObject]
meet_mor_M:79 [binder, in UniMath.CategoryTheory.LatticeObject]
meet_mor_absorb_join_mor [definition, in UniMath.CategoryTheory.LatticeObject]
meet_mor [definition, in UniMath.CategoryTheory.LatticeObject]
meet_mor:33 [binder, in UniMath.CategoryTheory.LatticeObject]
meet_mor:30 [binder, in UniMath.CategoryTheory.LatticeObject]
meet_mor:27 [binder, in UniMath.CategoryTheory.LatticeObject]
merely_split_epi_is_epi [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_epi_to_split_epi [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_epi [definition, in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_monic_is_epi_to_is_iso [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_monic_to_monic [definition, in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_monic_is_monic [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_monic_to_split_monic [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_monic_to_morphism [definition, in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_monic [definition, in UniMath.CategoryTheory.SplitMonicsAndEpis]
MetricTree [library]
mexch [definition, in UniMath.CategoryTheory.Monads.Monads]
mexch_slice_as_bind_slice_ok [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
mexch_slice_as_bind_slice_agrees [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
mexch_slice_as_bind_slice [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
mexch_slice_ok [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
mexch_slice [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
mexch_instantiated [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
mexch_instantiated [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
ME:737 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ME:859 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ME:861 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Mf [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
MFbind:81 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MFunit:77 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
mf_nat:144 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mf_nat:63 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mf':29 [binder, in UniMath.CategoryTheory.RightKanExtension]
mf':31 [binder, in UniMath.CategoryTheory.RightKanExtension]
mf':35 [binder, in UniMath.CategoryTheory.RightKanExtension]
mf':39 [binder, in UniMath.CategoryTheory.RightKanExtension]
mf:156 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mf:37 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mf:46 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mf:62 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
MF:64 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
mf:74 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
MF:75 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
mf:78 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
MF:87 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
mfη:146 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mfη:64 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mfμ:148 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mfμ:65 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
MF₁:112 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MF₂:113 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
mg:157 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mg:47 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mg:75 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mg:79 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
min [definition, in UniMath.Foundations.Preamble]
mineqrel [section, in UniMath.MoreFoundations.Sets]
minimal [definition, in UniMath.Combinatorics.BoundedSearch]
minimal_eqrel_from_hrel [lemma, in UniMath.MoreFoundations.Sets]
minimal_n [definition, in UniMath.Combinatorics.BoundedSearch]
minNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
minuseq0 [definition, in UniMath.Foundations.NaturalNumbers]
minuseq0' [definition, in UniMath.Foundations.NaturalNumbers]
minusgeh [definition, in UniMath.Tactics.Nat_Tactics]
minusgth0 [definition, in UniMath.Foundations.NaturalNumbers]
minusgth0inv [definition, in UniMath.Foundations.NaturalNumbers]
minusleh [lemma, in UniMath.PAdics.lemmas]
minuslth [lemma, in UniMath.PAdics.lemmas]
minusminusmmn [definition, in UniMath.Foundations.NaturalNumbers]
minusnleh1 [lemma, in UniMath.PAdics.lemmas]
minusnn0 [lemma, in UniMath.PAdics.lemmas]
minusnn0 [definition, in UniMath.Tactics.Nat_Tactics]
minusNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_ltcompat_r' [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_ltcompat_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_ltcompat_l' [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_ltcompat_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_lecompat_r' [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_lecompat_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_lecompat_l' [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_lecompat_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_le [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_plus_exchange [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_zero_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_zero_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_correct_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_correct_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_plus_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_eq_zero [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_correct [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
minusNonnegativeReals_le [definition, in UniMath.RealNumbers.NonnegativeReals]
minusNonnegativeReals_correct_l [definition, in UniMath.RealNumbers.NonnegativeReals]
minusNonnegativeReals_correct_r [definition, in UniMath.RealNumbers.NonnegativeReals]
minusNonnegativeReals_eq_zero [definition, in UniMath.RealNumbers.NonnegativeReals]
minusNonnegativeReals_plus_r [definition, in UniMath.RealNumbers.NonnegativeReals]
minusplusnmm [definition, in UniMath.Foundations.NaturalNumbers]
minusplusnmmineq [definition, in UniMath.Foundations.NaturalNumbers]
minussn1 [lemma, in UniMath.PAdics.lemmas]
minussn1non0 [lemma, in UniMath.PAdics.lemmas]
minusSxx [lemma, in UniMath.MoreFoundations.Nat]
minusxx [lemma, in UniMath.MoreFoundations.Nat]
minus_divNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
minus_fld [definition, in UniMath.RealNumbers.Fields]
minus0r [lemma, in UniMath.PAdics.lemmas]
minus0r [definition, in UniMath.Tactics.Nat_Tactics]
minus1leh [lemma, in UniMath.PAdics.lemmas]
minus1_is_l [definition, in UniMath.Algebra.BinaryOperations]
minus:220 [binder, in UniMath.Algebra.Lattice]
minus:225 [binder, in UniMath.Algebra.Lattice]
minus:228 [binder, in UniMath.Algebra.Lattice]
minv_m [lemma, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
min_n [definition, in UniMath.Combinatorics.BoundedSearch]
min_n_UU [definition, in UniMath.Combinatorics.BoundedSearch]
min:186 [binder, in UniMath.Combinatorics.OrderedSets]
min:21 [binder, in UniMath.Algebra.Lattice]
min:215 [binder, in UniMath.Combinatorics.OrderedSets]
min:28 [binder, in UniMath.Algebra.Lattice]
min:31 [binder, in UniMath.Algebra.Lattice]
Miscellaneous [section, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
mi:158 [binder, in UniMath.MoreFoundations.MoreEquivalences]
mi:175 [binder, in UniMath.MoreFoundations.MoreEquivalences]
mkBindingSig [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
mkbounded_lattice [definition, in UniMath.Algebra.Lattice]
mkconst_dcpomor [definition, in UniMath.Algebra.Dcpo]
mkdcpomorphism [definition, in UniMath.Algebra.Dcpo]
mkfam [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
mkFilter [definition, in UniMath.Topology.Filters]
mklattice [definition, in UniMath.Algebra.Lattice]
mkMultiSortedSig [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
mkMultiSortedSig [definition, in UniMath.SubstitutionSystems.MultiSorted]
mkPreFilter [definition, in UniMath.Topology.Filters]
mkTopologicalSet [definition, in UniMath.Topology.Topology]
mkTopologicalSpace [definition, in UniMath.AlgebraicGeometry.Topology]
mk_lax_monoidal_functor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
mk_monoidal_cat [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
mlift [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
mlift_mlift [lemma, in UniMath.CategoryTheory.Monads.RelativeModules]
mlift_id [lemma, in UniMath.CategoryTheory.Monads.RelativeModules]
mlift_mbind [lemma, in UniMath.CategoryTheory.Monads.RelativeModules]
MLTT79 [definition, in UniMath.SubstitutionSystems.MLTT79]
MLTT79 [section, in UniMath.SubstitutionSystems.MLTT79]
MLTT79 [library]
MLTT79Functor [definition, in UniMath.SubstitutionSystems.MLTT79]
MLTT79Functor_Initial [lemma, in UniMath.SubstitutionSystems.MLTT79]
MLTT79Monad [definition, in UniMath.SubstitutionSystems.MLTT79]
MLTT79Sig [definition, in UniMath.SubstitutionSystems.MLTT79]
MLTT79Signature [definition, in UniMath.SubstitutionSystems.MLTT79]
MLTT79.Id_H [variable, in UniMath.SubstitutionSystems.MLTT79]
MLTT79.MLTT79_alg [variable, in UniMath.SubstitutionSystems.MLTT79]
MLTT79.MLTT79_mor [variable, in UniMath.SubstitutionSystems.MLTT79]
MLTT79.SigHSET [variable, in UniMath.SubstitutionSystems.MLTT79]
[0,0,0] [notation, in UniMath.SubstitutionSystems.MLTT79]
[0,0,2] [notation, in UniMath.SubstitutionSystems.MLTT79]
[0,0] [notation, in UniMath.SubstitutionSystems.MLTT79]
[0,1,1] [notation, in UniMath.SubstitutionSystems.MLTT79]
[0,1] [notation, in UniMath.SubstitutionSystems.MLTT79]
[0,2] [notation, in UniMath.SubstitutionSystems.MLTT79]
[0,3] [notation, in UniMath.SubstitutionSystems.MLTT79]
[0] [notation, in UniMath.SubstitutionSystems.MLTT79]
[1] [notation, in UniMath.SubstitutionSystems.MLTT79]
mmdata:16 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
mmdata:49 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
MMor [definition, in UniMath.HomologicalAlgebra.Complexes]
MM:102 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:107 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:113 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:118 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:124 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:129 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:13 [binder, in UniMath.Algebra.Modules.Examples]
MM:134 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:140 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:146 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:150 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:154 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:159 [binder, in UniMath.Algebra.Modules.Multimodules]
mm:18 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
MM:25 [binder, in UniMath.Algebra.Modules.Multimodules]
mm:26 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:28 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
MM:28 [binder, in UniMath.Algebra.Modules.Multimodules]
mm:29 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:30 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
MM:32 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:35 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:49 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:5 [binder, in UniMath.Algebra.Modules.Examples]
mm:51 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
MM:55 [binder, in UniMath.Algebra.Modules.Multimodules]
mm:59 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
MM:60 [binder, in UniMath.Algebra.Modules.Multimodules]
mm:61 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:62 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:63 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:64 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:65 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:66 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
MM:66 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:71 [binder, in UniMath.Algebra.Modules.Multimodules]
mm:77 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
MM:77 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:85 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:92 [binder, in UniMath.Algebra.Modules.Multimodules]
MM:97 [binder, in UniMath.Algebra.Modules.Multimodules]
Mod [section, in UniMath.CategoryTheory.categories.modules]
MOD [abbreviation, in UniMath.CategoryTheory.Monads.LModules]
modcomponent_eq [definition, in UniMath.Bicategories.Modifications.Modification]
modcomponent_of [definition, in UniMath.Bicategories.Modifications.Modification]
modification [definition, in UniMath.Bicategories.Modifications.Modification]
Modification [library]
modifications_help [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
modification_help_alt [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
modification_eq [definition, in UniMath.Bicategories.Modifications.Modification]
modification_data [definition, in UniMath.Bicategories.Modifications.Modification]
modification_inv_modification [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
modnaturality_of [definition, in UniMath.Bicategories.Modifications.Modification]
module [definition, in UniMath.Algebra.Modules.Core]
modulebinop_lunax [lemma, in UniMath.Algebra.Modules.Core]
modulebinop_runax [lemma, in UniMath.Algebra.Modules.Core]
modulefun [definition, in UniMath.Algebra.Modules.Core]
modulefun_paths2 [lemma, in UniMath.Algebra.Modules.Core]
modulefun_paths [lemma, in UniMath.Algebra.Modules.Core]
modulefun_from_monoidfun [definition, in UniMath.Algebra.Modules.Core]
modulefun_to_monoidfun [definition, in UniMath.Algebra.Modules.Core]
modulefun_unel [lemma, in UniMath.Algebra.Modules.Core]
modulefun_comp [definition, in UniMath.Algebra.Modules.Core]
modulefun_to_linearfun [definition, in UniMath.Algebra.Modules.Core]
modulefun_to_islinear [definition, in UniMath.Algebra.Modules.Core]
modulefun_to_binopfun [definition, in UniMath.Algebra.Modules.Core]
modulefun_to_isbinopfun [definition, in UniMath.Algebra.Modules.Core]
modulefun_ismodulefun [definition, in UniMath.Algebra.Modules.Core]
modulehomabgr [definition, in UniMath.Algebra.Modules.Core]
modulehomabgr_isabgrop [lemma, in UniMath.Algebra.Modules.Core]
modulehomabmodule_ismoduleop [lemma, in UniMath.Algebra.Modules.Core]
modulehombinop [definition, in UniMath.Algebra.Modules.Core]
modulehombinop_smul [definition, in UniMath.Algebra.Modules.Core]
modulehombinop_scalar_ismodulefun [definition, in UniMath.Algebra.Modules.Core]
modulehombinop_rinvax [lemma, in UniMath.Algebra.Modules.Core]
modulehombinop_linvax [lemma, in UniMath.Algebra.Modules.Core]
modulehombinop_inv [definition, in UniMath.Algebra.Modules.Core]
modulehombinop_inv_ismodulefun [lemma, in UniMath.Algebra.Modules.Core]
modulehombinop_comm [lemma, in UniMath.Algebra.Modules.Core]
modulehombinop_assoc [lemma, in UniMath.Algebra.Modules.Core]
modulehombinop_ismodulefun [lemma, in UniMath.Algebra.Modules.Core]
modulehommodule [definition, in UniMath.Algebra.Modules.Core]
moduleiso [definition, in UniMath.Algebra.Modules.Core]
moduleiso_to_moduleiso' [lemma, in UniMath.Algebra.Modules.Core]
moduleiso_to_modulefun [definition, in UniMath.Algebra.Modules.Core]
moduleiso_ismodulefun [definition, in UniMath.Algebra.Modules.Core]
moduleiso_to_weq [definition, in UniMath.Algebra.Modules.Core]
moduleiso_weq_iso [definition, in UniMath.CategoryTheory.categories.modules]
moduleiso_isweq_iso [lemma, in UniMath.CategoryTheory.categories.modules]
moduleiso_iso [lemma, in UniMath.CategoryTheory.categories.modules]
moduleiso_is_iso [lemma, in UniMath.CategoryTheory.categories.modules]
moduleiso' [definition, in UniMath.Algebra.Modules.Core]
moduleiso'_to_moduleweq_iso [definition, in UniMath.Algebra.Modules.Core]
moduleiso'_to_moduleisweq_iso [lemma, in UniMath.Algebra.Modules.Core]
moduleiso'_to_moduleiso [lemma, in UniMath.Algebra.Modules.Core]
moduleisweq_iso [lemma, in UniMath.CategoryTheory.categories.modules]
Modules [library]
modules [library]
ModulesFromSignatures [library]
modules_univalence [definition, in UniMath.CategoryTheory.categories.modules]
modules_univalence_map_isweq [definition, in UniMath.CategoryTheory.categories.modules]
modules_univalence_map [definition, in UniMath.CategoryTheory.categories.modules]
modules_univalence_weq [definition, in UniMath.CategoryTheory.categories.modules]
moduletomonoid [definition, in UniMath.Algebra.Modules.Core]
module_mult_inv_to_inv1 [lemma, in UniMath.Algebra.Modules.Core]
module_inv_mult_to_inv1 [lemma, in UniMath.Algebra.Modules.Core]
module_mult_neg1 [lemma, in UniMath.Algebra.Modules.Core]
module_inv_mult [lemma, in UniMath.Algebra.Modules.Core]
module_mult_unel2 [lemma, in UniMath.Algebra.Modules.Core]
module_mult_1 [lemma, in UniMath.Algebra.Modules.Core]
module_mult_assoc [lemma, in UniMath.Algebra.Modules.Core]
module_mult_is_rdistr [lemma, in UniMath.Algebra.Modules.Core]
module_mult_is_ldistr [lemma, in UniMath.Algebra.Modules.Core]
module_mult_0_to_0 [lemma, in UniMath.Algebra.Modules.Core]
module_mult [definition, in UniMath.Algebra.Modules.Core]
module_struct [definition, in UniMath.Algebra.Modules.Core]
module_eqrelsubmodule [definition, in UniMath.Algebra.Modules.Quotient]
module_eqrel [definition, in UniMath.Algebra.Modules.Quotient]
module_image [definition, in UniMath.Algebra.Modules.Submodule]
module_kernel_eq [definition, in UniMath.Algebra.Modules.Submodule]
module_kernel [definition, in UniMath.Algebra.Modules.Submodule]
mod_category_Zero [definition, in UniMath.CategoryTheory.categories.modules]
mod_precategory_idtoisweq_iso [definition, in UniMath.CategoryTheory.categories.modules]
mod_category [definition, in UniMath.CategoryTheory.categories.modules]
mod_precategory [definition, in UniMath.CategoryTheory.categories.modules]
mod_precategory_data [definition, in UniMath.CategoryTheory.categories.modules]
mod_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.modules]
mod_inv_naturality_of [definition, in UniMath.Bicategories.Modifications.Modification]
Monad [definition, in UniMath.CategoryTheory.Monads.Monads]
monad [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
MonadAlg [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
MonadAlgebras [library]
MonadAlg_precat [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
MonadicSubstitution_alt [library]
MonadInSortToC [section, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadInSortToC.BC [variable, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadInSortToC.C [variable, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadInSortToC.Hsort [variable, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadInSortToC.sort [variable, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadInSortToC.sortToC [variable, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadInSortToC.TC [variable, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
_ ⊕ _ [notation, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
1 [notation, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadKtripleBiequiv [library]
Monads [library]
Monads [library]
MonadsFromSubstitutionSystems [library]
_ ⊕ _ [notation, in UniMath.SubstitutionSystems.MonadsMultiSorted]
MonadsInHSET_over_sort.BC [variable, in UniMath.SubstitutionSystems.MonadsMultiSorted]
MonadsInHSET_over_sort.hs [variable, in UniMath.SubstitutionSystems.MonadsMultiSorted]
MonadsInHSET_over_sort.sort [variable, in UniMath.SubstitutionSystems.MonadsMultiSorted]
MonadsInHSET_over_sort [section, in UniMath.SubstitutionSystems.MonadsMultiSorted]
MonadsMultiSorted [library]
MonadsMultiSorted_alt [library]
monadSubst [definition, in UniMath.CategoryTheory.Monads.Monads]
monadSubstGen [definition, in UniMath.CategoryTheory.Monads.Monads]
monadSubstGen_instantiated [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
monadSubstGen_fun [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
monadSubstGen_instantiated [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
monadSubst_instantiated [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadsUsingCoproducts [section, in UniMath.CategoryTheory.Monads.Monads]
MonadsUsingCoproducts.MonadSubst [section, in UniMath.CategoryTheory.Monads.Monads]
1 [notation, in UniMath.CategoryTheory.Monads.Monads]
_ ⊕ _ [notation, in UniMath.CategoryTheory.Monads.Monads]
Monads_from_adjunctions [section, in UniMath.CategoryTheory.Monads.Monads]
Monad_from_adjunction [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_data_from_adjunction [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_eq_raw_data [lemma, in UniMath.CategoryTheory.Monads.Monads]
Monad_to_Monad'_to_Monad [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_to_Monad' [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_to_Monad'_data [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_to_raw_data [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_eq_helper.Monad_Monad'_equiv [section, in UniMath.CategoryTheory.Monads.Monads]
Monad_eq_helper.Monad'_def [section, in UniMath.CategoryTheory.Monads.Monads]
Monad_eq_helper [section, in UniMath.CategoryTheory.Monads.Monads]
Monad_Mor_equiv [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_composition [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_composition_laws [lemma, in UniMath.CategoryTheory.Monads.Monads]
Monad_identity [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_identity_laws [lemma, in UniMath.CategoryTheory.Monads.Monads]
Monad_Mor_μ [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_Mor_η [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_Mor [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_Mor_laws [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_precategory [section, in UniMath.CategoryTheory.Monads.Monads]
Monad_law3 [lemma, in UniMath.CategoryTheory.Monads.Monads]
Monad_law2 [lemma, in UniMath.CategoryTheory.Monads.Monads]
Monad_law1 [lemma, in UniMath.CategoryTheory.Monads.Monads]
Monad_data_from_Monad [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_laws_pointfree_in_functor_category [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree.μ' [variable, in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree.η' [variable, in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree.T0' [variable, in UniMath.CategoryTheory.Monads.Monads]
Monad_laws_pointfree [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree.T0 [variable, in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree.μ [variable, in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree.η [variable, in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree.EndC [variable, in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree [section, in UniMath.CategoryTheory.Monads.Monads]
Monad_laws [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_data [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad_def [section, in UniMath.CategoryTheory.Monads.Monads]
Monad_Kleisli_laws [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
Monad_Kleisli_data [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
Monad_law5 [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
Monad_law4 [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
Monad_Mor_eq [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
monad_algebras.FAlg [variable, in UniMath.CategoryTheory.DisplayedCats.Examples]
monad_algebras.T' [variable, in UniMath.CategoryTheory.DisplayedCats.Examples]
monad_algebras [section, in UniMath.CategoryTheory.DisplayedCats.Examples]
Monad_Lemmas [section, in UniMath.CategoryTheory.Monads.KleisliCategory]
monad_mor_bind_alt [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mor_bind [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mor_iso [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mor_natural_pointwise [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mor_nat_iso [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_bind [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_is_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_is_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_cell_natural [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mor_mu [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mor_unit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mor_natural [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_μμ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_μη [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_ημ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mu [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_unit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_endo [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_support_is_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_support_is_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_support_is_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_support [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
Monad_to_Kleisli_to_Monad [definition, in UniMath.CategoryTheory.Monads.Kleisli]
Monad_to_Kleisli_to_Monad_raw_data [lemma, in UniMath.CategoryTheory.Monads.Kleisli]
Monad_to_Kleisli [definition, in UniMath.CategoryTheory.Monads.Kleisli]
monad_types_equiv [section, in UniMath.CategoryTheory.Monads.Kleisli]
monad_to_deriv [definition, in UniMath.CategoryTheory.Monads.Derivative]
monad_deriv [definition, in UniMath.CategoryTheory.Monads.Derivative]
monad_to_comp [definition, in UniMath.CategoryTheory.Monads.Derivative]
monad_to_comp_law2 [definition, in UniMath.CategoryTheory.Monads.Derivative]
monad_to_comp_law1 [lemma, in UniMath.CategoryTheory.Monads.Derivative]
monad_to_comp_data [definition, in UniMath.CategoryTheory.Monads.Derivative]
monad_comp [definition, in UniMath.CategoryTheory.Monads.Derivative]
monad_comp_law3 [lemma, in UniMath.CategoryTheory.Monads.Derivative]
monad_comp_law2 [lemma, in UniMath.CategoryTheory.Monads.Derivative]
monad_comp_law1 [lemma, in UniMath.CategoryTheory.Monads.Derivative]
monad_comp_data [definition, in UniMath.CategoryTheory.Monads.Derivative]
monad_comp_eta [definition, in UniMath.CategoryTheory.Monads.Derivative]
monad_comp_mu [definition, in UniMath.CategoryTheory.Monads.Derivative]
monad_dist_law4 [definition, in UniMath.CategoryTheory.Monads.Derivative]
monad_dist_law3 [definition, in UniMath.CategoryTheory.Monads.Derivative]
monad_dist_law2 [definition, in UniMath.CategoryTheory.Monads.Derivative]
monad_dist_law1 [definition, in UniMath.CategoryTheory.Monads.Derivative]
monad_dist_laws [definition, in UniMath.CategoryTheory.Monads.Derivative]
Monad_biequiv_Ktriple [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple_psfunctor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_disp_biequiv_Ktriple [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_biequiv_Ktriple_counit_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_biequiv_Ktriple_unit_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_biequiv_Ktriple_unit_counit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_bequiv_Ktriple_counit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_biequiv_Ktriple_unit [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple_compositor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple_identitor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple_functor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
monad_mor_natural_pointwise [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_of_Kleisli_Data [section, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_of_Kleisli_Data [section, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_from_hss [definition, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Monad_Mor_from_hssMor [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad_Mor_laws_from_hssMor [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad_from_hss [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad_laws_from_hss [lemma, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.mu_from_fbracket.third_monad_law_with_assoc [section, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
T²∙T [notation, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
T•T² [notation, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad_law_2_from_hss [lemma, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad_law_1_from_hss [lemma, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad_data_from_hss [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
_ ⊕ _ [notation, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
p _ [notation, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.mu_from_fbracket.T [variable, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.mu_from_fbracket [section, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
EndC [notation, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Ptd [notation, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.Id_H [variable, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.θ_strength2_int [variable, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.θ_strength1_int [variable, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.θ [variable, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.H [variable, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.CPEndC [variable, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
EndC [notation, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss [section, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad' [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad'_eq_raw_data [lemma, in UniMath.CategoryTheory.Monads.Monads]
Monad'_to_Monad_to_Monad' [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad'_to_Monad [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad'_data_to_Monad_data [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad'_data [definition, in UniMath.CategoryTheory.Monads.Monads]
Monad'_data_laws [definition, in UniMath.CategoryTheory.Monads.Monads]
moncat1 [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
moncat2 [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
monfunstn [definition, in UniMath.CategoryTheory.SimplicialSets]
monfunstncomp [definition, in UniMath.CategoryTheory.SimplicialSets]
monfunstnid [definition, in UniMath.CategoryTheory.SimplicialSets]
monfunstnpr1 [definition, in UniMath.CategoryTheory.SimplicialSets]
monfunstnpr1_isInjective [lemma, in UniMath.CategoryTheory.SimplicialSets]
Monic [definition, in UniMath.CategoryTheory.Monics]
MonicAdmEpiIsIso [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
MonicArrow [definition, in UniMath.CategoryTheory.Monics]
monich:58 [binder, in UniMath.CategoryTheory.slicecat]
MonicisMonic [definition, in UniMath.CategoryTheory.Monics]
MonicKernelZero [definition, in UniMath.CategoryTheory.Abelian]
MonicKernelZero_isKernel [definition, in UniMath.CategoryTheory.Abelian]
MonicPullbackisMonic [lemma, in UniMath.CategoryTheory.limits.pullbacks]
MonicPullbackisMonic' [lemma, in UniMath.CategoryTheory.limits.pullbacks]
Monics [library]
MonicsAreKernels [definition, in UniMath.CategoryTheory.Abelian]
MonicsAreKernels_opp [definition, in UniMath.CategoryTheory.Abelian]
MonicsAreKernels_opp_isCokernel [lemma, in UniMath.CategoryTheory.Abelian]
MonicsAreKernels_opp_eq [lemma, in UniMath.CategoryTheory.Abelian]
monics_Pullback [definition, in UniMath.CategoryTheory.Abelian]
monics_Pullback_isPullback [lemma, in UniMath.CategoryTheory.Abelian]
monics_Pullback_eq3 [lemma, in UniMath.CategoryTheory.Abelian]
monics_Pullback_eq2 [lemma, in UniMath.CategoryTheory.Abelian]
monics_Pullback_eq1 [lemma, in UniMath.CategoryTheory.Abelian]
monics_and_epis_in_preadditive.PA [variable, in UniMath.CategoryTheory.PreAdditive]
monics_and_epis_in_preadditive [section, in UniMath.CategoryTheory.PreAdditive]
monics_functorcategories [section, in UniMath.CategoryTheory.Monics]
monics_subcategory.hs [variable, in UniMath.CategoryTheory.Monics]
monics_subcategory.C [variable, in UniMath.CategoryTheory.Monics]
monics_subcategory [section, in UniMath.CategoryTheory.Monics]
monics_and_epis_in_additive.A [variable, in UniMath.CategoryTheory.Additive]
monics_and_epis_in_additive [section, in UniMath.CategoryTheory.Additive]
monics_terminal [section, in UniMath.CategoryTheory.limits.terminal]
MonicToKernel [definition, in UniMath.CategoryTheory.Abelian]
MonicToKernel' [definition, in UniMath.CategoryTheory.Abelian]
monic_epi_z_iso [lemma, in UniMath.CategoryTheory.Abelian]
monic_epi_is_iso [lemma, in UniMath.CategoryTheory.Abelian]
monic_epi_is_iso_inverses [lemma, in UniMath.CategoryTheory.Abelian]
monic_epi_is_iso_eq [lemma, in UniMath.CategoryTheory.Abelian]
monic_to_slice_precat_monic [lemma, in UniMath.CategoryTheory.slicecat]
Monic_comp [definition, in UniMath.CategoryTheory.Monics]
Monic_opp [definition, in UniMath.CategoryTheory.limits.Opp]
monic_pb.C [variable, in UniMath.CategoryTheory.limits.pullbacks]
monic_pb [section, in UniMath.CategoryTheory.limits.pullbacks]
MonM:1 [binder, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
MonoEpiIso [library]
MonoEpiIso [library]
MonoFromZero [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
monoid [definition, in UniMath.Algebra.Monoids]
monoid [abbreviation, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
Monoid [library]
MonoidalCategories [library]
MonoidalFromBicategory [library]
MonoidalFunctors [library]
monoidal_cat_from_bicat_and_ob [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
Monoidal_Cat_From_Bicat [section, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
monoidal_cat_of_endofunctors [definition, in UniMath.CategoryTheory.Monoidal.EndofunctorsMonoidal]
monoidal_functor_unitality [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_functor_associativity [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_functor_map_funclass [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_functor_map [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_functor_map_codom_ok [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_functor_map_codom [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_functor_map_dom_ok [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_functor_map_dom [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Monoidal_Functor.Monoidal_Functor_Conditions [section, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
_ #⊗_D _ [notation, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
_ ⊗_D _ [notation, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
_ #⊗_C _ [notation, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
_ ⊗_C _ [notation, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Monoidal_Functor [section, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_cat_of_pointedfunctors [definition, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
monoidal_cat_eq [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat_associator [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat_right_unitor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat_left_unitor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat_unit [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat_tensor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
Monoidal_Cat_Accessors [section, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat_cat [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
_ #⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
_ ⊗ _ [notation, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
Monoidal_Precat [section, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_functor_to_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
monoidal_functor_to_psfunctor_map_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
monoidal_functor_to_psfunctor_map_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
monoidal_functor_to_psfunctor [section, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
monoidal_tensor_ax' [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
monoidal_tensor_ax [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
monoidal_tensor_section_data_from_monoidal_tensor_section [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
monoidal_tensor_section [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
monoidal_tensor_section_natural [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
monoidal_tensor_section_data [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
Monoidal_Structure_on_Endofunctors [section, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
monoidax:18 [binder, in UniMath.Algebra.Matrix]
monoidax:56 [binder, in UniMath.Algebra.Matrix]
monoiddirprod [definition, in UniMath.Algebra.Monoids]
monoidfun [definition, in UniMath.Algebra.Monoids]
monoidfunassoc [lemma, in UniMath.Algebra.Monoids]
monoidfuncomp [definition, in UniMath.Algebra.Monoids]
monoidfunconstr [definition, in UniMath.Algebra.Monoids]
monoidfunfromunit [definition, in UniMath.Algebra.Monoids]
monoidfunfromunit_ismonoidfun [lemma, in UniMath.Algebra.Monoids]
monoidfunidleft [lemma, in UniMath.Algebra.Monoids]
monoidfunidright [lemma, in UniMath.Algebra.Monoids]
monoidfuninvtoinv [lemma, in UniMath.Algebra.Groups]
monoidfunmul [definition, in UniMath.Algebra.Monoids]
monoidfuntobinopfun [definition, in UniMath.Algebra.Monoids]
monoidfuntounit [definition, in UniMath.Algebra.Monoids]
monoidfuntounit_ismonoidfun [lemma, in UniMath.Algebra.Monoids]
monoidfununel [definition, in UniMath.Algebra.Monoids]
monoidfun_to_isbinopfun [definition, in UniMath.Algebra.Modules.Core]
monoidfun_paths [definition, in UniMath.Algebra.Monoids]
monoidfun_inv [lemma, in UniMath.CategoryTheory.PreAdditive]
monoidfun_nat_to_monoid_fun [lemma, in UniMath.NumberSystems.Integers]
monoidincltomonoidfun [definition, in UniMath.Algebra.Monoids]
monoidiso [definition, in UniMath.Algebra.Monoids]
monoidisotobinopiso [definition, in UniMath.Algebra.Monoids]
monoidisotomonoidmono [definition, in UniMath.Algebra.Monoids]
monoidiso_paths [definition, in UniMath.Algebra.Monoids]
monoidiso' [definition, in UniMath.Algebra.Monoids]
monoidmono [definition, in UniMath.Algebra.Monoids]
monoidmonocomp [definition, in UniMath.Algebra.Monoids]
monoidmonotobinopmono [definition, in UniMath.Algebra.Monoids]
monoidquot [definition, in UniMath.Algebra.Monoids]
monoidquotfun [definition, in UniMath.Algebra.Monoids]
monoidquotpr [definition, in UniMath.Algebra.Monoids]
monoidquotuniv [definition, in UniMath.Algebra.Monoids]
Monoids [section, in UniMath.Algebra.IteratedBinaryOperations]
monoids [library]
Monoids [library]
Monoids_Tactics [library]
Monoids.oo [variable, in UniMath.Algebra.IteratedBinaryOperations]
Monoids.uu [variable, in UniMath.Algebra.IteratedBinaryOperations]
Monoids2 [section, in UniMath.Algebra.IteratedBinaryOperations]
Monoids2.op [variable, in UniMath.Algebra.IteratedBinaryOperations]
Monoids2.unel [variable, in UniMath.Algebra.IteratedBinaryOperations]
monoid_kernel_hsubtype [definition, in UniMath.Algebra.Monoids]
monoid_univalence [definition, in UniMath.Algebra.Monoids]
monoid_univalence_isweq [lemma, in UniMath.Algebra.Monoids]
monoid_univalence_map [definition, in UniMath.Algebra.Monoids]
monoid_univalence_weq3 [definition, in UniMath.Algebra.Monoids]
monoid_univalence_weq2 [definition, in UniMath.Algebra.Monoids]
monoid_univalence_weq1 [definition, in UniMath.Algebra.Monoids]
monoid_mor_comp [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_mor_id [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_mor_eq [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_mor [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_unit [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_mult [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_carrier [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_ob [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_ob_data [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_algebra [definition, in UniMath.Algebra.Universal.Examples.Monoid]
monoid_signature [definition, in UniMath.Algebra.Universal.Examples.Monoid]
monoid_free_forgetful_adjunction [lemma, in UniMath.CategoryTheory.categories.monoids]
monoid_free_forgetful_adjunction_data [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_free_forgetful_counit [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_free_forgetful_unit [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_free_functor [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_forgetful_functor_is_faithful [lemma, in UniMath.CategoryTheory.categories.monoids]
monoid_forgetful_functor [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_univalent_category [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_category_is_univalent [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_category [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_precategory_isweq [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_equiv_weq_iso [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_equiv_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.monoids]
monoid_iso_equiv_weq [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_iso_equiv_is_equiv [lemma, in UniMath.CategoryTheory.categories.monoids]
monoid_equiv_iso [lemma, in UniMath.CategoryTheory.categories.monoids]
monoid_equiv_is_iso [lemma, in UniMath.CategoryTheory.categories.monoids]
monoid_iso_equiv [lemma, in UniMath.CategoryTheory.categories.monoids]
monoid_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.monoids]
monoid_precategory [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_assoc [lemma, in UniMath.CategoryTheory.categories.monoids]
monoid_id_right [lemma, in UniMath.CategoryTheory.categories.monoids]
monoid_id_left [lemma, in UniMath.CategoryTheory.categories.monoids]
monoid_precategory_data [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.monoids]
monoid_fun_space [definition, in UniMath.CategoryTheory.categories.monoids]
MonoPlusIdentity [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
monorel [definition, in UniMath.CategoryTheory.Subobjects]
MonosAreInjective_HSET [lemma, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
montrafotargetbicat_moncat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_pentagon_eq [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_triangle_eq [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_associator [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_associator_aux2 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_associator_aux1 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_right_unitor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_right_unitor_aux2 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_right_unitor_aux1 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_left_unitor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_left_unitor_aux2 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_left_unitor_aux1 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_tensor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_tensor_aux [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_disp_tensor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_tensor_comp_aux [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_unit [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_disp_unit [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_cat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_disp [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotarget_moncat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotarget_cat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotarget_disp [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Mon_V:42 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Mon_V:1 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Mon_endo [definition, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
Mon_D:2 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Mon_C:1 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Mon_V:1 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
Mon_V' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Mon_W' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Mon_V:104 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Mon_W:103 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Mon_V:1 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Mon_A:41 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
Mon_V:1 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
Mon_endo' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Mon_endo [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Mon_M:5 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Mon_V:37 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Mon_A:11 [binder, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
Mon_V:10 [binder, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
Mon_A:2 [binder, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
Mon_V:1 [binder, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
Mon_V:1 [binder, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
Mon':37 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Mon:1 [binder, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
Mon:36 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
mord:63 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
MoreEquivalences [library]
MoreLists [library]
more_lists [section, in UniMath.Combinatorics.Lists]
morFF:13 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
morFF:15 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
morFF:44 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
morfullsub [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
MorMap [definition, in UniMath.CategoryTheory.LocalizingClass]
MorMap_compose [lemma, in UniMath.CategoryTheory.LocalizingClass]
MorMap_iscontr_eq [lemma, in UniMath.CategoryTheory.LocalizingClass]
MorMap_iscontr [lemma, in UniMath.CategoryTheory.LocalizingClass]
MorMap_iscomprelfun [lemma, in UniMath.CategoryTheory.LocalizingClass]
MorMap_top_mor2_is_iso [lemma, in UniMath.CategoryTheory.LocalizingClass]
MorMap_top_mor1_is_iso [lemma, in UniMath.CategoryTheory.LocalizingClass]
Morphism [definition, in UniMath.HomologicalAlgebra.Complexes]
Morphism [definition, in UniMath.CategoryTheory.Morphisms]
MorphismComp [definition, in UniMath.HomologicalAlgebra.Complexes]
MorphismCompComm [lemma, in UniMath.HomologicalAlgebra.Complexes]
MorphismCompEqrel [lemma, in UniMath.CategoryTheory.LocalizingClass]
MorphismEq [lemma, in UniMath.HomologicalAlgebra.Complexes]
MorphismEq' [lemma, in UniMath.HomologicalAlgebra.Complexes]
MorphismFromZero [definition, in UniMath.HomologicalAlgebra.Complexes]
MorphismFromZero_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
MorphismMor [definition, in UniMath.CategoryTheory.Morphisms]
morphismofdcpos [section, in UniMath.Algebra.Dcpo]
MorphismOp [definition, in UniMath.HomologicalAlgebra.Complexes]
MorphismOpComm [lemma, in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_isabgrop [definition, in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_iscomm [definition, in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_isinv [lemma, in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_inv [definition, in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_inv_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_isunit [lemma, in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_isassoc [lemma, in UniMath.HomologicalAlgebra.Complexes]
MorphismPair [definition, in UniMath.CategoryTheory.Morphisms]
MorphismPairIsomorphism [definition, in UniMath.CategoryTheory.Morphisms]
MorphismPairMap [definition, in UniMath.CategoryTheory.Morphisms]
MorphismPairs [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
MorphismPair_to_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
MorphismPair_from_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
MorphismPair_opp [definition, in UniMath.CategoryTheory.Morphisms]
MorphismPair_opp [section, in UniMath.CategoryTheory.Morphisms]
Morphisms [library]
MorphismsIntoPullbackEqual [lemma, in UniMath.CategoryTheory.limits.pullbacks]
morphismsofdcpos_formdcpo [section, in UniMath.Algebra.Dcpo]
MorphismsOfRelativeMonads [section, in UniMath.CategoryTheory.Monads.RelativeMonads]
MorphismsOutofPushoutEqual [lemma, in UniMath.CategoryTheory.limits.pushouts]
morphisms_of_presheaves_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
morphisms_of_presheaves_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
morphisms_of_presheaves_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
morphisms_of_presheaves [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
morphisms_of_presheaves_display [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
Morphisms_hSet [definition, in UniMath.HomologicalAlgebra.Complexes]
Morphisms_isaset [lemma, in UniMath.HomologicalAlgebra.Complexes]
MorphismToZero [definition, in UniMath.HomologicalAlgebra.Complexes]
MorphismToZero_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
morphism_in_full_subcat [definition, in UniMath.CategoryTheory.Subcategory.Full]
morphism_from_z_iso [definition, in UniMath.CategoryTheory.Core.Isos]
morphism_from_iso [definition, in UniMath.CategoryTheory.Core.Isos]
morphism_from_iso_is_incl [lemma, in UniMath.CategoryTheory.Groupoids]
Mors:78 [binder, in UniMath.HomologicalAlgebra.Complexes]
MorToRoof [definition, in UniMath.CategoryTheory.LocalizingClass]
mor_to_el_mor_comp [lemma, in UniMath.CategoryTheory.ElementsOp]
mor_to_el_mor_id [lemma, in UniMath.CategoryTheory.ElementsOp]
mor_to_el_mor [definition, in UniMath.CategoryTheory.ElementsOp]
mor_from_monoid_mor [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
mor_to_modulefun [definition, in UniMath.CategoryTheory.categories.modules]
mor_E₂_to_E₁_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
mor_E₂_to_E₁ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
mor_E₁_to_E₂ [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
mor_disp_from_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
mor_disp_transportf_prewhisker [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
mor_disp_transportf_postwhisker [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
mor_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
mor_disp:5 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
mor_from_Algebra_mor [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
mor_from_algebra_mor [definition, in UniMath.CategoryTheory.FunctorAlgebras]
mor_to_elem [lemma, in UniMath.CategoryTheory.PreAdditive]
mor_disp_of_cartesian_lift [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
mor_of_fullsub [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
mor_from_monoid_mor [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
mor_from_coalgebra_homo [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
mor1 [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
Mor1 [definition, in UniMath.CategoryTheory.Morphisms]
mor2 [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
Mor2 [definition, in UniMath.CategoryTheory.Morphisms]
Mor3 [definition, in UniMath.HomologicalAlgebra.Triangulated]
mor:139 [binder, in UniMath.CategoryTheory.Core.Categories]
mor:19 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
mor:193 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
mor:2 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
mor:203 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Mor:204 [binder, in UniMath.CategoryTheory.FiveLemma]
Mor:207 [binder, in UniMath.CategoryTheory.FiveLemma]
Mor:210 [binder, in UniMath.CategoryTheory.FiveLemma]
Mor:213 [binder, in UniMath.CategoryTheory.FiveLemma]
mor:213 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Mor:216 [binder, in UniMath.CategoryTheory.FiveLemma]
Mor:219 [binder, in UniMath.CategoryTheory.FiveLemma]
Mor:222 [binder, in UniMath.CategoryTheory.FiveLemma]
mor:223 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Mor:225 [binder, in UniMath.CategoryTheory.FiveLemma]
Mor:228 [binder, in UniMath.CategoryTheory.FiveLemma]
Mor:231 [binder, in UniMath.CategoryTheory.FiveLemma]
Mor:234 [binder, in UniMath.CategoryTheory.FiveLemma]
Mor:237 [binder, in UniMath.CategoryTheory.FiveLemma]
Mor:240 [binder, in UniMath.CategoryTheory.FiveLemma]
Mor:243 [binder, in UniMath.CategoryTheory.FiveLemma]
mor:270 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
mor:3 [binder, in UniMath.Folds.folds_pre_2_cat]
mor:3 [binder, in UniMath.Folds.folds_precat]
mor:3 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
mor:3 [binder, in UniMath.CategoryTheory.Core.Categories]
mor:40 [binder, in UniMath.Induction.W.Naturals]
mor:429 [binder, in UniMath.Bicategories.Core.Bicat]
mor:45 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
mor:55 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Mor:569 [binder, in UniMath.HomologicalAlgebra.Triangulated]
Mor:574 [binder, in UniMath.HomologicalAlgebra.Triangulated]
mor:59 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Mor:592 [binder, in UniMath.HomologicalAlgebra.Triangulated]
Mor:595 [binder, in UniMath.HomologicalAlgebra.Triangulated]
mor:73 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
mor:98 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
motivation_α_functors_stronger [lemma, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
motivation_λ_functors_stronger [lemma, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
motivation_ρ_functors_stronger [lemma, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
motivation_α_functors [lemma, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
motivation_λ_functors [lemma, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
motivation_ρ_functors [lemma, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
move_inv [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
MPComm1 [definition, in UniMath.CategoryTheory.Morphisms]
MPComm2 [definition, in UniMath.CategoryTheory.Morphisms]
MPMC:50 [binder, in UniMath.CategoryTheory.Morphisms]
MPMC:54 [binder, in UniMath.CategoryTheory.Morphisms]
MPMC:61 [binder, in UniMath.CategoryTheory.Morphisms]
MPMor [definition, in UniMath.CategoryTheory.Morphisms]
MPMorComms [definition, in UniMath.CategoryTheory.Morphisms]
MPMorMors [definition, in UniMath.CategoryTheory.Morphisms]
MPMor_MPMorComms [definition, in UniMath.CategoryTheory.Morphisms]
MPMor_MPMorMors [definition, in UniMath.CategoryTheory.Morphisms]
MPMor1 [definition, in UniMath.CategoryTheory.Morphisms]
MPMor2 [definition, in UniMath.CategoryTheory.Morphisms]
MPMor3 [definition, in UniMath.CategoryTheory.Morphisms]
MPM:32 [binder, in UniMath.CategoryTheory.Morphisms]
MPM:35 [binder, in UniMath.CategoryTheory.Morphisms]
MPM:38 [binder, in UniMath.CategoryTheory.Morphisms]
MPM:41 [binder, in UniMath.CategoryTheory.Morphisms]
MPM:44 [binder, in UniMath.CategoryTheory.Morphisms]
MPM:49 [binder, in UniMath.CategoryTheory.Morphisms]
MPM:53 [binder, in UniMath.CategoryTheory.Morphisms]
MPM:57 [binder, in UniMath.CategoryTheory.Morphisms]
MPM:60 [binder, in UniMath.CategoryTheory.Morphisms]
MPM:64 [binder, in UniMath.CategoryTheory.Morphisms]
MPM:67 [binder, in UniMath.CategoryTheory.Morphisms]
MP1:23 [binder, in UniMath.CategoryTheory.Morphisms]
MP1:25 [binder, in UniMath.CategoryTheory.Morphisms]
MP1:30 [binder, in UniMath.CategoryTheory.Morphisms]
MP1:33 [binder, in UniMath.CategoryTheory.Morphisms]
MP1:36 [binder, in UniMath.CategoryTheory.Morphisms]
MP1:39 [binder, in UniMath.CategoryTheory.Morphisms]
MP1:42 [binder, in UniMath.CategoryTheory.Morphisms]
MP1:47 [binder, in UniMath.CategoryTheory.Morphisms]
MP1:51 [binder, in UniMath.CategoryTheory.Morphisms]
MP1:55 [binder, in UniMath.CategoryTheory.Morphisms]
MP1:58 [binder, in UniMath.CategoryTheory.Morphisms]
MP1:62 [binder, in UniMath.CategoryTheory.Morphisms]
MP1:65 [binder, in UniMath.CategoryTheory.Morphisms]
MP2:24 [binder, in UniMath.CategoryTheory.Morphisms]
MP2:26 [binder, in UniMath.CategoryTheory.Morphisms]
MP2:31 [binder, in UniMath.CategoryTheory.Morphisms]
MP2:34 [binder, in UniMath.CategoryTheory.Morphisms]
MP2:37 [binder, in UniMath.CategoryTheory.Morphisms]
MP2:40 [binder, in UniMath.CategoryTheory.Morphisms]
MP2:43 [binder, in UniMath.CategoryTheory.Morphisms]
MP2:48 [binder, in UniMath.CategoryTheory.Morphisms]
MP2:52 [binder, in UniMath.CategoryTheory.Morphisms]
MP2:56 [binder, in UniMath.CategoryTheory.Morphisms]
MP2:59 [binder, in UniMath.CategoryTheory.Morphisms]
MP2:63 [binder, in UniMath.CategoryTheory.Morphisms]
MP2:66 [binder, in UniMath.CategoryTheory.Morphisms]
mp:104 [binder, in UniMath.Induction.M.ComputationalM]
MP:115 [binder, in UniMath.CategoryTheory.Morphisms]
MP:117 [binder, in UniMath.CategoryTheory.Morphisms]
MP:133 [binder, in UniMath.CategoryTheory.Morphisms]
MP:134 [binder, in UniMath.CategoryTheory.Morphisms]
MP:173 [binder, in UniMath.CategoryTheory.ShortExactSequences]
mp:18 [binder, in UniMath.Induction.M.ComputationalM]
MP:18 [binder, in UniMath.CategoryTheory.Morphisms]
MP:19 [binder, in UniMath.CategoryTheory.Morphisms]
MP:20 [binder, in UniMath.CategoryTheory.Morphisms]
MP:21 [binder, in UniMath.CategoryTheory.Morphisms]
MP:22 [binder, in UniMath.CategoryTheory.Morphisms]
MP:3 [binder, in UniMath.HomologicalAlgebra.Triangulated]
mp:99 [binder, in UniMath.Induction.M.ComputationalM]
mr:4 [binder, in UniMath.Algebra.Modules.Multimodules]
mr:40 [binder, in UniMath.Algebra.Modules.Multimodules]
mr:62 [binder, in UniMath.Algebra.Modules.Examples]
ms:22 [binder, in UniMath.Algebra.Modules.Multimodules]
ms:41 [binder, in UniMath.Algebra.Modules.Multimodules]
ms:5 [binder, in UniMath.Algebra.Modules.Multimodules]
ms:63 [binder, in UniMath.Algebra.Modules.Examples]
ms:68 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
mt_path_refl [lemma, in UniMath.Combinatorics.MetricTree]
mt_step:31 [binder, in UniMath.Combinatorics.MetricTree]
mt_trans:30 [binder, in UniMath.Combinatorics.MetricTree]
mt_symm:29 [binder, in UniMath.Combinatorics.MetricTree]
mt_anti:28 [binder, in UniMath.Combinatorics.MetricTree]
mt_refl:27 [binder, in UniMath.Combinatorics.MetricTree]
mt_dist:26 [binder, in UniMath.Combinatorics.MetricTree]
mt_set:25 [binder, in UniMath.Combinatorics.MetricTree]
mt_step [definition, in UniMath.Combinatorics.MetricTree]
mt_trans [definition, in UniMath.Combinatorics.MetricTree]
mt_symm [definition, in UniMath.Combinatorics.MetricTree]
mt_anti [definition, in UniMath.Combinatorics.MetricTree]
mt_refl [definition, in UniMath.Combinatorics.MetricTree]
mt_dist [definition, in UniMath.Combinatorics.MetricTree]
mt_set [definition, in UniMath.Combinatorics.MetricTree]
mt_trans:14 [binder, in UniMath.Combinatorics.MetricTree]
mt_symm:10 [binder, in UniMath.Combinatorics.MetricTree]
mt_anti:7 [binder, in UniMath.Combinatorics.MetricTree]
mt_refl:4 [binder, in UniMath.Combinatorics.MetricTree]
mt_dist:2 [binder, in UniMath.Combinatorics.MetricTree]
mt_set:1 [binder, in UniMath.Combinatorics.MetricTree]
mul [definition, in UniMath.Foundations.Preamble]
mulr:64 [binder, in UniMath.Algebra.Modules.Examples]
muls:65 [binder, in UniMath.Algebra.Modules.Examples]
Mult [section, in UniMath.Algebra.IteratedBinaryOperations]
multdivNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multDivRig [definition, in UniMath.Algebra.DivisionRig]
multilinearfun [definition, in UniMath.Algebra.Modules.Multimodules]
multilinearfuncomp [definition, in UniMath.Algebra.Modules.Multimodules]
multimodule [definition, in UniMath.Algebra.Modules.Multimodules]
multimodulefun [definition, in UniMath.Algebra.Modules.Multimodules]
multimodulefun_unel [definition, in UniMath.Algebra.Modules.Multimodules]
multimodulefun_to_ith_linearfun [definition, in UniMath.Algebra.Modules.Multimodules]
multimodulefun_to_ith_islinear [definition, in UniMath.Algebra.Modules.Multimodules]
multimodulefun_to_binopfun [definition, in UniMath.Algebra.Modules.Multimodules]
multimodulefun_to_isbinopfun [definition, in UniMath.Algebra.Modules.Multimodules]
Multimodules [library]
multimodule_ith_mult_0_to_0 [definition, in UniMath.Algebra.Modules.Multimodules]
multimodule_same_abgrp [lemma, in UniMath.Algebra.Modules.Multimodules]
multimodule_ith_mult [definition, in UniMath.Algebra.Modules.Multimodules]
multimodule_struct [definition, in UniMath.Algebra.Modules.Multimodules]
multinvmultstable [lemma, in UniMath.PAdics.lemmas]
multinvpair [definition, in UniMath.Algebra.Domains_and_Fields]
MultipleOperation [definition, in UniMath.Algebra.IteratedBinaryOperations]
MultiSorted [library]
MultiSortedSig [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSig [definition, in UniMath.SubstitutionSystems.MultiSorted]
MultiSortedSigToFunctor [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSigToFunctor [definition, in UniMath.SubstitutionSystems.MultiSorted]
MultiSortedSigToHSS [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSigToHSS [definition, in UniMath.SubstitutionSystems.MultiSorted]
MultiSortedSigToHSSisInitial [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSigToHSSisInitial [definition, in UniMath.SubstitutionSystems.MultiSorted]
MultiSortedSigToMonad [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSigToMonad [definition, in UniMath.SubstitutionSystems.MultiSorted]
MultiSortedSigToMonadSet [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSigToSignature [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSigToSignature [definition, in UniMath.SubstitutionSystems.MultiSorted]
MultiSortedSigToSignatureSet [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSorted_alt [library]
multlinvpair [definition, in UniMath.Algebra.Domains_and_Fields]
multmonoideqrel [definition, in UniMath.Algebra.RigsAndRings]
multNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_le1_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_le1_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_lt_le [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_le_lt [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_ltcompat [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_eqcompat_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_eqcompat_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_lecompat_r' [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_lecompat_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_lecompat_l' [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_lecompat_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_ltcompat_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_ltcompat_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_correct [lemma, in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_lecompat_r' [definition, in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_lecompat_r [definition, in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_ltcompat_r' [definition, in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_ltcompat_r [definition, in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_lecompat_l' [definition, in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_lecompat_l [definition, in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_ltcompat_l' [definition, in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_ltcompat_l [definition, in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_lecompat [lemma, in UniMath.RealNumbers.Reals]
multnsm [lemma, in UniMath.Foundations.NaturalNumbers]
multrinvpair [definition, in UniMath.Algebra.Domains_and_Fields]
multsnm [lemma, in UniMath.Foundations.NaturalNumbers]
multsubmonoid [definition, in UniMath.Algebra.RigsAndRings]
multx0_is_l [lemma, in UniMath.Algebra.BinaryOperations]
mult_to_module [definition, in UniMath.Algebra.Modules.Core]
mult_to_module_struct [definition, in UniMath.Algebra.Modules.Core]
mult_to_ringofendabgr [definition, in UniMath.Algebra.Modules.Core]
mult_unel [definition, in UniMath.Algebra.Modules.Core]
mult_isrdistr_wrt_ringop2 [definition, in UniMath.Algebra.Modules.Core]
mult_isrdistr_wrt_ringop1 [definition, in UniMath.Algebra.Modules.Core]
mult_isldistr_wrt_grop [definition, in UniMath.Algebra.Modules.Core]
mult_fld [definition, in UniMath.RealNumbers.Fields]
mult0x_is_l [lemma, in UniMath.Algebra.BinaryOperations]
mu_kleisli [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
mu_kleisli_natural [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
mweak [definition, in UniMath.CategoryTheory.Monads.Monads]
mweak_slice_as_bind_slice_ok [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
mweak_slice_as_bind_slice_agrees [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
mweak_slice_as_bind_slice [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
mweak_slice_ok [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
mweak_slice [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
mweak_instantiated [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
mweak_instantiated [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
mx0:237 [binder, in UniMath.Algebra.RigsAndRings]
mx0:34 [binder, in UniMath.Algebra.RigsAndRings]
mx:141 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mx:151 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mx:34 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mx:41 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mx:60 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mx:60 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
mx:69 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mx:76 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
my:142 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
my:152 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
my:35 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
my:42 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
my:61 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
my:61 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
my:70 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
my:77 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
m_minv [lemma, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
M_is_final [definition, in UniMath.Induction.M.Core]
M_coalgebra [definition, in UniMath.Induction.M.Core]
M_alg [definition, in UniMath.SubstitutionSystems.ModulesFromSignatures]
M_mod [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
m_inv:31 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
M_as_bicat [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
M_coalg_eq [lemma, in UniMath.Induction.M.Uniqueness]
M_carriers_eq [lemma, in UniMath.Induction.M.Uniqueness]
M_carriers_iso [lemma, in UniMath.Induction.M.Uniqueness]
m_type [definition, in UniMath.Induction.M.Chains]
M'':152 [binder, in UniMath.CategoryTheory.Monads.LModules]
M':104 [binder, in UniMath.CategoryTheory.Monads.LModules]
M':11 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
m':123 [binder, in UniMath.PAdics.fps]
M':142 [binder, in UniMath.CategoryTheory.Monads.LModules]
m':145 [binder, in UniMath.PAdics.fps]
M':149 [binder, in UniMath.CategoryTheory.Monads.LModules]
m':153 [binder, in UniMath.CategoryTheory.Monads.LModules]
m':173 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
m':18 [binder, in UniMath.Algebra.Modules.Quotient]
m':20 [binder, in UniMath.Algebra.Modules.Quotient]
M':21 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
m':263 [binder, in UniMath.Combinatorics.FiniteSequences]
M':45 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
M':50 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
m':64 [binder, in UniMath.Bicategories.Modifications.Modification]
m':93 [binder, in UniMath.Bicategories.Modifications.Modification]
M':97 [binder, in UniMath.CategoryTheory.Monads.LModules]
m0x:235 [binder, in UniMath.Algebra.RigsAndRings]
m0x:32 [binder, in UniMath.Algebra.RigsAndRings]
m0':102 [binder, in UniMath.Induction.M.ComputationalM]
m0':16 [binder, in UniMath.Induction.M.ComputationalM]
m0':80 [binder, in UniMath.Induction.M.ComputationalM]
m0':85 [binder, in UniMath.Induction.M.ComputationalM]
m0':89 [binder, in UniMath.Induction.M.ComputationalM]
m0':93 [binder, in UniMath.Induction.M.ComputationalM]
m0':97 [binder, in UniMath.Induction.M.ComputationalM]
m0:10 [binder, in UniMath.Induction.M.ComputationalM]
m0:111 [binder, in UniMath.Induction.M.ComputationalM]
m0:114 [binder, in UniMath.Induction.M.ComputationalM]
m0:117 [binder, in UniMath.Induction.M.ComputationalM]
m0:118 [binder, in UniMath.Induction.M.ComputationalM]
m0:119 [binder, in UniMath.Induction.M.ComputationalM]
m0:12 [binder, in UniMath.Induction.M.ComputationalM]
m0:123 [binder, in UniMath.Induction.M.ComputationalM]
m0:125 [binder, in UniMath.Induction.M.ComputationalM]
m0:148 [binder, in UniMath.PAdics.padics]
m0:152 [binder, in UniMath.PAdics.padics]
m0:21 [binder, in UniMath.Induction.M.ComputationalM]
m0:22 [binder, in UniMath.Induction.M.ComputationalM]
m0:5 [binder, in UniMath.Induction.M.ComputationalM]
m1lehn:173 [binder, in UniMath.Algebra.Universal.Terms]
m1_law:134 [binder, in UniMath.CategoryTheory.Monads.LModules]
m1_law:128 [binder, in UniMath.CategoryTheory.Monads.LModules]
M1:105 [binder, in UniMath.HomologicalAlgebra.Triangulated]
M1:106 [binder, in UniMath.CategoryTheory.Abelian]
M1:115 [binder, in UniMath.CategoryTheory.Abelian]
M1:117 [binder, in UniMath.HomologicalAlgebra.Complexes]
m1:120 [binder, in UniMath.CategoryTheory.Monads.LModules]
M1:122 [binder, in UniMath.CategoryTheory.Abelian]
M1:123 [binder, in UniMath.HomologicalAlgebra.Complexes]
m1:124 [binder, in UniMath.CategoryTheory.Monads.LModules]
M1:130 [binder, in UniMath.CategoryTheory.Monads.LModules]
m1:132 [binder, in UniMath.CategoryTheory.Monads.LModules]
M1:135 [binder, in UniMath.CategoryTheory.Abelian]
M1:170 [binder, in UniMath.HomologicalAlgebra.Complexes]
m1:171 [binder, in UniMath.Algebra.Universal.Terms]
M1:175 [binder, in UniMath.HomologicalAlgebra.Complexes]
M1:361 [binder, in UniMath.HomologicalAlgebra.Complexes]
M1:49 [binder, in UniMath.CategoryTheory.Monics]
m1:569 [binder, in UniMath.NumberSystems.Integers]
m1:579 [binder, in UniMath.NumberSystems.Integers]
m1:6 [binder, in UniMath.Algebra.Modules.Multimodules]
M1:69 [binder, in UniMath.HomologicalAlgebra.Triangulated]
M1:91 [binder, in UniMath.HomologicalAlgebra.Complexes]
M1:97 [binder, in UniMath.CategoryTheory.Abelian]
M1:97 [binder, in UniMath.HomologicalAlgebra.Complexes]
m2lehn:174 [binder, in UniMath.Algebra.Universal.Terms]
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m:87 [binder, in UniMath.Algebra.Modules.Submodule]
M:87 [binder, in UniMath.HomologicalAlgebra.Triangulated]
M:87 [binder, in UniMath.HomologicalAlgebra.Complexes]
M:870 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:872 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:874 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:876 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:879 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:88 [binder, in UniMath.Algebra.Modules.Core]
M:88 [binder, in UniMath.CategoryTheory.limits.cones]
M:88 [binder, in UniMath.Algebra.IteratedBinaryOperations]
m:88 [binder, in UniMath.MoreFoundations.Nat]
M:883 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:889 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:89 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
m:89 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
m:89 [binder, in UniMath.NumberSystems.RationalNumbers]
M:9 [binder, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
m:9 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
M:9 [binder, in UniMath.CategoryTheory.Morphisms]
M:90 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
m:90 [binder, in UniMath.Algebra.Matrix]
m:90 [binder, in UniMath.MoreFoundations.Nat]
M:91 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
M:91 [binder, in UniMath.Algebra.Modules.Core]
m:91 [binder, in UniMath.Foundations.NaturalNumbers]
m:91 [binder, in UniMath.NumberSystems.Integers]
M:91 [binder, in UniMath.HomologicalAlgebra.Triangulated]
M:91 [binder, in UniMath.CategoryTheory.limits.cones]
m:91 [binder, in UniMath.NumberSystems.RationalNumbers]
m:92 [binder, in UniMath.Algebra.Modules.Core]
M:92 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
m:92 [binder, in UniMath.Bicategories.Modifications.Modification]
M:925 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:928 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:929 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:93 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:93 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
m:93 [binder, in UniMath.NumberSystems.RationalNumbers]
m:93 [binder, in UniMath.MoreFoundations.Nat]
M:935 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:94 [binder, in UniMath.Foundations.NaturalNumbers]
m:94 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
m:94 [binder, in UniMath.NumberSystems.Integers]
M:94 [binder, in UniMath.HomologicalAlgebra.Triangulated]
M:941 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:947 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:95 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
M:953 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:956 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:959 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:96 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
M:96 [binder, in UniMath.Algebra.Modules.Core]
m:96 [binder, in UniMath.NumberSystems.RationalNumbers]
M:96 [binder, in UniMath.CategoryTheory.Monads.LModules]
m:96 [binder, in UniMath.MoreFoundations.Nat]
M:962 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:965 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:968 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:97 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
M:97 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
M:97 [binder, in UniMath.CategoryTheory.Monads.Monads]
m:97 [binder, in UniMath.MoreFoundations.Nat]
M:971 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:974 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:98 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
M:98 [binder, in UniMath.CategoryTheory.Monads.Monads]
m:98 [binder, in UniMath.Foundations.NaturalNumbers]
m:98 [binder, in UniMath.NumberSystems.Integers]
M:98 [binder, in UniMath.CategoryTheory.LatticeObject]
m:98 [binder, in UniMath.CategoryTheory.Monads.LModules]
m:98 [binder, in UniMath.MoreFoundations.Nat]
M:984 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:99 [binder, in UniMath.CategoryTheory.Monads.Monads]
M:99 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
m:99 [binder, in UniMath.Combinatorics.FiniteSets]
M:990 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:997 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m₁:134 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
m₁:144 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
M₁:163 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
M₁:169 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
M₁:176 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
M₁:183 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
M₁:192 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
m₁:26 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
M₁:46 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
m₁:48 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
m₁:50 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
M₁:53 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
m₁:56 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
M₂:164 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
M₂:170 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
M₂:177 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
M₂:184 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
M₂:193 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
m₂:27 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
M₂:47 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
m₂:49 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
m₂:51 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
M₂:54 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
m₂:57 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]

N

N [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
NAction [section, in UniMath.CategoryTheory.DisplayedCats.Examples]
NAction_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
NAction_axioms [lemma, in UniMath.CategoryTheory.DisplayedCats.Examples]
NAction_data [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
NAction_id_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
NAction_disp_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
namelift [definition, in UniMath.Algebra.Universal.VTerms]
names [definition, in UniMath.Algebra.Universal.Signatures]
name:5 [binder, in UniMath.Foundations.Init]
Nat [definition, in UniMath.Induction.ImpredicativeInductiveSets]
Nat [section, in UniMath.Algebra.Universal.Examples.Tests]
nat [inductive, in UniMath.Foundations.Preamble]
Nat [library]
Nat [library]
nataddabmonoid [definition, in UniMath.NumberSystems.NaturalNumbersAlgebra]
nataddabmonoid_nataddabmonoid_to_monoid_fun [definition, in UniMath.NumberSystems.Integers]
natbezoutstrong [lemma, in UniMath.PAdics.z_mod_p]
natboolneq [definition, in UniMath.Foundations.NaturalNumbers]
NatCard [section, in UniMath.Algebra.IteratedBinaryOperations]
natchoice0 [definition, in UniMath.Foundations.NaturalNumbers]
natcoface [definition, in UniMath.PAdics.lemmas]
natcofaceleh [lemma, in UniMath.PAdics.lemmas]
natcofaceretract [definition, in UniMath.PAdics.lemmas]
natcofaceretractisretract [lemma, in UniMath.PAdics.lemmas]
natcommrig [definition, in UniMath.NumberSystems.NaturalNumbersAlgebra]
natdeceq [definition, in UniMath.Foundations.NaturalNumbers]
natdecleast [definition, in UniMath.Combinatorics.StandardFiniteSets]
natdecneq [definition, in UniMath.Foundations.NaturalNumbers]
natdiffplusdiff [lemma, in UniMath.Foundations.NaturalNumbers]
natdiv [definition, in UniMath.Foundations.NaturalNumbers]
natdivandmultl [definition, in UniMath.Foundations.NaturalNumbers]
natdivandmultr [definition, in UniMath.Foundations.NaturalNumbers]
natdivleh [lemma, in UniMath.PAdics.lemmas]
natdivrem [definition, in UniMath.Foundations.NaturalNumbers]
natdivremandmultl [lemma, in UniMath.Foundations.NaturalNumbers]
natdivremandmultr [lemma, in UniMath.Foundations.NaturalNumbers]
natdivremrule [lemma, in UniMath.Foundations.NaturalNumbers]
natdivremunique [lemma, in UniMath.Foundations.NaturalNumbers]
natdoubleminus [lemma, in UniMath.PAdics.lemmas]
nateq [definition, in UniMath.Foundations.NaturalNumbers]
nateq_DecidableProposition [definition, in UniMath.MoreFoundations.DecidablePropositions]
natgcd [definition, in UniMath.PAdics.z_mod_p]
natgeh [definition, in UniMath.Foundations.NaturalNumbers]
natgehandminusl [definition, in UniMath.Foundations.NaturalNumbers]
natgehandminusr [definition, in UniMath.Foundations.NaturalNumbers]
natgehandminusrinv [definition, in UniMath.Foundations.NaturalNumbers]
natgehandmultl [definition, in UniMath.Foundations.NaturalNumbers]
natgehandmultlinv [definition, in UniMath.Foundations.NaturalNumbers]
natgehandmultr [definition, in UniMath.Foundations.NaturalNumbers]
natgehandmultrinv [definition, in UniMath.Foundations.NaturalNumbers]
natgehandplusl [definition, in UniMath.Foundations.NaturalNumbers]
natgehandpluslinv [definition, in UniMath.Foundations.NaturalNumbers]
natgehandplusr [definition, in UniMath.Foundations.NaturalNumbers]
natgehandplusrinv [definition, in UniMath.Foundations.NaturalNumbers]
natgehchoice [definition, in UniMath.Foundations.NaturalNumbers]
natgehchoice2 [lemma, in UniMath.Foundations.NaturalNumbers]
natgehchoice3 [lemma, in UniMath.Foundations.NaturalNumbers]
natgehdec [definition, in UniMath.Foundations.NaturalNumbers]
natgehdinn [lemma, in UniMath.Foundations.NaturalNumbers]
natgehgthtrans [lemma, in UniMath.Foundations.NaturalNumbers]
natgehimplnatgtbfalse [lemma, in UniMath.PAdics.lemmas]
natgehn0 [definition, in UniMath.Foundations.NaturalNumbers]
natgehplusnmm [definition, in UniMath.Foundations.NaturalNumbers]
natgehplusnmn [definition, in UniMath.Foundations.NaturalNumbers]
natgehp1togth [lemma, in UniMath.Foundations.NaturalNumbers]
natgehsnn [definition, in UniMath.Foundations.NaturalNumbers]
natgehsntogth [lemma, in UniMath.Foundations.NaturalNumbers]
natgehtogehm1 [definition, in UniMath.Foundations.NaturalNumbers]
natgehtogehp1 [definition, in UniMath.Foundations.NaturalNumbers]
natgehtogehs [definition, in UniMath.Foundations.NaturalNumbers]
natgehtogthsn [lemma, in UniMath.Foundations.NaturalNumbers]
natgehtonegnatlth [definition, in UniMath.Foundations.NaturalNumbers]
natgeh_DecidableProposition [definition, in UniMath.MoreFoundations.DecidablePropositions]
natgtb [definition, in UniMath.Foundations.NaturalNumbers]
natgth [definition, in UniMath.Foundations.NaturalNumbers]
natgthandmultl [definition, in UniMath.Foundations.NaturalNumbers]
natgthandmultlinv [definition, in UniMath.Foundations.NaturalNumbers]
natgthandmultr [definition, in UniMath.Foundations.NaturalNumbers]
natgthandmultrinv [definition, in UniMath.Foundations.NaturalNumbers]
natgthandplusl [definition, in UniMath.Foundations.NaturalNumbers]
natgthandpluslinv [definition, in UniMath.Foundations.NaturalNumbers]
natgthandplusm [definition, in UniMath.Foundations.NaturalNumbers]
natgthandplusr [definition, in UniMath.Foundations.NaturalNumbers]
natgthandplusrinv [definition, in UniMath.Foundations.NaturalNumbers]
natgthchoice2 [lemma, in UniMath.Foundations.NaturalNumbers]
natgthchoice3 [lemma, in UniMath.Foundations.NaturalNumbers]
natgthdec [definition, in UniMath.Foundations.NaturalNumbers]
natgthgehtrans [lemma, in UniMath.Foundations.NaturalNumbers]
natgthnegleh [lemma, in UniMath.Foundations.NaturalNumbers]
natgthorleh [definition, in UniMath.Foundations.NaturalNumbers]
natgthp1togeh [lemma, in UniMath.Foundations.NaturalNumbers]
natgthsnn [lemma, in UniMath.Foundations.NaturalNumbers]
natgthsntogeh [lemma, in UniMath.Foundations.NaturalNumbers]
natgthsn0 [lemma, in UniMath.Foundations.NaturalNumbers]
natgthtogeh [definition, in UniMath.Foundations.NaturalNumbers]
natgthtogehm1 [definition, in UniMath.Foundations.NaturalNumbers]
natgthtogehp1 [lemma, in UniMath.Foundations.NaturalNumbers]
natgthtogehsn [lemma, in UniMath.Foundations.NaturalNumbers]
natgthtogthm1 [definition, in UniMath.Foundations.NaturalNumbers]
natgthtogthp1 [definition, in UniMath.Foundations.NaturalNumbers]
natgthtogths [definition, in UniMath.Foundations.NaturalNumbers]
natgthtonegnatleh [definition, in UniMath.Foundations.NaturalNumbers]
natgthtoneq [lemma, in UniMath.Foundations.NaturalNumbers]
natgth_DecidableProposition [definition, in UniMath.MoreFoundations.DecidablePropositions]
NatHom [section, in UniMath.Algebra.Universal.Examples.Tests]
nathomweq_after_adj [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
nathomweq_from_adj [definition, in UniMath.CategoryTheory.Adjunctions.Core]
natHSET [definition, in UniMath.CategoryTheory.categories.HSET.Core]
natldistr [lemma, in UniMath.Foundations.NaturalNumbers]
natleh [definition, in UniMath.Foundations.NaturalNumbers]
natlehandmultl [definition, in UniMath.Foundations.NaturalNumbers]
natlehandmultlinv [definition, in UniMath.Foundations.NaturalNumbers]
natlehandmultr [definition, in UniMath.Foundations.NaturalNumbers]
natlehandmultrinv [definition, in UniMath.Foundations.NaturalNumbers]
natlehandplus [definition, in UniMath.Foundations.NaturalNumbers]
natlehandplusl [definition, in UniMath.Foundations.NaturalNumbers]
natlehandpluslinv [definition, in UniMath.Foundations.NaturalNumbers]
natlehandplusr [definition, in UniMath.Foundations.NaturalNumbers]
natlehandplusrinv [definition, in UniMath.Foundations.NaturalNumbers]
natlehchoice [definition, in UniMath.Foundations.NaturalNumbers]
natlehchoice2 [lemma, in UniMath.Foundations.NaturalNumbers]
natlehchoice3 [lemma, in UniMath.Foundations.NaturalNumbers]
natlehchoice4 [lemma, in UniMath.Foundations.NaturalNumbers]
natlehdec [definition, in UniMath.Foundations.NaturalNumbers]
natlehdecomp [lemma, in UniMath.PAdics.lemmas]
natlehdinsn [lemma, in UniMath.Foundations.NaturalNumbers]
natlehlthtrans [lemma, in UniMath.Foundations.NaturalNumbers]
natlehmplusnm [definition, in UniMath.Foundations.NaturalNumbers]
natlehmultnatdiv [lemma, in UniMath.Foundations.NaturalNumbers]
natlehneggth [lemma, in UniMath.Foundations.NaturalNumbers]
natlehnplusnm [definition, in UniMath.Foundations.NaturalNumbers]
natlehnsn [definition, in UniMath.Foundations.NaturalNumbers]
natlehp1tolth [lemma, in UniMath.Foundations.NaturalNumbers]
natlehsminus [lemma, in UniMath.PAdics.lemmas]
natlehsnminussmsn [lemma, in UniMath.PAdics.lemmas]
natlehsntolth [lemma, in UniMath.Foundations.NaturalNumbers]
natlehtole [lemma, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
natlehtolehm1 [definition, in UniMath.Foundations.NaturalNumbers]
natlehtolehp1 [definition, in UniMath.Foundations.NaturalNumbers]
natlehtolehs [definition, in UniMath.Foundations.NaturalNumbers]
natlehtolthsn [lemma, in UniMath.Foundations.NaturalNumbers]
natlehtonegnatgth [definition, in UniMath.Foundations.NaturalNumbers]
natleh_DecidableProposition [definition, in UniMath.MoreFoundations.DecidablePropositions]
natleh_neq [lemma, in UniMath.Foundations.NaturalNumbers]
natleh0n [definition, in UniMath.Foundations.NaturalNumbers]
natleh0tois0 [definition, in UniMath.Foundations.NaturalNumbers]
natleorle [definition, in UniMath.MoreFoundations.Nat]
natleplusminus [lemma, in UniMath.MoreFoundations.Nat]
NatLowLevel [section, in UniMath.Algebra.Universal.Examples.Tests]
natlth [definition, in UniMath.Foundations.NaturalNumbers]
natlthandminusl [definition, in UniMath.Foundations.NaturalNumbers]
natlthandmultl [definition, in UniMath.Foundations.NaturalNumbers]
natlthandmultlinv [definition, in UniMath.Foundations.NaturalNumbers]
natlthandmultr [definition, in UniMath.Foundations.NaturalNumbers]
natlthandmultrinv [definition, in UniMath.Foundations.NaturalNumbers]
natlthandplusl [definition, in UniMath.Foundations.NaturalNumbers]
natlthandpluslinv [definition, in UniMath.Foundations.NaturalNumbers]
natlthandplusm [definition, in UniMath.Foundations.NaturalNumbers]
natlthandplusr [definition, in UniMath.Foundations.NaturalNumbers]
natlthandplusrinv [definition, in UniMath.Foundations.NaturalNumbers]
natlthchoice2 [lemma, in UniMath.Foundations.NaturalNumbers]
natlthchoice3 [lemma, in UniMath.Foundations.NaturalNumbers]
natlthdec [definition, in UniMath.Foundations.NaturalNumbers]
natlthlehtrans [lemma, in UniMath.Foundations.NaturalNumbers]
natlthminus0 [lemma, in UniMath.PAdics.lemmas]
natlthnsn [definition, in UniMath.Foundations.NaturalNumbers]
natlthorgeh [definition, in UniMath.Foundations.NaturalNumbers]
natlthp1toleh [lemma, in UniMath.Foundations.NaturalNumbers]
natlthsnminussmsn [lemma, in UniMath.PAdics.lemmas]
natlthsntoleh [lemma, in UniMath.Foundations.NaturalNumbers]
natlthsntoleh [lemma, in UniMath.PAdics.lemmas]
natlthssminus [lemma, in UniMath.PAdics.lemmas]
natlthtoleh [definition, in UniMath.Foundations.NaturalNumbers]
natlthtolehp1 [lemma, in UniMath.Foundations.NaturalNumbers]
natlthtolehsn [lemma, in UniMath.Foundations.NaturalNumbers]
natlthtolthm1 [definition, in UniMath.Foundations.NaturalNumbers]
natlthtolthp1 [definition, in UniMath.Foundations.NaturalNumbers]
natlthtolths [definition, in UniMath.Foundations.NaturalNumbers]
natlthtonegnatgeh [definition, in UniMath.Foundations.NaturalNumbers]
natlthtoneq [lemma, in UniMath.Foundations.NaturalNumbers]
natlth_DecidableProposition [definition, in UniMath.MoreFoundations.DecidablePropositions]
natlth1tois0 [definition, in UniMath.Foundations.NaturalNumbers]
natltltSlt [lemma, in UniMath.Foundations.NaturalNumbers]
natltminus1 [lemma, in UniMath.MoreFoundations.Nat]
natltplusS [lemma, in UniMath.Foundations.NaturalNumbers]
natminuseqlr [definition, in UniMath.MoreFoundations.Nat]
natminuseqn [definition, in UniMath.Foundations.NaturalNumbers]
natminusgehn [definition, in UniMath.Foundations.NaturalNumbers]
natminuslehn [definition, in UniMath.Foundations.NaturalNumbers]
natminuslthn [definition, in UniMath.Foundations.NaturalNumbers]
natminuslthninv [definition, in UniMath.Foundations.NaturalNumbers]
natminusminus [lemma, in UniMath.Foundations.NaturalNumbers]
natminusminus [lemma, in UniMath.MoreFoundations.Nat]
natminusminusassoc [definition, in UniMath.MoreFoundations.Nat]
natminusplusltcomm [definition, in UniMath.MoreFoundations.Nat]
natminus0le [lemma, in UniMath.MoreFoundations.Nat]
natmult [definition, in UniMath.Algebra.Archimedean]
natmultabmonoid [definition, in UniMath.NumberSystems.NaturalNumbersAlgebra]
natmultassoc [lemma, in UniMath.Foundations.NaturalNumbers]
natmultcomm [lemma, in UniMath.Foundations.NaturalNumbers]
natmultl1 [lemma, in UniMath.Foundations.NaturalNumbers]
natmultn0 [lemma, in UniMath.Foundations.NaturalNumbers]
natmultr1 [lemma, in UniMath.Foundations.NaturalNumbers]
natmultS [lemma, in UniMath.Algebra.Archimedean]
natmult_commringfrac [lemma, in UniMath.Algebra.Archimedean]
natmult_binophrel [lemma, in UniMath.Algebra.Archimedean]
natmult_op [lemma, in UniMath.Algebra.Archimedean]
natmult_mult [lemma, in UniMath.Algebra.Archimedean]
natmult_plus [lemma, in UniMath.Algebra.Archimedean]
natmult0n [lemma, in UniMath.Foundations.NaturalNumbers]
natnattohz [definition, in UniMath.NumberSystems.Integers]
natnattohzandgth [lemma, in UniMath.NumberSystems.Integers]
natnattohzandlth [lemma, in UniMath.NumberSystems.Integers]
natnegpaths [definition, in UniMath.Foundations.NaturalNumbers]
natneq [definition, in UniMath.MoreFoundations.NegativePropositions]
natneqchoice [definition, in UniMath.Foundations.NaturalNumbers]
natneqinjS [lemma, in UniMath.Foundations.NaturalNumbers]
natneqsx0 [lemma, in UniMath.Foundations.NaturalNumbers]
natneqtwist [definition, in UniMath.Tactics.Nat_Tactics]
natneq_DecidableProposition [definition, in UniMath.MoreFoundations.DecidablePropositions]
natneq_iff_neq [lemma, in UniMath.Foundations.NaturalNumbers]
natneq_hProp [definition, in UniMath.Foundations.NaturalNumbers]
natneq0andmult [definition, in UniMath.Foundations.NaturalNumbers]
natneq0andmultlinv [definition, in UniMath.Foundations.NaturalNumbers]
natneq0andmultrinv [definition, in UniMath.Foundations.NaturalNumbers]
natneq0sx [lemma, in UniMath.Foundations.NaturalNumbers]
natneq0togth0 [lemma, in UniMath.Foundations.NaturalNumbers]
natneq0to0lth [definition, in UniMath.Foundations.NaturalNumbers]
natnonzero [definition, in UniMath.NumberSystems.NaturalNumbersAlgebra]
natnonzerocomm [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
natplusassoc [lemma, in UniMath.Foundations.NaturalNumbers]
natpluscomm [lemma, in UniMath.Foundations.NaturalNumbers]
natpluslcan [lemma, in UniMath.Foundations.NaturalNumbers]
natplusl0 [lemma, in UniMath.Foundations.NaturalNumbers]
natplusminus [lemma, in UniMath.MoreFoundations.Nat]
natplusminusle [lemma, in UniMath.Foundations.NaturalNumbers]
natplusnonzero [definition, in UniMath.Foundations.NaturalNumbers]
natplusnsm [lemma, in UniMath.Foundations.NaturalNumbers]
natplusrcan [lemma, in UniMath.Foundations.NaturalNumbers]
natplusr0 [lemma, in UniMath.Foundations.NaturalNumbers]
natpower [definition, in UniMath.Foundations.NaturalNumbers]
natrdistr [lemma, in UniMath.Foundations.NaturalNumbers]
natrem [definition, in UniMath.Foundations.NaturalNumbers]
natremandmultl [definition, in UniMath.Foundations.NaturalNumbers]
natremandmultr [definition, in UniMath.Foundations.NaturalNumbers]
Nats [section, in UniMath.CategoryTheory.FunctorAlgebras]
natset [definition, in UniMath.Foundations.NaturalNumbers]
NatSig [definition, in UniMath.SubstitutionSystems.MLTT79]
natsummationae0bottom [lemma, in UniMath.PAdics.fps]
natsummationae0top [lemma, in UniMath.PAdics.fps]
natsummationandfpszero [lemma, in UniMath.PAdics.fps]
natsummationpathsupperfixed [lemma, in UniMath.PAdics.fps]
natsummationplusdistr [lemma, in UniMath.PAdics.fps]
natsummationplusshift [lemma, in UniMath.PAdics.padics]
natsummationreindexing [lemma, in UniMath.PAdics.fps]
natsummationshift [lemma, in UniMath.PAdics.fps]
natsummationshift0 [lemma, in UniMath.PAdics.fps]
natsummationsswapminus [lemma, in UniMath.PAdics.fps]
natsummationswap [lemma, in UniMath.PAdics.fps]
natsummationtimesdistl [lemma, in UniMath.PAdics.fps]
natsummationtimesdistr [lemma, in UniMath.PAdics.fps]
natsummation0 [definition, in UniMath.PAdics.fps]
Nats.F [variable, in UniMath.CategoryTheory.FunctorAlgebras]
_ + _ [notation, in UniMath.CategoryTheory.FunctorAlgebras]
0 [notation, in UniMath.CategoryTheory.FunctorAlgebras]
1 [notation, in UniMath.CategoryTheory.FunctorAlgebras]
[ _ , _ ] [notation, in UniMath.CategoryTheory.FunctorAlgebras]
nattohz [definition, in UniMath.NumberSystems.Integers]
nattohzandgeh [definition, in UniMath.NumberSystems.Integers]
nattohzandgth [definition, in UniMath.NumberSystems.Integers]
nattohzandleh [definition, in UniMath.NumberSystems.Integers]
nattohzandlth [definition, in UniMath.NumberSystems.Integers]
nattohzandlthinv [lemma, in UniMath.PAdics.lemmas]
nattohzandminus [definition, in UniMath.NumberSystems.Integers]
nattohzandmult [definition, in UniMath.NumberSystems.Integers]
nattohzandneq [definition, in UniMath.NumberSystems.Integers]
nattohzandplus [definition, in UniMath.NumberSystems.Integers]
nattohzandS [definition, in UniMath.NumberSystems.Integers]
nattohzand0 [definition, in UniMath.NumberSystems.Integers]
nattohzand1 [definition, in UniMath.NumberSystems.Integers]
nattohz_inj [lemma, in UniMath.NumberSystems.Integers]
nattorig [definition, in UniMath.Algebra.Archimedean]
nattorigS [lemma, in UniMath.Algebra.Archimedean]
nattorig_nat [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
nattorig_mult [lemma, in UniMath.Algebra.Archimedean]
nattorig_plus [lemma, in UniMath.Algebra.Archimedean]
nattorig_natmult [lemma, in UniMath.Algebra.Archimedean]
nattorig_nattohz [lemma, in UniMath.NumberSystems.Integers]
nattoring [definition, in UniMath.Algebra.Archimedean]
nattrans_nattrans_object_assoc [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattrans_nattrans_arrow_assoc [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattrans_arrow_id [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattrans_arrow_mor_assoc [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattrans_naturality [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattrans_object_application [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattrans_arrow_composition [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattruncautocompstable [lemma, in UniMath.PAdics.fps]
nattruncautoinv [definition, in UniMath.PAdics.fps]
nattruncautoinvisnattruncauto [lemma, in UniMath.PAdics.fps]
nattruncautoisinj [lemma, in UniMath.PAdics.fps]
nattruncautopreimage [definition, in UniMath.PAdics.fps]
nattruncautopreimagecanon [definition, in UniMath.PAdics.fps]
nattruncautopreimageineq [definition, in UniMath.PAdics.fps]
nattruncautopreimagepath [definition, in UniMath.PAdics.fps]
nattruncbottomtopswap [definition, in UniMath.PAdics.fps]
nattruncbottomtopswapbound [lemma, in UniMath.PAdics.fps]
nattruncbottomtopswapisnattruncauto [lemma, in UniMath.PAdics.fps]
nattruncbottomtopswapselfinv [lemma, in UniMath.PAdics.fps]
nattruncreverse [definition, in UniMath.PAdics.fps]
nattruncreverseisnattruncauto [lemma, in UniMath.PAdics.fps]
NaturalNumbers [section, in UniMath.Induction.ImpredicativeInductiveSets]
NaturalNumbers [library]
NaturalNumbersAlgebra [library]
NaturalNumbers_le_Inductive [library]
Naturals [library]
NaturalTransformations [library]
natural_trans_yoneda_iso_inv [definition, in UniMath.CategoryTheory.yoneda]
natural_trans_yoneda_iso [definition, in UniMath.CategoryTheory.yoneda]
natural_hom_weq_is_are_relative_adjoints [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
natural_hom_weq [definition, in UniMath.CategoryTheory.Adjunctions.Core]
natz2 [definition, in UniMath.Algebra.Universal.Examples.Nat]
nat_trans_data_from_PrestrengthForSignatureAtPoint_funclass [definition, in UniMath.SubstitutionSystems.Signatures]
nat_trans_data_from_PrestrengthForSignature_funclass [definition, in UniMath.SubstitutionSystems.Signatures]
nat_plus_to_bool_or [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
nat_to_bool [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
nat_unit_binop_structure [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
[] [notation, in UniMath.CategoryTheory.Inductives.Lists]
_ :: _ [notation, in UniMath.CategoryTheory.Inductives.Lists]
nat_examples [section, in UniMath.CategoryTheory.Inductives.Lists]
nat_in_X:68 [binder, in UniMath.CategoryTheory.Presheaf]
nat_in_c:66 [binder, in UniMath.CategoryTheory.Presheaf]
nat_in_X:58 [binder, in UniMath.CategoryTheory.Presheaf]
nat_in_c:56 [binder, in UniMath.CategoryTheory.Presheaf]
nat_trans_RelMonadMor [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
nat_trans_associator [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
nat_trans_from_relmodule_mor [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
nat_trans_from_monad_mor [definition, in UniMath.CategoryTheory.Monads.Monads]
nat_plus_commutativity [lemma, in UniMath.NumberSystems.NaturalNumbersAlgebra]
nat_to_NonnegativeReals_Sn [lemma, in UniMath.RealNumbers.NonnegativeReals]
nat_to_NonnegativeReals_O [lemma, in UniMath.RealNumbers.NonnegativeReals]
nat_to_NonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
nat_trans_functor_path_pregroupoid [definition, in UniMath.CategoryTheory.categories.StandardCategories]
nat_nat_prod_abgr_monoidfun_paths [lemma, in UniMath.CategoryTheory.categories.abgrs]
Nat_η [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Nat_weak_eta [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Nat_β' [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Nat_β [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Nat_rec [definition, in UniMath.Induction.ImpredicativeInductiveSets]
Nat_as_set [definition, in UniMath.Induction.ImpredicativeInductiveSets]
Nat_isaset [definition, in UniMath.Induction.ImpredicativeInductiveSets]
nat_rect_step [lemma, in UniMath.Algebra.Universal.Terms]
nat_to_hr_S [lemma, in UniMath.RealNumbers.Reals]
nat_to_hr_O [lemma, in UniMath.RealNumbers.Reals]
nat_to_hr [definition, in UniMath.RealNumbers.Reals]
nat_z_iso_comp [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_z_iso_inv [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_z_iso_to_trans_inv [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_z_iso_pointwise_z_iso [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_z_iso_to_trans [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_z_iso [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_comp_to_endo [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_iso_to_trans_inv [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_iso_to_trans [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_iso_inv [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_iso_pointwise_iso [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_iso [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_comp_assoc' [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_comp_assoc [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_comp_id_left [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_comp_id_right [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans.nat_trans_comp_laws [section, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_functor_assoc_inv [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_functor_assoc [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_functor_id_left_inv [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_functor_id_left [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_functor_id_right_inv [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_functor_id_right [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans.nat_trans_functor [section, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_comp [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_id [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_eq_pointwise [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_eq_weq [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans.nat_trans_eq.beta [variable, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans.nat_trans_eq.alpha [variable, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans.nat_trans_eq.hsD [variable, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans.nat_trans_eq [section, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_eq_alt [lemma, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_eq [lemma, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_ax [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_data_from_nat_trans_funclass [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_data_from_nat_trans [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
_ ⟹ _ (cat) [notation, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_data [definition, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans [section, in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_split [lemma, in UniMath.Foundations.NaturalNumbers]
nat_eq_or_neq [lemma, in UniMath.Foundations.NaturalNumbers]
nat_nopath_to_neq [lemma, in UniMath.Foundations.NaturalNumbers]
nat_neq_to_nopath [lemma, in UniMath.Foundations.NaturalNumbers]
nat_graph [definition, in UniMath.CategoryTheory.Chains.Chains]
nat_ob_NNO [lemma, in UniMath.CategoryTheory.FunctorAlgebras]
nat_ob_rec_s [lemma, in UniMath.CategoryTheory.FunctorAlgebras]
nat_ob_rec_z [lemma, in UniMath.CategoryTheory.FunctorAlgebras]
nat_ob_rec [definition, in UniMath.CategoryTheory.FunctorAlgebras]
nat_ob_s [definition, in UniMath.CategoryTheory.FunctorAlgebras]
nat_ob_z [definition, in UniMath.CategoryTheory.FunctorAlgebras]
nat_ob_carrier [definition, in UniMath.CategoryTheory.FunctorAlgebras]
nat_ob [definition, in UniMath.CategoryTheory.FunctorAlgebras]
nat_trafo_pointwise_z_iso_if_z_iso [lemma, in UniMath.CategoryTheory.FunctorCategory]
nat_trafo_z_iso_if_pointwise_z_iso [lemma, in UniMath.CategoryTheory.FunctorCategory]
nat_iso_to_iso [definition, in UniMath.CategoryTheory.FunctorCategory]
nat_trans_comp_pointwise [lemma, in UniMath.CategoryTheory.FunctorCategory]
nat_trans_inv_pointwise_inv_after_p [lemma, in UniMath.CategoryTheory.FunctorCategory]
nat_trans_inv_pointwise_inv_after [lemma, in UniMath.CategoryTheory.FunctorCategory]
nat_trans_inv_pointwise_inv_before [lemma, in UniMath.CategoryTheory.FunctorCategory]
nat_trans_inv_is_iso [lemma, in UniMath.CategoryTheory.FunctorCategory]
nat_trans_inv_from_pointwise_inv_ext [definition, in UniMath.CategoryTheory.FunctorCategory]
nat_trans_inv_from_pointwise_inv [definition, in UniMath.CategoryTheory.FunctorCategory]
nat_to_NonnegativeRationals_Sn [lemma, in UniMath.RealNumbers.NonnegativeRationals]
nat_to_NonnegativeRationals_O [lemma, in UniMath.RealNumbers.NonnegativeRationals]
nat_to_NonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
nat_iso_inv_after_nat_iso [lemma, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
nat_iso_to_pointwise_iso [definition, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
nat_trans_to_unit_eq [lemma, in UniMath.Bicategories.Colimits.Final]
nat_nat_fun_ind2 [definition, in UniMath.NumberSystems.Integers]
nat_nat_fun_ind [definition, in UniMath.NumberSystems.Integers]
nat_nat_fun_unel [definition, in UniMath.NumberSystems.Integers]
nat_nat_prod_abmonoid_monoidfun [definition, in UniMath.NumberSystems.Integers]
nat_nat_prod_abmonoid_fun_unel [lemma, in UniMath.NumberSystems.Integers]
nat_nat_to_monoid_plus1 [lemma, in UniMath.NumberSystems.Integers]
nat_nat_monoid_fun_isbinopfun [lemma, in UniMath.NumberSystems.Integers]
nat_nat_to_monoid2 [lemma, in UniMath.NumberSystems.Integers]
nat_nat_to_monoid1 [lemma, in UniMath.NumberSystems.Integers]
nat_to_monoid_unel' [lemma, in UniMath.NumberSystems.Integers]
nat_nat_to_monoid_fun [definition, in UniMath.NumberSystems.Integers]
nat_to_abmonoid_fun_plus [lemma, in UniMath.NumberSystems.Integers]
nat_to_monoid_fun_S [lemma, in UniMath.NumberSystems.Integers]
nat_to_monoid_fun_unel [lemma, in UniMath.NumberSystems.Integers]
nat_to_monoid_fun [definition, in UniMath.NumberSystems.Integers]
nat_trans_data_post_whisker_snd_param [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_data_post_whisker_fst_param [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg_ax [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg.d [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg.α [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg.F' [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg.F [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg.E [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg.D [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg.C [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg_ax [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.f [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.d' [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.d [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.F [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.E [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.D [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.C [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg_ax [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.c [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.α [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.F' [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.F [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.E [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.D [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.C [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg_ax [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.g [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.c' [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.c [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.F [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.E [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.D [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.C [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_iso [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nat_iso_to_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
nat_mult_perm210 [definition, in UniMath.Tactics.Nat_Tactics]
nat_mult_perm201 [definition, in UniMath.Tactics.Nat_Tactics]
nat_mult_perm120 [definition, in UniMath.Tactics.Nat_Tactics]
nat_mult_perm102 [definition, in UniMath.Tactics.Nat_Tactics]
nat_mult_perm021 [definition, in UniMath.Tactics.Nat_Tactics]
nat_plus_perm210 [definition, in UniMath.Tactics.Nat_Tactics]
nat_plus_perm201 [definition, in UniMath.Tactics.Nat_Tactics]
nat_plus_perm120 [definition, in UniMath.Tactics.Nat_Tactics]
nat_plus_perm102 [definition, in UniMath.Tactics.Nat_Tactics]
nat_plus_perm021 [definition, in UniMath.Tactics.Nat_Tactics]
nat_rect_step [lemma, in UniMath.Combinatorics.StandardFiniteSets]
nat_algebra2 [definition, in UniMath.Algebra.Universal.Examples.Tests]
nat_trafo_to_functor_bicat_cor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor_bicat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_section_bicat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor_bicat_elementary [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor_through_section_with_eq [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor_through_section_cor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor_through_section [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_section [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor_with_eq [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_succ [definition, in UniMath.Algebra.Universal.Examples.Nat]
nat_zero [definition, in UniMath.Algebra.Universal.Examples.Nat]
nat_to_z2 [definition, in UniMath.Algebra.Universal.Examples.Nat]
nat_algebra [definition, in UniMath.Algebra.Universal.Examples.Nat]
nat_succ_op [definition, in UniMath.Algebra.Universal.Examples.Nat]
nat_zero_op [definition, in UniMath.Algebra.Universal.Examples.Nat]
nat_sort [definition, in UniMath.Algebra.Universal.Examples.Nat]
nat_signature [definition, in UniMath.Algebra.Universal.Examples.Nat]
nat_examples [section, in UniMath.CategoryTheory.Inductives.Trees]
nat_iso_to_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.BicatOfCats]
Nat_Trans_Disp_Inv [section, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
nat_trans_to_dinatural_transformation [lemma, in UniMath.CategoryTheory.Profunctors.Core]
nat_compl [definition, in UniMath.MoreFoundations.NegativePropositions]
nat_trans_from_module_mor [definition, in UniMath.CategoryTheory.Monads.LModules]
nat_plus_associativity' [lemma, in UniMath.Algebra.IteratedBinaryOperations]
nat_plus_associativity [lemma, in UniMath.Algebra.IteratedBinaryOperations]
nat_trans_constprod_functor2 [definition, in UniMath.CategoryTheory.exponentials]
nat_trans_constprod_functor1 [definition, in UniMath.CategoryTheory.exponentials]
nat_trans_from_ptd_mor [definition, in UniMath.CategoryTheory.PointedFunctors]
nat_dist_trans [definition, in UniMath.MoreFoundations.Nat]
nat_dist_between [definition, in UniMath.MoreFoundations.Nat]
nat_dist_between_ge [definition, in UniMath.MoreFoundations.Nat]
nat_dist_between_le [definition, in UniMath.MoreFoundations.Nat]
nat_dist_S [definition, in UniMath.MoreFoundations.Nat]
nat_dist_gt [definition, in UniMath.MoreFoundations.Nat]
nat_dist_minus [definition, in UniMath.MoreFoundations.Nat]
nat_dist_le [definition, in UniMath.MoreFoundations.Nat]
nat_dist_plus [definition, in UniMath.MoreFoundations.Nat]
nat_dist_m0 [definition, in UniMath.MoreFoundations.Nat]
nat_dist_0m [definition, in UniMath.MoreFoundations.Nat]
nat_dist_ge [definition, in UniMath.MoreFoundations.Nat]
nat_dist_symm [definition, in UniMath.MoreFoundations.Nat]
nat_dist [definition, in UniMath.MoreFoundations.Nat]
nat_trans_proj_functor [lemma, in UniMath.SubstitutionSystems.MultiSorted]
nat_tree [definition, in UniMath.Combinatorics.MetricTree]
nat_alg_is_preinitial_sec [lemma, in UniMath.Induction.W.Naturals]
nat_alg_func_is_unique [lemma, in UniMath.Induction.W.Naturals]
nat_alg_is_preinitial [lemma, in UniMath.Induction.W.Naturals]
nat_algs_eq [lemma, in UniMath.Induction.W.Naturals]
nat_alg' [definition, in UniMath.Induction.W.Naturals]
nat_alg_z [definition, in UniMath.Induction.W.Naturals]
nat_alg [definition, in UniMath.Induction.W.Naturals]
nat_functor_equiv [definition, in UniMath.Induction.W.Naturals]
nat_functor_arr_false [lemma, in UniMath.Induction.W.Naturals]
nat_functor_arr_true [lemma, in UniMath.Induction.W.Naturals]
nat_functor [definition, in UniMath.Induction.W.Naturals]
nat_trans_μ [definition, in UniMath.CategoryTheory.Monads.KTriples]
nat_trans_η [definition, in UniMath.CategoryTheory.Monads.KTriples]
nat_trans_kleisli_mor [definition, in UniMath.CategoryTheory.Monads.KTriples]
nat_trans_from_kleisli_mor [definition, in UniMath.CategoryTheory.Monads.KTriples]
Nat_Tactics [library]
nat0gehtois0 [definition, in UniMath.Foundations.NaturalNumbers]
nat1gthtois0 [lemma, in UniMath.Foundations.NaturalNumbers]
nat2term [definition, in UniMath.Algebra.Universal.Examples.Nat]
nc:126 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:205 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:238 [binder, in UniMath.Algebra.Archimedean]
nc:312 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:319 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:334 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:358 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:416 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:424 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:435 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:443 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:451 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:459 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:467 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:475 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:483 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:500 [binder, in UniMath.Algebra.Domains_and_Fields]
nc:509 [binder, in UniMath.Algebra.Domains_and_Fields]
ne [lemma, in UniMath.Combinatorics.Tests]
neg [definition, in UniMath.Foundations.PartA]
NegativePropositions [library]
negb [definition, in UniMath.Foundations.Preamble]
negbforalldectototal2neg [lemma, in UniMath.Combinatorics.StandardFiniteSets]
negb_weq_pair [definition, in UniMath.MoreFoundations.NoInjectivePairing]
negb_weq [definition, in UniMath.MoreFoundations.NoInjectivePairing]
negexists_to_forallneg_restricted [definition, in UniMath.Algebra.FixedPointTheorems]
negf [definition, in UniMath.Foundations.PartA]
negfalsetotrue [definition, in UniMath.Foundations.PartA]
negforall_to_existsneg_restricted [definition, in UniMath.Algebra.FixedPointTheorems]
negforall_to_existsneg' [lemma, in UniMath.MoreFoundations.DoubleNegation]
negforall_to_existsneg [lemma, in UniMath.MoreFoundations.Propositions]
neggth_logeq_leh [definition, in UniMath.Foundations.NaturalNumbers]
neghexisttoforallneg [lemma, in UniMath.Foundations.Propositions]
neghfiberdi [lemma, in UniMath.Foundations.NaturalNumbers]
neghfiberdni [lemma, in UniMath.Combinatorics.StandardFiniteSets]
neghfiberii1y [lemma, in UniMath.Foundations.PartC]
neghfiberii2x [lemma, in UniMath.Foundations.PartC]
neghfibernatplusr [lemma, in UniMath.Foundations.NaturalNumbers]
neghfiberstntonat [lemma, in UniMath.Combinatorics.StandardFiniteSets]
neghqgehtolth [definition, in UniMath.NumberSystems.RationalNumbers]
neghqgthtoleh [definition, in UniMath.NumberSystems.RationalNumbers]
neghqlehtogth [definition, in UniMath.NumberSystems.RationalNumbers]
neghqlthtogeh [definition, in UniMath.NumberSystems.RationalNumbers]
neghzgehtolth [definition, in UniMath.NumberSystems.Integers]
neghzgthtoleh [definition, in UniMath.NumberSystems.Integers]
neghzlehtogth [definition, in UniMath.NumberSystems.Integers]
neghzlthtogeh [definition, in UniMath.NumberSystems.Integers]
negimage [definition, in UniMath.Foundations.PartC]
negimpl_to_conj [lemma, in UniMath.MoreFoundations.Propositions]
negintersectii1ii2 [lemma, in UniMath.Foundations.PartC]
negisdecnatprop [lemma, in UniMath.PAdics.lemmas]
negnatgehnsn [definition, in UniMath.Foundations.NaturalNumbers]
negnatgehtolth [definition, in UniMath.Foundations.NaturalNumbers]
negnatgeh0sn [definition, in UniMath.Foundations.NaturalNumbers]
negnatgthmplusnm [definition, in UniMath.Foundations.NaturalNumbers]
negnatgthnn [abbreviation, in UniMath.Foundations.NaturalNumbers]
negnatgthnplusnm [definition, in UniMath.Foundations.NaturalNumbers]
negnatgthtoleh [lemma, in UniMath.Foundations.NaturalNumbers]
negnatgth0n [lemma, in UniMath.Foundations.NaturalNumbers]
negnatgth0tois0 [lemma, in UniMath.Foundations.NaturalNumbers]
negnatlehsnn [definition, in UniMath.Foundations.NaturalNumbers]
negnatlehsn0 [definition, in UniMath.Foundations.NaturalNumbers]
negnatlehtogth [lemma, in UniMath.Foundations.NaturalNumbers]
negnatlthnn [abbreviation, in UniMath.Foundations.NaturalNumbers]
negnatlthn0 [definition, in UniMath.Foundations.NaturalNumbers]
negnatlthplusnmm [definition, in UniMath.Foundations.NaturalNumbers]
negnatlthplusnmn [definition, in UniMath.Foundations.NaturalNumbers]
negnatlthtogeh [definition, in UniMath.Foundations.NaturalNumbers]
negnatSleh [lemma, in UniMath.Foundations.NaturalNumbers]
negnat0lthtois0 [definition, in UniMath.Foundations.NaturalNumbers]
negpathsconsnil [lemma, in UniMath.Combinatorics.MoreLists]
negpathsii1ii2 [lemma, in UniMath.Foundations.PartA]
negpathsii2ii1 [lemma, in UniMath.Foundations.PartA]
negpathsnilcons [lemma, in UniMath.Combinatorics.MoreLists]
negpathssx0 [lemma, in UniMath.Foundations.NaturalNumbers]
negpaths0sx [lemma, in UniMath.Foundations.NaturalNumbers]
negpos [definition, in UniMath.NumberSystems.Integers]
negpos_weq [definition, in UniMath.NumberSystems.Integers]
negpos' [definition, in UniMath.NumberSystems.Integers]
negPred [definition, in UniMath.MoreFoundations.NegativePropositions]
negProp [definition, in UniMath.MoreFoundations.NegativePropositions]
negProp_to_uniqueChoice [lemma, in UniMath.MoreFoundations.NegativePropositions]
negProp_to_complementary [lemma, in UniMath.MoreFoundations.NegativePropositions]
negProp_to_neg [definition, in UniMath.MoreFoundations.NegativePropositions]
negProp_to_iff [definition, in UniMath.MoreFoundations.NegativePropositions]
negProp_to_hProp [definition, in UniMath.MoreFoundations.NegativePropositions]
negProp_to_isaprop [definition, in UniMath.MoreFoundations.NegativePropositions]
negrel [definition, in UniMath.Foundations.Sets]
negReln [definition, in UniMath.MoreFoundations.NegativePropositions]
negrtopaths [definition, in UniMath.Foundations.Sets]
negstn0 [definition, in UniMath.Combinatorics.StandardFiniteSets]
negtruetofalse [definition, in UniMath.Foundations.PartA]
negweqstnsn0 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
negweqstn0sn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
neg_isdecprop [lemma, in UniMath.MoreFoundations.DecidablePropositions]
neg_op [definition, in UniMath.Algebra.Universal.Examples.Tests]
neg_to_negProp [definition, in UniMath.MoreFoundations.NegativePropositions]
neighborhood [definition, in UniMath.Topology.Topology]
Neighborhood [section, in UniMath.Topology.Topology]
neighborhood_equiv [lemma, in UniMath.Topology.Topology]
neighborhood_neighborhood [lemma, in UniMath.Topology.Topology]
neighborhood_point [lemma, in UniMath.Topology.Topology]
neighborhood_and [lemma, in UniMath.Topology.Topology]
neighborhood_forall [lemma, in UniMath.Topology.Topology]
neighborhood_imply [lemma, in UniMath.Topology.Topology]
neighborhood_isOpen [lemma, in UniMath.Topology.Topology]
neighborhood' [definition, in UniMath.Topology.Topology]
neii1x:363 [binder, in UniMath.Foundations.PartC]
neii1x:364 [binder, in UniMath.Foundations.PartC]
neii2x:382 [binder, in UniMath.Foundations.PartC]
neii2x:383 [binder, in UniMath.Foundations.PartC]
nelstruct [definition, in UniMath.Combinatorics.FiniteSets]
nelstructonbool [definition, in UniMath.Combinatorics.FiniteSets]
nelstructoncompl [definition, in UniMath.Combinatorics.FiniteSets]
nelstructoncontr [definition, in UniMath.Combinatorics.FiniteSets]
nelstructoncoprod [definition, in UniMath.Combinatorics.FiniteSets]
nelstructoncoprodwithunit [definition, in UniMath.Combinatorics.FiniteSets]
nelstructondirprod [definition, in UniMath.Combinatorics.FiniteSets]
nelstructonempty [definition, in UniMath.Combinatorics.FiniteSets]
nelstructonempty2 [definition, in UniMath.Combinatorics.FiniteSets]
nelstructonforall [definition, in UniMath.Combinatorics.FiniteSets]
nelstructonfun [definition, in UniMath.Combinatorics.FiniteSets]
nelstructonstn [definition, in UniMath.Combinatorics.FiniteSets]
nelstructontotal2 [definition, in UniMath.Combinatorics.FiniteSets]
nelstructonunit [definition, in UniMath.Combinatorics.FiniteSets]
nelstructonweq [definition, in UniMath.Combinatorics.FiniteSets]
nelstructToFunction [definition, in UniMath.Combinatorics.FiniteSets]
nelstructweqb [definition, in UniMath.Combinatorics.FiniteSets]
nelstructweqf [definition, in UniMath.Combinatorics.FiniteSets]
neq [definition, in UniMath.Tactics.Utilities]
neq [definition, in UniMath.PAdics.lemmas]
neqchoice [definition, in UniMath.Foundations.Sets]
neqchoicelogeqf [definition, in UniMath.Foundations.Sets]
neqchoiceresrel [definition, in UniMath.Foundations.Sets]
neqh [definition, in UniMath.Foundations.Sets]
neqPred [definition, in UniMath.MoreFoundations.NegativePropositions]
neqProp [definition, in UniMath.MoreFoundations.NegativePropositions]
neqReln [definition, in UniMath.MoreFoundations.NegativePropositions]
neqset [definition, in UniMath.Foundations.Sets]
neq_x:138 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:134 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:130 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:125 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_wx:121 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:120 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_wx:113 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:112 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_fx:107 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:106 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:100 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:97 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:94 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:91 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:83 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:78 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:74 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:59 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:46 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:43 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq_x:39 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq:48 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq:52 [binder, in UniMath.MoreFoundations.NegativePropositions]
neq:55 [binder, in UniMath.MoreFoundations.NegativePropositions]
net1t:171 [binder, in UniMath.Foundations.PartC]
net2t:172 [binder, in UniMath.Foundations.PartC]
new_n' [definition, in UniMath.Combinatorics.Tests]
nexy:359 [binder, in UniMath.Foundations.PartC]
nexy:360 [binder, in UniMath.Foundations.PartC]
nexy:378 [binder, in UniMath.Foundations.PartC]
nexy:379 [binder, in UniMath.Foundations.PartC]
ne_implies_apart [lemma, in UniMath.Combinatorics.OrderedSets]
ne_implies_dnegapart [lemma, in UniMath.Combinatorics.OrderedSets]
ne:154 [binder, in UniMath.NumberSystems.RationalNumbers]
ne:167 [binder, in UniMath.NumberSystems.Integers]
ne:17 [binder, in UniMath.Algebra.Modules.Multimodules]
ne:175 [binder, in UniMath.Algebra.Domains_and_Fields]
ne:180 [binder, in UniMath.Algebra.Domains_and_Fields]
ne:194 [binder, in UniMath.Foundations.NaturalNumbers]
ne:220 [binder, in UniMath.Algebra.Domains_and_Fields]
ne:223 [binder, in UniMath.Algebra.Domains_and_Fields]
ne:251 [binder, in UniMath.Algebra.Domains_and_Fields]
ne:264 [binder, in UniMath.Algebra.Domains_and_Fields]
ne:274 [binder, in UniMath.Algebra.Domains_and_Fields]
ne:28 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
ne:31 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
ne:372 [binder, in UniMath.NumberSystems.RationalNumbers]
ne:377 [binder, in UniMath.NumberSystems.RationalNumbers]
ne:387 [binder, in UniMath.NumberSystems.Integers]
ne:392 [binder, in UniMath.NumberSystems.Integers]
ne:395 [binder, in UniMath.NumberSystems.Integers]
ne:398 [binder, in UniMath.NumberSystems.Integers]
ne:40 [binder, in UniMath.Combinatorics.MetricTree]
ne:46 [binder, in UniMath.NumberSystems.RationalNumbers]
ne:46 [binder, in UniMath.Combinatorics.MetricTree]
ne:48 [binder, in UniMath.NumberSystems.RationalNumbers]
ne:489 [binder, in UniMath.NumberSystems.Integers]
ne:57 [binder, in UniMath.Foundations.NaturalNumbers]
ne:618 [binder, in UniMath.Foundations.NaturalNumbers]
ne:80 [binder, in UniMath.MoreFoundations.NegativePropositions]
nf:1657 [binder, in UniMath.Foundations.PartA]
nf:1668 [binder, in UniMath.Foundations.PartA]
nf:1671 [binder, in UniMath.Foundations.PartA]
nf:1682 [binder, in UniMath.Foundations.PartA]
ng:55 [binder, in UniMath.Foundations.NaturalNumbers]
NiceBuilders [section, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
NiceBuilders.HD₁ [variable, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
NiceBuilders.HD₂ [variable, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
nil [definition, in UniMath.CategoryTheory.Inductives.Lists]
nil [definition, in UniMath.Combinatorics.GraphPaths]
nil [definition, in UniMath.Combinatorics.Lists]
nil [definition, in UniMath.Combinatorics.WellFoundedRelations]
nil [definition, in UniMath.Combinatorics.FiniteSequences]
nil_map [definition, in UniMath.CategoryTheory.Inductives.Lists]
nil_idx [definition, in UniMath.Algebra.Universal.Examples.ListDataType]
nil_concatenate [lemma, in UniMath.Combinatorics.Lists]
nil_length [definition, in UniMath.Combinatorics.FiniteSequences]
nil_unique [definition, in UniMath.Combinatorics.FiniteSequences]
ni:160 [binder, in UniMath.MoreFoundations.MoreEquivalences]
ni:177 [binder, in UniMath.MoreFoundations.MoreEquivalences]
nlmn:100 [binder, in UniMath.Foundations.NaturalNumbers]
nlmn:100 [binder, in UniMath.NumberSystems.Integers]
nlmn:87 [binder, in UniMath.NumberSystems.RationalNumbers]
nlnm:86 [binder, in UniMath.NumberSystems.RationalNumbers]
nlnm:99 [binder, in UniMath.Foundations.NaturalNumbers]
nlnm:99 [binder, in UniMath.NumberSystems.Integers]
nl:103 [binder, in UniMath.NumberSystems.RationalNumbers]
nl:116 [binder, in UniMath.NumberSystems.Integers]
nl:118 [binder, in UniMath.NumberSystems.RationalNumbers]
nl:131 [binder, in UniMath.NumberSystems.Integers]
nl:147 [binder, in UniMath.NumberSystems.RationalNumbers]
nl:160 [binder, in UniMath.NumberSystems.Integers]
nl:161 [binder, in UniMath.Foundations.NaturalNumbers]
nl:184 [binder, in UniMath.Foundations.NaturalNumbers]
nl:81 [binder, in UniMath.Foundations.NaturalNumbers]
nm:115 [binder, in UniMath.Algebra.Universal.Terms]
nm:117 [binder, in UniMath.Algebra.Universal.Terms]
nm:119 [binder, in UniMath.Algebra.Universal.Terms]
nm:12 [binder, in UniMath.Algebra.Universal.Algebras]
nm:123 [binder, in UniMath.Algebra.Universal.Terms]
nm:14 [binder, in UniMath.Algebra.Universal.VTerms]
nm:14 [binder, in UniMath.Algebra.Universal.Terms]
nm:141 [binder, in UniMath.Algebra.Universal.Terms]
nm:143 [binder, in UniMath.Algebra.Universal.Terms]
nm:153 [binder, in UniMath.Algebra.Universal.Terms]
nm:16 [binder, in UniMath.Algebra.Universal.Algebras]
nm:17 [binder, in UniMath.Algebra.Universal.Terms]
nm:19 [binder, in UniMath.Algebra.Universal.Algebras]
nm:196 [binder, in UniMath.Algebra.Universal.Terms]
nm:2 [binder, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
nm:206 [binder, in UniMath.Algebra.Universal.Terms]
nm:21 [binder, in UniMath.Algebra.Universal.Terms]
nm:210 [binder, in UniMath.Algebra.Universal.Terms]
nm:213 [binder, in UniMath.Algebra.Universal.Terms]
nm:218 [binder, in UniMath.Algebra.Universal.Terms]
nm:219 [binder, in UniMath.Algebra.Universal.Terms]
nm:22 [binder, in UniMath.Algebra.Universal.VTerms]
nm:232 [binder, in UniMath.Algebra.Universal.Terms]
nm:25 [binder, in UniMath.Algebra.Universal.Terms]
nm:27 [binder, in UniMath.Algebra.Universal.Terms]
nm:3 [binder, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
nm:3 [binder, in UniMath.Algebra.Universal.Algebras]
nm:31 [binder, in UniMath.Algebra.Universal.VTerms]
nm:32 [binder, in UniMath.Algebra.Universal.Algebras]
nm:34 [binder, in UniMath.Algebra.Universal.VTerms]
nm:39 [binder, in UniMath.Algebra.Universal.VTerms]
nm:39 [binder, in UniMath.Algebra.Universal.Terms]
nm:42 [binder, in UniMath.Algebra.Universal.VTerms]
nm:46 [binder, in UniMath.Algebra.Universal.VTerms]
nm:5 [binder, in UniMath.Algebra.Universal.TermAlgebras]
nm:6 [binder, in UniMath.Algebra.Universal.Terms]
nm:7 [binder, in UniMath.Algebra.Universal.Signatures]
nm:7 [binder, in UniMath.Algebra.Universal.FreeAlgebras]
nm:9 [binder, in UniMath.Algebra.Universal.Signatures]
nNat [definition, in UniMath.Induction.ImpredicativeInductiveSets]
nNat_as_set [definition, in UniMath.Induction.ImpredicativeInductiveSets]
nNat_isaset [definition, in UniMath.Induction.ImpredicativeInductiveSets]
NNO [definition, in UniMath.CategoryTheory.NNO]
nno [section, in UniMath.CategoryTheory.NNO]
NNO [library]
NNObject [definition, in UniMath.CategoryTheory.NNO]
NNO_HSET [definition, in UniMath.CategoryTheory.categories.HSET.Structures]
1 [notation, in UniMath.CategoryTheory.NNO]
NN:103 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:108 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:114 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:119 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:125 [binder, in UniMath.Algebra.Modules.Multimodules]
nn:1277 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
nn:1294 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
NN:130 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:135 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:141 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:160 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:178 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
NN:50 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:56 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:61 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:67 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:72 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:78 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:86 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:93 [binder, in UniMath.Algebra.Modules.Multimodules]
NN:98 [binder, in UniMath.Algebra.Modules.Multimodules]
node [definition, in UniMath.CategoryTheory.Inductives.Trees]
node_map [definition, in UniMath.CategoryTheory.Inductives.Trees]
noeqinjS [lemma, in UniMath.Foundations.NaturalNumbers]
noil1 [lemma, in UniMath.Foundations.PartC]
NoInjectivePairing [library]
noi:317 [binder, in UniMath.Foundations.PartC]
noi:326 [binder, in UniMath.Foundations.PartC]
noi:336 [binder, in UniMath.Foundations.PartC]
noi:349 [binder, in UniMath.Foundations.PartC]
nok:87 [binder, in UniMath.Combinatorics.MoreLists]
nonempty [abbreviation, in UniMath.Foundations.Propositions]
NonemptySequence [definition, in UniMath.Combinatorics.FiniteSequences]
NonemptySequenceToFunction [definition, in UniMath.Combinatorics.FiniteSequences]
NonemptySequenceToSequence [definition, in UniMath.Combinatorics.FiniteSequences]
None_sorted_option_functor [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
NonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
NonnegativeRationals [library]
NonnegativeRationals_to_NonnegativeReals_nattorig [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_mult [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_minus [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_plus [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_one [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_zero [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_le [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_lt [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_Dcuts_notin_le [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_Dcuts [definition, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_Dcuts_corr [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_Dcuts_open [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_Dcuts_bot [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_neq0_gt0 [lemma, in UniMath.RealNumbers.NonnegativeRationals]
NonnegativeRationals_eq0_le0 [lemma, in UniMath.RealNumbers.NonnegativeRationals]
NonnegativeRationals_EffectivelyOrderedSet [definition, in UniMath.RealNumbers.NonnegativeRationals]
NonnegativeRationals_to_Rationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
NonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeReals [library]
NonnegativeReals_Archimedean [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeReals_dense [lemma, in UniMath.RealNumbers.NonnegativeReals]
NonnegativeReals_to_hsubtypeNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeReals]
nonzeroax [definition, in UniMath.Algebra.Domains_and_Fields]
nonzeroincommringfrac [lemma, in UniMath.Algebra.Domains_and_Fields]
nopathsfalsetotrue [lemma, in UniMath.Foundations.PartA]
nopathstruetofalse [lemma, in UniMath.Foundations.PartA]
nor:53 [binder, in UniMath.CategoryTheory.CommaCategories]
nor:60 [binder, in UniMath.CategoryTheory.CommaCategories]
Notation [module, in UniMath.Tactics.Utilities]
Notation [library]
Notations [module, in UniMath.Bicategories.Core.Bicat]
Notations [module, in UniMath.Bicategories.DisplayedBicats.DispBicat]
Notations [module, in UniMath.Bicategories.Colimits.Products]
Notations [module, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Notations [module, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Notations [library]
Notations [library]
_ ⋆⋆ _ [notation, in UniMath.Bicategories.Core.Bicat]
_ o _ [notation, in UniMath.Bicategories.Core.Bicat]
_ ⋆ _ [notation, in UniMath.Bicategories.Core.Bicat]
_ ▻ _ [notation, in UniMath.Bicategories.Core.Bicat]
_ ◅ _ [notation, in UniMath.Bicategories.Core.Bicat]
_ ▹ _ [notation, in UniMath.Bicategories.Core.Bicat]
_ ◃ _ [notation, in UniMath.Bicategories.Core.Bicat]
_ • _ [notation, in UniMath.Bicategories.Core.Bicat]
_ <== _ [notation, in UniMath.Bicategories.Core.Bicat]
_ ==> _ [notation, in UniMath.Bicategories.Core.Bicat]
_ ▹▹ _ [notation, in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ◃◃ _ [notation, in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ •• _ [notation, in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ <==[ _ ] _ [notation, in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ==>[ _ ] _ [notation, in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ⊗₂ _ [notation, in UniMath.Bicategories.Colimits.Products]
_ ⊗₁ _ [notation, in UniMath.Bicategories.Colimits.Products]
_ ⊗ _ [notation, in UniMath.Bicategories.Colimits.Products]
id₁ [notation, in UniMath.Bicategories.Core.Bicat]
id₂ [notation, in UniMath.Bicategories.Core.Bicat]
## [notation, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
## [notation, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
π₁ [notation, in UniMath.Bicategories.Colimits.Products]
π₂ [notation, in UniMath.Bicategories.Colimits.Products]
⟨ _ , _ ⟩ [notation, in UniMath.Bicategories.Colimits.Products]
⟪ _ , _ ⟫ [notation, in UniMath.Bicategories.Colimits.Products]
NotationTest [section, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
NotationTest.A [variable, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Notation.ap [abbreviation, in UniMath.Tactics.Utilities]
_ # _ (transport) [notation, in UniMath.Tactics.Utilities]
_ ** _ (type_scope) [notation, in UniMath.Tactics.Utilities]
{ _ : _ & _ } (type_scope) [notation, in UniMath.Tactics.Utilities]
notboth [lemma, in UniMath.Combinatorics.WellFoundedRelations]
noteq_ltorgtNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
notge_ltNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
nothing [definition, in UniMath.Combinatorics.Maybe]
nothing:501 [binder, in UniMath.MoreFoundations.PartA]
notLgt_Lle [definition, in UniMath.Algebra.Lattice]
notlt_leNonnegativeReals [lemma, in UniMath.RealNumbers.NonnegativeReals]
notlt_geNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
notRlt_Rle [lemma, in UniMath.RealNumbers.Reals]
not_Dcuts_ap_eq [lemma, in UniMath.RealNumbers.NonnegativeReals]
not_EOlt_le [lemma, in UniMath.RealNumbers.Sets]
not:14 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
not:20 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
not:26 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
not:32 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
nozerodiv [lemma, in UniMath.PAdics.z_mod_p]
no_injective_pairing [lemma, in UniMath.MoreFoundations.NoInjectivePairing]
no:88 [binder, in UniMath.MoreFoundations.DecidablePropositions]
no:93 [binder, in UniMath.MoreFoundations.DecidablePropositions]
nProduct [definition, in UniMath.Induction.ImpredicativeInductiveSets]
nProduct_as_set [definition, in UniMath.Induction.ImpredicativeInductiveSets]
nProduct_isaset [definition, in UniMath.Induction.ImpredicativeInductiveSets]
nP:10 [binder, in UniMath.MoreFoundations.NegativePropositions]
nP:12 [binder, in UniMath.MoreFoundations.NegativePropositions]
nP:4 [binder, in UniMath.MoreFoundations.NegativePropositions]
np:59 [binder, in UniMath.MoreFoundations.DecidablePropositions]
np:61 [binder, in UniMath.MoreFoundations.DecidablePropositions]
nP:8 [binder, in UniMath.MoreFoundations.NegativePropositions]
NQhalf_double [lemma, in UniMath.RealNumbers.NonnegativeRationals]
NQmax [definition, in UniMath.RealNumbers.NonnegativeRationals]
NQmax_le_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
NQmax_le_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
NQmax_case_strong [lemma, in UniMath.RealNumbers.NonnegativeRationals]
NQmax_case [lemma, in UniMath.RealNumbers.NonnegativeRationals]
NQmax_eq_zero [lemma, in UniMath.RealNumbers.NonnegativeRationals]
NQmin [definition, in UniMath.RealNumbers.NonnegativeRationals]
NRNRtoR [definition, in UniMath.RealNumbers.Reals]
NRNRtoR_inv_neg [lemma, in UniMath.RealNumbers.Reals]
NRNRtoR_inv_pos [lemma, in UniMath.RealNumbers.Reals]
NRNRtoR_mult [lemma, in UniMath.RealNumbers.Reals]
NRNRtoR_minus [lemma, in UniMath.RealNumbers.Reals]
NRNRtoR_opp [lemma, in UniMath.RealNumbers.Reals]
NRNRtoR_plus [lemma, in UniMath.RealNumbers.Reals]
NRNRtoR_le [lemma, in UniMath.RealNumbers.Reals]
NRNRtoR_lt [lemma, in UniMath.RealNumbers.Reals]
NRNRtoR_ap [lemma, in UniMath.RealNumbers.Reals]
NRNRtoR_eq [lemma, in UniMath.RealNumbers.Reals]
NRNRtoR_one [lemma, in UniMath.RealNumbers.Reals]
NRNRtoR_zero [lemma, in UniMath.RealNumbers.Reals]
NRNRtoR_inside [lemma, in UniMath.RealNumbers.Reals]
NRNRtoR_RtoNRNR [lemma, in UniMath.RealNumbers.Reals]
NR_to_hr_abs [lemma, in UniMath.RealNumbers.Reals]
NR_to_hr_ap [lemma, in UniMath.RealNumbers.Reals]
NR_to_hr_le [lemma, in UniMath.RealNumbers.Reals]
NR_to_hr_lt [lemma, in UniMath.RealNumbers.Reals]
NR_to_hr_mult [lemma, in UniMath.RealNumbers.Reals]
NR_to_hr_minus [lemma, in UniMath.RealNumbers.Reals]
NR_to_hr_opp [lemma, in UniMath.RealNumbers.Reals]
NR_to_hr_plus [lemma, in UniMath.RealNumbers.Reals]
NR_to_hr_eq [lemma, in UniMath.RealNumbers.Reals]
NR_to_hr_inside [lemma, in UniMath.RealNumbers.Reals]
NR_to_hr [definition, in UniMath.RealNumbers.Reals]
NR:146 [binder, in UniMath.MoreFoundations.NegativePropositions]
nr:593 [binder, in UniMath.Foundations.Sets]
nSum [definition, in UniMath.Induction.ImpredicativeInductiveSets]
nSum_as_set [definition, in UniMath.Induction.ImpredicativeInductiveSets]
nSum_isaset [definition, in UniMath.Induction.ImpredicativeInductiveSets]
nSz:101 [binder, in UniMath.Combinatorics.WellOrderedSets]
nSz:105 [binder, in UniMath.Combinatorics.WellOrderedSets]
nSz:109 [binder, in UniMath.Combinatorics.WellOrderedSets]
nSz:167 [binder, in UniMath.Combinatorics.WellOrderedSets]
nSz:175 [binder, in UniMath.Combinatorics.WellOrderedSets]
nSz:89 [binder, in UniMath.Combinatorics.WellOrderedSets]
nSz:93 [binder, in UniMath.Combinatorics.WellOrderedSets]
nSz:97 [binder, in UniMath.Combinatorics.WellOrderedSets]
ns:16 [binder, in UniMath.Algebra.Universal.Signatures]
ns:17 [binder, in UniMath.Algebra.Universal.Signatures]
nth [definition, in UniMath.Combinatorics.Lists]
nth' [definition, in UniMath.Combinatorics.Lists]
nth'_step [lemma, in UniMath.Combinatorics.Lists]
nth'' [definition, in UniMath.Combinatorics.Lists]
nts [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
NullHomotopies [library]
NullHomotopyFrom [definition, in UniMath.MoreFoundations.NullHomotopies]
nullHomotopyFrom [definition, in UniMath.MoreFoundations.NullHomotopies]
NullHomotopyFrom_path [definition, in UniMath.MoreFoundations.NullHomotopies]
NullHomotopyFrom_center [definition, in UniMath.MoreFoundations.NullHomotopies]
NullHomotopyTo [definition, in UniMath.MoreFoundations.NullHomotopies]
nullHomotopyTo [definition, in UniMath.MoreFoundations.NullHomotopies]
nullHomotopyTo_transport [definition, in UniMath.MoreFoundations.NullHomotopies]
NullHomotopyTo_path [definition, in UniMath.MoreFoundations.NullHomotopies]
NullHomotopyTo_center [definition, in UniMath.MoreFoundations.NullHomotopies]
nx:528 [binder, in UniMath.Foundations.PartC]
nx:530 [binder, in UniMath.Foundations.PartC]
N_as_bicat [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
n_to_min_n [definition, in UniMath.Combinatorics.BoundedSearch]
n'':558 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n'':560 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':122 [binder, in UniMath.PAdics.fps]
n':128 [binder, in UniMath.PAdics.fps]
n':133 [binder, in UniMath.PAdics.fps]
n':138 [binder, in UniMath.PAdics.fps]
n':143 [binder, in UniMath.PAdics.fps]
n':475 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':477 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':479 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':487 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':507 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':517 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':519 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':520 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':521 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':524 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':526 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':527 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':528 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':531 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':533 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':534 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':535 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':536 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':541 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':545 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':546 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':548 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':550 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':557 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':559 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':561 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':562 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':563 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n':565 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n0:11 [binder, in UniMath.Tactics.Nat_Tactics]
n0:116 [binder, in UniMath.PAdics.padics]
n0:117 [binder, in UniMath.PAdics.padics]
n0:13 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n0:14 [binder, in UniMath.Tactics.Nat_Tactics]
n0:147 [binder, in UniMath.PAdics.padics]
n0:151 [binder, in UniMath.PAdics.padics]
n0:18 [binder, in UniMath.Tactics.Nat_Tactics]
n0:21 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n0:21 [binder, in UniMath.Tactics.Nat_Tactics]
n0:24 [binder, in UniMath.Tactics.Nat_Tactics]
n0:27 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
n0:27 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n0:27 [binder, in UniMath.Tactics.Nat_Tactics]
n0:29 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
n0:30 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
n0:30 [binder, in UniMath.Tactics.Nat_Tactics]
n0:32 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
n0:33 [binder, in UniMath.Tactics.Nat_Tactics]
n0:35 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n0:36 [binder, in UniMath.Tactics.Nat_Tactics]
n0:39 [binder, in UniMath.Tactics.Nat_Tactics]
n0:4 [binder, in UniMath.Tactics.Nat_Tactics]
n0:41 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n0:43 [binder, in UniMath.Tactics.Nat_Tactics]
n0:46 [binder, in UniMath.Tactics.Nat_Tactics]
n0:48 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n0:50 [binder, in UniMath.Tactics.Nat_Tactics]
n0:52 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
n0:53 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
n0:53 [binder, in UniMath.Tactics.Nat_Tactics]
n0:54 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
n0:54 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n0:55 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
n0:56 [binder, in UniMath.Tactics.Nat_Tactics]
n0:59 [binder, in UniMath.Tactics.Nat_Tactics]
n0:61 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n0:62 [binder, in UniMath.Tactics.Nat_Tactics]
n0:65 [binder, in UniMath.Tactics.Nat_Tactics]
n0:67 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n0:7 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n0:7 [binder, in UniMath.Tactics.Nat_Tactics]
n1:106 [binder, in UniMath.Algebra.Archimedean]
n1:12 [binder, in UniMath.Tactics.Nat_Tactics]
n1:14 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n1:15 [binder, in UniMath.Tactics.Nat_Tactics]
n1:19 [binder, in UniMath.Tactics.Nat_Tactics]
n1:22 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n1:22 [binder, in UniMath.Tactics.Nat_Tactics]
n1:25 [binder, in UniMath.Tactics.Nat_Tactics]
n1:28 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n1:28 [binder, in UniMath.Tactics.Nat_Tactics]
n1:31 [binder, in UniMath.Tactics.Nat_Tactics]
n1:34 [binder, in UniMath.Tactics.Nat_Tactics]
n1:36 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n1:37 [binder, in UniMath.Tactics.Nat_Tactics]
n1:40 [binder, in UniMath.Tactics.Nat_Tactics]
n1:42 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n1:44 [binder, in UniMath.Tactics.Nat_Tactics]
n1:47 [binder, in UniMath.Tactics.Nat_Tactics]
n1:49 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n1:5 [binder, in UniMath.Tactics.Nat_Tactics]
n1:51 [binder, in UniMath.Tactics.Nat_Tactics]
n1:54 [binder, in UniMath.Tactics.Nat_Tactics]
n1:55 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n1:562 [binder, in UniMath.NumberSystems.Integers]
n1:568 [binder, in UniMath.NumberSystems.Integers]
n1:57 [binder, in UniMath.Tactics.Nat_Tactics]
n1:578 [binder, in UniMath.NumberSystems.Integers]
n1:597 [binder, in UniMath.NumberSystems.Integers]
n1:60 [binder, in UniMath.Tactics.Nat_Tactics]
n1:62 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n1:63 [binder, in UniMath.Tactics.Nat_Tactics]
n1:66 [binder, in UniMath.Tactics.Nat_Tactics]
n1:68 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n1:8 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n1:8 [binder, in UniMath.Tactics.Nat_Tactics]
n2:108 [binder, in UniMath.Algebra.Archimedean]
n2:13 [binder, in UniMath.Tactics.Nat_Tactics]
n2:15 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n2:16 [binder, in UniMath.Tactics.Nat_Tactics]
n2:20 [binder, in UniMath.Tactics.Nat_Tactics]
n2:23 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n2:23 [binder, in UniMath.Tactics.Nat_Tactics]
n2:26 [binder, in UniMath.Tactics.Nat_Tactics]
n2:29 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n2:29 [binder, in UniMath.Tactics.Nat_Tactics]
n2:32 [binder, in UniMath.Tactics.Nat_Tactics]
n2:35 [binder, in UniMath.Tactics.Nat_Tactics]
n2:37 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n2:38 [binder, in UniMath.Tactics.Nat_Tactics]
n2:41 [binder, in UniMath.Tactics.Nat_Tactics]
n2:43 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n2:45 [binder, in UniMath.Tactics.Nat_Tactics]
n2:48 [binder, in UniMath.Tactics.Nat_Tactics]
n2:50 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n2:52 [binder, in UniMath.Tactics.Nat_Tactics]
n2:55 [binder, in UniMath.Tactics.Nat_Tactics]
n2:56 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n2:563 [binder, in UniMath.NumberSystems.Integers]
n2:570 [binder, in UniMath.NumberSystems.Integers]
n2:58 [binder, in UniMath.Tactics.Nat_Tactics]
n2:598 [binder, in UniMath.NumberSystems.Integers]
n2:6 [binder, in UniMath.Tactics.Nat_Tactics]
n2:61 [binder, in UniMath.Tactics.Nat_Tactics]
n2:63 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n2:64 [binder, in UniMath.Tactics.Nat_Tactics]
n2:67 [binder, in UniMath.Tactics.Nat_Tactics]
n2:69 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n2:9 [binder, in UniMath.Tactics.Abmonoids_Tactics]
n2:9 [binder, in UniMath.Tactics.Nat_Tactics]
n:1 [binder, in UniMath.NumberSystems.NaturalNumbersAlgebra]
n:1 [binder, in UniMath.PAdics.z_mod_p]
n:1 [binder, in UniMath.Combinatorics.Vectors]
n:1 [binder, in UniMath.Foundations.PartB]
n:1 [binder, in UniMath.Algebra.Universal.HVectors]
n:1 [binder, in UniMath.RealNumbers.Reals]
n:1 [binder, in UniMath.CategoryTheory.Core.Setcategories]
N:1 [binder, in UniMath.Combinatorics.Graph]
n:1 [binder, in UniMath.NumberSystems.Integers]
n:1 [binder, in UniMath.Combinatorics.FiniteSets]
n:1 [binder, in UniMath.Tactics.Nat_Tactics]
n:1 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:1 [binder, in UniMath.CategoryTheory.SimplicialSets]
n:10 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
n:10 [binder, in UniMath.Combinatorics.Tests]
n:10 [binder, in UniMath.CategoryTheory.Chains.Cochains]
n:10 [binder, in UniMath.CategoryTheory.Chains.Adamek]
n:10 [binder, in UniMath.SubstitutionSystems.MLTT79]
n:10 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:10 [binder, in UniMath.Combinatorics.BoundedSearch]
n:10 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:10 [binder, in UniMath.Induction.M.Limits]
n:10 [binder, in UniMath.CategoryTheory.SimplicialSets]
n:10 [binder, in UniMath.Foundations.Tests]
N:100 [binder, in UniMath.CategoryTheory.Monads.Monads]
n:100 [binder, in UniMath.Algebra.Universal.Terms]
n:100 [binder, in UniMath.Algebra.Universal.HVectors]
n:100 [binder, in UniMath.Algebra.Matrix]
N:100 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
n:100 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:100 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:101 [binder, in UniMath.Combinatorics.Vectors]
n:101 [binder, in UniMath.Foundations.NaturalNumbers]
n:101 [binder, in UniMath.PAdics.lemmas]
n:101 [binder, in UniMath.Algebra.Domains_and_Fields]
n:101 [binder, in UniMath.PAdics.padics]
n:101 [binder, in UniMath.NumberSystems.Integers]
n:101 [binder, in UniMath.NumberSystems.RationalNumbers]
n:101 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:101 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
N:102 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
n:102 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:102 [binder, in UniMath.MoreFoundations.Nat]
N:103 [binder, in UniMath.CategoryTheory.Monads.Monads]
n:103 [binder, in UniMath.Algebra.Universal.Terms]
n:103 [binder, in UniMath.Algebra.Matrix]
n:103 [binder, in UniMath.Foundations.NaturalNumbers]
n:103 [binder, in UniMath.PAdics.padics]
n:103 [binder, in UniMath.NumberSystems.Integers]
N:104 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
n:104 [binder, in UniMath.RealNumbers.NonnegativeRationals]
n:104 [binder, in UniMath.NumberSystems.RationalNumbers]
n:104 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:105 [binder, in UniMath.Combinatorics.Vectors]
n:105 [binder, in UniMath.Foundations.NaturalNumbers]
n:105 [binder, in UniMath.Algebra.Domains_and_Fields]
n:105 [binder, in UniMath.NumberSystems.Integers]
n:105 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:105 [binder, in UniMath.MoreFoundations.Nat]
n:106 [binder, in UniMath.PAdics.padics]
n:106 [binder, in UniMath.Combinatorics.FiniteSets]
n:106 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:107 [binder, in UniMath.Foundations.NaturalNumbers]
n:107 [binder, in UniMath.RealNumbers.NonnegativeRationals]
n:107 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:107 [binder, in UniMath.Combinatorics.FiniteSequences]
n:107 [binder, in UniMath.Algebra.IteratedBinaryOperations]
n:107 [binder, in UniMath.MoreFoundations.Nat]
n:108 [binder, in UniMath.Combinatorics.Vectors]
N:108 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
n:108 [binder, in UniMath.PAdics.padics]
n:108 [binder, in UniMath.NumberSystems.Integers]
n:109 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
n:109 [binder, in UniMath.Algebra.Domains_and_Fields]
n:109 [binder, in UniMath.NumberSystems.RationalNumbers]
n:109 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:109 [binder, in UniMath.CategoryTheory.Monads.LModules]
n:11 [binder, in UniMath.Combinatorics.Vectors]
N:11 [binder, in UniMath.CategoryTheory.categories.modules]
n:11 [binder, in UniMath.Algebra.Archimedean]
n:11 [binder, in UniMath.RealNumbers.Prelim]
n:11 [binder, in UniMath.Foundations.NaturalNumbers]
n:11 [binder, in UniMath.PAdics.lemmas]
n:11 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
n:11 [binder, in UniMath.CategoryTheory.Chains.Adamek]
n:11 [binder, in UniMath.Combinatorics.StandardFiniteSets]
N:11 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
n:11 [binder, in UniMath.Foundations.PartC]
n:11 [binder, in UniMath.MoreFoundations.Nat]
n:11 [binder, in UniMath.Foundations.Tests]
n:110 [binder, in UniMath.Algebra.Archimedean]
n:110 [binder, in UniMath.Foundations.NaturalNumbers]
N:110 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
n:110 [binder, in UniMath.PAdics.padics]
n:110 [binder, in UniMath.NumberSystems.RationalNumbers]
n:110 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:110 [binder, in UniMath.MoreFoundations.Nat]
N:111 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
n:111 [binder, in UniMath.PAdics.lemmas]
n:111 [binder, in UniMath.NumberSystems.Integers]
n:111 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:112 [binder, in UniMath.Algebra.Archimedean]
n:112 [binder, in UniMath.PAdics.padics]
n:112 [binder, in UniMath.NumberSystems.Integers]
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n:136 [binder, in UniMath.Combinatorics.WellFoundedRelations]
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n:151 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
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n:17 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
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n:18 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
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n:20 [binder, in UniMath.Combinatorics.WellFoundedRelations]
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n:20 [binder, in UniMath.Paradoxes.GirardsParadox]
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n:21 [binder, in UniMath.Topology.Prelim]
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n:23 [binder, in UniMath.Algebra.IteratedBinaryOperations]
n:23 [binder, in UniMath.Foundations.Preamble]
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n:36 [binder, in UniMath.Combinatorics.FiniteSets]
N:36 [binder, in UniMath.CategoryTheory.limits.cones]
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n:37 [binder, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
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n:38 [binder, in UniMath.Combinatorics.WellFoundedRelations]
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n:4 [binder, in UniMath.CategoryTheory.limits.FinOrdProducts]
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n:4 [binder, in UniMath.Foundations.Tests]
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n:656 [binder, in UniMath.NumberSystems.Integers]
n:656 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:66 [binder, in UniMath.Algebra.Archimedean]
n:66 [binder, in UniMath.Algebra.Universal.HVectors]
n:66 [binder, in UniMath.Algebra.Matrix]
n:66 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:66 [binder, in UniMath.MoreFoundations.Nat]
n:66 [binder, in UniMath.Induction.W.Naturals]
n:667 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:67 [binder, in UniMath.Foundations.PartB]
n:67 [binder, in UniMath.Foundations.NaturalNumbers]
n:67 [binder, in UniMath.Combinatorics.FiniteSets]
n:67 [binder, in UniMath.NumberSystems.RationalNumbers]
n:67 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:68 [binder, in UniMath.Combinatorics.Vectors]
n:68 [binder, in UniMath.NumberSystems.Integers]
n:68 [binder, in UniMath.Tactics.Nat_Tactics]
n:68 [binder, in UniMath.Combinatorics.FiniteSequences]
n:68 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:68 [binder, in UniMath.Induction.W.Naturals]
n:69 [binder, in UniMath.Combinatorics.MoreLists]
n:69 [binder, in UniMath.Algebra.Matrix]
n:69 [binder, in UniMath.Foundations.NaturalNumbers]
n:69 [binder, in UniMath.NumberSystems.RationalNumbers]
n:69 [binder, in UniMath.Tactics.Nat_Tactics]
n:69 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:69 [binder, in UniMath.Algebra.IteratedBinaryOperations]
n:7 [binder, in UniMath.Foundations.PartB]
n:7 [binder, in UniMath.Algebra.Archimedean]
n:7 [binder, in UniMath.PAdics.lemmas]
n:7 [binder, in UniMath.CategoryTheory.Core.Setcategories]
n:7 [binder, in UniMath.PAdics.padics]
n:7 [binder, in UniMath.SubstitutionSystems.MLTT79]
n:7 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:7 [binder, in UniMath.Algebra.Universal.Examples.Bool]
n:7 [binder, in UniMath.Algebra.Universal.Examples.Nat]
n:7 [binder, in UniMath.Topology.Filters]
n:7 [binder, in UniMath.MoreFoundations.Nat]
n:7 [binder, in UniMath.CategoryTheory.SimplicialSets]
n:7 [binder, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
n:70 [binder, in UniMath.PAdics.padics]
n:70 [binder, in UniMath.Combinatorics.FiniteSets]
n:70 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:70 [binder, in UniMath.MoreFoundations.Nat]
N:701 [binder, in UniMath.RealNumbers.NonnegativeReals]
n:702 [binder, in UniMath.RealNumbers.NonnegativeReals]
N:707 [binder, in UniMath.RealNumbers.NonnegativeReals]
n:708 [binder, in UniMath.RealNumbers.NonnegativeReals]
n:71 [binder, in UniMath.Foundations.NaturalNumbers]
n:71 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
n:71 [binder, in UniMath.PAdics.padics]
n:71 [binder, in UniMath.NumberSystems.Integers]
n:71 [binder, in UniMath.NumberSystems.RationalNumbers]
n:71 [binder, in UniMath.Tactics.Nat_Tactics]
n:71 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:71 [binder, in UniMath.Algebra.IteratedBinaryOperations]
n:72 [binder, in UniMath.Combinatorics.MoreLists]
n:72 [binder, in UniMath.PAdics.padics]
n:72 [binder, in UniMath.NumberSystems.Integers]
n:72 [binder, in UniMath.Tactics.Nat_Tactics]
n:72 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:73 [binder, in UniMath.Combinatorics.Vectors]
n:73 [binder, in UniMath.Topology.Prelim]
n:73 [binder, in UniMath.Algebra.Matrix]
n:73 [binder, in UniMath.Foundations.NaturalNumbers]
n:73 [binder, in UniMath.PAdics.padics]
n:73 [binder, in UniMath.Combinatorics.FiniteSets]
n:73 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:73 [binder, in UniMath.Combinatorics.FiniteSequences]
n:73 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:73 [binder, in UniMath.MoreFoundations.Nat]
n:74 [binder, in UniMath.Combinatorics.MoreLists]
n:74 [binder, in UniMath.Algebra.Universal.HVectors]
n:74 [binder, in UniMath.NumberSystems.RationalNumbers]
n:74 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:74 [binder, in UniMath.Paradoxes.GirardsParadox]
n:75 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
n:75 [binder, in UniMath.NumberSystems.Integers]
n:75 [binder, in UniMath.Paradoxes.GirardsParadox]
n:76 [binder, in UniMath.Algebra.Matrix]
n:76 [binder, in UniMath.Foundations.NaturalNumbers]
n:76 [binder, in UniMath.PAdics.padics]
n:76 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:76 [binder, in UniMath.Induction.M.Chains]
n:76 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:76 [binder, in UniMath.MoreFoundations.Nat]
n:77 [binder, in UniMath.Algebra.Archimedean]
n:77 [binder, in UniMath.NumberSystems.Integers]
n:77 [binder, in UniMath.Induction.M.Chains]
n:78 [binder, in UniMath.Combinatorics.Vectors]
n:78 [binder, in UniMath.Topology.Prelim]
n:78 [binder, in UniMath.Foundations.NaturalNumbers]
n:78 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
n:78 [binder, in UniMath.Combinatorics.FiniteSequences]
n:78 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:79 [binder, in UniMath.Algebra.Matrix]
n:79 [binder, in UniMath.Foundations.NaturalNumbers]
n:79 [binder, in UniMath.PAdics.padics]
n:79 [binder, in UniMath.NumberSystems.Integers]
n:79 [binder, in UniMath.Combinatorics.FiniteSets]
n:79 [binder, in UniMath.NumberSystems.RationalNumbers]
n:79 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:79 [binder, in UniMath.MoreFoundations.Nat]
n:8 [binder, in UniMath.Combinatorics.Vectors]
n:8 [binder, in UniMath.Algebra.Matrix]
n:8 [binder, in UniMath.SubstitutionSystems.MLTT79]
n:8 [binder, in UniMath.Algebra.Universal.Examples.Bool]
n:8 [binder, in UniMath.Combinatorics.BoundedSearch]
n:8 [binder, in UniMath.Combinatorics.FiniteSequences]
n:8 [binder, in UniMath.Induction.M.Limits]
n:8 [binder, in UniMath.MoreFoundations.Nat]
n:8 [binder, in UniMath.Paradoxes.GirardsParadox]
n:8 [binder, in UniMath.Foundations.Tests]
n:80 [binder, in UniMath.Combinatorics.MoreLists]
n:80 [binder, in UniMath.Algebra.Universal.HVectors]
n:80 [binder, in UniMath.Topology.Prelim]
n:80 [binder, in UniMath.Foundations.NaturalNumbers]
n:80 [binder, in UniMath.NumberSystems.RationalNumbers]
n:80 [binder, in UniMath.Combinatorics.FiniteSequences]
n:80 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:81 [binder, in UniMath.Algebra.Matrix]
n:81 [binder, in UniMath.NumberSystems.Integers]
N:81 [binder, in UniMath.CategoryTheory.limits.cones]
n:82 [binder, in UniMath.Foundations.NaturalNumbers]
n:82 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:82 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:82 [binder, in UniMath.MoreFoundations.Nat]
n:83 [binder, in UniMath.Combinatorics.Vectors]
n:83 [binder, in UniMath.Foundations.NaturalNumbers]
n:83 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:84 [binder, in UniMath.Algebra.Matrix]
n:84 [binder, in UniMath.Foundations.NaturalNumbers]
n:84 [binder, in UniMath.NumberSystems.Integers]
n:84 [binder, in UniMath.NumberSystems.RationalNumbers]
n:84 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:85 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:85 [binder, in UniMath.Algebra.IteratedBinaryOperations]
n:85 [binder, in UniMath.MoreFoundations.Nat]
n:86 [binder, in UniMath.Combinatorics.MoreLists]
N:86 [binder, in UniMath.CategoryTheory.limits.cones]
n:86 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:86 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
N:864 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
N:868 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
n:87 [binder, in UniMath.Algebra.Universal.Terms]
n:87 [binder, in UniMath.MoreFoundations.Nat]
N:871 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
n:88 [binder, in UniMath.Combinatorics.Vectors]
n:88 [binder, in UniMath.Algebra.Archimedean]
n:88 [binder, in UniMath.Combinatorics.FiniteSets]
n:88 [binder, in UniMath.NumberSystems.RationalNumbers]
n:88 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:88 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:88 [binder, in UniMath.Paradoxes.GirardsParadox]
N:880 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
N:884 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
n:89 [binder, in UniMath.Algebra.Universal.Terms]
n:89 [binder, in UniMath.Foundations.NaturalNumbers]
n:89 [binder, in UniMath.Bicategories.Colimits.Final]
n:89 [binder, in UniMath.NumberSystems.Integers]
N:89 [binder, in UniMath.CategoryTheory.limits.cones]
n:89 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:89 [binder, in UniMath.Algebra.IteratedBinaryOperations]
n:89 [binder, in UniMath.MoreFoundations.Nat]
n:89 [binder, in UniMath.Paradoxes.GirardsParadox]
N:9 [binder, in UniMath.CategoryTheory.categories.modules]
n:9 [binder, in UniMath.Algebra.Archimedean]
n:9 [binder, in UniMath.Algebra.Universal.HVectors]
n:9 [binder, in UniMath.CategoryTheory.categories.CartesianCubicalSets]
n:9 [binder, in UniMath.Foundations.NaturalNumbers]
n:9 [binder, in UniMath.PAdics.lemmas]
n:9 [binder, in UniMath.Combinatorics.FiniteSets]
n:9 [binder, in UniMath.SubstitutionSystems.MLTT79]
n:9 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:9 [binder, in UniMath.Combinatorics.GraphPaths]
n:9 [binder, in UniMath.Combinatorics.BoundedSearch]
n:9 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:9 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
n:9 [binder, in UniMath.Foundations.Tests]
n:90 [binder, in UniMath.Combinatorics.MoreLists]
n:90 [binder, in UniMath.Foundations.NaturalNumbers]
n:90 [binder, in UniMath.NumberSystems.Integers]
n:90 [binder, in UniMath.NumberSystems.RationalNumbers]
n:90 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:90 [binder, in UniMath.Paradoxes.GirardsParadox]
n:905 [binder, in UniMath.MoreFoundations.PartA]
n:91 [binder, in UniMath.Algebra.Archimedean]
n:91 [binder, in UniMath.Algebra.Matrix]
n:91 [binder, in UniMath.PAdics.padics]
n:91 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:91 [binder, in UniMath.MoreFoundations.Nat]
n:91 [binder, in UniMath.Paradoxes.GirardsParadox]
n:914 [binder, in UniMath.MoreFoundations.PartA]
n:92 [binder, in UniMath.Algebra.Universal.Terms]
n:92 [binder, in UniMath.Algebra.Universal.HVectors]
n:92 [binder, in UniMath.Combinatorics.FiniteSets]
N:92 [binder, in UniMath.CategoryTheory.limits.cones]
n:92 [binder, in UniMath.NumberSystems.RationalNumbers]
n:92 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:92 [binder, in UniMath.Combinatorics.FiniteSequences]
n:92 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:93 [binder, in UniMath.Foundations.PartB]
n:93 [binder, in UniMath.Foundations.NaturalNumbers]
n:93 [binder, in UniMath.NumberSystems.Integers]
n:93 [binder, in UniMath.Algebra.IteratedBinaryOperations]
n:94 [binder, in UniMath.Combinatorics.Vectors]
n:94 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:94 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:94 [binder, in UniMath.MoreFoundations.Nat]
n:95 [binder, in UniMath.PAdics.padics]
n:95 [binder, in UniMath.NumberSystems.RationalNumbers]
n:95 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:95 [binder, in UniMath.Algebra.IteratedBinaryOperations]
n:96 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:97 [binder, in UniMath.Foundations.NaturalNumbers]
n:97 [binder, in UniMath.NumberSystems.Integers]
n:97 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:97 [binder, in UniMath.Algebra.IteratedBinaryOperations]
n:97 [binder, in UniMath.Bicategories.Colimits.Initial]
N:98 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
n:98 [binder, in UniMath.Combinatorics.FiniteSets]
n:98 [binder, in UniMath.NumberSystems.RationalNumbers]
n:98 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:98 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
N:99 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
n:99 [binder, in UniMath.NumberSystems.RationalNumbers]
n:99 [binder, in UniMath.Combinatorics.StandardFiniteSets]
n:99 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
n:99 [binder, in UniMath.Algebra.IteratedBinaryOperations]
n:99 [binder, in UniMath.MoreFoundations.Nat]
n₁pr1:50 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
n₁pr2:52 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
n₁:48 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
n₂pr1:51 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
n₂pr2:53 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
n₂:49 [binder, in UniMath.CategoryTheory.IsoCommaCategory]

O

O [constructor, in UniMath.Foundations.Preamble]
ob [definition, in UniMath.Folds.folds_pre_2_cat]
ob [definition, in UniMath.Folds.folds_precat]
ob [definition, in UniMath.CategoryTheory.Core.Categories]
obd:56 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
obd:60 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
obFF:38 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
obFF:7 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
obFF:9 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
ObjectMorToComplexMor [definition, in UniMath.HomologicalAlgebra.Complexes]
ObjectMorToComplexMor_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
ObjectMorToComplexMor_mors [definition, in UniMath.HomologicalAlgebra.Complexes]
objects_of_grpd [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
objects_of_grpd_is_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
objects_of_grpd_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
ObjectToCoproduct [lemma, in UniMath.CategoryTheory.limits.FinOrdCoproducts]
object_map_kt [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
object_homtype_hlevel [definition, in UniMath.CategoryTheory.Core.Setcategories]
object_hlevel [definition, in UniMath.CategoryTheory.Core.Setcategories]
object_of_cartesian_lift [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
obj:105 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
obj:106 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
obj:129 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
obj:130 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
obj:138 [binder, in UniMath.CategoryTheory.Core.Categories]
obj:267 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
obj:37 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
obj:38 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
obj:54 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
obj:58 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
obj:70 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
obj:83 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
obj:86 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
obj:96 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
obj:97 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
obs:5 [binder, in UniMath.CategoryTheory.Chains.Cochains]
ob_as_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
ob_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
ob_disp:2 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ob_of_fullsub [definition, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
ob1 [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
Ob1 [definition, in UniMath.CategoryTheory.Morphisms]
ob2 [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
Ob2 [definition, in UniMath.CategoryTheory.Morphisms]
Ob3 [definition, in UniMath.CategoryTheory.Morphisms]
ob:1 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
ob:1 [binder, in UniMath.CategoryTheory.Core.Categories]
ob:2 [binder, in UniMath.Folds.folds_pre_2_cat]
ob:2 [binder, in UniMath.Folds.folds_precat]
ob:2 [binder, in UniMath.CategoryTheory.Core.Categories]
ob:247 [binder, in UniMath.CategoryTheory.PreAdditive]
ob:357 [binder, in UniMath.HomologicalAlgebra.Complexes]
ob:4 [binder, in UniMath.CategoryTheory.opp_precat]
ob:428 [binder, in UniMath.Bicategories.Core.Bicat]
ob:5 [binder, in UniMath.CategoryTheory.categories.rings]
ob:5 [binder, in UniMath.CategoryTheory.categories.HSET.Core]
ob:5 [binder, in UniMath.CategoryTheory.categories.setwith2binops]
ob:5 [binder, in UniMath.CategoryTheory.categories.grs]
ob:5 [binder, in UniMath.CategoryTheory.categories.flds]
ob:5 [binder, in UniMath.CategoryTheory.category_binops]
ob:5 [binder, in UniMath.CategoryTheory.categories.abgrs]
ob:5 [binder, in UniMath.CategoryTheory.categories.commrigs]
ob:5 [binder, in UniMath.CategoryTheory.categories.rigs]
ob:5 [binder, in UniMath.CategoryTheory.categories.monoids]
ob:5 [binder, in UniMath.CategoryTheory.categories.intdoms]
ob:5 [binder, in UniMath.CategoryTheory.categories.commrings]
ob:5 [binder, in UniMath.CategoryTheory.categories.abmonoids]
ob:513 [binder, in UniMath.CategoryTheory.LocalizingClass]
ob:61 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
ob:81 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
ob:92 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
Octa [definition, in UniMath.HomologicalAlgebra.Triangulated]
OctaComm1 [definition, in UniMath.HomologicalAlgebra.Triangulated]
OctaComm2 [definition, in UniMath.HomologicalAlgebra.Triangulated]
OctaComm3 [definition, in UniMath.HomologicalAlgebra.Triangulated]
OctaComm4 [definition, in UniMath.HomologicalAlgebra.Triangulated]
OctaDTri [definition, in UniMath.HomologicalAlgebra.Triangulated]
Octahedral [definition, in UniMath.HomologicalAlgebra.Triangulated]
OctaIso [definition, in UniMath.HomologicalAlgebra.Triangulated]
OctaIsoComm1 [definition, in UniMath.HomologicalAlgebra.Triangulated]
OctaIsoComm2 [definition, in UniMath.HomologicalAlgebra.Triangulated]
OctaIsoComm3 [definition, in UniMath.HomologicalAlgebra.Triangulated]
OctaIsoComm4 [definition, in UniMath.HomologicalAlgebra.Triangulated]
OctaIsoMorComms [lemma, in UniMath.HomologicalAlgebra.Triangulated]
OctaIsoMorComm3 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
OctaIsoMPMorMors [lemma, in UniMath.HomologicalAlgebra.Triangulated]
OctaMor1 [definition, in UniMath.HomologicalAlgebra.Triangulated]
OctaMor2 [definition, in UniMath.HomologicalAlgebra.Triangulated]
Octa_isomorphisms [section, in UniMath.HomologicalAlgebra.Triangulated]
odot [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
odot [definition, in UniMath.CategoryTheory.Monoidal.Actions]
odotA [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
odot_x_otimes_y_functor_ok [lemma, in UniMath.CategoryTheory.Monoidal.Actions]
odot_x_otimes_y_functor [definition, in UniMath.CategoryTheory.Monoidal.Actions]
odot_x_odot_y_functor_ok [lemma, in UniMath.CategoryTheory.Monoidal.Actions]
odot_x_odot_y_functor [definition, in UniMath.CategoryTheory.Monoidal.Actions]
odot_I_functor_ok [lemma, in UniMath.CategoryTheory.Monoidal.Actions]
odot_I_functor [definition, in UniMath.CategoryTheory.Monoidal.Actions]
odot' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
odot:3 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
odot:34 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
OmegaCocontFunctors [library]
omega_cont_functor [definition, in UniMath.CategoryTheory.Chains.Chains]
omega_cocont_functor [definition, in UniMath.CategoryTheory.Chains.Chains]
omega_cocont_pre_composition_functor_kan [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_pre_composition_functor [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_BinProduct_of_functors [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_BinProduct_of_functors_alt [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_constprod_functor2 [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_constprod_functor1 [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_coproduct_of_functors [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_BinCoproduct_of_functors_alt2 [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_BinCoproduct_of_functors [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_BinCoproduct_of_functors_alt [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_iter_functor [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_functor_composite [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_constant_functor [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_functor_identity [definition, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
One [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
One [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
One [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
one [definition, in UniMath.NumberSystems.Integers]
One [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
onedge [definition, in UniMath.Combinatorics.Graph]
oneDivRig [definition, in UniMath.Algebra.DivisionRig]
onefiber [lemma, in UniMath.Foundations.PartA]
oneNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
oneNonnegativeRationals_correct [lemma, in UniMath.RealNumbers.NonnegativeRationals]
oneNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
OneOp [section, in UniMath.Algebra.Matrix]
OneOpMat [section, in UniMath.Algebra.Matrix]
OneTypes [library]
OneTypesBinprodUMP [section, in UniMath.Bicategories.Colimits.Products]
OneTypesPullbackUMP [section, in UniMath.Bicategories.Colimits.Pullback]
one_types_isInjective_weq_fully_faithful [definition, in UniMath.Bicategories.Core.FullyFaithful]
one_types_fully_faithful_isInjective [definition, in UniMath.Bicategories.Core.FullyFaithful]
one_types_isInjective_fully_faithful_1cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
one_types_is_incl_weq_faithful_1cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
one_types_faithful_1cell_is_incl [definition, in UniMath.Bicategories.Core.FullyFaithful]
one_types_is_incl_faithful_1cell [definition, in UniMath.Bicategories.Core.FullyFaithful]
one_types_pb_cone [definition, in UniMath.Bicategories.Colimits.Pullback]
one_cells_data_from_monoidal [definition, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
one_intdomnonzerosubmonoid [definition, in UniMath.RealNumbers.Prelim]
one_types_is_univalent_2 [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
one_types_is_univalent_2_0 [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
one_types_is_univalent_2_1 [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
one_type_2cell_iso [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
one_types [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
one_type_bicat_laws [lemma, in UniMath.Bicategories.Core.Examples.OneTypes]
one_type_bicat_data [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
one_type_isofhlevel [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
one_type_to_type [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
one_type [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
one_lt_twoNonnegativeRationals [lemma, in UniMath.RealNumbers.NonnegativeRationals]
one_type_to_groupoid [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
one_types_binprod_cone [definition, in UniMath.Bicategories.Colimits.Products]
one_term [definition, in UniMath.Algebra.Universal.Examples.Tests]
one_oplist [definition, in UniMath.Algebra.Universal.Examples.Tests]
one_fld [definition, in UniMath.RealNumbers.Fields]
onvertex [definition, in UniMath.Combinatorics.Graph]
op [definition, in UniMath.Algebra.BinaryOperations]
op [definition, in UniMath.Algebra.Apartness]
OpCellBicat [library]
Open [definition, in UniMath.Topology.Topology]
Open [section, in UniMath.Topology.Topology]
open_category [definition, in UniMath.AlgebraicGeometry.SheavesOfRings]
open_po [definition, in UniMath.AlgebraicGeometry.SheavesOfRings]
open_category [section, in UniMath.AlgebraicGeometry.SheavesOfRings]
operation [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
OperationsDistrLaws [section, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
opexec [definition, in UniMath.Algebra.Universal.Terms]
opexec_zero_b [lemma, in UniMath.Algebra.Universal.Terms]
opexec_just_b [lemma, in UniMath.Algebra.Universal.Terms]
opexec_just_f [lemma, in UniMath.Algebra.Universal.Terms]
opexec_dec [lemma, in UniMath.Algebra.Universal.Terms]
Opfibrations [section, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
OpFunctor [library]
oplist [definition, in UniMath.Algebra.Universal.Terms]
oplistexec [definition, in UniMath.Algebra.Universal.Terms]
oplistexec_vecoplist2oplist [lemma, in UniMath.Algebra.Universal.Terms]
oplistexec_oplistsplit [lemma, in UniMath.Algebra.Universal.Terms]
oplistexec_concatenate [lemma, in UniMath.Algebra.Universal.Terms]
oplistexec_positive_b [lemma, in UniMath.Algebra.Universal.Terms]
oplistexec_zero_b [lemma, in UniMath.Algebra.Universal.Terms]
oplistexec_cons [lemma, in UniMath.Algebra.Universal.Terms]
oplistexec_nil [lemma, in UniMath.Algebra.Universal.Terms]
Oplists [section, in UniMath.Algebra.Universal.Terms]
oplistsplit [definition, in UniMath.Algebra.Universal.Terms]
oplistsplit_self [lemma, in UniMath.Algebra.Universal.Terms]
oplistsplit_concatenate [lemma, in UniMath.Algebra.Universal.Terms]
oplistsplit_cons [lemma, in UniMath.Algebra.Universal.Terms]
oplistsplit_nil [lemma, in UniMath.Algebra.Universal.Terms]
oplistsplit_zero [lemma, in UniMath.Algebra.Universal.Terms]
oplist_normalization [definition, in UniMath.Algebra.Universal.Terms]
oplist_build_isaterm [lemma, in UniMath.Algebra.Universal.Terms]
oplist_build [definition, in UniMath.Algebra.Universal.Terms]
oplist2vecoplist [definition, in UniMath.Algebra.Universal.Terms]
OpMorBicat [library]
Opp [library]
oppositeAdditiveCategory [definition, in UniMath.CategoryTheory.Additive]
oppositeBinDirectSum [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
oppositeCategory [definition, in UniMath.CategoryTheory.opp_precat]
oppositecategory [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
oppositeCategoryWithAbgrops [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
oppositeExactCategory [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
OppositeExactCategory [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
oppositeExactCategoryData [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
oppositePreAdditive [definition, in UniMath.CategoryTheory.PreAdditive]
oppositePrecategoryWithBinOps [definition, in UniMath.CategoryTheory.CategoriesWithBinOps]
opposite_isSplitEpimorphism [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_isSplitMonomorphism [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_isSplit [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_isSplit2 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_isKernelCokernelPair [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_directSumMap' [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_directSumMap [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_IsoArrow [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_IsoArrowFrom [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_IsoArrowTo [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_commring [definition, in UniMath.Algebra.RigsAndRings]
opposite_ring [definition, in UniMath.Algebra.RigsAndRings]
opposite_commrig [definition, in UniMath.Algebra.RigsAndRings]
opposite_opposite_rig [definition, in UniMath.Algebra.RigsAndRings]
opposite_rig [definition, in UniMath.Algebra.RigsAndRings]
opps:1410 [binder, in UniMath.Algebra.BinaryOperations]
opp_abelian' [section, in UniMath.CategoryTheory.Abelian]
opp_abelian.hs [variable, in UniMath.CategoryTheory.Abelian]
opp_abelian.C [variable, in UniMath.CategoryTheory.Abelian]
opp_abelian [section, in UniMath.CategoryTheory.Abelian]
opp_sums_exts_lift [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opp_exts_lift [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opp_rezk_universal_property.fix_a_category.Ccat [variable, in UniMath.CategoryTheory.rezk_completion]
opp_rezk_universal_property.fix_a_category.C [variable, in UniMath.CategoryTheory.rezk_completion]
opp_rezk_universal_property.fix_a_category [section, in UniMath.CategoryTheory.rezk_completion]
opp_rezk_universal_property.hsRAop [variable, in UniMath.CategoryTheory.rezk_completion]
opp_rezk_universal_property.hsAop [variable, in UniMath.CategoryTheory.rezk_completion]
opp_rezk_universal_property.hsA [variable, in UniMath.CategoryTheory.rezk_completion]
opp_rezk_universal_property.A [variable, in UniMath.CategoryTheory.rezk_completion]
opp_rezk_universal_property [section, in UniMath.CategoryTheory.rezk_completion]
opp_functor_essentially_surjective [lemma, in UniMath.CategoryTheory.opp_precat]
opp_functor_fully_faithful [lemma, in UniMath.CategoryTheory.opp_precat]
opp_functor_properties.F [variable, in UniMath.CategoryTheory.opp_precat]
opp_functor_properties.D [variable, in UniMath.CategoryTheory.opp_precat]
opp_functor_properties.C [variable, in UniMath.CategoryTheory.opp_precat]
opp_functor_properties [section, in UniMath.CategoryTheory.opp_precat]
opp_z_iso [definition, in UniMath.CategoryTheory.opp_precat]
opp_is_z_isomorphism [definition, in UniMath.CategoryTheory.opp_precat]
opp_is_inverse_in_precat [lemma, in UniMath.CategoryTheory.opp_precat]
opp_iso [definition, in UniMath.CategoryTheory.opp_precat]
opp_is_iso [definition, in UniMath.CategoryTheory.opp_precat]
opp_opp_precat [lemma, in UniMath.CategoryTheory.opp_precat]
opp_opp_precat_data [lemma, in UniMath.CategoryTheory.opp_precat]
opp_opp_precat_ob_mor_compute [lemma, in UniMath.CategoryTheory.opp_precat]
opp_opp_precat_ob_mor [lemma, in UniMath.CategoryTheory.opp_precat]
opp_mor_eq [definition, in UniMath.CategoryTheory.opp_precat]
opp_mor [definition, in UniMath.CategoryTheory.opp_precat]
opp_ob [definition, in UniMath.CategoryTheory.opp_precat]
opp_precat [definition, in UniMath.CategoryTheory.opp_precat]
opp_precat_data [definition, in UniMath.CategoryTheory.opp_precat]
opp_precat_ob_mor [definition, in UniMath.CategoryTheory.opp_precat]
opp_ShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
opp_RightShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
opp_LeftShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
opp_ShortShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
opp_ShortShortExact_isKernel [lemma, in UniMath.CategoryTheory.ShortExactSequences]
opp_opp_precat [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_opp_precat_data [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_opp_precat_ob_mor_compute [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_opp_precat_ob_mor [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_mor_eq [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_mor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_ob [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_zero_lifts [definition, in UniMath.CategoryTheory.limits.Opp]
opp_BinCoproducts [definition, in UniMath.CategoryTheory.limits.Opp]
opp_BinProducts [definition, in UniMath.CategoryTheory.limits.Opp]
opp_BinCoproduct [definition, in UniMath.CategoryTheory.limits.Opp]
opp_BinProduct [definition, in UniMath.CategoryTheory.limits.Opp]
opp_isBinCoproduct [definition, in UniMath.CategoryTheory.limits.Opp]
opp_isBinProduct [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Pullbacks [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Pushouts [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Pullback [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Pushout [definition, in UniMath.CategoryTheory.limits.Opp]
opp_isPullback [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_isPushout [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_Cokernels [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Kernels [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Cokernel [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Cokernel_isKernel [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_Cokernel_eq [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_isKernel [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_Kernel [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Kernel_isCokernel [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_Kernel_eq [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_isCokernel [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_isCokernel_eq [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_Coequalizers [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Equalizers [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Coequalizer [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Equalizer [definition, in UniMath.CategoryTheory.limits.Opp]
opp_isCoequalizer [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_isEqualizer [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_ZeroArrow [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_ZeroArrowFrom [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_ZeroArrowTo [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_Zero [definition, in UniMath.CategoryTheory.limits.Opp]
opp_isZero [lemma, in UniMath.CategoryTheory.limits.Opp]
opp_Terminal [definition, in UniMath.CategoryTheory.limits.Opp]
opp_isTerminal [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Initial [definition, in UniMath.CategoryTheory.limits.Opp]
opp_isInitial [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Epi [definition, in UniMath.CategoryTheory.limits.Opp]
opp_isEpi [definition, in UniMath.CategoryTheory.limits.Opp]
opp_Monic [definition, in UniMath.CategoryTheory.limits.Opp]
opp_isMonic [definition, in UniMath.CategoryTheory.limits.Opp]
opp_sums_lift [definition, in UniMath.CategoryTheory.Additive]
opp_fld [definition, in UniMath.RealNumbers.Fields]
opp_ShortShortExactData [definition, in UniMath.CategoryTheory.Morphisms]
opp_ShortShortExactData_Eq [lemma, in UniMath.CategoryTheory.Morphisms]
opp_MorphismPairIsomorphism [definition, in UniMath.CategoryTheory.Morphisms]
opp_MorphismPair [definition, in UniMath.CategoryTheory.Morphisms]
opp_precat [library]
opp1:228 [binder, in UniMath.Algebra.RigsAndRings]
opp1:26 [binder, in UniMath.Algebra.RigsAndRings]
opp1:306 [binder, in UniMath.Algebra.BinaryOperations]
opp1:312 [binder, in UniMath.Algebra.BinaryOperations]
opp1:314 [binder, in UniMath.Algebra.RigsAndRings]
opp1:315 [binder, in UniMath.Algebra.BinaryOperations]
opp1:321 [binder, in UniMath.Algebra.BinaryOperations]
opp1:324 [binder, in UniMath.Algebra.BinaryOperations]
opp1:327 [binder, in UniMath.Algebra.BinaryOperations]
opp1:330 [binder, in UniMath.Algebra.BinaryOperations]
opp1:334 [binder, in UniMath.Algebra.BinaryOperations]
opp1:339 [binder, in UniMath.Algebra.BinaryOperations]
opp1:342 [binder, in UniMath.Algebra.BinaryOperations]
opp1:348 [binder, in UniMath.Algebra.BinaryOperations]
opp1:358 [binder, in UniMath.Algebra.BinaryOperations]
opp1:362 [binder, in UniMath.Algebra.BinaryOperations]
opp1:366 [binder, in UniMath.Algebra.BinaryOperations]
opp1:370 [binder, in UniMath.Algebra.BinaryOperations]
opp1:374 [binder, in UniMath.Algebra.BinaryOperations]
opp1:378 [binder, in UniMath.Algebra.BinaryOperations]
opp1:382 [binder, in UniMath.Algebra.BinaryOperations]
opp1:386 [binder, in UniMath.Algebra.BinaryOperations]
opp1:391 [binder, in UniMath.Algebra.BinaryOperations]
opp1:396 [binder, in UniMath.Algebra.BinaryOperations]
opp1:399 [binder, in UniMath.Algebra.BinaryOperations]
opp1:402 [binder, in UniMath.Algebra.BinaryOperations]
opp1:408 [binder, in UniMath.Algebra.BinaryOperations]
opp1:412 [binder, in UniMath.Algebra.BinaryOperations]
opp1:416 [binder, in UniMath.Algebra.BinaryOperations]
opp1:420 [binder, in UniMath.Algebra.BinaryOperations]
opp1:424 [binder, in UniMath.Algebra.BinaryOperations]
opp1:428 [binder, in UniMath.Algebra.BinaryOperations]
opp1:432 [binder, in UniMath.Algebra.BinaryOperations]
opp1:436 [binder, in UniMath.Algebra.BinaryOperations]
opp1:439 [binder, in UniMath.Algebra.BinaryOperations]
opp1:446 [binder, in UniMath.Algebra.BinaryOperations]
opp1:453 [binder, in UniMath.Algebra.BinaryOperations]
opp1:458 [binder, in UniMath.Algebra.BinaryOperations]
opp1:465 [binder, in UniMath.Algebra.BinaryOperations]
opp1:472 [binder, in UniMath.Algebra.BinaryOperations]
opp1:479 [binder, in UniMath.Algebra.BinaryOperations]
opp1:485 [binder, in UniMath.Algebra.BinaryOperations]
opp1:490 [binder, in UniMath.Algebra.BinaryOperations]
opp1:495 [binder, in UniMath.Algebra.BinaryOperations]
opp1:499 [binder, in UniMath.Algebra.BinaryOperations]
opp1:504 [binder, in UniMath.Algebra.BinaryOperations]
opp1:508 [binder, in UniMath.Algebra.BinaryOperations]
opp1:511 [binder, in UniMath.Algebra.BinaryOperations]
opp1:514 [binder, in UniMath.Algebra.BinaryOperations]
opp1:518 [binder, in UniMath.Algebra.BinaryOperations]
opp1:521 [binder, in UniMath.Algebra.BinaryOperations]
opp1:524 [binder, in UniMath.Algebra.BinaryOperations]
opp1:527 [binder, in UniMath.Algebra.BinaryOperations]
opp1:531 [binder, in UniMath.Algebra.BinaryOperations]
opp1:534 [binder, in UniMath.Algebra.BinaryOperations]
opp1:729 [binder, in UniMath.Algebra.RigsAndRings]
opp2:229 [binder, in UniMath.Algebra.RigsAndRings]
opp2:27 [binder, in UniMath.Algebra.RigsAndRings]
opp2:307 [binder, in UniMath.Algebra.BinaryOperations]
opp2:313 [binder, in UniMath.Algebra.BinaryOperations]
opp2:315 [binder, in UniMath.Algebra.RigsAndRings]
opp2:316 [binder, in UniMath.Algebra.BinaryOperations]
opp2:322 [binder, in UniMath.Algebra.BinaryOperations]
opp2:325 [binder, in UniMath.Algebra.BinaryOperations]
opp2:328 [binder, in UniMath.Algebra.BinaryOperations]
opp2:331 [binder, in UniMath.Algebra.BinaryOperations]
opp2:335 [binder, in UniMath.Algebra.BinaryOperations]
opp2:340 [binder, in UniMath.Algebra.BinaryOperations]
opp2:343 [binder, in UniMath.Algebra.BinaryOperations]
opp2:349 [binder, in UniMath.Algebra.BinaryOperations]
opp2:359 [binder, in UniMath.Algebra.BinaryOperations]
opp2:363 [binder, in UniMath.Algebra.BinaryOperations]
opp2:367 [binder, in UniMath.Algebra.BinaryOperations]
opp2:371 [binder, in UniMath.Algebra.BinaryOperations]
opp2:375 [binder, in UniMath.Algebra.BinaryOperations]
opp2:379 [binder, in UniMath.Algebra.BinaryOperations]
opp2:383 [binder, in UniMath.Algebra.BinaryOperations]
opp2:387 [binder, in UniMath.Algebra.BinaryOperations]
opp2:392 [binder, in UniMath.Algebra.BinaryOperations]
opp2:397 [binder, in UniMath.Algebra.BinaryOperations]
opp2:400 [binder, in UniMath.Algebra.BinaryOperations]
opp2:403 [binder, in UniMath.Algebra.BinaryOperations]
opp2:409 [binder, in UniMath.Algebra.BinaryOperations]
opp2:413 [binder, in UniMath.Algebra.BinaryOperations]
opp2:417 [binder, in UniMath.Algebra.BinaryOperations]
opp2:421 [binder, in UniMath.Algebra.BinaryOperations]
opp2:425 [binder, in UniMath.Algebra.BinaryOperations]
opp2:429 [binder, in UniMath.Algebra.BinaryOperations]
opp2:433 [binder, in UniMath.Algebra.BinaryOperations]
opp2:437 [binder, in UniMath.Algebra.BinaryOperations]
opp2:440 [binder, in UniMath.Algebra.BinaryOperations]
opp2:447 [binder, in UniMath.Algebra.BinaryOperations]
opp2:454 [binder, in UniMath.Algebra.BinaryOperations]
opp2:459 [binder, in UniMath.Algebra.BinaryOperations]
opp2:466 [binder, in UniMath.Algebra.BinaryOperations]
opp2:473 [binder, in UniMath.Algebra.BinaryOperations]
opp2:480 [binder, in UniMath.Algebra.BinaryOperations]
opp2:486 [binder, in UniMath.Algebra.BinaryOperations]
opp2:491 [binder, in UniMath.Algebra.BinaryOperations]
opp2:496 [binder, in UniMath.Algebra.BinaryOperations]
opp2:500 [binder, in UniMath.Algebra.BinaryOperations]
opp2:505 [binder, in UniMath.Algebra.BinaryOperations]
opp2:509 [binder, in UniMath.Algebra.BinaryOperations]
opp2:512 [binder, in UniMath.Algebra.BinaryOperations]
opp2:515 [binder, in UniMath.Algebra.BinaryOperations]
opp2:519 [binder, in UniMath.Algebra.BinaryOperations]
opp2:522 [binder, in UniMath.Algebra.BinaryOperations]
opp2:525 [binder, in UniMath.Algebra.BinaryOperations]
opp2:528 [binder, in UniMath.Algebra.BinaryOperations]
opp2:532 [binder, in UniMath.Algebra.BinaryOperations]
opp2:535 [binder, in UniMath.Algebra.BinaryOperations]
opp2:730 [binder, in UniMath.Algebra.RigsAndRings]
opp:104 [binder, in UniMath.Algebra.BinaryOperations]
opp:1058 [binder, in UniMath.Algebra.BinaryOperations]
opp:1063 [binder, in UniMath.Algebra.BinaryOperations]
opp:108 [binder, in UniMath.Algebra.BinaryOperations]
opp:11 [binder, in UniMath.Algebra.BinaryOperations]
opp:11 [binder, in UniMath.Tactics.Abmonoids_Tactics]
opp:113 [binder, in UniMath.Algebra.BinaryOperations]
opp:117 [binder, in UniMath.Algebra.BinaryOperations]
opp:121 [binder, in UniMath.Algebra.BinaryOperations]
opp:127 [binder, in UniMath.Algebra.BinaryOperations]
opp:131 [binder, in UniMath.Algebra.BinaryOperations]
opp:135 [binder, in UniMath.Algebra.BinaryOperations]
opp:14 [binder, in UniMath.Algebra.BinaryOperations]
opp:14 [binder, in UniMath.Algebra.Domains_and_Fields]
opp:140 [binder, in UniMath.Algebra.BinaryOperations]
opp:143 [binder, in UniMath.Algebra.BinaryOperations]
opp:148 [binder, in UniMath.Algebra.BinaryOperations]
opp:150 [binder, in UniMath.Algebra.BinaryOperations]
opp:153 [binder, in UniMath.Algebra.BinaryOperations]
opp:156 [binder, in UniMath.Algebra.BinaryOperations]
opp:159 [binder, in UniMath.Algebra.BinaryOperations]
opp:171 [binder, in UniMath.Algebra.BinaryOperations]
opp:173 [binder, in UniMath.PAdics.lemmas]
opp:179 [binder, in UniMath.PAdics.lemmas]
opp:18 [binder, in UniMath.Algebra.BinaryOperations]
opp:183 [binder, in UniMath.Algebra.BinaryOperations]
opp:185 [binder, in UniMath.PAdics.lemmas]
opp:19 [binder, in UniMath.Tactics.Abmonoids_Tactics]
opp:194 [binder, in UniMath.Algebra.BinaryOperations]
opp:196 [binder, in UniMath.Algebra.BinaryOperations]
opp:2 [binder, in UniMath.Tactics.Abmonoids_Tactics]
opp:2 [binder, in UniMath.Algebra.Domains_and_Fields]
opp:22 [binder, in UniMath.Algebra.BinaryOperations]
opp:234 [binder, in UniMath.Algebra.BinaryOperations]
opp:238 [binder, in UniMath.Algebra.BinaryOperations]
opp:240 [binder, in UniMath.Algebra.BinaryOperations]
opp:242 [binder, in UniMath.Algebra.BinaryOperations]
opp:246 [binder, in UniMath.Algebra.BinaryOperations]
opp:248 [binder, in UniMath.Algebra.BinaryOperations]
opp:25 [binder, in UniMath.Tactics.Abmonoids_Tactics]
opp:251 [binder, in UniMath.Algebra.BinaryOperations]
opp:253 [binder, in UniMath.Algebra.BinaryOperations]
opp:260 [binder, in UniMath.Algebra.BinaryOperations]
opp:27 [binder, in UniMath.Algebra.BinaryOperations]
opp:272 [binder, in UniMath.Algebra.BinaryOperations]
opp:284 [binder, in UniMath.Algebra.BinaryOperations]
opp:288 [binder, in UniMath.Algebra.BinaryOperations]
opp:293 [binder, in UniMath.Algebra.BinaryOperations]
opp:295 [binder, in UniMath.Algebra.BinaryOperations]
opp:299 [binder, in UniMath.Algebra.BinaryOperations]
opp:3 [binder, in UniMath.Algebra.BinaryOperations]
opp:301 [binder, in UniMath.Algebra.BinaryOperations]
opp:304 [binder, in UniMath.Algebra.BinaryOperations]
opp:33 [binder, in UniMath.Algebra.BinaryOperations]
opp:33 [binder, in UniMath.Tactics.Abmonoids_Tactics]
opp:37 [binder, in UniMath.Algebra.BinaryOperations]
opp:39 [binder, in UniMath.Tactics.Abmonoids_Tactics]
opp:42 [binder, in UniMath.Algebra.BinaryOperations]
opp:44 [binder, in UniMath.Algebra.BinaryOperations]
opp:46 [binder, in UniMath.Tactics.Abmonoids_Tactics]
opp:48 [binder, in UniMath.Algebra.BinaryOperations]
opp:5 [binder, in UniMath.Tactics.Abmonoids_Tactics]
opp:51 [binder, in UniMath.Algebra.BinaryOperations]
opp:52 [binder, in UniMath.Tactics.Abmonoids_Tactics]
opp:540 [binder, in UniMath.Algebra.BinaryOperations]
opp:546 [binder, in UniMath.Algebra.BinaryOperations]
opp:55 [binder, in UniMath.Algebra.BinaryOperations]
opp:553 [binder, in UniMath.Algebra.BinaryOperations]
opp:558 [binder, in UniMath.Algebra.BinaryOperations]
opp:563 [binder, in UniMath.Algebra.BinaryOperations]
opp:567 [binder, in UniMath.Algebra.BinaryOperations]
opp:571 [binder, in UniMath.Algebra.BinaryOperations]
opp:58 [binder, in UniMath.Algebra.BinaryOperations]
opp:580 [binder, in UniMath.Algebra.BinaryOperations]
opp:587 [binder, in UniMath.Algebra.BinaryOperations]
opp:59 [binder, in UniMath.Tactics.Abmonoids_Tactics]
opp:594 [binder, in UniMath.Algebra.BinaryOperations]
opp:601 [binder, in UniMath.Algebra.BinaryOperations]
opp:605 [binder, in UniMath.Algebra.BinaryOperations]
opp:609 [binder, in UniMath.Algebra.BinaryOperations]
opp:61 [binder, in UniMath.Algebra.BinaryOperations]
opp:613 [binder, in UniMath.Algebra.BinaryOperations]
opp:65 [binder, in UniMath.Tactics.Abmonoids_Tactics]
opp:66 [binder, in UniMath.Algebra.BinaryOperations]
opp:661 [binder, in UniMath.Algebra.BinaryOperations]
opp:667 [binder, in UniMath.Algebra.BinaryOperations]
opp:674 [binder, in UniMath.Algebra.BinaryOperations]
opp:679 [binder, in UniMath.Algebra.BinaryOperations]
opp:684 [binder, in UniMath.Algebra.BinaryOperations]
opp:688 [binder, in UniMath.Algebra.BinaryOperations]
opp:69 [binder, in UniMath.Algebra.BinaryOperations]
opp:692 [binder, in UniMath.Algebra.BinaryOperations]
opp:7 [binder, in UniMath.Algebra.BinaryOperations]
opp:701 [binder, in UniMath.Algebra.BinaryOperations]
opp:708 [binder, in UniMath.Algebra.BinaryOperations]
opp:715 [binder, in UniMath.Algebra.BinaryOperations]
opp:722 [binder, in UniMath.Algebra.BinaryOperations]
opp:726 [binder, in UniMath.Algebra.BinaryOperations]
opp:73 [binder, in UniMath.Algebra.BinaryOperations]
opp:730 [binder, in UniMath.Algebra.BinaryOperations]
opp:734 [binder, in UniMath.Algebra.BinaryOperations]
opp:77 [binder, in UniMath.Algebra.BinaryOperations]
opp:781 [binder, in UniMath.Algebra.BinaryOperations]
opp:79 [binder, in UniMath.Algebra.BinaryOperations]
opp:8 [binder, in UniMath.Algebra.Domains_and_Fields]
opp:83 [binder, in UniMath.Algebra.BinaryOperations]
opp:85 [binder, in UniMath.Algebra.BinaryOperations]
opp:88 [binder, in UniMath.Algebra.BinaryOperations]
opp:91 [binder, in UniMath.Algebra.BinaryOperations]
opp:94 [binder, in UniMath.Algebra.BinaryOperations]
opp:97 [binder, in UniMath.Algebra.BinaryOperations]
opp:99 [binder, in UniMath.Algebra.BinaryOperations]
ops [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
ops [definition, in UniMath.Algebra.Universal.Algebras]
ops [definition, in UniMath.SubstitutionSystems.MultiSorted]
ops:13 [binder, in UniMath.Algebra.Universal.Algebras]
ops:23 [binder, in UniMath.Algebra.Universal.Algebras]
ops:27 [binder, in UniMath.Algebra.Universal.Algebras]
option_functor [definition, in UniMath.CategoryTheory.limits.bincoproducts]
option_list [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
option_fun_summand [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
option_DistributiveLaw [definition, in UniMath.SubstitutionSystems.SignatureExamples]
option_list [definition, in UniMath.SubstitutionSystems.MultiSorted]
op_mor [definition, in UniMath.CategoryTheory.opp_precat]
op_ob [definition, in UniMath.CategoryTheory.opp_precat]
op_unicat [definition, in UniMath.CategoryTheory.opp_precat]
op_is_univalent [definition, in UniMath.CategoryTheory.opp_precat]
op_category [definition, in UniMath.CategoryTheory.opp_precat]
op_iso_is_cat_iso [definition, in UniMath.CategoryTheory.opp_precat]
op_nt [definition, in UniMath.CategoryTheory.opp_precat]
op_cat [definition, in UniMath.CategoryTheory.opp_precat]
op_le_r' [lemma, in UniMath.Algebra.Lattice]
op_le_r [lemma, in UniMath.Algebra.Lattice]
op_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
op_psfunctor_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
op_psfunctor_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
op':23 [binder, in UniMath.Algebra.Matrix]
op1 [definition, in UniMath.Algebra.BinaryOperations]
op1 [definition, in UniMath.Algebra.Apartness]
op1_bicat_is_univalent_2 [definition, in UniMath.Bicategories.Core.UnivalenceOp]
op1_bicat_is_univalent_2_0 [definition, in UniMath.Bicategories.Core.UnivalenceOp]
op1_bicat_idtoiso_2_0_alt [definition, in UniMath.Bicategories.Core.UnivalenceOp]
op1_bicat_is_univalent_2_1 [definition, in UniMath.Bicategories.Core.UnivalenceOp]
op1_bicat_idtoiso_2_1_alt [definition, in UniMath.Bicategories.Core.UnivalenceOp]
op1_bicat_left_adjoint_equivalence_is_bicat_left_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_bicat_left_adjoint_equivalence_to_bicat_left_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_bicat_is_invertible_2cell_is_bicat_is_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_bicat_is_invertible_2cell_to_bicat_is_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_bicat [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_isaset_cells [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_prebicat [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_prebicat_laws [lemma, in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_prebicat_data [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_2cell_struct [definition, in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1:617 [binder, in UniMath.Algebra.BinaryOperations]
op1:622 [binder, in UniMath.Algebra.BinaryOperations]
op1:629 [binder, in UniMath.Algebra.BinaryOperations]
op1:634 [binder, in UniMath.Algebra.BinaryOperations]
op1:639 [binder, in UniMath.Algebra.BinaryOperations]
op1:646 [binder, in UniMath.Algebra.BinaryOperations]
op1:651 [binder, in UniMath.Algebra.BinaryOperations]
op1:656 [binder, in UniMath.Algebra.BinaryOperations]
op1:738 [binder, in UniMath.Algebra.BinaryOperations]
op1:743 [binder, in UniMath.Algebra.BinaryOperations]
op1:750 [binder, in UniMath.Algebra.BinaryOperations]
op1:755 [binder, in UniMath.Algebra.BinaryOperations]
op1:760 [binder, in UniMath.Algebra.BinaryOperations]
op1:767 [binder, in UniMath.Algebra.BinaryOperations]
op1:772 [binder, in UniMath.Algebra.BinaryOperations]
op1:777 [binder, in UniMath.Algebra.BinaryOperations]
op2 [definition, in UniMath.Algebra.BinaryOperations]
op2 [definition, in UniMath.Algebra.Apartness]
op2 [section, in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_bicat_is_univalent_2 [definition, in UniMath.Bicategories.Core.UnivalenceOp]
op2_bicat_is_univalent_2_0 [definition, in UniMath.Bicategories.Core.UnivalenceOp]
op2_bicat_idtoiso_2_0_alt [definition, in UniMath.Bicategories.Core.UnivalenceOp]
op2_bicat_is_univalent_2_1 [definition, in UniMath.Bicategories.Core.UnivalenceOp]
op2_bicat_idtoiso_2_1_alt [definition, in UniMath.Bicategories.Core.UnivalenceOp]
op2_bicat_left_adjoint_equivalence_is_bicat_left_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_bicat_left_adjoint_equivalence_to_bicat_left_adjoint_equivalence [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_bicat_is_invertible_2cell_is_bicat_is_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_bicat_is_invertible_2cell_to_bicat_is_invertible_2cell [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_bicat [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_isaset_cells [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_prebicat [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_prebicat_laws [lemma, in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_prebicat_data [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_2cell_struct [definition, in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2.C [variable, in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2:618 [binder, in UniMath.Algebra.BinaryOperations]
op2:623 [binder, in UniMath.Algebra.BinaryOperations]
op2:630 [binder, in UniMath.Algebra.BinaryOperations]
op2:635 [binder, in UniMath.Algebra.BinaryOperations]
op2:640 [binder, in UniMath.Algebra.BinaryOperations]
op2:647 [binder, in UniMath.Algebra.BinaryOperations]
op2:652 [binder, in UniMath.Algebra.BinaryOperations]
op2:657 [binder, in UniMath.Algebra.BinaryOperations]
op2:739 [binder, in UniMath.Algebra.BinaryOperations]
op2:744 [binder, in UniMath.Algebra.BinaryOperations]
op2:751 [binder, in UniMath.Algebra.BinaryOperations]
op2:756 [binder, in UniMath.Algebra.BinaryOperations]
op2:761 [binder, in UniMath.Algebra.BinaryOperations]
op2:768 [binder, in UniMath.Algebra.BinaryOperations]
op2:773 [binder, in UniMath.Algebra.BinaryOperations]
op2:778 [binder, in UniMath.Algebra.BinaryOperations]
op:11 [binder, in UniMath.RealNumbers.Sets]
op:146 [binder, in UniMath.Algebra.IteratedBinaryOperations]
op:149 [binder, in UniMath.Algebra.IteratedBinaryOperations]
op:15 [binder, in UniMath.Algebra.Universal.Signatures]
op:158 [binder, in UniMath.Algebra.IteratedBinaryOperations]
op:18 [binder, in UniMath.RealNumbers.Sets]
op:211 [binder, in UniMath.Algebra.Universal.Terms]
op:22 [binder, in UniMath.Algebra.Matrix]
op:220 [binder, in UniMath.Algebra.Universal.Terms]
op:3 [binder, in UniMath.Algebra.Matrix]
op:3 [binder, in UniMath.Algebra.Tests]
op:3 [binder, in UniMath.Algebra.IteratedBinaryOperations]
op:34 [binder, in UniMath.SubstitutionSystems.MultiSorted]
op:35 [binder, in UniMath.Algebra.Universal.VTerms]
op:35 [binder, in UniMath.SubstitutionSystems.MultiSorted]
op:4 [binder, in UniMath.RealNumbers.Sets]
op:40 [binder, in UniMath.Algebra.Universal.VTerms]
op:40 [binder, in UniMath.Algebra.Matrix]
op:46 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
op:47 [binder, in UniMath.Algebra.Universal.VTerms]
op:47 [binder, in UniMath.Algebra.Matrix]
op:47 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
op:59 [binder, in UniMath.Algebra.Apartness]
op:63 [binder, in UniMath.Algebra.Apartness]
op:65 [binder, in UniMath.Algebra.Apartness]
op:69 [binder, in UniMath.Algebra.Apartness]
op:73 [binder, in UniMath.Algebra.Apartness]
op:75 [binder, in UniMath.Algebra.Apartness]
op:77 [binder, in UniMath.Algebra.Apartness]
op:79 [binder, in UniMath.Algebra.Apartness]
op:81 [binder, in UniMath.Algebra.Apartness]
op:83 [binder, in UniMath.Algebra.Apartness]
op:9 [binder, in UniMath.Algebra.Matrix]
orb [definition, in UniMath.MoreFoundations.Bool]
OrderedSet [definition, in UniMath.Combinatorics.OrderedSets]
OrderedSetEquivalence_rect [lemma, in UniMath.Combinatorics.OrderedSets]
OrderedSets [section, in UniMath.Combinatorics.WellFoundedRelations]
OrderedSets [library]
_ < _ [notation, in UniMath.Combinatorics.WellFoundedRelations]
OrderedSet_univalence [lemma, in UniMath.Combinatorics.OrderedSets]
OrderedSet_istotal [definition, in UniMath.Combinatorics.OrderedSets]
OrderedSet_isantisymm [definition, in UniMath.Combinatorics.OrderedSets]
OrderedSet_isrefl [definition, in UniMath.Combinatorics.OrderedSets]
or:16 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
or:22 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
or:28 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
or:34 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
OtherProperties [section, in UniMath.Combinatorics.OrderedSets]
OtherProperties.apart [variable, in UniMath.Combinatorics.OrderedSets]
OtherProperties.ClassicalProperties [section, in UniMath.Combinatorics.OrderedSets]
OtherProperties.ClassicalProperties.lem [variable, in UniMath.Combinatorics.OrderedSets]
OtherProperties.ic [variable, in UniMath.Combinatorics.OrderedSets]
OtherProperties.le [variable, in UniMath.Combinatorics.OrderedSets]
OtherProperties.lt [variable, in UniMath.Combinatorics.OrderedSets]
OtherProperties.max [variable, in UniMath.Combinatorics.OrderedSets]
OtherProperties.min [variable, in UniMath.Combinatorics.OrderedSets]
OtherProperties.X [variable, in UniMath.Combinatorics.OrderedSets]
other_adjoint [lemma, in UniMath.MoreFoundations.Equivalences]
otimes_U_functor_ok [lemma, in UniMath.CategoryTheory.Monoidal.Actions]
otimes_U_functor [definition, in UniMath.CategoryTheory.Monoidal.Actions]
Overview [section, in UniMath.Algebra.FixedPointTheorems]
over_terminal_category.C [variable, in UniMath.CategoryTheory.DisplayedCats.Examples]
over_terminal_category [section, in UniMath.CategoryTheory.DisplayedCats.Examples]
O':24 [binder, in UniMath.CategoryTheory.limits.graphs.initial]
O':26 [binder, in UniMath.CategoryTheory.limits.graphs.initial]
O':32 [binder, in UniMath.CategoryTheory.limits.initial]
O':35 [binder, in UniMath.CategoryTheory.limits.initial]
o:102 [binder, in UniMath.CategoryTheory.Monads.Derivative]
O:1028 [binder, in UniMath.HomologicalAlgebra.Triangulated]
o:104 [binder, in UniMath.Induction.M.Chains]
O:1070 [binder, in UniMath.HomologicalAlgebra.Triangulated]
O:11 [binder, in UniMath.Algebra.Universal.Signatures]
O:11 [binder, in UniMath.Topology.Topology]
O:11 [binder, in UniMath.CategoryTheory.limits.graphs.initial]
o:111 [binder, in UniMath.Induction.M.Chains]
o:118 [binder, in UniMath.Induction.M.Chains]
O:12 [binder, in UniMath.CategoryTheory.SubobjectClassifier]
O:12 [binder, in UniMath.CategoryTheory.limits.graphs.initial]
o:125 [binder, in UniMath.Induction.M.Chains]
O:13 [binder, in UniMath.Algebra.Universal.Signatures]
o:132 [binder, in UniMath.Induction.M.Chains]
o:139 [binder, in UniMath.Induction.M.Chains]
O:14 [binder, in UniMath.Topology.Topology]
o:145 [binder, in UniMath.Induction.M.Chains]
O:147 [binder, in UniMath.Topology.Topology]
o:151 [binder, in UniMath.Induction.M.Chains]
o:157 [binder, in UniMath.Induction.M.Chains]
O:16 [binder, in UniMath.CategoryTheory.limits.initial]
o:163 [binder, in UniMath.Induction.M.Chains]
o:167 [binder, in UniMath.Induction.M.Chains]
O:171 [binder, in UniMath.Topology.Topology]
o:171 [binder, in UniMath.Induction.M.Chains]
O:173 [binder, in UniMath.Topology.Topology]
O:176 [binder, in UniMath.Topology.Topology]
O:19 [binder, in UniMath.CategoryTheory.limits.initial]
o:194 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
o:194 [binder, in UniMath.Induction.M.Chains]
o:195 [binder, in UniMath.Induction.M.Chains]
o:198 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
O:2 [binder, in UniMath.Algebra.Universal.Signatures]
O:2 [binder, in UniMath.Topology.Topology]
O:20 [binder, in UniMath.Topology.Topology]
O:21 [binder, in UniMath.CategoryTheory.SubobjectClassifier]
O:21 [binder, in UniMath.CategoryTheory.limits.graphs.initial]
O:23 [binder, in UniMath.CategoryTheory.limits.graphs.initial]
O:25 [binder, in UniMath.CategoryTheory.limits.graphs.initial]
O:3 [binder, in UniMath.CategoryTheory.SubobjectClassifier]
O:3 [binder, in UniMath.AlgebraicGeometry.Topology]
o:306 [binder, in UniMath.PAdics.padics]
o:307 [binder, in UniMath.PAdics.padics]
O:31 [binder, in UniMath.CategoryTheory.limits.initial]
o:320 [binder, in UniMath.PAdics.padics]
o:321 [binder, in UniMath.PAdics.padics]
O:34 [binder, in UniMath.CategoryTheory.limits.initial]
O:36 [binder, in UniMath.Topology.Topology]
O:383 [binder, in UniMath.HomologicalAlgebra.Triangulated]
O:402 [binder, in UniMath.HomologicalAlgebra.Triangulated]
O:42 [binder, in UniMath.CategoryTheory.SubobjectClassifier]
O:421 [binder, in UniMath.HomologicalAlgebra.Triangulated]
O:440 [binder, in UniMath.HomologicalAlgebra.Triangulated]
O:459 [binder, in UniMath.HomologicalAlgebra.Triangulated]
O:478 [binder, in UniMath.HomologicalAlgebra.Triangulated]
O:497 [binder, in UniMath.HomologicalAlgebra.Triangulated]
o:54 [binder, in UniMath.CategoryTheory.Monads.Derivative]
O:7 [binder, in UniMath.CategoryTheory.limits.initial]
o:7 [binder, in UniMath.CategoryTheory.Chains.Cochains]
o:70 [binder, in UniMath.Combinatorics.FiniteSequences]
O:776 [binder, in UniMath.HomologicalAlgebra.Triangulated]
o:8 [binder, in UniMath.CategoryTheory.Chains.Cochains]
o:8 [binder, in UniMath.Induction.PolynomialFunctors]
O:818 [binder, in UniMath.HomologicalAlgebra.Triangulated]
O:860 [binder, in UniMath.HomologicalAlgebra.Triangulated]
o:89 [binder, in UniMath.Induction.M.Chains]
O:9 [binder, in UniMath.CategoryTheory.limits.initial]
O:902 [binder, in UniMath.HomologicalAlgebra.Triangulated]
O:94 [binder, in UniMath.Topology.Topology]
O:944 [binder, in UniMath.HomologicalAlgebra.Triangulated]
o:96 [binder, in UniMath.Induction.M.Chains]
O:986 [binder, in UniMath.HomologicalAlgebra.Triangulated]

P

P [definition, in UniMath.Induction.M.ComputationalM]
P [definition, in UniMath.Combinatorics.Tests]
Pab:101 [binder, in UniMath.CategoryTheory.limits.binproducts]
Pab:105 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
Pab:109 [binder, in UniMath.CategoryTheory.limits.binproducts]
Pab:117 [binder, in UniMath.CategoryTheory.limits.binproducts]
Pab:81 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
Pab:89 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
Pab:93 [binder, in UniMath.CategoryTheory.limits.binproducts]
Pab:97 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
padicapart [definition, in UniMath.PAdics.padics]
padicapartandplusprecarryl [lemma, in UniMath.PAdics.padics]
padicapartandplusprecarryr [lemma, in UniMath.PAdics.padics]
padicapartandtimesprecarryl [lemma, in UniMath.PAdics.padics]
padicapartcomputation [lemma, in UniMath.PAdics.padics]
padicapartiscomprel [lemma, in UniMath.PAdics.padics]
padicapart0 [definition, in UniMath.PAdics.padics]
padicapart1 [definition, in UniMath.PAdics.padics]
padicintegers [definition, in UniMath.PAdics.padics]
padicintsareintdom [lemma, in UniMath.PAdics.padics]
padicone [definition, in UniMath.PAdics.padics]
padiconecomputation [lemma, in UniMath.PAdics.padics]
padicplus [definition, in UniMath.PAdics.padics]
padicplusisbinopapartl [lemma, in UniMath.PAdics.padics]
padicplusisbinopapartr [lemma, in UniMath.PAdics.padics]
padicplusisbinopapart0 [lemma, in UniMath.PAdics.padics]
padics [definition, in UniMath.PAdics.padics]
padics [library]
padictimes [definition, in UniMath.PAdics.padics]
padictimesisbinopapartl [lemma, in UniMath.PAdics.padics]
padictimesisbinopapartr [lemma, in UniMath.PAdics.padics]
padictimesisbinopapart0 [lemma, in UniMath.PAdics.padics]
padiczero [definition, in UniMath.PAdics.padics]
padiczerocomputation [lemma, in UniMath.PAdics.padics]
Pair [definition, in UniMath.Induction.ImpredicativeInductiveSets]
paircell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
pairConjunction [definition, in UniMath.MoreFoundations.DecidablePropositions]
pairDisjunction [definition, in UniMath.MoreFoundations.DecidablePropositions]
pairEffectivelyOrderedSet [definition, in UniMath.RealNumbers.Sets]
pairEffectiveOrder [definition, in UniMath.RealNumbers.Sets]
pairGreatestLowerBound [definition, in UniMath.RealNumbers.Sets]
pairLeastUpperBound [definition, in UniMath.RealNumbers.Sets]
pairmor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
pairNegation [definition, in UniMath.MoreFoundations.DecidablePropositions]
pairobj [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
PairPullbackKernel [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PairPullbackMap [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PairPushoutCokernel [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PairPushoutMap [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pairSequence [definition, in UniMath.Topology.Prelim]
pairStrongOrder [definition, in UniMath.Algebra.Lattice]
pairStrongOrder [definition, in UniMath.RealNumbers.Sets]
PairToCokernel [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PairToKernel [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PairUniqueness1 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PairUniqueness2 [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pair_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
pair_functor_data [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
pair_falsehood [lemma, in UniMath.MoreFoundations.DecidablePropositions]
pair_truth [lemma, in UniMath.MoreFoundations.DecidablePropositions]
pair_contradiction [definition, in UniMath.MoreFoundations.DecidablePropositions]
pair_disp_adjequiv_to_sigma_disp_adjequiv_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_adjequiv_to_sigma_disp_adjequiv_weq_help [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_adjequiv_to_sigma_disp_adjequiv_inv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_adjequiv_to_sigma_disp_adjequiv_inv_pr2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_adjequiv_to_sigma_disp_adjequiv_inv_pr1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_adjequiv_to_sigma_disp_adjequiv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_invertible_to_sigma_disp_invertible_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_invertible_to_sigma_disp_invertible [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_inj [lemma, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
pair_functor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
pair_functor_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
pair_adjoint_equivalence_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pair_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pair_left_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pair_disp_invertible_2cell_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pair_disp_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pair_is_disp_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pair_2cell_comp [definition, in UniMath.Bicategories.Colimits.Products]
pair_2cell_id_id [definition, in UniMath.Bicategories.Colimits.Products]
pair_1cell_comp_invertible [definition, in UniMath.Bicategories.Colimits.Products]
pair_1cell_comp [definition, in UniMath.Bicategories.Colimits.Products]
pair_1cell_id_id_invertible [definition, in UniMath.Bicategories.Colimits.Products]
pair_1cell_id_id [definition, in UniMath.Bicategories.Colimits.Products]
pair_2cell_pr2_alt [definition, in UniMath.Bicategories.Colimits.Products]
pair_2cell_pr1_alt [definition, in UniMath.Bicategories.Colimits.Products]
pair_2cell_pr2 [definition, in UniMath.Bicategories.Colimits.Products]
pair_2cell_pr1 [definition, in UniMath.Bicategories.Colimits.Products]
pair_2cell [definition, in UniMath.Bicategories.Colimits.Products]
pair_1cell_pr2 [definition, in UniMath.Bicategories.Colimits.Products]
pair_1cell_pr1 [definition, in UniMath.Bicategories.Colimits.Products]
pair_1cell [definition, in UniMath.Bicategories.Colimits.Products]
pair_path_in2_comp1 [definition, in UniMath.MoreFoundations.PartA]
pair_path2 [definition, in UniMath.MoreFoundations.PartA]
pair_path_props [definition, in UniMath.MoreFoundations.PartA]
pair_path_in2 [definition, in UniMath.Foundations.PartA]
pair:16 [binder, in UniMath.MoreFoundations.WeakEquivalences]
pair:17 [binder, in UniMath.MoreFoundations.WeakEquivalences]
pair:18 [binder, in UniMath.MoreFoundations.WeakEquivalences]
pair:19 [binder, in UniMath.MoreFoundations.WeakEquivalences]
pair:30 [binder, in UniMath.Induction.W.Naturals]
pair:31 [binder, in UniMath.Induction.W.Naturals]
pair:42 [binder, in UniMath.Induction.M.Chains]
pair:44 [binder, in UniMath.Induction.M.Chains]
pair:72 [binder, in UniMath.Induction.M.Chains]
pair:74 [binder, in UniMath.Induction.M.Chains]
parameterized_distributivity_to_nat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
parameterized_distributivity_eq [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
parameterized_distributivity [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
parameterized_distributivity_nat_funclass [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
parameterized_distributivity_nat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
parameterized_distributivity_nat_as_instance [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
parameterized_distributivity_bicat_nat_funclass [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
parameterized_distributivity_bicat_nat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
param_distr_pentagon_eq_body_variant_implies [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_pentagon_eq_body_variant_follows [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_pentagon_eq_body_variant [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_pentagon_eq_body_variant_RHS [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_pentagon_eq [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_pentagon_eq_body [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_pentagon_eq_body_RHS [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant_implies [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant_follows [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant0_implies [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant0_follows [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant0 [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant0_RHS [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distributivity_codom [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distributivity_dom [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_bicat_pentagon_eq_variant [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
param_distr_bicat_triangle_eq_variant0 [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
param_distr_bicat_pentagon_eq_body_variant_RHS [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
param_distr_bicat_pentagon_eq_body_RHS [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
param_distr_bicat_triangle_eq_variant0_RHS [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
PartA [library]
PartA [library]
PartB [library]
PartC [library]
PartD [library]
PartD [library]
PartialOrder [definition, in UniMath.Foundations.Sets]
PartialOrder_filter_le [definition, in UniMath.Topology.Filters]
partial_sum_slot [lemma, in UniMath.Combinatorics.StandardFiniteSets]
partial_sum_prop [lemma, in UniMath.Combinatorics.StandardFiniteSets]
partial_sum_prop_aux [lemma, in UniMath.Combinatorics.StandardFiniteSets]
partition [definition, in UniMath.Combinatorics.FiniteSequences]
partition' [definition, in UniMath.Combinatorics.FiniteSequences]
parts_from_whole [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
Part1 [definition, in UniMath.MoreFoundations.DecidablePropositions]
Part2 [definition, in UniMath.MoreFoundations.DecidablePropositions]
PathGroupoid [library]
PathOver [definition, in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map1_map2 [lemma, in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map2_eq2 [definition, in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map2_eq1 [definition, in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map2_apd [definition, in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map2 [definition, in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map1_eq2 [definition, in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map1_eq1 [definition, in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map1 [definition, in UniMath.MoreFoundations.PathsOver]
PathOverConstant_id [definition, in UniMath.MoreFoundations.PathsOver]
pathOverEquations [lemma, in UniMath.MoreFoundations.PathsOver]
pathOverEquations1 [lemma, in UniMath.MoreFoundations.PathsOver]
pathOverIdpath [definition, in UniMath.MoreFoundations.PathsOver]
PathOverToPathPair [definition, in UniMath.MoreFoundations.PathsOver]
PathOverToTotalPath [definition, in UniMath.MoreFoundations.PathsOver]
PathOverUniqueness [lemma, in UniMath.MoreFoundations.PathsOver]
PathPair [definition, in UniMath.Foundations.PartA]
paths [inductive, in UniMath.Foundations.Preamble]
pathscomp_inv [lemma, in UniMath.Foundations.PartA]
pathscomp_cancel_right [lemma, in UniMath.Foundations.PartA]
pathscomp_cancel_left [lemma, in UniMath.Foundations.PartA]
pathscomp0 [definition, in UniMath.Foundations.PartA]
pathscomp0rid [definition, in UniMath.Foundations.PartA]
pathscomp0_dep [lemma, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
pathscomp0_disp [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
pathsdirprod [definition, in UniMath.Foundations.PartA]
pathsdirprodweq [definition, in UniMath.MoreFoundations.WeakEquivalences]
pathsdirprod_eta [definition, in UniMath.MoreFoundations.PartA]
pathseqrel [definition, in UniMath.Foundations.Sets]
pathsfuntransposofnet1t2 [lemma, in UniMath.Foundations.PartC]
pathsfuntransposoft1 [lemma, in UniMath.Foundations.PartC]
pathsfuntransposoft2 [lemma, in UniMath.Foundations.PartC]
pathshrel [definition, in UniMath.Foundations.Sets]
pathsinvcuntonweqoft [lemma, in UniMath.Foundations.PartD]
pathsinv0 [definition, in UniMath.Foundations.PartA]
pathsinv0inv0 [definition, in UniMath.Foundations.PartA]
pathsinv0l [definition, in UniMath.Foundations.PartA]
pathsinv0r [definition, in UniMath.Foundations.PartA]
pathsinv0_to_right'' [definition, in UniMath.MoreFoundations.PartA]
pathsinv0_to_right' [definition, in UniMath.MoreFoundations.PartA]
pathsinv0_to_right [definition, in UniMath.MoreFoundations.PartA]
pathsinv0_weqtopaths [lemma, in UniMath.MoreFoundations.NoInjectivePairing]
pathsitertoplus [lemma, in UniMath.Foundations.NaturalNumbers]
pathslinvtorinv [lemma, in UniMath.Algebra.Domains_and_Fields]
PathsOver [library]
PathsOverNotations [module, in UniMath.MoreFoundations.PathsOver]
_ ^-1 (pathsover) [notation, in UniMath.MoreFoundations.PathsOver]
_ ⟤ _ (pathsover) [notation, in UniMath.MoreFoundations.PathsOver]
_ ⟥ _ (pathsover) [notation, in UniMath.MoreFoundations.PathsOver]
_ * _ (pathsover) [notation, in UniMath.MoreFoundations.PathsOver]
Δ _ (pathsover) [notation, in UniMath.MoreFoundations.PathsOver]
∇ _ (pathsover) [notation, in UniMath.MoreFoundations.PathsOver]
pathsrecomplfxtoy [lemma, in UniMath.Foundations.PartC]
pathssec1 [definition, in UniMath.Foundations.PartA]
pathssec2 [definition, in UniMath.Foundations.PartA]
pathssec2id [definition, in UniMath.Foundations.PartA]
pathssec3 [definition, in UniMath.Foundations.PartA]
pathssminus [lemma, in UniMath.PAdics.lemmas]
pathsspace [definition, in UniMath.Foundations.PartA]
pathsspacetriple [definition, in UniMath.Foundations.PartA]
pathsspace' [definition, in UniMath.Foundations.PartA]
pathstonegr [definition, in UniMath.Foundations.Sets]
pathstor [definition, in UniMath.Foundations.Sets]
pathsweq1 [definition, in UniMath.Foundations.PartA]
pathsweq1' [definition, in UniMath.Foundations.PartA]
pathsweq3 [definition, in UniMath.Foundations.PartA]
pathsweq4 [definition, in UniMath.Foundations.PartA]
paths_rect_step [lemma, in UniMath.Algebra.Universal.Terms]
paths_refl [constructor, in UniMath.Foundations.Preamble]
paths_from_prop [definition, in UniMath.MoreFoundations.Notations]
paths_to_prop [definition, in UniMath.MoreFoundations.Notations]
paths_to_path [definition, in UniMath.MoreFoundations.Notations]
paths_to [definition, in UniMath.MoreFoundations.Notations]
paths_from_path [definition, in UniMath.MoreFoundations.Notations]
paths_from [definition, in UniMath.MoreFoundations.Notations]
paths' [definition, in UniMath.MoreFoundations.Notations]
paths3 [definition, in UniMath.MoreFoundations.PartA]
path_groupoid_hset_is_discrete [definition, in UniMath.CategoryTheory.categories.StandardCategories]
path_groupoid_hset [definition, in UniMath.CategoryTheory.categories.StandardCategories]
path_univalent_groupoid [definition, in UniMath.CategoryTheory.categories.StandardCategories]
path_groupoid [definition, in UniMath.CategoryTheory.categories.StandardCategories]
path_pregroupoid [definition, in UniMath.CategoryTheory.categories.StandardCategories]
path_comp_inv_inv [definition, in UniMath.MoreFoundations.Equivalences]
path_inverse_from_right' [definition, in UniMath.MoreFoundations.Equivalences]
path_inverse_from_right [definition, in UniMath.MoreFoundations.Equivalences]
path_inv_rotate_rl [definition, in UniMath.MoreFoundations.Equivalences]
path_inv_rotate_ll [definition, in UniMath.MoreFoundations.Equivalences]
path_inv_rotate_rr [definition, in UniMath.MoreFoundations.Equivalences]
path_inv_rotate_lr [definition, in UniMath.MoreFoundations.Equivalences]
path_mor_E₂_to_path_mor_E₁_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
path_E₂_to_path_E₁_weq [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
path_internal_adjoint_equivalence [lemma, in UniMath.Bicategories.Core.AdjointUnique]
path_to_adj_equiv_E [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
path_E_obj [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
path_to_iso_E [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
path_E [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
path_precat [definition, in UniMath.CategoryTheory.CategoryEquality]
path_inverse_2cell [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
path_groupoid_counit_inv_counit [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_counit_inv [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data_nat_trans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data_nat_trans_is_nat_trans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data_nat_trans_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data_functor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data_functor_is_functor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data_functor_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit_inv_unit [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit_unit_inv [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit_inv [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit_inv_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit_inv_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_triangle_r [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_triangle_r_is_modification [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_triangle_r_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_triangle_l [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_triangle_l_is_modification [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_triangle_l_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_unit_counit [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data_nat_trans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data_nat_trans_is_nat_trans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data_nat_trans_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data_functor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data_functor_is_functor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data_functor_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_inv_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_invertible_cells [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_compositor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_identitor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_to_nattrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_to_adj_int_equivalence [definition, in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
path_to_ActionIsweq_iso [lemma, in UniMath.Algebra.GroupAction]
path_to_ActionIso [definition, in UniMath.Algebra.GroupAction]
path_hfp_eta [definition, in UniMath.MoreFoundations.PartA]
path_hfp [definition, in UniMath.MoreFoundations.PartA]
path_inv_rotate_2 [definition, in UniMath.MoreFoundations.PartA]
path_inverse_to_right' [definition, in UniMath.MoreFoundations.PartA]
path_inverse_to_right [definition, in UniMath.MoreFoundations.PartA]
path_end [definition, in UniMath.MoreFoundations.PartA]
path_start [definition, in UniMath.MoreFoundations.PartA]
path_type [definition, in UniMath.MoreFoundations.PartA]
path_sigma_hprop [definition, in UniMath.MoreFoundations.PartA]
path_cat [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
path_univalent_cat [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
path_to_fun [definition, in UniMath.MoreFoundations.Univalence]
path_to_ctr [lemma, in UniMath.Foundations.PartA]
path_assoc [definition, in UniMath.Foundations.PartA]
path:2 [binder, in UniMath.Induction.M.Chains]
path:23 [binder, in UniMath.CategoryTheory.Groupoids]
path:3 [binder, in UniMath.Induction.M.Chains]
PA:1 [binder, in UniMath.CategoryTheory.PreAdditive]
PA:1 [binder, in UniMath.CategoryTheory.Additive]
PA:10 [binder, in UniMath.CategoryTheory.PreAdditive]
PA:10 [binder, in UniMath.CategoryTheory.Additive]
Pa:103 [binder, in UniMath.CategoryTheory.limits.products]
PA:13 [binder, in UniMath.CategoryTheory.Additive]
PA:2 [binder, in UniMath.CategoryTheory.Additive]
pa:20 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
PA:21 [binder, in UniMath.CategoryTheory.PreAdditive]
PA:240 [binder, in UniMath.CategoryTheory.PseudoElements]
PA:250 [binder, in UniMath.CategoryTheory.PseudoElements]
PA:5 [binder, in UniMath.CategoryTheory.Additive]
pa:68 [binder, in UniMath.CategoryTheory.limits.products]
PA:7 [binder, in UniMath.CategoryTheory.Additive]
PA:70 [binder, in UniMath.CategoryTheory.PreAdditive]
PA:72 [binder, in UniMath.CategoryTheory.PreAdditive]
pa:77 [binder, in UniMath.CategoryTheory.limits.binproducts]
PA:8 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
Pa:85 [binder, in UniMath.CategoryTheory.limits.products]
PA:9 [binder, in UniMath.CategoryTheory.Additive]
Pa:94 [binder, in UniMath.CategoryTheory.limits.products]
PbmFunctor [section, in UniMath.CategoryTheory.Monads.LModules]
PbmFunctor.MOD [variable, in UniMath.CategoryTheory.Monads.LModules]
pbmid [abbreviation, in UniMath.CategoryTheory.Monads.LModules]
pbmT [abbreviation, in UniMath.CategoryTheory.Monads.LModules]
pbmT' [abbreviation, in UniMath.CategoryTheory.Monads.LModules]
pbm_comp [abbreviation, in UniMath.CategoryTheory.Monads.LModules]
pbm_id_law [lemma, in UniMath.CategoryTheory.Monads.LModules]
Pbs:153 [binder, in UniMath.CategoryTheory.limits.Opp]
Pbs:326 [binder, in UniMath.CategoryTheory.limits.Opp]
pb_2cell_to_lift [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
pb_2cell_weq_cone_cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
pb_2cell_to_cone_cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
pb_1cell_to_lift_1cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
pb_sqr:23 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
pb_B:14 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
pb_eqn [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pb_2 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pb_1 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pb_ump_eq_iso_comma [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_2_iso_comma [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1_iso_comma [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_eq_one_types [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_2_one_types [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1_one_types [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_2_cell_pr2 [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_2_cell_pr1 [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_2_cell [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1_1cell_eq [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1_1cell_pr2 [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1_1cell_pr1 [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1_1cell [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_2cell_contr_to_ump_2_eq [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_2cell_contr [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_eq [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_2 [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1 [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_2cell_pr2 [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_2cell_pr1 [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_2cell_2cell [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_2cell [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_1cell_eq [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_1cell_pr2 [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_1cell_pr1 [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_1cell_1cell [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_1cell [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_cone_cell [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_cone_pr2 [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_cone_pr1 [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_cone_obj [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_cone [definition, in UniMath.Bicategories.Colimits.Pullback]
pb_LModule_deriv_iso [definition, in UniMath.CategoryTheory.Monads.Derivative]
pb_LModule_deriv_eq_mult [lemma, in UniMath.CategoryTheory.Monads.Derivative]
pb_d [abbreviation, in UniMath.CategoryTheory.Monads.Derivative]
pb_if_pointwise_pb [lemma, in UniMath.CategoryTheory.limits.pullbacks]
pb_of_section [definition, in UniMath.CategoryTheory.limits.pullbacks]
pb_criteria.hs [variable, in UniMath.CategoryTheory.limits.pullbacks]
pb_criteria.C [variable, in UniMath.CategoryTheory.limits.pullbacks]
pb_criteria [section, in UniMath.CategoryTheory.limits.pullbacks]
pb_LModule_comp_iso [definition, in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_comp_law [lemma, in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_id_iso [definition, in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_functor [definition, in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_is_functor [lemma, in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_functor_data [definition, in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_Mor [definition, in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_Mor_law [lemma, in UniMath.CategoryTheory.Monads.LModules]
pb_LModule [definition, in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_laws [lemma, in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_data [definition, in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_σ [definition, in UniMath.CategoryTheory.Monads.LModules]
pb':122 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pb':130 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb':185 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb':192 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb':199 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb':206 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb':213 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb':215 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb':222 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb':222 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb':229 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb':229 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb':236 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb':236 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb':243 [binder, in UniMath.CategoryTheory.limits.pullbacks]
pb':250 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb':260 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb':277 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb':60 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
Pb':63 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
PB:1 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
PB:10 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
pb:1010 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:107 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb:107 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
pb:1118 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:117 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb:117 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
pb:121 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:121 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb:128 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
pb:129 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:131 [binder, in UniMath.CategoryTheory.limits.pullbacks]
PB:1416 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:151 [binder, in UniMath.CategoryTheory.limits.Opp]
Pb:166 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb:173 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb:177 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:179 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb:184 [binder, in UniMath.CategoryTheory.limits.pushouts]
pb:19 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
Pb:191 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb:198 [binder, in UniMath.CategoryTheory.limits.pushouts]
pb:200 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
Pb:203 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb:205 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb:205 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
pb:21 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
Pb:210 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb:212 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb:214 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
pb:22 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Pb:221 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:221 [binder, in UniMath.CategoryTheory.limits.pullbacks]
PB:222 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb:228 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:228 [binder, in UniMath.CategoryTheory.limits.pullbacks]
PB:230 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb:235 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:235 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb:242 [binder, in UniMath.CategoryTheory.limits.pullbacks]
PB:246 [binder, in UniMath.CategoryTheory.slicecat]
pb:249 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb:259 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:262 [binder, in UniMath.CategoryTheory.PseudoElements]
Pb:271 [binder, in UniMath.CategoryTheory.PseudoElements]
pb:272 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
Pb:276 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb:280 [binder, in UniMath.CategoryTheory.PseudoElements]
PB:284 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb:289 [binder, in UniMath.CategoryTheory.PseudoElements]
PB:292 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb:324 [binder, in UniMath.CategoryTheory.limits.Opp]
pb:331 [binder, in UniMath.CategoryTheory.limits.pushouts]
pb:333 [binder, in UniMath.CategoryTheory.limits.pushouts]
pb:371 [binder, in UniMath.CategoryTheory.limits.pullbacks]
PB:4 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
pb:432 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pb:439 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Pb:44 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
pb:446 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Pb:449 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pb:50 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
Pb:57 [binder, in UniMath.CategoryTheory.PseudoElements]
pb:571 [binder, in UniMath.CategoryTheory.limits.pullbacks]
pb:573 [binder, in UniMath.CategoryTheory.limits.pullbacks]
pb:692 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:70 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
pb:719 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:73 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb:74 [binder, in UniMath.CategoryTheory.limits.pullbacks]
pb:75 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:76 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
pb:78 [binder, in UniMath.CategoryTheory.limits.binproducts]
Pb:79 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb:79 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
PB:8 [binder, in UniMath.CategoryTheory.Subobjects]
Pb:80 [binder, in UniMath.CategoryTheory.limits.pullbacks]
PB:813 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PB:842 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:85 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb:85 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:86 [binder, in UniMath.CategoryTheory.limits.pullbacks]
PB:9 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
Pb:91 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
PB:918 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:97 [binder, in UniMath.CategoryTheory.limits.pushouts]
Pb:97 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:98 [binder, in UniMath.CategoryTheory.limits.pullbacks]
Pcd:102 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
Pcd:106 [binder, in UniMath.CategoryTheory.limits.binproducts]
Pcd:113 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
Pcd:114 [binder, in UniMath.CategoryTheory.limits.binproducts]
Pcd:125 [binder, in UniMath.CategoryTheory.limits.binproducts]
Pcd:78 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
Pcd:86 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
Pcd:90 [binder, in UniMath.CategoryTheory.limits.binproducts]
Pcd:94 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
Pcd:98 [binder, in UniMath.CategoryTheory.limits.binproducts]
pcf [section, in UniMath.SubstitutionSystems.PCF_alt]
PCF_M [definition, in UniMath.SubstitutionSystems.PCF_alt]
PCF_Monad [definition, in UniMath.SubstitutionSystems.PCF_alt]
PCF_Functor_Initial [lemma, in UniMath.SubstitutionSystems.PCF_alt]
PCF_Functor [definition, in UniMath.SubstitutionSystems.PCF_alt]
PCF_Signature [definition, in UniMath.SubstitutionSystems.PCF_alt]
PCF_Sig [definition, in UniMath.SubstitutionSystems.PCF_alt]
PCF_App_Lam [definition, in UniMath.SubstitutionSystems.PCF_alt]
PCF_Bot_Y [definition, in UniMath.SubstitutionSystems.PCF_alt]
PCF_Consts [definition, in UniMath.SubstitutionSystems.PCF_alt]
PCF_alt [library]
pcf.arr [variable, in UniMath.SubstitutionSystems.PCF_alt]
pcf.Bool [variable, in UniMath.SubstitutionSystems.PCF_alt]
pcf.Nat [variable, in UniMath.SubstitutionSystems.PCF_alt]
pcf.PCF_M_alg [variable, in UniMath.SubstitutionSystems.PCF_alt]
pcf.PCF_M_mor [variable, in UniMath.SubstitutionSystems.PCF_alt]
pcf.type [variable, in UniMath.SubstitutionSystems.PCF_alt]
pcf.typeToSet [variable, in UniMath.SubstitutionSystems.PCF_alt]
pcf.typeToSet2 [variable, in UniMath.SubstitutionSystems.PCF_alt]
_ + _ (set) [notation, in UniMath.SubstitutionSystems.PCF_alt]
_ ++ _ [notation, in UniMath.SubstitutionSystems.PCF_alt]
_ ⊗ _ [notation, in UniMath.SubstitutionSystems.PCF_alt]
_ ⊕ _ [notation, in UniMath.SubstitutionSystems.PCF_alt]
_ :: _ [notation, in UniMath.SubstitutionSystems.PCF_alt]
Id [notation, in UniMath.SubstitutionSystems.PCF_alt]
1 [notation, in UniMath.SubstitutionSystems.PCF_alt]
[] [notation, in UniMath.SubstitutionSystems.PCF_alt]
Pcomp:12 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
PC:10 [binder, in UniMath.CategoryTheory.Adjunctions.Examples]
Pc:100 [binder, in UniMath.CategoryTheory.limits.products]
Pc:112 [binder, in UniMath.CategoryTheory.limits.products]
PC:114 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
PC:117 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
PC:118 [binder, in UniMath.CategoryTheory.limits.coproducts]
PC:120 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
PC:121 [binder, in UniMath.CategoryTheory.limits.coproducts]
PC:123 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
PC:126 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
PC:142 [binder, in UniMath.CategoryTheory.limits.products]
PC:144 [binder, in UniMath.CategoryTheory.slicecat]
PC:164 [binder, in UniMath.CategoryTheory.limits.binproducts]
PC:190 [binder, in UniMath.CategoryTheory.slicecat]
PC:2 [binder, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
PC:2 [binder, in UniMath.CategoryTheory.YonedaBinproducts]
PC:2 [binder, in UniMath.CategoryTheory.Adjunctions.Examples]
PC:2 [binder, in UniMath.CategoryTheory.exponentials]
PC:220 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:223 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:225 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:228 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:235 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
PC:237 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
PC:239 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
PC:252 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:257 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:262 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:281 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:29 [binder, in UniMath.SubstitutionSystems.BinProductOfSignatures]
PC:290 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:341 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:5 [binder, in UniMath.CategoryTheory.Adjunctions.Examples]
PC:68 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
PC:7 [binder, in UniMath.CategoryTheory.Adjunctions.Examples]
PC:71 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
Pc:82 [binder, in UniMath.CategoryTheory.limits.products]
Pc:91 [binder, in UniMath.CategoryTheory.limits.products]
pdelta [definition, in UniMath.CategoryTheory.precomp_fully_faithful]
pdelta_preimage [lemma, in UniMath.CategoryTheory.precomp_fully_faithful]
PDiff [definition, in UniMath.CategoryTheory.PseudoElements]
PDiffElem [definition, in UniMath.CategoryTheory.PseudoElements]
PDiffEq [definition, in UniMath.CategoryTheory.PseudoElements]
PDiffIm [definition, in UniMath.CategoryTheory.PseudoElements]
PD:217 [binder, in UniMath.CategoryTheory.PseudoElements]
PD:224 [binder, in UniMath.CategoryTheory.PseudoElements]
PD:231 [binder, in UniMath.CategoryTheory.PseudoElements]
PD:342 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PD:4 [binder, in UniMath.SubstitutionSystems.BinProductOfSignatures]
pentagon [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
pentagon [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
pentagon_2 [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
pentagon_identity [lemma, in UniMath.Bicategories.BicategoryOfBicat]
pentagon_eq_of_pointedfunctors [lemma, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
pentagon_eq_swapping_of_tensor [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
pentagon_eq [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
pentagon_eq_from_alt [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
pentagon_eq_A [definition, in UniMath.CategoryTheory.Monoidal.Actions]
pentagon_eq_nicer_implies_pentagon_eq_nice [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_eq_nice_implies_pentagon_eq_nicer [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_eq_nicer [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_eq_nice_implies_pentagon_eq [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_eq_implies_pentagon_eq_nice [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_eq_nice [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_eq_readable [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_eq [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_axiom [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
pentagon_axiom_type [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
pentagon_eq_A [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
PEq [definition, in UniMath.CategoryTheory.PseudoElements]
PEqEpi1 [definition, in UniMath.CategoryTheory.PseudoElements]
PEqEpi2 [definition, in UniMath.CategoryTheory.PseudoElements]
PEqEq [definition, in UniMath.CategoryTheory.PseudoElements]
PEqOb [definition, in UniMath.CategoryTheory.PseudoElements]
PEq_Pullback [definition, in UniMath.CategoryTheory.PseudoElements]
PEq_Pullback_Eq2 [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_Pullback_Eq1 [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_Pullback_Eq [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_Diff [definition, in UniMath.CategoryTheory.PseudoElements]
PEq_Diff_Eq2 [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_Diff_Eq1 [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_isExact [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_isEpi [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_isMonic' [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_isMonic [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_ZeroArrow [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_Eq_Zero [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_Eq_Zero_Eq [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_ZeroIm [definition, in UniMath.CategoryTheory.PseudoElements]
PEq_Zeros [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_Zeros' [definition, in UniMath.CategoryTheory.PseudoElements]
PEq_Zero_Eq [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_Zero_Eq' [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_Im_Comm [definition, in UniMath.CategoryTheory.PseudoElements]
PEq_Im_Paths [definition, in UniMath.CategoryTheory.PseudoElements]
PEq_Comp [definition, in UniMath.CategoryTheory.PseudoElements]
PEq_Comp_Eq [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_Im [definition, in UniMath.CategoryTheory.PseudoElements]
PEq_Im_Eq [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_to_hrel [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_issymm [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_symm [definition, in UniMath.CategoryTheory.PseudoElements]
PEq_isrefl [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_refl [definition, in UniMath.CategoryTheory.PseudoElements]
PEq_istrans [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_trans [definition, in UniMath.CategoryTheory.PseudoElements]
PEq_trans_eq [lemma, in UniMath.CategoryTheory.PseudoElements]
PEq_precomp_Epi [definition, in UniMath.CategoryTheory.PseudoElements]
PEq_hrel [definition, in UniMath.CategoryTheory.PseudoElements]
PE1:16 [binder, in UniMath.CategoryTheory.PseudoElements]
PE1:22 [binder, in UniMath.CategoryTheory.PseudoElements]
PE1:29 [binder, in UniMath.CategoryTheory.PseudoElements]
PE1:33 [binder, in UniMath.CategoryTheory.PseudoElements]
PE1:37 [binder, in UniMath.CategoryTheory.PseudoElements]
PE1:41 [binder, in UniMath.CategoryTheory.PseudoElements]
PE1:45 [binder, in UniMath.CategoryTheory.PseudoElements]
PE2:17 [binder, in UniMath.CategoryTheory.PseudoElements]
PE2:23 [binder, in UniMath.CategoryTheory.PseudoElements]
PE2:30 [binder, in UniMath.CategoryTheory.PseudoElements]
PE2:34 [binder, in UniMath.CategoryTheory.PseudoElements]
PE2:38 [binder, in UniMath.CategoryTheory.PseudoElements]
PE2:42 [binder, in UniMath.CategoryTheory.PseudoElements]
PE2:46 [binder, in UniMath.CategoryTheory.PseudoElements]
PE:143 [binder, in UniMath.CategoryTheory.PseudoElements]
PE:145 [binder, in UniMath.CategoryTheory.PseudoElements]
PE:158 [binder, in UniMath.CategoryTheory.PseudoElements]
PE:161 [binder, in UniMath.CategoryTheory.PseudoElements]
PE:31 [binder, in UniMath.CategoryTheory.PseudoElements]
PE:35 [binder, in UniMath.CategoryTheory.PseudoElements]
PE:39 [binder, in UniMath.CategoryTheory.PseudoElements]
PE:43 [binder, in UniMath.CategoryTheory.PseudoElements]
pfg:50 [binder, in UniMath.CategoryTheory.limits.pushouts]
pfg:51 [binder, in UniMath.CategoryTheory.limits.pullbacks]
PFiber [definition, in UniMath.CategoryTheory.PseudoElements]
PFiber_Eq [definition, in UniMath.CategoryTheory.PseudoElements]
PFiber_Elem [definition, in UniMath.CategoryTheory.PseudoElements]
pgpd:20 [binder, in UniMath.CategoryTheory.Groupoids]
pgpd:27 [binder, in UniMath.CategoryTheory.Groupoids]
pgpd:28 [binder, in UniMath.CategoryTheory.Groupoids]
pgpd:31 [binder, in UniMath.CategoryTheory.Groupoids]
pgpd:33 [binder, in UniMath.CategoryTheory.Groupoids]
pgrpds [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_disp_locally_groupoid [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_disp_2cells_isaprop [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_disp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_prebicat_laws [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_disp_prebicat_ops [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_disp_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
phi [lemma, in UniMath.CategoryTheory.precomp_ess_surj]
phiinv' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Phi_fusion [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
Phi_fusion [definition, in UniMath.SubstitutionSystems.LiftingInitial]
phi:43 [binder, in UniMath.Foundations.PartA]
phi:79 [binder, in UniMath.Foundations.PartA]
PhSet:63 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
Pid:6 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
PiSig [definition, in UniMath.SubstitutionSystems.MLTT79]
Pi_map [definition, in UniMath.SubstitutionSystems.CCS_alt]
Pi_source [definition, in UniMath.SubstitutionSystems.CCS_alt]
Pi_map [definition, in UniMath.SubstitutionSystems.CCS]
Pi_source [definition, in UniMath.SubstitutionSystems.CCS]
Pi0 [section, in UniMath.MoreFoundations.Sets]
pi0 [definition, in UniMath.MoreFoundations.Sets]
pi0 [definition, in UniMath.Foundations.Sets]
pi0pr [definition, in UniMath.Foundations.Sets]
pi:56 [binder, in UniMath.CategoryTheory.Profunctors.Core]
pi:65 [binder, in UniMath.CategoryTheory.Profunctors.Core]
pi:68 [binder, in UniMath.CategoryTheory.Profunctors.Core]
pi:7 [binder, in UniMath.CategoryTheory.limits.products]
PL [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL [section, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
plassociator [definition, in UniMath.Bicategories.Core.Strictness]
plinvunitor [definition, in UniMath.Bicategories.Core.Strictness]
plunitor [definition, in UniMath.Bicategories.Core.Strictness]
plusDivRig [definition, in UniMath.Algebra.DivisionRig]
plusminusnmm [definition, in UniMath.Foundations.NaturalNumbers]
plusmn0m0 [lemma, in UniMath.MoreFoundations.Nat]
plusmn0n0 [lemma, in UniMath.MoreFoundations.Nat]
plusNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_minus_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_minus_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_lt_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_lt_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_le_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_le_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_lt_le_ltcompat [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_le_lt_ltcompat [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_ltcompat [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_eqcompat_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_eqcompat_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_lecompat_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_lecompat_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_ltcompat_l [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_ltcompat_r [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_correct [lemma, in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_apcompat_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_apcompat_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_eqcompat_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_eqcompat_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_le_ltcompat [lemma, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_le_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_le_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_lecompat [lemma, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_lecompat_r [definition, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_lecompat_l [definition, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_lt_r [lemma, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_lt_l [lemma, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_ltcompat [lemma, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_ltcompat_r [definition, in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_ltcompat_l [definition, in UniMath.RealNumbers.NonnegativeReals]
plus_n_Sm [lemma, in UniMath.Foundations.NaturalNumbers]
plus_fld [definition, in UniMath.RealNumbers.Fields]
PL_fold_impl [lemma, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_fold_or [lemma, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_fold_and [lemma, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_fold_not [lemma, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_fold_var [lemma, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_fold [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_fold_alg_mor [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_mk_algebra [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_iff_fun [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_impl_fun [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_impl [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_or_fun [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_or [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_and_fun [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_and [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_not [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_var [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_type [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_functor_initial [lemma, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_functor' [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_functor [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.FoldComputationLemmas [section, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.FoldComputationLemmas.comm [variable, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.FoldComputationLemmas.fold [variable, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.FoldComputationLemmas.mor [variable, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.is_omega_cocont_PL_functor' [variable, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind.P'_impl [variable, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind.P'_or [variable, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind.P'_and [variable, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind.P'_not [variable, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind.P'_vars [variable, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind.P' [variable, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind [section, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_alg [variable, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.times [variable, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.vars [variable, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
_ ⇔ _ (PL) [notation, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
_ ⇒ _ (PL) [notation, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
_ ∨ _ (PL) [notation, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
_ ∧ _ (PL) [notation, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
¬ (PL) [notation, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
_ ⊗ _ [notation, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl1:68 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl1:71 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl1:74 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl1:80 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl1:82 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl1:84 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl2:69 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl2:72 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl2:75 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl2:81 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl2:83 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl2:85 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl:66 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl:77 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl:79 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pn:47 [binder, in UniMath.Combinatorics.MetricTree]
po [definition, in UniMath.Foundations.Sets]
poasymm:15 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
poasymm:20 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
poasymm:24 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
PointedActionIso [definition, in UniMath.Algebra.GroupAction]
PointedFunctors [library]
PointedFunctorsComposition [library]
PointedFunctorsMonoidal [library]
Ptd [notation, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
PointedFunctors_as_monoidal_category [section, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
PointedGraph [definition, in UniMath.Combinatorics.ZFstructures]
PointedGroupoid [library]
PointedOneTypes [library]
PointedOneTypesBicat [library]
PointedTorsor [definition, in UniMath.Algebra.GroupAction]
Pointedtorsor_univalence [definition, in UniMath.Algebra.GroupAction]
pointedTrivialTorsor [definition, in UniMath.Algebra.GroupAction]
pointedType [definition, in UniMath.MoreFoundations.PartA]
PointedType [definition, in UniMath.MoreFoundations.PartA]
PointedTypes [section, in UniMath.MoreFoundations.PartA]
pointed_operation [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
pointed_carrier [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
pointed_binop [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
pointed_binop_category [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
pointed_triviality_isomorphism [definition, in UniMath.Algebra.GroupAction]
pointed_one_types [definition, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
pointed_one_type_bicat_laws [lemma, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
pointed_one_type_bicat_data [definition, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
pointfree_is_equiv [lemma, in UniMath.CategoryTheory.Monads.Monads]
pointover:102 [binder, in UniMath.Foundations.PartD]
pointover:105 [binder, in UniMath.Foundations.PartD]
pointover:108 [binder, in UniMath.Foundations.PartD]
pointover:111 [binder, in UniMath.Foundations.PartD]
pointover:114 [binder, in UniMath.Foundations.PartD]
pointover:117 [binder, in UniMath.Foundations.PartD]
pointover:119 [binder, in UniMath.Foundations.PartD]
pointover:129 [binder, in UniMath.Foundations.PartD]
pointover:131 [binder, in UniMath.Foundations.PartD]
pointover:132 [binder, in UniMath.Foundations.PartD]
pointover:134 [binder, in UniMath.Foundations.PartD]
pointover:136 [binder, in UniMath.Foundations.PartD]
pointover:138 [binder, in UniMath.Foundations.PartD]
pointover:140 [binder, in UniMath.Foundations.PartD]
pointover:142 [binder, in UniMath.Foundations.PartD]
pointover:153 [binder, in UniMath.Foundations.PartD]
pointover:154 [binder, in UniMath.Foundations.PartD]
pointover:174 [binder, in UniMath.Foundations.PartD]
pointover:180 [binder, in UniMath.Foundations.PartD]
pointover:183 [binder, in UniMath.Foundations.PartD]
pointover:185 [binder, in UniMath.Foundations.PartD]
pointover:186 [binder, in UniMath.Foundations.PartD]
pointover:187 [binder, in UniMath.Foundations.PartD]
pointover:99 [binder, in UniMath.Foundations.PartD]
pointwise [definition, in UniMath.Algebra.Matrix]
Pointwise [section, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
PointwiseEpi [section, in UniMath.CategoryTheory.EpiFacts]
pointwisefamily [definition, in UniMath.Algebra.Dcpo]
pointwisefamily_isdirected [lemma, in UniMath.Algebra.Dcpo]
pointwiselub [definition, in UniMath.Algebra.Dcpo]
pointwiselub_islub [lemma, in UniMath.Algebra.Dcpo]
pointwiselub_isdcpomorphism' [lemma, in UniMath.Algebra.Dcpo]
pointwiselub_preservesorder [lemma, in UniMath.Algebra.Dcpo]
pointwiselub_islubpointwise [lemma, in UniMath.Algebra.Dcpo]
pointwiseorder [definition, in UniMath.Algebra.FixedPointTheorems]
pointwiseorder [definition, in UniMath.Algebra.Dcpo]
pointwise_adjequiv [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
pointwise_abmonoid [definition, in UniMath.Algebra.Matrix]
pointwise_monoid [definition, in UniMath.Algebra.Matrix]
pointwise_setwith2binop [definition, in UniMath.Algebra.Matrix]
pointwise_setwithbinop [definition, in UniMath.Algebra.Matrix]
pointwise_hSet [definition, in UniMath.Algebra.Matrix]
pointwise_distr [definition, in UniMath.Algebra.Matrix]
pointwise_rdistr [definition, in UniMath.Algebra.Matrix]
pointwise_ldistr [definition, in UniMath.Algebra.Matrix]
pointwise_abmonoidop [definition, in UniMath.Algebra.Matrix]
pointwise_monoidop [definition, in UniMath.Algebra.Matrix]
pointwise_comm [definition, in UniMath.Algebra.Matrix]
pointwise_unit [definition, in UniMath.Algebra.Matrix]
pointwise_runit [definition, in UniMath.Algebra.Matrix]
pointwise_lunit [definition, in UniMath.Algebra.Matrix]
pointwise_assoc [definition, in UniMath.Algebra.Matrix]
pointwise_inv_is_inv_on [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
pointwise_iso_from_nat_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
pointwise_Colim_is_isColimFunctor [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
point_of [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_disp_cat_disp_univalent [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_disp_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_disp_cat_laws [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_disp_cat_data [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_disp_cat_id_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_disp_cat_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_from [definition, in UniMath.MoreFoundations.Notations]
point_to [definition, in UniMath.MoreFoundations.Notations]
PolynomialFunctors [section, in UniMath.Induction.PolynomialFunctors]
PolynomialFunctors [library]
polynomial_alg_uncurried_equiv [lemma, in UniMath.Induction.PolynomialFunctors]
polynomial_alg_uncurried [definition, in UniMath.Induction.PolynomialFunctors]
polynomial_functor [definition, in UniMath.Induction.PolynomialFunctors]
polynomial_functor_is_functor [lemma, in UniMath.Induction.PolynomialFunctors]
polynomial_functor_data [definition, in UniMath.Induction.PolynomialFunctors]
polynomial_functor_arr [definition, in UniMath.Induction.PolynomialFunctors]
polynomial_functor_obj [definition, in UniMath.Induction.PolynomialFunctors]
Poset [definition, in UniMath.Foundations.Sets]
PosetEquivalence [definition, in UniMath.Foundations.Sets]
PosetEquivalence_rect [lemma, in UniMath.Combinatorics.OrderedSets]
posetmorphism [definition, in UniMath.Foundations.Sets]
posetmorphism_property [definition, in UniMath.Algebra.FixedPointTheorems]
posetofdcpomorphisms [definition, in UniMath.Algebra.Dcpo]
posetofdcpomorphisms_isdirectedcomplete [lemma, in UniMath.Algebra.Dcpo]
posetRelation [definition, in UniMath.Foundations.Sets]
posetStructureIdentity [lemma, in UniMath.Combinatorics.OrderedSets]
posetTransport_weq [lemma, in UniMath.Combinatorics.OrderedSets]
posetUnderlyingEquivalence [definition, in UniMath.Foundations.Sets]
Poset_lessthan [definition, in UniMath.Combinatorics.OrderedSets]
Poset_univalence_compute [lemma, in UniMath.Combinatorics.OrderedSets]
Poset_univalence [lemma, in UniMath.Combinatorics.OrderedSets]
Poset_univalence_compute [lemma, in UniMath.Combinatorics.OrderedSets]
Poset_univalence_0 [lemma, in UniMath.Combinatorics.OrderedSets]
Poset_univalence_map [definition, in UniMath.Combinatorics.OrderedSets]
postcompF [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
postcompG [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
postcompose [definition, in UniMath.CategoryTheory.Core.Categories]
postcompWithBinCoproductArrow [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
postcompWithBinCoproductArrow [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
postcompWithBinCoproductArrowHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
postcompWithBinProductArrow [lemma, in UniMath.CategoryTheory.limits.graphs.binproducts]
postcompWithBinProductArrow [lemma, in UniMath.CategoryTheory.limits.binproducts]
postcompWithColimArrow [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
postcompWithCoproductArrow [lemma, in UniMath.CategoryTheory.limits.coproducts]
postcompWithCoproductArrow [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Test]
postcompWithLimArrow [lemma, in UniMath.CategoryTheory.limits.cats.limits]
postCompWithLimArrow [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
postcompWithLimOfArrows [lemma, in UniMath.CategoryTheory.limits.cats.limits]
postCompWithLimOfArrows [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
postCompWithLimOfArrows_subproof [lemma, in UniMath.CategoryTheory.limits.cats.limits]
postCompWithLimOfArrows_subproof [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
postcompWithProductArrow [lemma, in UniMath.CategoryTheory.limits.products]
postCompWithPullbackArrow [lemma, in UniMath.CategoryTheory.limits.pullbacks]
postCompWithPullbackArrow_subproof [lemma, in UniMath.CategoryTheory.limits.pullbacks]
postcomp_with_iso_disp_is_inj [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
postcomp_transportf [lemma, in UniMath.Bicategories.Core.Strictness]
postcomp_with [definition, in UniMath.CategoryTheory.Core.Isos]
postcomp_with_equalizer_mor [definition, in UniMath.CategoryTheory.limits.equalizers]
postcomp_binprod_cone [definition, in UniMath.Bicategories.Colimits.Products]
postcomp_with_ZeroArrow [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
postcomp_with_projections [definition, in UniMath.CategoryTheory.limits.binproducts]
Postfixedpoint [definition, in UniMath.Algebra.FixedPointTheorems]
postfixedpoint_property [definition, in UniMath.Algebra.FixedPointTheorems]
Postfixedpoint:7 [binder, in UniMath.Algebra.FixedPointTheorems]
PostSwitch [definition, in UniMath.CategoryTheory.LocalizingClass]
PostSwitchEq [definition, in UniMath.CategoryTheory.LocalizingClass]
PostSwitchMor [definition, in UniMath.CategoryTheory.LocalizingClass]
PostSwitchMorIs [definition, in UniMath.CategoryTheory.LocalizingClass]
PostSwitchOb [definition, in UniMath.CategoryTheory.LocalizingClass]
PostS:224 [binder, in UniMath.CategoryTheory.LocalizingClass]
PostS:234 [binder, in UniMath.CategoryTheory.LocalizingClass]
PostS:244 [binder, in UniMath.CategoryTheory.LocalizingClass]
PostS:254 [binder, in UniMath.CategoryTheory.LocalizingClass]
postwhisker_with_ϵ_inv_z_iso [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
post_cat [definition, in UniMath.MoreFoundations.Tactics]
post_comp [definition, in UniMath.Bicategories.Core.Bicat]
post_comp_is_functor [definition, in UniMath.Bicategories.Core.Bicat]
post_comp_data [definition, in UniMath.Bicategories.Core.Bicat]
post_cat [definition, in UniMath.MoreFoundations.Equivalences]
post_whisker_as_rwhisker [lemma, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
post_comp_functor [definition, in UniMath.CategoryTheory.whiskering]
post_composition_functor [definition, in UniMath.CategoryTheory.whiskering]
post_composition_is_functor [lemma, in UniMath.CategoryTheory.whiskering]
post_whisker_composition [lemma, in UniMath.CategoryTheory.whiskering]
post_whisker_identity [lemma, in UniMath.CategoryTheory.whiskering]
post_composition_functor_data [definition, in UniMath.CategoryTheory.whiskering]
post_whisker_in_funcat [definition, in UniMath.CategoryTheory.whiskering]
post_whisker_z_iso_is_z_iso [lemma, in UniMath.CategoryTheory.whiskering]
post_whisker_iso_is_iso [lemma, in UniMath.CategoryTheory.whiskering]
post_whisker [definition, in UniMath.CategoryTheory.whiskering]
post_whisker_disp_nat_trans [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
post_comp_with_z_iso_inv_is_inj [lemma, in UniMath.CategoryTheory.Core.Isos]
post_comp_with_z_iso_is_inj [lemma, in UniMath.CategoryTheory.Core.Isos]
post_comp_with_iso_is_inj [lemma, in UniMath.CategoryTheory.Core.Isos]
post_composition_as_a_functor [definition, in UniMath.CategoryTheory.HorizontalComposition]
post_composition_as_a_functor_data_is_fun [definition, in UniMath.CategoryTheory.HorizontalComposition]
post_composition_as_a_functor_data [definition, in UniMath.CategoryTheory.HorizontalComposition]
post_whisker_snd_param [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
post_whisker_fst_param [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
Pos:152 [binder, in UniMath.CategoryTheory.limits.Opp]
Pos:325 [binder, in UniMath.CategoryTheory.limits.Opp]
Pow [definition, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
power_category [definition, in UniMath.CategoryTheory.ProductCategory]
power_precategory [section, in UniMath.CategoryTheory.ProductCategory]
Pow_cocone [definition, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
Pow_cocone_subproof [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
Pow_target [definition, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
Pow_source [definition, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
po_eqn [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
po_2 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
po_1 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
po_criteria.C [variable, in UniMath.CategoryTheory.limits.pushouts]
po_criteria [section, in UniMath.CategoryTheory.limits.pushouts]
po_reverse_correct [lemma, in UniMath.RealNumbers.Sets]
po_reverse [definition, in UniMath.RealNumbers.Sets]
po_pty [section, in UniMath.RealNumbers.Sets]
po_category_is_univalent_iff_is_antisymm [lemma, in UniMath.CategoryTheory.categories.preorder_categories]
po_category [definition, in UniMath.CategoryTheory.categories.preorder_categories]
po_precategory_has_homsets [definition, in UniMath.CategoryTheory.categories.preorder_categories]
po_precategory [definition, in UniMath.CategoryTheory.categories.preorder_categories]
po_precategory_data_is_precategory [definition, in UniMath.CategoryTheory.categories.preorder_categories]
po_homsets_isaprop [lemma, in UniMath.CategoryTheory.categories.preorder_categories]
po_precategory_data [definition, in UniMath.CategoryTheory.categories.preorder_categories]
po_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.preorder_categories]
po_category_def [section, in UniMath.CategoryTheory.categories.preorder_categories]
Po':187 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
Po':194 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
Po':201 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
Po':208 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
Po':23 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
Po':232 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
Po':26 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
PO:10 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
Po:105 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
po:1095 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:115 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:12 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
Po:126 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
po:129 [binder, in UniMath.Combinatorics.OrderedSets]
Po:13 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
po:136 [binder, in UniMath.Combinatorics.OrderedSets]
PO:1427 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:145 [binder, in UniMath.CategoryTheory.limits.Opp]
Po:147 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:17 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
Po:175 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
Po:186 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
po:188 [binder, in UniMath.Combinatorics.OrderedSets]
Po:193 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:2 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
Po:200 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
Po:207 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
po:210 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
PO:22 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
PO:23 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
Po:231 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:3 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
Po:318 [binder, in UniMath.CategoryTheory.limits.Opp]
Po:32 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
Po:38 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
PO:4 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
po:459 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
po:466 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
po:473 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
po:68 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
po:681 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:7 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
PO:7 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
po:703 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:77 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:8 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
PO:819 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:83 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:848 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:89 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:9 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
PO:924 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:95 [binder, in UniMath.CategoryTheory.limits.graphs.pushouts]
ppp:211 [binder, in UniMath.MoreFoundations.PathsOver]
Pprop:227 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ppr1:120 [binder, in UniMath.Bicategories.Colimits.Products]
ppr2:121 [binder, in UniMath.Bicategories.Colimits.Products]
pp':42 [binder, in UniMath.Foundations.UnivalenceAxiom]
pp1p2:17 [binder, in UniMath.CategoryTheory.limits.products]
pp1p2:19 [binder, in UniMath.CategoryTheory.limits.binproducts]
pp:1066 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
pp:1095 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
pp:1118 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
pp:1178 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
pp:1203 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
pp:1228 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
PP:13 [binder, in UniMath.Foundations.PartD]
pp:13 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
pp:151 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
pp:1834 [binder, in UniMath.Foundations.PartA]
pp:1835 [binder, in UniMath.Foundations.PartA]
pp:1836 [binder, in UniMath.Foundations.PartA]
pp:1837 [binder, in UniMath.Foundations.PartA]
PP:26 [binder, in UniMath.Foundations.PartD]
pp:262 [binder, in UniMath.MoreFoundations.PathsOver]
PP:30 [binder, in UniMath.Foundations.PartD]
pp:33 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
PP:34 [binder, in UniMath.Foundations.PartD]
pp:383 [binder, in UniMath.MoreFoundations.PathsOver]
pp:386 [binder, in UniMath.Foundations.PartA]
PP:4 [binder, in UniMath.Foundations.PartD]
pp:401 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
pp:424 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
PP:43 [binder, in UniMath.Foundations.PartD]
pp:471 [binder, in UniMath.CategoryTheory.Core.Functors]
pp:472 [binder, in UniMath.CategoryTheory.Core.Functors]
pp:473 [binder, in UniMath.CategoryTheory.Core.Functors]
pp:474 [binder, in UniMath.CategoryTheory.Core.Functors]
pp:50 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
pp:551 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
pp:592 [binder, in UniMath.MoreFoundations.PathsOver]
pp:603 [binder, in UniMath.MoreFoundations.PathsOver]
pp:705 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pp:721 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PP:79 [binder, in UniMath.Algebra.Modules.Multimodules]
pp:83 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
PP:87 [binder, in UniMath.Algebra.Modules.Multimodules]
pp:94 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
pq:1263 [binder, in UniMath.Foundations.PartA]
pq:1264 [binder, in UniMath.Foundations.PartA]
pq:393 [binder, in UniMath.MoreFoundations.PathsOver]
pq:483 [binder, in UniMath.MoreFoundations.PathsOver]
pq:505 [binder, in UniMath.MoreFoundations.PathsOver]
pq:506 [binder, in UniMath.MoreFoundations.PathsOver]
pq:518 [binder, in UniMath.MoreFoundations.PathsOver]
pq:519 [binder, in UniMath.MoreFoundations.PathsOver]
prabgrdiff [definition, in UniMath.Algebra.Groups]
prabmonoidfrac [definition, in UniMath.Algebra.Monoids]
prassociator [definition, in UniMath.Bicategories.Core.Strictness]
prcommringfrac [definition, in UniMath.Algebra.RigsAndRings]
PreAdditive [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PreAdditive [definition, in UniMath.CategoryTheory.PreAdditive]
PreAdditive [library]
PreAdditiveComps [definition, in UniMath.CategoryTheory.PreAdditive]
PreAdditiveSubabgrs [definition, in UniMath.CategoryTheory.PreAdditive]
PreAdditive_functor_to_functor [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PreAdditive_functor [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
preadditive_quotient.Z [variable, in UniMath.CategoryTheory.PreAdditive]
PreAdditive_post_unel [lemma, in UniMath.CategoryTheory.PreAdditive]
PreAdditive_post_linear [lemma, in UniMath.CategoryTheory.PreAdditive]
PreAdditive_pre_unel [lemma, in UniMath.CategoryTheory.PreAdditive]
PreAdditive_pre_linear [lemma, in UniMath.CategoryTheory.PreAdditive]
preadditive_quotient.PAC [variable, in UniMath.CategoryTheory.PreAdditive]
preadditive_quotient.PAS [variable, in UniMath.CategoryTheory.PreAdditive]
preadditive_quotient.PA [variable, in UniMath.CategoryTheory.PreAdditive]
preadditive_quotient [section, in UniMath.CategoryTheory.PreAdditive]
PreAdditive_cancel_inv [lemma, in UniMath.CategoryTheory.PreAdditive]
PreAdditive_invrcomp [lemma, in UniMath.CategoryTheory.PreAdditive]
PreAdditive_invlcomp [lemma, in UniMath.CategoryTheory.PreAdditive]
preadditive_inv_comp.A [variable, in UniMath.CategoryTheory.PreAdditive]
preadditive_inv_comp [section, in UniMath.CategoryTheory.PreAdditive]
PreAdditive_unel_zero [lemma, in UniMath.CategoryTheory.PreAdditive]
preadditive_with_zero.A [variable, in UniMath.CategoryTheory.PreAdditive]
preadditive_with_zero [section, in UniMath.CategoryTheory.PreAdditive]
PreAdditive_isPreAdditive [definition, in UniMath.CategoryTheory.PreAdditive]
PreAdditive_categoryWithAbgrops [definition, in UniMath.CategoryTheory.PreAdditive]
PreAdditive.Foo [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PreAdditive.Tmp [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
# _ (abgrcat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
preamble [section, in UniMath.SubstitutionSystems.MLTT79]
Preamble [library]
prebicat [definition, in UniMath.Bicategories.Core.Bicat]
prebicategory [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory [library]
prebicategory_of_prebicat [definition, in UniMath.Bicategories.BicategoryOfBicat]
prebicategory_data_from_prebicategory [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_coherence [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_id_comp_from_prebicategory_data [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_data [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_ob_hom_from_prebicategory_id_comp [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_id_comp [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_ob_hom [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_to_hcomp_bicat [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
prebicategory_to_hcomp_bicat_data [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
prebicat_prebicategory_coherence [lemma, in UniMath.Bicategories.BicategoryOfBicat]
prebicat_associator_and_unitors_are_iso [lemma, in UniMath.Bicategories.BicategoryOfBicat]
prebicat_of_bicat [definition, in UniMath.Bicategories.Core.Bicat]
prebicat_law_projections [section, in UniMath.Bicategories.Core.Bicat]
prebicat_laws_from_bicat [definition, in UniMath.Bicategories.Core.Bicat]
prebicat_data_from_bicat [definition, in UniMath.Bicategories.Core.Bicat]
prebicat_laws [definition, in UniMath.Bicategories.Core.Bicat]
prebicat_cells_1_id_comp_from_prebicat_data [definition, in UniMath.Bicategories.Core.Bicat]
prebicat_data [definition, in UniMath.Bicategories.Core.Bicat]
prebicat_2_id_comp_struct [definition, in UniMath.Bicategories.Core.Bicat]
prebicat_cells [definition, in UniMath.Bicategories.Core.Bicat]
prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.Core.Bicat]
prebicat_2cell_struct [definition, in UniMath.Bicategories.Core.Bicat]
prebicat_from_monoidal [definition, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
prebicat_laws_from_monoidal [lemma, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
prebicat_data_from_monoidal [definition, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
prebicat_of_univ_cats [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
prebicat_of_cats [definition, in UniMath.Bicategories.Core.Examples.BicatOfCats]
prebicat_of_strict_cats [definition, in UniMath.Bicategories.Core.Examples.StrictCats]
precarry [definition, in UniMath.PAdics.padics]
precarryandcarry [lemma, in UniMath.PAdics.padics]
precarryandcarry_pointwise [lemma, in UniMath.PAdics.padics]
precarryandone [lemma, in UniMath.PAdics.padics]
precarryandtimesl [lemma, in UniMath.PAdics.padics]
precarryandzero [lemma, in UniMath.PAdics.padics]
precarryandzeromult [lemma, in UniMath.PAdics.padics]
precarryandzeromultl [lemma, in UniMath.PAdics.padics]
precarryandzeromultr [lemma, in UniMath.PAdics.padics]
precatbinprodiso [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
precatbinprodiso_inv [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
precatbinprod_z_iso [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
precatDelta [definition, in UniMath.CategoryTheory.SimplicialSets]
Precategories [library]
PrecategoriesWithAbgrops [library]
precategory [definition, in UniMath.CategoryTheory.Core.Categories]
PrecategoryBinProduct [library]
PrecategoryOfRelativeMonads [section, in UniMath.CategoryTheory.Monads.RelativeMonads]
precategoryWithBinOps [definition, in UniMath.CategoryTheory.CategoriesWithBinOps]
precategoryWithBinOpsData [definition, in UniMath.CategoryTheory.CategoriesWithBinOps]
precategoryWithBinOps_precategory [definition, in UniMath.CategoryTheory.CategoriesWithBinOps]
precategory_RelMonad [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
precategory_RelMonad_axioms [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
precategory_RelMonad_data [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
precategory_RelMonad_ob_mor [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
precategory_of_AbelianPreCat [definition, in UniMath.CategoryTheory.Abelian]
precategory_from_bicat_and_ob [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
precategory_data_from_bicat_and_ob [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
precategory_Monad [definition, in UniMath.CategoryTheory.Monads.Monads]
precategory_Monad_axioms [lemma, in UniMath.CategoryTheory.Monads.Monads]
precategory_Monad_data [definition, in UniMath.CategoryTheory.Monads.Monads]
precategory_Monad_ob_mor [definition, in UniMath.CategoryTheory.Monads.Monads]
precategory_monoid_has_homsets [lemma, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
precategory_monoid [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
precategory_monoid_data [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
precategory_monoid_ob_mor [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
precategory_Alg_data [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
precategory_Alg_ob_mor [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
precategory_FunctorAlg [definition, in UniMath.CategoryTheory.FunctorAlgebras]
precategory_alg_data [definition, in UniMath.CategoryTheory.FunctorAlgebras]
precategory_alg_ob_mor [definition, in UniMath.CategoryTheory.FunctorAlgebras]
precategory_morphisms_in_subcat [definition, in UniMath.CategoryTheory.Subcategory.Core]
precategory_object_in_subcat [definition, in UniMath.CategoryTheory.Subcategory.Core]
precategory_morphism_from_sub_precategory_morphism [definition, in UniMath.CategoryTheory.Subcategory.Core]
precategory_object_from_sub_precategory_object [definition, in UniMath.CategoryTheory.Subcategory.Core]
precategory_binproduct_unassoc [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct_unassoc_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct_assoc [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct_assoc_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct.D [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct.C [variable, in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct_ob_mor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct_mor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_obmor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
precategory_of_discrete_bicategory [definition, in UniMath.Bicategories.Discreteness]
precategory_total_comp [definition, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
precategory_total_comp'' [definition, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
precategory_total_id [definition, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
precategory_target [definition, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
precategory_source [definition, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
precategory_skewMonoid [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
precategory_skewMonoid_axioms [lemma, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
precategory_skewMonoid_data [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
precategory_skewMonoid_ob_mor [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
_ #⊗ _ [notation, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
_ ⊗ _ [notation, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
( _ #, _ ) [notation, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
( _ , _ ) [notation, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
_ ⊠ _ [notation, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
Precategory_of_SkewMonoids [section, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
precategory_LModule [definition, in UniMath.CategoryTheory.Monads.LModules]
precategory_LModule_axioms [lemma, in UniMath.CategoryTheory.Monads.LModules]
precategory_LModule_data [definition, in UniMath.CategoryTheory.Monads.LModules]
precategory_LModule_ob_mor [definition, in UniMath.CategoryTheory.Monads.LModules]
precategory_Ptd [definition, in UniMath.CategoryTheory.PointedFunctors]
precategory_from_two_cat_data [definition, in UniMath.CategoryTheory.Core.TwoCategories]
precategory_Kleisli [definition, in UniMath.CategoryTheory.Monads.KTriples]
precategory_Kleisli_axioms [lemma, in UniMath.CategoryTheory.Monads.KTriples]
precategory_Kleisli_Data [definition, in UniMath.CategoryTheory.Monads.KTriples]
precategory_Kleisli_ob_mor [definition, in UniMath.CategoryTheory.Monads.KTriples]
precategory_data_from_precategory [definition, in UniMath.CategoryTheory.Core.Categories]
precategory_ob_mor_from_precategory_data [definition, in UniMath.CategoryTheory.Core.Categories]
precategory_data [definition, in UniMath.CategoryTheory.Core.Categories]
precategory_id_comp [definition, in UniMath.CategoryTheory.Core.Categories]
precategory_morphisms [definition, in UniMath.CategoryTheory.Core.Categories]
precategory_ob_mor [definition, in UniMath.CategoryTheory.Core.Categories]
precat_of_elems [definition, in UniMath.CategoryTheory.ElementsOp]
precat_paths_in_sub_as_3_maps [lemma, in UniMath.CategoryTheory.Subcategory.Full]
precat_data_from_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.Core.Bicat]
precat_precat [definition, in UniMath.CategoryTheory.categories.Cats]
precat_of_elements [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
PreCat_id_comp [definition, in UniMath.Bicategories.WkCatEnrichment.Cat]
PreCat_1mor_2mor [definition, in UniMath.Bicategories.WkCatEnrichment.Cat]
Precat_of_discrete_fibs [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
precat_of_discrete_fibs [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
precat_axioms_of_discrete_fibs [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
precat_of_discrete_fibs_data [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
precat_of_discrete_fibs_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
precat_from_folds_precat_folds_precat_from_precat [lemma, in UniMath.Folds.from_precats_to_folds_and_back]
precat_from_folds_precat [definition, in UniMath.Folds.from_precats_to_folds_and_back]
precat_from_folds_data [definition, in UniMath.Folds.from_precats_to_folds_and_back]
precompF [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
precompG [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
precompWithBinCoproductArrow [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
precompWithBinCoproductArrow [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
precompWithBinCoproductArrow_eq [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
precompWithBinProductArrow [lemma, in UniMath.CategoryTheory.limits.graphs.binproducts]
precompWithBinProductArrow [lemma, in UniMath.CategoryTheory.limits.binproducts]
precompWithColimOfArrows [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
preCompWithColimOfArrows_subproof [lemma, in UniMath.CategoryTheory.limits.graphs.colimits]
precompWithCoproductArrow [lemma, in UniMath.CategoryTheory.limits.coproducts]
precompWithCoproductArrow [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Test]
precompwithnatcofaceisauto [lemma, in UniMath.PAdics.fps]
precompWithProductArrow [lemma, in UniMath.CategoryTheory.limits.products]
precomp_convertor [definition, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_convertor_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_convertor_data_is_nat_trans [lemma, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_convertor_nat_trans_data [definition, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_right_unitor [definition, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_right_unitor_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_odot [definition, in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_prod_functor_has_right_adjoint [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
precomp_prod_functor [definition, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
precomp_with_injections [definition, in UniMath.CategoryTheory.limits.bincoproducts]
precomp_with_iso_disp_is_inj [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
precomp_transportf [lemma, in UniMath.Bicategories.Core.Strictness]
precomp_with [definition, in UniMath.CategoryTheory.Core.Isos]
precomp_option_iter_Signature [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
precomp_option_iter [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
precomp_prod_1cell_invertible [definition, in UniMath.Bicategories.Colimits.Products]
precomp_prod_1cell [definition, in UniMath.Bicategories.Colimits.Products]
precomp_option_Signature [definition, in UniMath.SubstitutionSystems.SignatureExamples]
precomp_genoption_Signature [definition, in UniMath.SubstitutionSystems.SignatureExamples]
precomp_with_ZeroArrow [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
precomp_with_epi_isincl [lemma, in UniMath.CategoryTheory.Epis]
G _ [notation, in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.essentially_surjective.preimage [section, in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.essentially_surjective.F [variable, in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.essentially_surjective [section, in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.fH [variable, in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.p [variable, in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.H [variable, in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.Ccat [variable, in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.C [variable, in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.B [variable, in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.A [variable, in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj [section, in UniMath.CategoryTheory.precomp_ess_surj]
precomp_ess_surj [library]
precomp_fully_faithful [library]
predicateOnBaseConnectedType [lemma, in UniMath.MoreFoundations.Propositions]
predicateOnBasePointComponent [lemma, in UniMath.MoreFoundations.Propositions]
predicateOnConnectedType [lemma, in UniMath.MoreFoundations.Propositions]
PreFilter [definition, in UniMath.Topology.Filters]
PreFilterBase [definition, in UniMath.Topology.Filters]
PreFilterBase_le [lemma, in UniMath.Topology.Filters]
PreFilterBase_Generated [lemma, in UniMath.Topology.Filters]
PreFilterDirprod [definition, in UniMath.Topology.Filters]
PreFilterDom [definition, in UniMath.Topology.Filters]
PreFilterGenerated [definition, in UniMath.Topology.Filters]
PreFilterGenerated_correct [lemma, in UniMath.Topology.Filters]
PreFilterIm [definition, in UniMath.Topology.Filters]
PreFilterIm_incr [lemma, in UniMath.Topology.Filters]
PreFilterIntersection [definition, in UniMath.Topology.Filters]
PreFilterIntersection_glb [lemma, in UniMath.Topology.Filters]
PreFilterPr1 [definition, in UniMath.Topology.Filters]
PreFilterPr2 [definition, in UniMath.Topology.Filters]
PreFilterSubtype [definition, in UniMath.Topology.Filters]
PreFilterTop [definition, in UniMath.Topology.Filters]
PreFilterTop_correct [lemma, in UniMath.Topology.Filters]
PreFilter_pty [section, in UniMath.Topology.Filters]
prefix_remove_drop [lemma, in UniMath.Combinatorics.MoreLists]
prefix_remove_prefix [lemma, in UniMath.Combinatorics.MoreLists]
prefix_remove_concatenate2 [lemma, in UniMath.Combinatorics.MoreLists]
prefix_remove_concatenate [lemma, in UniMath.Combinatorics.MoreLists]
prefix_remove_self [lemma, in UniMath.Combinatorics.MoreLists]
prefix_remove_back [definition, in UniMath.Combinatorics.MoreLists]
prefix_remove_stepback [lemma, in UniMath.Combinatorics.MoreLists]
prefix_remove_stepneq [lemma, in UniMath.Combinatorics.MoreLists]
prefix_remove_stepeq [lemma, in UniMath.Combinatorics.MoreLists]
prefix_remove [definition, in UniMath.Combinatorics.MoreLists]
pregraph [definition, in UniMath.Combinatorics.Graph]
pregraph_of_graph [definition, in UniMath.Combinatorics.Graph]
pregraph_category [definition, in UniMath.CategoryTheory.categories.Graph]
pregraph_precategory_data [definition, in UniMath.CategoryTheory.categories.Graph]
pregraph_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.Graph]
pregroupoid [definition, in UniMath.CategoryTheory.Groupoids]
pregroupoid_hom_weq_iso_comp [lemma, in UniMath.CategoryTheory.Groupoids]
pregroupoid_hom_weq_iso_idtoiso [lemma, in UniMath.CategoryTheory.Groupoids]
pregroupoid_hom_weq_iso [lemma, in UniMath.CategoryTheory.Groupoids]
pregroupoid_is_pregroupoid [definition, in UniMath.CategoryTheory.Groupoids]
pregroupoid_to_precategory [definition, in UniMath.CategoryTheory.Groupoids]
preimage_functor_data [definition, in UniMath.CategoryTheory.precomp_ess_surj]
preIt [definition, in UniMath.SubstitutionSystems.GenMendlerIteration]
preIt [definition, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
preIt_uniq [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration]
preIt_ok [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration]
preIt_uniq [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
preIt_ok [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
prejoin_from_hetsubst_τ [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
prejoin_from_hetsubst_η [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
prejoin_from_hetsubst [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
prejoin:87 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
Prelim [library]
Prelim [library]
Prelude [library]
PreorderedSet [definition, in UniMath.Foundations.Sets]
PreorderedSetEffectiveOrder [definition, in UniMath.RealNumbers.Sets]
PreorderedSetPair [definition, in UniMath.Foundations.Sets]
PreorderedSetRelation [definition, in UniMath.Foundations.Sets]
preorder_categories [library]
Preparations [section, in UniMath.SubstitutionSystems.LamSignature]
Preparations.C [variable, in UniMath.SubstitutionSystems.LamSignature]
Preparations.CC [variable, in UniMath.SubstitutionSystems.LamSignature]
Preparations.CP [variable, in UniMath.SubstitutionSystems.LamSignature]
presented_abgrfun [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abgr_universal_property [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abgr_extend_comp [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abgr_extend [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abgr_intro [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abgr_pr [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abgr [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_grfun [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_gr_universal_property [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_gr_extend_comp [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_gr_extend [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_gr_intro [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_gr_pr [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_gr [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoidfun [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoid_universal_property [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoid_extend_comp [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoid_extend [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoid_intro [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoid_pr [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoid [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoidfun [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoid_universal_property [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoid_extend_comp [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoid_extend [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoid_intro [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoid_pr [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoid [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
PreservesBinDirectSums [definition, in UniMath.CategoryTheory.AdditiveFunctors]
preservesdirectedlub_isdcpomorphism [lemma, in UniMath.Algebra.Dcpo]
preserveslub [definition, in UniMath.Algebra.Dcpo]
preserves_colimit_pre_composition_functor [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
preserves_colimit_functor_composite [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
preserves_colimit_identity [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
preserves_colimit_iso [lemma, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
preserves_colimit [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
preserves_colimit_slicecat_to_cat_HSET_direct [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
preserves_colimit_slicecat_to_cat_HSET [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
preserves_colimit_pre_composition_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
preserves_colimit_functor_composite [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
preserves_colimit_constant_functor [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
preserves_colimit_identity [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
preserves_colimit_iso [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
preserves_colimits_of_shape [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
preserves_colimit [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
preserves_limit [definition, in UniMath.CategoryTheory.limits.graphs.limits]
Presheaf [definition, in UniMath.CategoryTheory.GrothendieckTopos]
Presheaf [library]
PresheafToFunctor [definition, in UniMath.CategoryTheory.GrothendieckTopos]
presheaf_to_yoneda [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_is_functor [lemma, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_data [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_mor_modification [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_mor_is_modification [lemma, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_mor_modification_data [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_mor_modification_is_nat_trans [lemma, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_mor_modification_nat_trans_data [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_is_pstrans [lemma, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_data [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_is_nat_iso [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_nat_trans [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_is_nat_trans [lemma, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_nat_trans_data [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_functor [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_is_functor [lemma, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_functor_data [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_functor_mor [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_functor_ob [definition, in UniMath.Bicategories.Core.YonedaLemma]
presheaves [section, in UniMath.CategoryTheory.Presheaf]
PreShv_exponentials [definition, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
preshv_from_disc_fib_ob [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
preshv_ax_from_disc_fib_ob [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
preshv_data_from_disc_fib_ob [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
PreShv_of_elems_slice_of_PreShv_adj_equiv [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_of_elems_slice_of_PreShv_equiv [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_counit [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_all_iso [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_unit [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_unit_fun [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_is_funct [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_data [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_mor [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_isnat [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_nat [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_nat_fun [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_funct [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_is_funct' [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_is_funct [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_funct_data [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_funct_mor [definition, in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_funct_fun [definition, in UniMath.CategoryTheory.elems_slice_equiv]
Presignature [definition, in UniMath.SubstitutionSystems.Signatures]
Presignature_Signature [definition, in UniMath.SubstitutionSystems.Signatures]
Presignature_Functor [definition, in UniMath.SubstitutionSystems.Signatures]
PrestrengthForSignature [definition, in UniMath.SubstitutionSystems.Signatures]
PrestrengthForSignatureAtPoint [definition, in UniMath.SubstitutionSystems.Signatures]
prestrength_in_first_arg:14 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
PreSwitch [definition, in UniMath.CategoryTheory.LocalizingClass]
PreSwitchEq [definition, in UniMath.CategoryTheory.LocalizingClass]
PreSwitchMor [definition, in UniMath.CategoryTheory.LocalizingClass]
PreSwitchMorIs [definition, in UniMath.CategoryTheory.LocalizingClass]
PreSwitchOb [definition, in UniMath.CategoryTheory.LocalizingClass]
PreS:173 [binder, in UniMath.CategoryTheory.LocalizingClass]
PreS:183 [binder, in UniMath.CategoryTheory.LocalizingClass]
PreS:193 [binder, in UniMath.CategoryTheory.LocalizingClass]
PreS:203 [binder, in UniMath.CategoryTheory.LocalizingClass]
PreTriang [definition, in UniMath.HomologicalAlgebra.Triangulated]
PreTriangData [definition, in UniMath.HomologicalAlgebra.Triangulated]
PreTriangData_Additive [definition, in UniMath.HomologicalAlgebra.Triangulated]
PreTriang_isPreTriang [definition, in UniMath.HomologicalAlgebra.Triangulated]
PreTriang_PreTriangData [definition, in UniMath.HomologicalAlgebra.Triangulated]
prewhisker_with_μ_inv_z_iso [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
prewhisker_with_ϵ_inv_z_iso [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
preZFS [definition, in UniMath.Combinatorics.ZFstructures]
preZFS_Branch_issuperrigid [lemma, in UniMath.Combinatorics.ZFstructures]
preZFS_Branch_isWellFounded [lemma, in UniMath.Combinatorics.ZFstructures]
preZFS_Branch_hsubtype_tohsubtype [definition, in UniMath.Combinatorics.ZFstructures]
preZFS_Branch [definition, in UniMath.Combinatorics.ZFstructures]
preZFS_univalence [lemma, in UniMath.Combinatorics.ZFstructures]
preZFS_iso [definition, in UniMath.Combinatorics.ZFstructures]
preZFS_isrigid [lemma, in UniMath.Combinatorics.ZFstructures]
pre_cat [definition, in UniMath.MoreFoundations.Tactics]
pre_comp [definition, in UniMath.Bicategories.Core.Bicat]
pre_comp_is_functor [definition, in UniMath.Bicategories.Core.Bicat]
pre_comp_data [definition, in UniMath.Bicategories.Core.Bicat]
pre_cat [definition, in UniMath.MoreFoundations.Equivalences]
pre_nat_as_set [definition, in UniMath.Induction.ImpredicativeInductiveSets]
pre_nat_isaset [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
pre_nat [definition, in UniMath.Induction.ImpredicativeInductiveSets]
pre_sum_as_set [definition, in UniMath.Induction.ImpredicativeInductiveSets]
pre_sum_isaset [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
pre_sum [definition, in UniMath.Induction.ImpredicativeInductiveSets]
pre_prod_as_set [definition, in UniMath.Induction.ImpredicativeInductiveSets]
pre_prod_isaset [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
pre_prod [definition, in UniMath.Induction.ImpredicativeInductiveSets]
pre_whisker_as_lwhisker [lemma, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
pre_comp_functor [definition, in UniMath.CategoryTheory.whiskering]
pre_composition_functor [definition, in UniMath.CategoryTheory.whiskering]
pre_composition_is_functor [lemma, in UniMath.CategoryTheory.whiskering]
pre_whisker_composition [lemma, in UniMath.CategoryTheory.whiskering]
pre_whisker_identity [lemma, in UniMath.CategoryTheory.whiskering]
pre_composition_functor_data [definition, in UniMath.CategoryTheory.whiskering]
pre_whisker_in_funcat [definition, in UniMath.CategoryTheory.whiskering]
pre_whisker_on_nat_z_iso [lemma, in UniMath.CategoryTheory.whiskering]
pre_whisker_iso_is_iso [lemma, in UniMath.CategoryTheory.whiskering]
pre_whisker [definition, in UniMath.CategoryTheory.whiskering]
pre_comp_rezk_eta_opp_is_ess_surj [lemma, in UniMath.CategoryTheory.rezk_completion]
pre_comp_rezk_eta_opp_is_fully_faithful [lemma, in UniMath.CategoryTheory.rezk_completion]
pre_comp_rezk_eta_is_ess_surj [lemma, in UniMath.CategoryTheory.rezk_completion]
pre_comp_rezk_eta_is_fully_faithful [lemma, in UniMath.CategoryTheory.rezk_completion]
pre_whisker_disp_nat_trans [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
pre_composition_with_ess_surj_and_fully_faithful_is_fully_faithful [lemma, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition_with_ess_surj_and_full_is_fully_faithful [lemma, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition_with_ess_surj_and_full_is_full_and_faithful [lemma, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition_with_ess_surj_and_full_is_full [lemma, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.precomp_with_ess_surj_full_functor_is_full.full.gamma [variable, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.precomp_with_ess_surj_full_functor_is_full.full.G [variable, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.precomp_with_ess_surj_full_functor_is_full.full.F [variable, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.precomp_with_ess_surj_full_functor_is_full.full [section, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.precomp_with_ess_surj_full_functor_is_full.Hf [variable, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.precomp_with_ess_surj_full_functor_is_full.p [variable, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.precomp_with_ess_surj_full_functor_is_full [section, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition_with_ess_surj_is_faithful [lemma, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.H [variable, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.C [variable, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.B [variable, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.A [variable, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition [section, in UniMath.CategoryTheory.precomp_fully_faithful]
pre_comp_with_z_iso_inv_is_inj [lemma, in UniMath.CategoryTheory.Core.Isos]
pre_comp_with_z_iso_is_inj' [lemma, in UniMath.CategoryTheory.Core.Isos]
pre_comp_with_z_iso_is_inj [lemma, in UniMath.CategoryTheory.Core.Isos]
pre_comp_with_iso_is_inj [lemma, in UniMath.CategoryTheory.Core.Isos]
pre_composition_as_a_functor [definition, in UniMath.CategoryTheory.HorizontalComposition]
pre_composition_as_a_functor_data_is_fun [lemma, in UniMath.CategoryTheory.HorizontalComposition]
pre_composition_as_a_functor_data [definition, in UniMath.CategoryTheory.HorizontalComposition]
pre_composition_essentially_surjective [lemma, in UniMath.CategoryTheory.precomp_ess_surj]
prime [section, in UniMath.Algebra.RigsAndRings.Ideals]
primeandtimes [lemma, in UniMath.PAdics.padics]
primedivorcoprime [lemma, in UniMath.PAdics.padics]
prime_ideal_complement [definition, in UniMath.Algebra.RigsAndRings.Ideals]
prime_ideal_ax1_contraposition [lemma, in UniMath.Algebra.RigsAndRings.Ideals]
prime_facts [section, in UniMath.Algebra.RigsAndRings.Ideals]
prime_ideal_ax2 [definition, in UniMath.Algebra.RigsAndRings.Ideals]
prime_ideal_ax1 [definition, in UniMath.Algebra.RigsAndRings.Ideals]
prime_ideal_ideal [definition, in UniMath.Algebra.RigsAndRings.Ideals]
prime_ideal [definition, in UniMath.Algebra.RigsAndRings.Ideals]
princop [definition, in UniMath.Algebra.Universal.Terms]
princop_build_term [lemma, in UniMath.Algebra.Universal.Terms]
princop_sorteq [definition, in UniMath.Algebra.Universal.Terms]
prinvunitor [definition, in UniMath.Bicategories.Core.Strictness]
Prod [library]
ProdCone [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
prodtofunfromcoprod [definition, in UniMath.Foundations.PartD]
prodtofuntoprod [definition, in UniMath.Foundations.PartD]
prodtosecovercoprod [definition, in UniMath.Foundations.PartD]
Product [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Product [definition, in UniMath.Induction.ImpredicativeInductiveSets]
Product [definition, in UniMath.CategoryTheory.limits.products]
Product [section, in UniMath.Bicategories.Colimits.Products]
ProductArrow [definition, in UniMath.CategoryTheory.limits.products]
ProductArrowEta [lemma, in UniMath.CategoryTheory.limits.products]
ProductArrowUnique [lemma, in UniMath.CategoryTheory.limits.products]
ProductCategory [library]
productMapExistence [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
productMapUniqueness [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
ProductObject [definition, in UniMath.CategoryTheory.limits.products]
ProductOfArrows [definition, in UniMath.CategoryTheory.limits.products]
ProductOfArrowsPr [lemma, in UniMath.CategoryTheory.limits.products]
ProductOfArrows_comp [definition, in UniMath.CategoryTheory.limits.products]
ProductPr [definition, in UniMath.CategoryTheory.limits.products]
ProductPrCommutes [lemma, in UniMath.CategoryTheory.limits.products]
ProductPr_idtoiso [lemma, in UniMath.CategoryTheory.limits.products]
Products [section, in UniMath.CategoryTheory.limits.products]
Products [definition, in UniMath.CategoryTheory.limits.products]
Products [library]
products [library]
productscone [definition, in UniMath.CategoryTheory.limits.products]
ProductsHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
ProductStrength1 [lemma, in UniMath.SubstitutionSystems.BinProductOfSignatures]
ProductStrength1' [lemma, in UniMath.SubstitutionSystems.BinProductOfSignatures]
ProductStrength2 [lemma, in UniMath.SubstitutionSystems.BinProductOfSignatures]
ProductStrength2' [lemma, in UniMath.SubstitutionSystems.BinProductOfSignatures]
Products_PreShv [lemma, in UniMath.CategoryTheory.Presheaf]
Products_HSET_slice [lemma, in UniMath.CategoryTheory.categories.HSET.Slice]
Products_from_Lims [lemma, in UniMath.CategoryTheory.limits.products]
products_diagram [definition, in UniMath.CategoryTheory.limits.products]
products_from_limits.C [variable, in UniMath.CategoryTheory.limits.products]
products_from_limits.I [variable, in UniMath.CategoryTheory.limits.products]
products_from_limits [section, in UniMath.CategoryTheory.limits.products]
Products_functor_precat [definition, in UniMath.CategoryTheory.limits.products]
Products.C [variable, in UniMath.CategoryTheory.limits.products]
Products.CC [variable, in UniMath.CategoryTheory.limits.products]
Products.I [variable, in UniMath.CategoryTheory.limits.products]
productwithfixedelement [definition, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
Product_univ_prop [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Product_classical_η [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Product_η [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Product_com_con [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Product_weak_η [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Product_beta [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Product_rec [definition, in UniMath.Induction.ImpredicativeInductiveSets]
Product_as_set [definition, in UniMath.Induction.ImpredicativeInductiveSets]
Product_isaset [definition, in UniMath.Induction.ImpredicativeInductiveSets]
product_category [definition, in UniMath.CategoryTheory.ProductCategory]
product_category' [definition, in UniMath.CategoryTheory.ProductCategory]
product_precategory [definition, in UniMath.CategoryTheory.ProductCategory]
product_precategory_data [definition, in UniMath.CategoryTheory.ProductCategory]
product_precategory_ob_mor [definition, in UniMath.CategoryTheory.ProductCategory]
product_nat_trans [definition, in UniMath.CategoryTheory.limits.products]
product_nat_trans_data [definition, in UniMath.CategoryTheory.limits.products]
product_nat_trans_pr [definition, in UniMath.CategoryTheory.limits.products]
product_nat_trans_pr_data [definition, in UniMath.CategoryTheory.limits.products]
product_of_functors_alt_eq_product_of_functors [lemma, in UniMath.CategoryTheory.limits.products]
product_of_functors [definition, in UniMath.CategoryTheory.limits.products]
product_of_functors_data [definition, in UniMath.CategoryTheory.limits.products]
product_of_functors_mor [definition, in UniMath.CategoryTheory.limits.products]
product_of_functors_ob [definition, in UniMath.CategoryTheory.limits.products]
product_of_functors_alt [definition, in UniMath.CategoryTheory.limits.products]
product_functor [definition, in UniMath.CategoryTheory.limits.products]
product_functor_data [definition, in UniMath.CategoryTheory.limits.products]
product_functor [section, in UniMath.CategoryTheory.limits.products]
Product_endo_is_identity [lemma, in UniMath.CategoryTheory.limits.products]
Product_unique.a [variable, in UniMath.CategoryTheory.limits.products]
Product_unique.CC [variable, in UniMath.CategoryTheory.limits.products]
Product_unique.C [variable, in UniMath.CategoryTheory.limits.products]
Product_unique.I [variable, in UniMath.CategoryTheory.limits.products]
Product_unique [section, in UniMath.CategoryTheory.limits.products]
product_def.C [variable, in UniMath.CategoryTheory.limits.products]
product_def.I [variable, in UniMath.CategoryTheory.limits.products]
product_def [section, in UniMath.CategoryTheory.limits.products]
product_unoseq_ring [definition, in UniMath.Algebra.IteratedBinaryOperations]
Product.Projections [section, in UniMath.Bicategories.Colimits.Products]
Product.UniversalMappingPropertyStatements [section, in UniMath.Bicategories.Colimits.Products]
Product.UniversalMappingPropertyStatements.p [variable, in UniMath.Bicategories.Colimits.Products]
prod_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_functor_data [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_category_assoc [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_category_assoc_data [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_category [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_precategory_homsets [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_precategory [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_precategory_is_precategory [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_precategory_data [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_precategory_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
prod_idtoiso_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
prod_idtoiso_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
prod_2cell_pr2_alt [definition, in UniMath.Bicategories.Colimits.Products]
prod_2cell_pr1_alt [definition, in UniMath.Bicategories.Colimits.Products]
prod_2cell_pr2 [definition, in UniMath.Bicategories.Colimits.Products]
prod_2cell_pr1 [definition, in UniMath.Bicategories.Colimits.Products]
prod_2cell_is_invertible [definition, in UniMath.Bicategories.Colimits.Products]
prod_2cell [definition, in UniMath.Bicategories.Colimits.Products]
prod_1cell_pr2 [definition, in UniMath.Bicategories.Colimits.Products]
prod_1cell_pr1 [definition, in UniMath.Bicategories.Colimits.Products]
prod_1cell [definition, in UniMath.Bicategories.Colimits.Products]
prod':258 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod2 [definition, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
prod:219 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:223 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:227 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:234 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:241 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:248 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:257 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:331 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:336 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:343 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:618 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:625 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:631 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
profunctor [definition, in UniMath.CategoryTheory.Profunctors.Core]
ProgressiveMaps [section, in UniMath.Algebra.FixedPointTheorems]
progressive_pointwise_lub [lemma, in UniMath.Algebra.FixedPointTheorems]
progressive_property [definition, in UniMath.Algebra.FixedPointTheorems]
Progressive_map [definition, in UniMath.Algebra.FixedPointTheorems]
Progressive_map:5 [binder, in UniMath.Algebra.FixedPointTheorems]
Projection [section, in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
Projection [section, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Projection [library]
Projection [library]
Projections [section, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Projections [section, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
Projections [section, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
Projections [section, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
ProjectionsBinop [section, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
ProjectionsBinop.m [variable, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
ProjectionsPointedBinop [section, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
ProjectionsPointedBinop.m [variable, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
Projections_and_Laws_2 [section, in UniMath.CategoryTheory.Monads.RelativeModules]
Projections.A [variable, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Projections.R [variable, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Projections.Γ [variable, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Projections2 [section, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
Projections3 [section, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
Projection.D [variable, in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
Projection.F [variable, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
projSortToC [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
projSortToC_rad [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
projSortToSet [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
proj_comm [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
proj_ [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
proj_functor' [definition, in UniMath.SubstitutionSystems.MultiSorted]
proj_functor [definition, in UniMath.SubstitutionSystems.MultiSorted]
proj_fun [definition, in UniMath.SubstitutionSystems.MultiSorted]
Proj1 [definition, in UniMath.Induction.ImpredicativeInductiveSets]
Proj2 [definition, in UniMath.Induction.ImpredicativeInductiveSets]
proofirrelevance [lemma, in UniMath.Foundations.PartB]
proofirrelevancecontr [lemma, in UniMath.Foundations.PartA]
proofirrelevance_hProp [definition, in UniMath.MoreFoundations.Propositions]
proofirrGuidedHomotopy [lemma, in UniMath.SyntheticHomotopyTheory.AffineLine]
Proof_map [definition, in UniMath.SubstitutionSystems.CCS_alt]
Proof_source [definition, in UniMath.SubstitutionSystems.CCS_alt]
Proof_map [definition, in UniMath.SubstitutionSystems.CCS]
Proof_source [definition, in UniMath.SubstitutionSystems.CCS]
proof_by_contradiction [lemma, in UniMath.MoreFoundations.Propositions]
property_from_invertible_2cell [definition, in UniMath.Bicategories.Core.Bicat]
proper_subtypes_set [definition, in UniMath.Combinatorics.WellOrderedSets]
PropositionalLogic [library]
propositionalUnivalenceAxiom [axiom, in UniMath.Foundations.UnivalenceAxiom]
propositionalUnivalenceFromUnivalence [definition, in UniMath.Foundations.UnivalenceAxiom]
propositionalUnivalenceStatement [definition, in UniMath.Foundations.UnivalenceAxiom]
propositionalUnivalenceUAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
Propositions [library]
Propositions [library]
propproperty [definition, in UniMath.Foundations.Propositions]
Prop_disp_invertible_2cell [section, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Prop_map [definition, in UniMath.SubstitutionSystems.CCS_alt]
Prop_source [definition, in UniMath.SubstitutionSystems.CCS_alt]
Prop_map [definition, in UniMath.SubstitutionSystems.CCS]
Prop_source [definition, in UniMath.SubstitutionSystems.CCS]
prop_n_to_min_n [definition, in UniMath.Combinatorics.BoundedSearch]
prop:32 [binder, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
prop:39 [binder, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
prtoimage [definition, in UniMath.Foundations.Propositions]
prunitor [definition, in UniMath.Bicategories.Core.Strictness]
pr_ [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pr_2 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pr_1 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pr_tuple_functor [lemma, in UniMath.CategoryTheory.ProductCategory]
pr_functor [definition, in UniMath.CategoryTheory.ProductCategory]
pr_functor_data [definition, in UniMath.CategoryTheory.ProductCategory]
pr_strictness_structure [definition, in UniMath.Bicategories.Core.Strictness]
pr_quot_functor [definition, in UniMath.CategoryTheory.SetValuedFunctors]
pr_quot_functor_data [definition, in UniMath.CategoryTheory.SetValuedFunctors]
pr1 [projection, in UniMath.Foundations.Preamble]
Pr1AdmEpi [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr1afld [definition, in UniMath.PAdics.lemmas]
pr1aintdom [definition, in UniMath.PAdics.lemmas]
pr1BaseOfFilter [definition, in UniMath.Topology.Filters]
pr1BaseOfPreFilter [definition, in UniMath.Topology.Filters]
pr1base_of_neighborhood [definition, in UniMath.Topology.Topology]
pr1binopeqrel [definition, in UniMath.Algebra.BinaryOperations]
pr1binopfun [definition, in UniMath.Algebra.BinaryOperations]
pr1binophrel [definition, in UniMath.Algebra.BinaryOperations]
pr1binopiso [definition, in UniMath.Algebra.BinaryOperations]
pr1binopmono [definition, in UniMath.Algebra.BinaryOperations]
pr1binoppo [definition, in UniMath.Algebra.BinaryOperations]
pr1carrier [definition, in UniMath.Foundations.Sets]
pr1compfun [definition, in UniMath.Foundations.Sets]
pr1compl [definition, in UniMath.Foundations.PartC]
pr1CompleteSpace [definition, in UniMath.RealNumbers.Sets]
pr1compl_ne [definition, in UniMath.MoreFoundations.NegativePropositions]
pr1contr_to_contr [lemma, in UniMath.Combinatorics.ZFstructures]
pr1Dcuts [definition, in UniMath.RealNumbers.NonnegativeReals]
pr1decrel [definition, in UniMath.Foundations.Sets]
pr1decSet [definition, in UniMath.Combinatorics.DecSet]
pr1DivRig [definition, in UniMath.Algebra.DivisionRig]
pr1EffectivelyOrderedSet [definition, in UniMath.RealNumbers.Sets]
pr1eqrel [definition, in UniMath.Foundations.Sets]
pr1Filter [definition, in UniMath.Topology.Filters]
pr1fld [definition, in UniMath.Algebra.Domains_and_Fields]
pr1foldr_algmor_identity [lemma, in UniMath.CategoryTheory.Inductives.Lists]
pr1foldr_algmor [definition, in UniMath.CategoryTheory.Inductives.Lists]
pr1foldr_algmor_identity [lemma, in UniMath.CategoryTheory.Inductives.Trees]
pr1foldr_algmor [definition, in UniMath.CategoryTheory.Inductives.Trees]
pr1GreatestLowerBound [definition, in UniMath.RealNumbers.Sets]
pr1hSet [definition, in UniMath.Foundations.Sets]
pr1image [definition, in UniMath.Foundations.Propositions]
pr1incl [definition, in UniMath.Foundations.PartB]
pr1intdom [definition, in UniMath.Algebra.Domains_and_Fields]
pr1invpair [definition, in UniMath.Algebra.Domains_and_Fields]
pr1isabgrop [definition, in UniMath.Algebra.BinaryOperations]
pr1isabmonoidop [definition, in UniMath.Algebra.BinaryOperations]
Pr1IsAdmEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr1iscommrigops [definition, in UniMath.Algebra.BinaryOperations]
pr1iscommringops [definition, in UniMath.Algebra.BinaryOperations]
pr1isgrop [definition, in UniMath.Algebra.BinaryOperations]
pr1isolated [definition, in UniMath.Foundations.PartB]
pr1isolated_ne [definition, in UniMath.MoreFoundations.NegativePropositions]
pr1LeastUpperBound [definition, in UniMath.RealNumbers.Sets]
pr1linearfun [definition, in UniMath.Algebra.Modules.Core]
pr1linvpair [definition, in UniMath.Algebra.Domains_and_Fields]
pr1module [definition, in UniMath.Algebra.Modules.Core]
pr1modulefun [definition, in UniMath.Algebra.Modules.Core]
pr1monoid [definition, in UniMath.Algebra.Monoids]
pr1monoidfun [definition, in UniMath.Algebra.Monoids]
pr1monoidiso [definition, in UniMath.Algebra.Monoids]
pr1monoidmono [definition, in UniMath.Algebra.Monoids]
pr1multilinearfun [definition, in UniMath.Algebra.Modules.Multimodules]
pr1multimodule [definition, in UniMath.Algebra.Modules.Multimodules]
pr1multimodulefun [definition, in UniMath.Algebra.Modules.Multimodules]
pr1Open [definition, in UniMath.Topology.Topology]
pr1PreFilter [definition, in UniMath.Topology.Filters]
pr1rig [definition, in UniMath.Algebra.RigsAndRings]
pr1rigfun [definition, in UniMath.Algebra.RigsAndRings]
pr1rigiso [definition, in UniMath.Algebra.RigsAndRings]
pr1ring [definition, in UniMath.Algebra.RigsAndRings]
pr1rinvpair [definition, in UniMath.Algebra.Domains_and_Fields]
pr1setofendabgr [definition, in UniMath.Algebra.Modules.Core]
pr1setquot [definition, in UniMath.Foundations.Sets]
pr1setwithbinop [definition, in UniMath.Algebra.BinaryOperations]
pr1setwith2binop [definition, in UniMath.Algebra.BinaryOperations]
pr1sieve [definition, in UniMath.CategoryTheory.Presheaf]
pr1StrongOrder [definition, in UniMath.Algebra.Lattice]
pr1StrongOrder [definition, in UniMath.RealNumbers.Sets]
pr1submonoid [definition, in UniMath.Algebra.Monoids]
pr1subrig [definition, in UniMath.Algebra.RigsAndRings]
pr1subring [definition, in UniMath.Algebra.RigsAndRings]
pr1subsetswithbinop [definition, in UniMath.Algebra.BinaryOperations]
pr1subsetswith2binop [definition, in UniMath.Algebra.BinaryOperations]
pr1TopologicatSet [definition, in UniMath.Topology.Topology]
pr1twobinopeqrel [definition, in UniMath.Algebra.BinaryOperations]
pr1twobinopfun [definition, in UniMath.Algebra.BinaryOperations]
pr1twobinophrel [definition, in UniMath.Algebra.BinaryOperations]
pr1twobinopiso [definition, in UniMath.Algebra.BinaryOperations]
pr1twobinopmono [definition, in UniMath.Algebra.BinaryOperations]
pr1twobinoppo [definition, in UniMath.Algebra.BinaryOperations]
pr1weq [definition, in UniMath.Foundations.PartA]
pr1weq_injectivity [lemma, in UniMath.Algebra.GroupAction]
pr1wofun [definition, in UniMath.Combinatorics.WellOrderedSets]
pr1ZFS [definition, in UniMath.Combinatorics.ZFstructures]
pr1_pr1_relmonadmor_eq_from_relmonadmor_iso_idtoiso [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
pr1_pr1_relmonadmor_eq_from_relmonadmor_iso_idtoiso_aux [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
pr1_pr1_relmonadmor_eq_from_relmonadmor_iso [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
pr1_invertible_2cell_total [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
pr1_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
pr1_category_locally_contractible [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
pr1_category_inhabited [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
pr1_category_fully_faithful [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
pr1_category_full [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
pr1_category_faithful [definition, in UniMath.CategoryTheory.DisplayedCats.Projection]
pr1_GH_weq_compute [definition, in UniMath.SyntheticHomotopyTheory.Circle]
pr1_GH_weq [definition, in UniMath.SyntheticHomotopyTheory.Circle]
pr1_GH [definition, in UniMath.SyntheticHomotopyTheory.Circle]
pr1_Postfixedpoint [definition, in UniMath.Algebra.FixedPointTheorems]
pr1_Fixedpoint [definition, in UniMath.Algebra.FixedPointTheorems]
pr1_Progressive_map [definition, in UniMath.Algebra.FixedPointTheorems]
pr1_Directed_hsubtype [definition, in UniMath.Algebra.FixedPointTheorems]
pr1_Chain_hsubtype [definition, in UniMath.Algebra.FixedPointTheorems]
pr1_issurjective [lemma, in UniMath.MoreFoundations.AxiomOfChoice]
pr1_category [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
pr1_category_is_functor [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
pr1_category_data [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
pr1_preserves_limit [lemma, in UniMath.CategoryTheory.DisplayedCats.Limits]
pr1_functor_eq_from_functor_iso [definition, in UniMath.CategoryTheory.FunctorCategory]
pr1_pr1_functor_eq_from_functor_iso [definition, in UniMath.CategoryTheory.FunctorCategory]
pr1_transportf_sigma_disp [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
pr1_functor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
pr1_functor_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
pr1_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr1_left_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr1_disp_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr1_is_disp_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr1_transportf [lemma, in UniMath.MoreFoundations.PartA]
pr1_eqweqmap_stn [definition, in UniMath.Combinatorics.StandardFiniteSets]
pr1_dni_lastelement [definition, in UniMath.Combinatorics.StandardFiniteSets]
pr1_eqweqmap2 [definition, in UniMath.MoreFoundations.Univalence]
pr1_eqweqmap [definition, in UniMath.MoreFoundations.Univalence]
pr1_invweq [lemma, in UniMath.Foundations.PartA]
pr12_pair_path_in2 [definition, in UniMath.SyntheticHomotopyTheory.Circle]
pr12_GH [definition, in UniMath.SyntheticHomotopyTheory.Circle]
pr1:138 [binder, in UniMath.CategoryTheory.Monads.Monads]
pr1:139 [binder, in UniMath.CategoryTheory.Monads.Monads]
pr1:140 [binder, in UniMath.CategoryTheory.Monads.Monads]
pr1:141 [binder, in UniMath.CategoryTheory.Monads.Monads]
pr1:142 [binder, in UniMath.CategoryTheory.Monads.Monads]
pr1:143 [binder, in UniMath.CategoryTheory.Monads.Monads]
pr1:144 [binder, in UniMath.CategoryTheory.Monads.Monads]
pr1:145 [binder, in UniMath.CategoryTheory.Monads.Monads]
pr1:146 [binder, in UniMath.CategoryTheory.Monads.Monads]
pr1:147 [binder, in UniMath.CategoryTheory.Monads.Monads]
pr1:148 [binder, in UniMath.CategoryTheory.Monads.Monads]
pr1:149 [binder, in UniMath.CategoryTheory.Monads.Monads]
pr2 [projection, in UniMath.Foundations.Preamble]
Pr2AdmEpi [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pr2IsAdmEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr2module [definition, in UniMath.Algebra.Modules.Core]
pr2multimodule [definition, in UniMath.Algebra.Modules.Multimodules]
pr2setofendabgr [definition, in UniMath.Algebra.Modules.Core]
pr2subsetswithbinop [definition, in UniMath.Algebra.BinaryOperations]
pr2_GH [definition, in UniMath.SyntheticHomotopyTheory.Circle]
pr2_transportf_sigma_disp [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
pr2_functor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
pr2_functor_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
pr2_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr2_left_adjoint_equivalence [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr2_disp_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr2_is_disp_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr2_of_make_weq [definition, in UniMath.MoreFoundations.PartA]
pr2_of_pair [definition, in UniMath.MoreFoundations.PartA]
pr2_of_make_hfiber [definition, in UniMath.MoreFoundations.PartA]
pr2_transportf [lemma, in UniMath.MoreFoundations.PartA]
pr22_GH [definition, in UniMath.SyntheticHomotopyTheory.Circle]
pr3bimodule [definition, in UniMath.Algebra.Modules.Multimodules]
pr:1093 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:1103 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:1116 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:1126 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:198 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
pr:208 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
pr:679 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:690 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:701 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:717 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pscomponent_of [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
PseudoElem [definition, in UniMath.CategoryTheory.PseudoElements]
PseudoElements [library]
PseudoEq_iseqrel [lemma, in UniMath.CategoryTheory.PseudoElements]
PseudoFunctor [library]
PseudoFunctorBicat [section, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
PseudoFunctorBicat [library]
PseudoFunctorBicat.C [variable, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
PseudoFunctorBicat.D [variable, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
PseudoFunctorData [section, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
PseudoFunctorData.C [variable, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
PseudoFunctorData.D [variable, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
PseudoFunctorDerivedLaws [section, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
PseudoFunctorDerivedLaws.F [variable, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
PseudofunctorFromMonoidal [library]
PseudoFunctorLimits [library]
PseudoFunctorLocalFunctor [section, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
PseudoFunctorLocalFunctor.F [variable, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
PseudoFunctorLocalFunctor.X [variable, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
PseudoFunctorLocalFunctor.Y [variable, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
PseudoIm [definition, in UniMath.CategoryTheory.PseudoElements]
PseudoMor [definition, in UniMath.CategoryTheory.PseudoElements]
PseudoMorphism [section, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
PseudoOb [definition, in UniMath.CategoryTheory.PseudoElements]
PseudoTransformation [library]
psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_to_functor_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
psfunctor_data_on_cells [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
psfunctor_to_monoidal_functor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psfunctor_to_lax_monoidal_functor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psfunctor_to_lax_monoidal_functor_laws [lemma, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psfunctor_to_lax_monoidal_functor_functor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psfunctor_to_lax_monoidal_functor_data_is_functor [lemma, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psfunctor_to_lax_monoidal_functor_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psfunctor_to_monoidal_functor [section, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psfunctor_bicat_is_univalent_2 [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_bicat_is_univalent_2_0 [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_bicat_is_univalent_2_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_bicat [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_laws [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_rwhisker_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_lwhisker_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_lassociator_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_runitor_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_lunitor_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_vcomp2_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_id2_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_comp [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_id [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_on_cells [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_data_is_univalent_2 [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_data_is_univalent_2_0 [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_data_is_univalent_2_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_data [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_data_bicat [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_data_disp [definition, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_preserves_adjequiv [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_lassociator_alt [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_F_runitor [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_F_lunitor [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_comp_natural [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_rassociator [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_rinvunitor [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_linvunitor [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_is_iso [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_rwhisker [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_lwhisker [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_lassociator [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_runitor [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_lunitor [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_vcomp [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_id2 [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_comp [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_id [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_on_cells [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_to_psfunctor_data [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_of_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
psfunctor_biinitial [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
psfunctor_bifinal [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
psF:9 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psnaturality_inv_natural [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
psnaturality_natural [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
psnaturality_of [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
pspsh [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
pstrans [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_to_nattrans_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
pstrans_on_data_to_pstrans [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_on_data [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_data_on_data [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_to_is_pstrans [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_to_pstrans_data [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_inv_comp_alt [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_comp_alt [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_id_alt [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_comp [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_id [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_data [definition, in UniMath.Bicategories.Transformations.PseudoTransformation]
psubst [definition, in UniMath.SubstitutionSystems.STLC_alt]
psubst_interchange [lemma, in UniMath.SubstitutionSystems.STLC_alt]
ps_base_is_univalent_2 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
ps_base_is_univalent_2_0 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
ps_base_is_univalent_2_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
ps_base [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
ps_base_laws [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
ps_base_data [definition, in UniMath.Bicategories.PseudoFunctors.Display.Base]
ps:109 [binder, in UniMath.MoreFoundations.Sets]
ps:36 [binder, in UniMath.Algebra.Universal.HVectors]
ps:58 [binder, in UniMath.MoreFoundations.Sets]
ps:70 [binder, in UniMath.MoreFoundations.Sets]
ps:87 [binder, in UniMath.MoreFoundations.Sets]
ps:897 [binder, in UniMath.Foundations.Sets]
pt [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
ptd [definition, in UniMath.SubstitutionSystems.Signatures]
ptdInitAlg [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
ptdInitAlg [definition, in UniMath.SubstitutionSystems.LiftingInitial]
ptd_mor_from_μ [definition, in UniMath.SubstitutionSystems.ModulesFromSignatures]
ptd_mor_pt [definition, in UniMath.SubstitutionSystems.ModulesFromSignatures]
ptd_from_mon [definition, in UniMath.SubstitutionSystems.ModulesFromSignatures]
ptd_composite_compose [lemma, in UniMath.CategoryTheory.PointedFunctorsComposition]
ptd_compose [definition, in UniMath.CategoryTheory.PointedFunctorsComposition]
ptd_composite [definition, in UniMath.CategoryTheory.PointedFunctorsComposition]
ptd_mor_z_iso_from_underlying_mor [lemma, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
ptd_mor_from_hssMor [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
ptd_from_alg_functor [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
ptd_from_alg_functor_data [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
ptd_from_alg_mor [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
ptd_from_alg [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
ptd_forget_data [definition, in UniMath.CategoryTheory.PointedFunctors]
ptd_precategory_data [definition, in UniMath.CategoryTheory.PointedFunctors]
ptd_ob_mor [definition, in UniMath.CategoryTheory.PointedFunctors]
ptd_comp [definition, in UniMath.CategoryTheory.PointedFunctors]
ptd_id [definition, in UniMath.CategoryTheory.PointedFunctors]
ptd_mor_commutes [definition, in UniMath.CategoryTheory.PointedFunctors]
ptd_mor [definition, in UniMath.CategoryTheory.PointedFunctors]
ptd_pt [definition, in UniMath.CategoryTheory.PointedFunctors]
ptd_obj [definition, in UniMath.CategoryTheory.PointedFunctors]
PTD:175 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:176 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:177 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:179 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:184 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:235 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:251 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:273 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:276 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:279 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:284 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:287 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:290 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:293 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:296 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:302 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:309 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:316 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PTD:317 [binder, in UniMath.HomologicalAlgebra.Triangulated]
pt_1 [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
pt_0 [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
pt':155 [binder, in UniMath.MoreFoundations.Propositions]
pt':161 [binder, in UniMath.MoreFoundations.Propositions]
pt':72 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
PT:1029 [binder, in UniMath.HomologicalAlgebra.Triangulated]
pt:13 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
pt:23 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
pt:31 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
PT:319 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:320 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:321 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:340 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:365 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:384 [binder, in UniMath.HomologicalAlgebra.Triangulated]
pt:4 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
pt:40 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
PT:403 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:422 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:441 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:460 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:479 [binder, in UniMath.HomologicalAlgebra.Triangulated]
pt:49 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
PT:498 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:516 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:554 [binder, in UniMath.HomologicalAlgebra.Triangulated]
pt:56 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
pt:59 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
PT:611 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:615 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:636 [binder, in UniMath.HomologicalAlgebra.Triangulated]
pt:64 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
pt:67 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
PT:696 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:709 [binder, in UniMath.HomologicalAlgebra.Triangulated]
pt:71 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
PT:722 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:735 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:777 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:819 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:861 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:903 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:945 [binder, in UniMath.HomologicalAlgebra.Triangulated]
PT:987 [binder, in UniMath.HomologicalAlgebra.Triangulated]
Pullback [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Pullback [section, in UniMath.Bicategories.Colimits.Pullback]
pullback [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Pullback [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pullback [definition, in UniMath.CategoryTheory.limits.pullbacks]
Pullback [library]
PullbackArrow [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackArrow [definition, in UniMath.CategoryTheory.limits.pullbacks]
PullbackArrowUnique [lemma, in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackArrowUnique [lemma, in UniMath.CategoryTheory.limits.pullbacks]
PullbackArrowUnique' [lemma, in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackArrowUnique' [lemma, in UniMath.CategoryTheory.limits.pullbacks]
PullbackArrow_PullbackPr2 [lemma, in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackArrow_PullbackPr1 [lemma, in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackArrow_PullbackPr2 [lemma, in UniMath.CategoryTheory.limits.pullbacks]
PullbackArrow_PullbackPr1 [lemma, in UniMath.CategoryTheory.limits.pullbacks]
PullbackCone [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
PullbackEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.pullbacks]
PullbackEpiIsEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pullBackFamily [definition, in UniMath.MoreFoundations.PathsOver]
PullbackHSET_ob [definition, in UniMath.CategoryTheory.categories.HSET.Limits]
pullbackiso [lemma, in UniMath.CategoryTheory.limits.pullbacks]
pullbackiso1 [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pullbackiso2 [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PullbackKernel [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PullbackObject [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackObject [definition, in UniMath.CategoryTheory.limits.pullbacks]
pullBackPathOver [definition, in UniMath.MoreFoundations.PathsOver]
pullBackPathOverPath [definition, in UniMath.MoreFoundations.PathsOver]
pullBackPathOverPoint [definition, in UniMath.MoreFoundations.PathsOver]
pullBackPathPathOver [definition, in UniMath.MoreFoundations.PathsOver]
pullBackPointOver [definition, in UniMath.MoreFoundations.PathsOver]
pullBackPointOverWithSection [definition, in UniMath.MoreFoundations.PathsOver]
pullBackPointOverWithSection' [definition, in UniMath.MoreFoundations.PathsOver]
PullbackPr1 [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackPr1 [definition, in UniMath.CategoryTheory.limits.pullbacks]
PullbackPr2 [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackPr2 [definition, in UniMath.CategoryTheory.limits.pullbacks]
Pullbacks [definition, in UniMath.CategoryTheory.Abelian]
Pullbacks [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pullbacks [section, in UniMath.CategoryTheory.slicecat]
Pullbacks [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pullbacks [definition, in UniMath.CategoryTheory.limits.pullbacks]
pullbacks [library]
pullbacks [library]
pullBackSection [definition, in UniMath.MoreFoundations.PathsOver]
PullbacksHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
PullbacksHSET_from_Lims [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
PullbackSplitEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PullbackSqrCommutes [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackSqrCommutes [definition, in UniMath.CategoryTheory.limits.pullbacks]
PullbackSubobject [definition, in UniMath.CategoryTheory.Subobjects]
Pullbacks_PreShv [lemma, in UniMath.CategoryTheory.Presheaf]
Pullbacks_from_slice_BinProducts [definition, in UniMath.CategoryTheory.slicecat]
Pullbacks_Cartesian [section, in UniMath.CategoryTheory.DisplayedCats.Codomain]
Pullbacks_opp [definition, in UniMath.CategoryTheory.limits.Opp]
_ / _ [notation, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
pullbacks_slice_products_equiv [section, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
Pullbacks_from_Lims [lemma, in UniMath.CategoryTheory.limits.graphs.pullbacks]
pullbacks_functor_category.hpb [variable, in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_functor_category.C [variable, in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_functor_category.D [variable, in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_functor_category [section, in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_pointwise.Hcommx [variable, in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_pointwise.Hcomm [variable, in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_pointwise.CD [variable, in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_pointwise [section, in UniMath.CategoryTheory.limits.pullbacks]
Pullbacks_from_Equalizers_BinProducts [definition, in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_slice_products_equiv [library]
Pullbacks.OppositeIsoArrows [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ / _ [notation, in UniMath.CategoryTheory.slicecat]
$$ _ [notation, in UniMath.CategoryTheory.slicecat]
$ _ [notation, in UniMath.CategoryTheory.slicecat]
% _ [notation, in UniMath.CategoryTheory.slicecat]
Pullback_to_isPullback' [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pullback_binopeqrel_rev [definition, in UniMath.Algebra.BinaryOperations]
pullback_binopeqrel [definition, in UniMath.Algebra.BinaryOperations]
pullback_to_slice_pullback [lemma, in UniMath.CategoryTheory.slicecat]
pullback_to_slice_binprod [definition, in UniMath.CategoryTheory.slicecat]
Pullback_opp [definition, in UniMath.CategoryTheory.limits.Opp]
_ ' [notation, in UniMath.CategoryTheory.Monads.Derivative]
pullback_deriv.MOD [variable, in UniMath.CategoryTheory.Monads.Derivative]
pullback_deriv [section, in UniMath.CategoryTheory.Monads.Derivative]
pullback_to_binprod_inv [lemma, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
pullback_to_binprod [definition, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
pullback_to_slice_binprod_inv [lemma, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
pullback_diagram [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
pullback_graph [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
pullback_paths [section, in UniMath.CategoryTheory.limits.pullbacks]
pullback_up_to_iso [section, in UniMath.CategoryTheory.limits.pullbacks]
Pullback_from_Equalizer_BinProduct [definition, in UniMath.CategoryTheory.limits.pullbacks]
Pullback_from_Equalizer_BinProduct_isPullback [definition, in UniMath.CategoryTheory.limits.pullbacks]
Pullback_from_Equalizer_BinProduct_eq [definition, in UniMath.CategoryTheory.limits.pullbacks]
Pullback_Composition [section, in UniMath.CategoryTheory.Monads.LModules]
Pullback_Identity_Module [section, in UniMath.CategoryTheory.Monads.LModules]
Pullback_Module_Morphism [section, in UniMath.CategoryTheory.Monads.LModules]
_ ∘ _ [notation, in UniMath.CategoryTheory.Monads.LModules]
Pullback_module.T [variable, in UniMath.CategoryTheory.Monads.LModules]
Pullback_module [section, in UniMath.CategoryTheory.Monads.LModules]
pullback_HSET_univprop_elements [lemma, in UniMath.CategoryTheory.categories.HSET.Structures]
Pullback.UniversalMappingPropertyStatements [section, in UniMath.Bicategories.Colimits.Pullback]
Pullback.UniversalMappingPropertyStatements.p [variable, in UniMath.Bicategories.Colimits.Pullback]
PullbCone [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pushout [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Pushout [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
Pushout [definition, in UniMath.CategoryTheory.limits.pushouts]
PushoutArrow [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutArrow [definition, in UniMath.CategoryTheory.limits.pushouts]
PushoutArrowUnique [lemma, in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutArrowUnique [lemma, in UniMath.CategoryTheory.limits.pushouts]
PushoutArrowUnique' [lemma, in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutArrow_PushoutIn2 [lemma, in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutArrow_PushoutIn1 [lemma, in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutArrow_PushoutIn2 [lemma, in UniMath.CategoryTheory.limits.pushouts]
PushoutArrow_PushoutIn1 [lemma, in UniMath.CategoryTheory.limits.pushouts]
PushoutCocone [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutCokernel [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PushoutEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.pushouts]
PushoutIn1 [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutIn1 [definition, in UniMath.CategoryTheory.limits.pushouts]
PushoutIn2 [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutIn2 [definition, in UniMath.CategoryTheory.limits.pushouts]
PushoutObject [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutObject [definition, in UniMath.CategoryTheory.limits.pushouts]
PushoutQuotobject [definition, in UniMath.CategoryTheory.Quotobjects]
Pushouts [definition, in UniMath.CategoryTheory.Abelian]
Pushouts [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
Pushouts [definition, in UniMath.CategoryTheory.limits.pushouts]
pushouts [library]
pushouts [library]
PushoutsHSET_from_Colims [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
PushoutSplitMono [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PushoutSqrCommutes [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutSqrCommutes [definition, in UniMath.CategoryTheory.limits.pushouts]
Pushouts_from_Coequalizers_BinCoproducts [definition, in UniMath.CategoryTheory.limits.pushouts]
Pushouts_pw_epi [lemma, in UniMath.CategoryTheory.EpiFacts]
Pushouts_opp [definition, in UniMath.CategoryTheory.limits.Opp]
Pushout_to_isPushout' [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pushout_coincide.C [variable, in UniMath.CategoryTheory.limits.graphs.pushouts]
pushout_coincide [section, in UniMath.CategoryTheory.limits.graphs.pushouts]
Pushout_from_Colims [lemma, in UniMath.CategoryTheory.limits.graphs.pushouts]
pushout_diagram [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
pushout_graph [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
pushout_to_epi [lemma, in UniMath.CategoryTheory.limits.pushouts]
pushout_paths [section, in UniMath.CategoryTheory.limits.pushouts]
pushout_up_to_iso [section, in UniMath.CategoryTheory.limits.pushouts]
Pushout_from_Coequalizer_BinCoproduct [definition, in UniMath.CategoryTheory.limits.pushouts]
Pushout_from_Coequalizer_BinCoproduct_isPushout [definition, in UniMath.CategoryTheory.limits.pushouts]
Pushout_from_Coequalizer_BinCoproduct_eq [definition, in UniMath.CategoryTheory.limits.pushouts]
Pushout_opp [definition, in UniMath.CategoryTheory.limits.Opp]
pushout_monic_pullback_epi.hs [variable, in UniMath.CategoryTheory.AbelianPushoutPullback]
pushout_monic_pullback_epi [section, in UniMath.CategoryTheory.AbelianPushoutPullback]
PWA:46 [binder, in UniMath.CategoryTheory.PreAdditive]
PWA:52 [binder, in UniMath.CategoryTheory.PreAdditive]
PWA:58 [binder, in UniMath.CategoryTheory.PreAdditive]
PWA:64 [binder, in UniMath.CategoryTheory.PreAdditive]
pw0:104 [binder, in UniMath.MoreFoundations.Univalence]
pX':45 [binder, in UniMath.Foundations.HLevels]
pX:44 [binder, in UniMath.Foundations.HLevels]
Px:56 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
Px:61 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
Px:62 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
pyx:104 [binder, in UniMath.Combinatorics.WellFoundedRelations]
pyx:107 [binder, in UniMath.Combinatorics.WellFoundedRelations]
pyx:71 [binder, in UniMath.Combinatorics.WellFoundedRelations]
pyx:94 [binder, in UniMath.Combinatorics.WellFoundedRelations]
pyx:99 [binder, in UniMath.Combinatorics.WellFoundedRelations]
PZero [definition, in UniMath.CategoryTheory.PseudoElements]
PZ:14 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
PZ:33 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
P_impl:76 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
P_or:73 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
P_and:70 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
P_not:67 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
P_vars:65 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
P_dir:572 [binder, in UniMath.Algebra.FixedPointTheorems]
P_DC:563 [binder, in UniMath.Algebra.FixedPointTheorems]
P_complete:518 [binder, in UniMath.Algebra.FixedPointTheorems]
P_complete:488 [binder, in UniMath.Algebra.FixedPointTheorems]
P_CC:402 [binder, in UniMath.Algebra.FixedPointTheorems]
p_directed:377 [binder, in UniMath.Algebra.FixedPointTheorems]
P_DC:374 [binder, in UniMath.Algebra.FixedPointTheorems]
P_DC:371 [binder, in UniMath.Algebra.FixedPointTheorems]
P_CC:365 [binder, in UniMath.Algebra.FixedPointTheorems]
P_CC:362 [binder, in UniMath.Algebra.FixedPointTheorems]
P_complete:356 [binder, in UniMath.Algebra.FixedPointTheorems]
p_directed:324 [binder, in UniMath.Algebra.FixedPointTheorems]
P_dir:14 [binder, in UniMath.Algebra.FixedPointTheorems]
P_complete:11 [binder, in UniMath.Algebra.FixedPointTheorems]
P_isaprop [lemma, in UniMath.Induction.M.ComputationalM]
P_inhab [definition, in UniMath.Combinatorics.Tests]
P_dec [definition, in UniMath.Combinatorics.Tests]
P_inhab:5 [binder, in UniMath.Combinatorics.BoundedSearch]
P_dec:3 [binder, in UniMath.Combinatorics.BoundedSearch]
P' [definition, in UniMath.Induction.M.ComputationalM]
P'HSET [definition, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
P'HSET [definition, in UniMath.CategoryTheory.Inductives.Lists]
P'HSET [definition, in UniMath.CategoryTheory.Inductives.Trees]
P'_isaprop [lemma, in UniMath.Induction.M.ComputationalM]
p'':202 [binder, in UniMath.MoreFoundations.PathsOver]
P'':37 [binder, in UniMath.Algebra.FixedPointTheorems]
p':101 [binder, in UniMath.CategoryTheory.Core.Univalence]
p':107 [binder, in UniMath.MoreFoundations.PathsOver]
p':1108 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p':1131 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p':12 [binder, in UniMath.Foundations.HLevels]
p':13 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
p':131 [binder, in UniMath.Foundations.UnivalenceAxiom]
p':145 [binder, in UniMath.Foundations.UnivalenceAxiom]
p':154 [binder, in UniMath.PAdics.lemmas]
p':17 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
p':1758 [binder, in UniMath.Foundations.PartA]
p':18 [binder, in UniMath.Foundations.HLevels]
p':18 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
p':183 [binder, in UniMath.PAdics.fps]
p':19 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
p':19 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
p':20 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
p':201 [binder, in UniMath.MoreFoundations.PathsOver]
P':226 [binder, in UniMath.Foundations.Propositions]
P':229 [binder, in UniMath.Foundations.Propositions]
P':232 [binder, in UniMath.Foundations.Propositions]
P':235 [binder, in UniMath.Foundations.Propositions]
p':24 [binder, in UniMath.Foundations.HLevels]
p':25 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
p':257 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P':261 [binder, in UniMath.Foundations.Propositions]
P':263 [binder, in UniMath.Foundations.Propositions]
p':268 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p':31 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
p':32 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
p':33 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
p':34 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
p':341 [binder, in UniMath.CategoryTheory.PreAdditive]
P':36 [binder, in UniMath.Algebra.FixedPointTheorems]
p':395 [binder, in UniMath.MoreFoundations.PartA]
p':406 [binder, in UniMath.MoreFoundations.PartA]
p':418 [binder, in UniMath.MoreFoundations.PartA]
p':426 [binder, in UniMath.MoreFoundations.PathsOver]
p':438 [binder, in UniMath.MoreFoundations.PathsOver]
p':44 [binder, in UniMath.Algebra.FixedPointTheorems]
p':48 [binder, in UniMath.Algebra.FixedPointTheorems]
p':5 [binder, in UniMath.Foundations.HLevels]
p':575 [binder, in UniMath.MoreFoundations.PathsOver]
p':584 [binder, in UniMath.MoreFoundations.PathsOver]
p':599 [binder, in UniMath.MoreFoundations.PathsOver]
P':60 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
p':639 [binder, in UniMath.Foundations.PartA]
p':661 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P':71 [binder, in UniMath.CategoryTheory.Morphisms]
p':714 [binder, in UniMath.MoreFoundations.PartA]
p':719 [binder, in UniMath.MoreFoundations.PartA]
p':724 [binder, in UniMath.MoreFoundations.PartA]
P':73 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
p':730 [binder, in UniMath.MoreFoundations.PartA]
P':80 [binder, in UniMath.CategoryTheory.Morphisms]
p':82 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
p0:10 [binder, in UniMath.Combinatorics.Lists]
p0:10 [binder, in UniMath.MoreFoundations.Nat]
p0:103 [binder, in UniMath.MoreFoundations.Univalence]
p0:103 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
p0:114 [binder, in UniMath.CategoryTheory.catiso]
p0:128 [binder, in UniMath.CategoryTheory.catiso]
p0:158 [binder, in UniMath.Combinatorics.FiniteSequences]
p0:168 [binder, in UniMath.Combinatorics.FiniteSequences]
p0:17 [binder, in UniMath.MoreFoundations.Nat]
p0:181 [binder, in UniMath.Combinatorics.FiniteSequences]
p0:2 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
p0:2 [binder, in UniMath.MoreFoundations.Nat]
p0:21 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
p0:216 [binder, in UniMath.Combinatorics.FiniteSequences]
p0:223 [binder, in UniMath.Combinatorics.FiniteSequences]
p0:231 [binder, in UniMath.Combinatorics.FiniteSequences]
p0:24 [binder, in UniMath.Combinatorics.FiniteSequences]
p0:26 [binder, in UniMath.MoreFoundations.Nat]
p0:317 [binder, in UniMath.Combinatorics.StandardFiniteSets]
p0:33 [binder, in UniMath.MoreFoundations.Nat]
p0:44 [binder, in UniMath.Combinatorics.MetricTree]
p0:91 [binder, in UniMath.CategoryTheory.catiso]
p1types [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_disp_locally_groupoid [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
p1types_disp_2cells_isaprop [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
p1types_univalent_2 [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_disp_univalent_2 [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_disp_univalent_2_0 [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_disp_univalent_2_1 [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_disp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_disp_prebicat_ops [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_disp_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p11:548 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p12:550 [binder, in UniMath.CategoryTheory.limits.pullbacks]
P1:101 [binder, in UniMath.CategoryTheory.PseudoElements]
P1:107 [binder, in UniMath.CategoryTheory.PseudoElements]
p1:11 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p1:118 [binder, in UniMath.CategoryTheory.catiso]
p1:131 [binder, in UniMath.CategoryTheory.catiso]
p1:136 [binder, in UniMath.CategoryTheory.limits.Opp]
p1:14 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
p1:14 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
p1:14 [binder, in UniMath.CategoryTheory.limits.binproducts]
p1:142 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p1:148 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
p1:15 [binder, in UniMath.Induction.M.Chains]
p1:152 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p1:154 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
p1:157 [binder, in UniMath.CategoryTheory.limits.Opp]
p1:164 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
p1:18 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p1:185 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
p1:189 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p1:21 [binder, in UniMath.Induction.M.Chains]
p1:22 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
p1:23 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p1:234 [binder, in UniMath.CategoryTheory.limits.binproducts]
p1:25 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p1:309 [binder, in UniMath.CategoryTheory.limits.Opp]
p1:31 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
p1:32 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p1:32 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p1:328 [binder, in UniMath.CategoryTheory.limits.pushouts]
p1:330 [binder, in UniMath.CategoryTheory.limits.Opp]
p1:36 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p1:360 [binder, in UniMath.MoreFoundations.PathsOver]
p1:371 [binder, in UniMath.MoreFoundations.PathsOver]
p1:40 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p1:413 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p1:48 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p1:48 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p1:480 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p1:5 [binder, in UniMath.CategoryTheory.limits.binproducts]
p1:522 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p1:533 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p1:54 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
P1:55 [binder, in UniMath.CategoryTheory.PseudoElements]
p1:56 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p1:568 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p1:60 [binder, in UniMath.Induction.W.Naturals]
p1:614 [binder, in UniMath.Foundations.Sets]
P1:62 [binder, in UniMath.CategoryTheory.PseudoElements]
p1:64 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
P1:71 [binder, in UniMath.CategoryTheory.PseudoElements]
p1:72 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p1:88 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p1:9 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p1:94 [binder, in UniMath.CategoryTheory.catiso]
P1:96 [binder, in UniMath.CategoryTheory.PseudoElements]
p21:549 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p22:551 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p2:10 [binder, in UniMath.CategoryTheory.limits.pullbacks]
P2:102 [binder, in UniMath.CategoryTheory.PseudoElements]
P2:108 [binder, in UniMath.CategoryTheory.PseudoElements]
p2:12 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p2:137 [binder, in UniMath.CategoryTheory.limits.Opp]
p2:143 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p2:149 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
p2:15 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
p2:15 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
p2:15 [binder, in UniMath.CategoryTheory.limits.binproducts]
p2:153 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p2:155 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
p2:158 [binder, in UniMath.CategoryTheory.limits.Opp]
p2:16 [binder, in UniMath.Induction.M.Chains]
p2:165 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
p2:186 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
p2:19 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p2:190 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p2:22 [binder, in UniMath.Induction.M.Chains]
p2:23 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
p2:235 [binder, in UniMath.CategoryTheory.limits.binproducts]
p2:24 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p2:26 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p2:310 [binder, in UniMath.CategoryTheory.limits.Opp]
p2:32 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
p2:329 [binder, in UniMath.CategoryTheory.limits.pushouts]
p2:33 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p2:33 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p2:331 [binder, in UniMath.CategoryTheory.limits.Opp]
p2:361 [binder, in UniMath.MoreFoundations.PathsOver]
p2:37 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p2:372 [binder, in UniMath.MoreFoundations.PathsOver]
p2:41 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p2:414 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p2:481 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p2:49 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p2:49 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p2:523 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p2:534 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p2:55 [binder, in UniMath.CategoryTheory.limits.graphs.pullbacks]
P2:56 [binder, in UniMath.CategoryTheory.PseudoElements]
p2:569 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p2:57 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p2:6 [binder, in UniMath.CategoryTheory.limits.binproducts]
p2:615 [binder, in UniMath.Foundations.Sets]
p2:62 [binder, in UniMath.Induction.W.Naturals]
P2:63 [binder, in UniMath.CategoryTheory.PseudoElements]
p2:65 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p2:73 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
p2:89 [binder, in UniMath.CategoryTheory.limits.BinDirectSums]
P2:97 [binder, in UniMath.CategoryTheory.PseudoElements]
P:1 [binder, in UniMath.Foundations.HLevels]
P:1 [binder, in UniMath.Topology.Prelim]
P:1 [binder, in UniMath.Combinatorics.BoundedSearch]
P:1 [binder, in UniMath.MoreFoundations.NegativePropositions]
P:1 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
P:1 [binder, in UniMath.MoreFoundations.Nat]
P:1 [binder, in UniMath.MoreFoundations.Notations]
p:10 [binder, in UniMath.Bicategories.Colimits.Pullback]
p:10 [binder, in UniMath.MoreFoundations.Tactics]
P:10 [binder, in UniMath.MoreFoundations.DecidablePropositions]
p:10 [binder, in UniMath.MoreFoundations.Equivalences]
P:10 [binder, in UniMath.Algebra.FixedPointTheorems]
p:10 [binder, in UniMath.Foundations.PartB]
P:10 [binder, in UniMath.MoreFoundations.AxiomOfChoice]
P:10 [binder, in UniMath.CategoryTheory.PseudoElements]
p:10 [binder, in UniMath.Bicategories.Modifications.Examples.ApModification]
P:10 [binder, in UniMath.MoreFoundations.Propositions]
p:10 [binder, in UniMath.AlgebraicGeometry.Spec]
p:10 [binder, in UniMath.Combinatorics.VectorsTests]
P:10 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
p:10 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
p:100 [binder, in UniMath.CategoryTheory.Core.Univalence]
P:100 [binder, in UniMath.CategoryTheory.Morphisms]
p:101 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
p:101 [binder, in UniMath.PAdics.z_mod_p]
P:101 [binder, in UniMath.MoreFoundations.DecidablePropositions]
P:101 [binder, in UniMath.MoreFoundations.MoreEquivalences]
P:101 [binder, in UniMath.MoreFoundations.PartA]
P:1012 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:1018 [binder, in UniMath.Foundations.PartA]
P:102 [binder, in UniMath.Combinatorics.OrderedSets]
P:102 [binder, in UniMath.Algebra.Universal.HVectors]
P:102 [binder, in UniMath.MoreFoundations.Univalence]
p:102 [binder, in UniMath.AlgebraicGeometry.Spec]
P:102 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
p:1020 [binder, in UniMath.Foundations.PartA]
P:1026 [binder, in UniMath.Foundations.PartA]
p:1028 [binder, in UniMath.Foundations.PartA]
p:103 [binder, in UniMath.PAdics.z_mod_p]
P:103 [binder, in UniMath.MoreFoundations.DecidablePropositions]
p:103 [binder, in UniMath.MoreFoundations.MoreEquivalences]
p:103 [binder, in UniMath.Combinatorics.MoreLists]
p:103 [binder, in UniMath.MoreFoundations.PartA]
P:1032 [binder, in UniMath.Foundations.PartA]
P:1037 [binder, in UniMath.Foundations.PartA]
p:105 [binder, in UniMath.PAdics.z_mod_p]
p:105 [binder, in UniMath.Algebra.Universal.HVectors]
P:105 [binder, in UniMath.CategoryTheory.Morphisms]
p:1054 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
P:106 [binder, in UniMath.MoreFoundations.DecidablePropositions]
P:106 [binder, in UniMath.Topology.Topology]
p:106 [binder, in UniMath.MoreFoundations.PathsOver]
p:107 [binder, in UniMath.PAdics.z_mod_p]
p:107 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
P:107 [binder, in UniMath.MoreFoundations.PartA]
P:107 [binder, in UniMath.CategoryTheory.Morphisms]
p:108 [binder, in UniMath.Algebra.Universal.HVectors]
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p:62 [binder, in UniMath.Combinatorics.GraphPaths]
P:62 [binder, in UniMath.MoreFoundations.Propositions]
p:621 [binder, in UniMath.MoreFoundations.PartA]
p:622 [binder, in UniMath.MoreFoundations.PathsOver]
P:622 [binder, in UniMath.Foundations.Sets]
p:624 [binder, in UniMath.Foundations.PartA]
p:625 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:625 [binder, in UniMath.MoreFoundations.PartA]
P:626 [binder, in UniMath.Foundations.Sets]
p:629 [binder, in UniMath.MoreFoundations.PathsOver]
p:629 [binder, in UniMath.MoreFoundations.PartA]
p:63 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
p:63 [binder, in UniMath.Bicategories.Colimits.Pullback]
P:63 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
P:63 [binder, in UniMath.MoreFoundations.MoreEquivalences]
p:63 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
p:63 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
p:63 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
P:630 [binder, in UniMath.Foundations.Sets]
p:630 [binder, in UniMath.Foundations.PartA]
p:631 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:632 [binder, in UniMath.Bicategories.Core.Bicat]
p:632 [binder, in UniMath.MoreFoundations.PartA]
P:634 [binder, in UniMath.Foundations.Sets]
p:636 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
p:637 [binder, in UniMath.Foundations.PartA]
P:638 [binder, in UniMath.Foundations.Sets]
p:639 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:639 [binder, in UniMath.MoreFoundations.PathsOver]
p:639 [binder, in UniMath.MoreFoundations.PartA]
P:64 [binder, in UniMath.Combinatorics.Vectors]
P:64 [binder, in UniMath.MoreFoundations.Sets]
p:64 [binder, in UniMath.Algebra.GroupAction]
P:64 [binder, in UniMath.Topology.Topology]
P:64 [binder, in UniMath.MoreFoundations.Propositions]
P:64 [binder, in UniMath.Combinatorics.WellFoundedRelations]
p:64 [binder, in UniMath.AlgebraicGeometry.Spec]
P:642 [binder, in UniMath.Foundations.Sets]
P:642 [binder, in UniMath.Foundations.PartA]
p:645 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:646 [binder, in UniMath.MoreFoundations.PartA]
P:646 [binder, in UniMath.Foundations.Sets]
P:649 [binder, in UniMath.Foundations.PartB]
p:65 [binder, in UniMath.PAdics.z_mod_p]
p:65 [binder, in UniMath.PAdics.lemmas]
P:65 [binder, in UniMath.MoreFoundations.Univalence]
P:65 [binder, in UniMath.MoreFoundations.Propositions]
p:65 [binder, in UniMath.MoreFoundations.NegativePropositions]
P:65 [binder, in UniMath.CategoryTheory.limits.binproducts]
P:650 [binder, in UniMath.Foundations.Sets]
p:651 [binder, in UniMath.MoreFoundations.PartA]
p:653 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:654 [binder, in UniMath.Foundations.Sets]
p:658 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
P:658 [binder, in UniMath.Foundations.Sets]
p:658 [binder, in UniMath.Foundations.PartA]
p:659 [binder, in UniMath.MoreFoundations.PartA]
p:66 [binder, in UniMath.Combinatorics.Graph]
P:66 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
p:66 [binder, in UniMath.CategoryTheory.limits.products]
p:66 [binder, in UniMath.Bicategories.Modifications.Modification]
P:66 [binder, in UniMath.Induction.M.Chains]
P:66 [binder, in UniMath.MoreFoundations.Propositions]
p:660 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:662 [binder, in UniMath.Foundations.Sets]
p:664 [binder, in UniMath.MoreFoundations.PartA]
P:666 [binder, in UniMath.Foundations.Sets]
p:667 [binder, in UniMath.Foundations.PartA]
p:67 [binder, in UniMath.PAdics.z_mod_p]
p:67 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
p:67 [binder, in UniMath.CategoryTheory.Core.Univalence]
p:67 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
p:67 [binder, in UniMath.MoreFoundations.NegativePropositions]
P:67 [binder, in UniMath.SyntheticHomotopyTheory.Test]
P:670 [binder, in UniMath.Foundations.Sets]
p:673 [binder, in UniMath.MoreFoundations.PartA]
P:674 [binder, in UniMath.Foundations.Sets]
p:676 [binder, in UniMath.MoreFoundations.PartA]
p:678 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:678 [binder, in UniMath.MoreFoundations.PartA]
P:678 [binder, in UniMath.Foundations.Sets]
p:679 [binder, in UniMath.Foundations.PartA]
p:68 [binder, in UniMath.Bicategories.Colimits.Pullback]
p:68 [binder, in UniMath.PAdics.z_mod_p]
P:68 [binder, in UniMath.Algebra.Universal.HVectors]
p:680 [binder, in UniMath.MoreFoundations.PartA]
p:689 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:689 [binder, in UniMath.Foundations.PartA]
P:69 [binder, in UniMath.MoreFoundations.MoreEquivalences]
P:69 [binder, in UniMath.Foundations.UnivalenceAxiom]
P:69 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
P:69 [binder, in UniMath.Combinatorics.FiniteSets]
p:69 [binder, in UniMath.Combinatorics.GraphPaths]
P:69 [binder, in UniMath.MoreFoundations.Propositions]
p:69 [binder, in UniMath.MoreFoundations.NegativePropositions]
p:69 [binder, in UniMath.AlgebraicGeometry.Spec]
P:69 [binder, in UniMath.CategoryTheory.Morphisms]
p:697 [binder, in UniMath.Foundations.PartA]
P:7 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
P:7 [binder, in UniMath.Combinatorics.ZFstructures]
p:7 [binder, in UniMath.Bicategories.Colimits.Pullback]
p:7 [binder, in UniMath.MoreFoundations.WeakEquivalences]
p:7 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
P:7 [binder, in UniMath.Foundations.Propositions]
p:7 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
P:7 [binder, in UniMath.MoreFoundations.DoubleNegation]
p:7 [binder, in UniMath.Bicategories.Colimits.Products]
p:7 [binder, in UniMath.CategoryTheory.Core.Univalence]
P:7 [binder, in UniMath.MoreFoundations.NegativePropositions]
p:7 [binder, in UniMath.AlgebraicGeometry.Spec]
p:7 [binder, in UniMath.Bicategories.Core.TransportLaws]
p:70 [binder, in UniMath.Bicategories.Core.Univalence]
p:70 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
p:70 [binder, in UniMath.AlgebraicGeometry.Spec]
p:700 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:704 [binder, in UniMath.Foundations.PartA]
P:71 [binder, in UniMath.Topology.Prelim]
p:71 [binder, in UniMath.CategoryTheory.Subcategory.Core]
P:71 [binder, in UniMath.CategoryTheory.Core.TransportMorphisms]
P:71 [binder, in UniMath.MoreFoundations.Propositions]
p:71 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
p:71 [binder, in UniMath.MoreFoundations.NegativePropositions]
p:710 [binder, in UniMath.Foundations.PartA]
p:713 [binder, in UniMath.MoreFoundations.PartA]
p:714 [binder, in UniMath.Bicategories.Core.Bicat]
P:714 [binder, in UniMath.Foundations.PartA]
p:716 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:718 [binder, in UniMath.MoreFoundations.PartA]
P:719 [binder, in UniMath.Foundations.PartA]
p:72 [binder, in UniMath.CategoryTheory.catiso]
P:72 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
P:72 [binder, in UniMath.Foundations.PartD]
p:72 [binder, in UniMath.CategoryTheory.slicecat]
P:72 [binder, in UniMath.Topology.Topology]
p:72 [binder, in UniMath.MoreFoundations.PathsOver]
p:72 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
p:72 [binder, in UniMath.AlgebraicGeometry.Spec]
P:72 [binder, in UniMath.Foundations.PartA]
P:72 [binder, in UniMath.MoreFoundations.Subtypes]
p:723 [binder, in UniMath.MoreFoundations.PartA]
p:725 [binder, in UniMath.Bicategories.Core.Bicat]
p:729 [binder, in UniMath.MoreFoundations.PartA]
p:73 [binder, in UniMath.MoreFoundations.MoreEquivalences]
p:73 [binder, in UniMath.CategoryTheory.slicecat]
p:73 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
P:73 [binder, in UniMath.CategoryTheory.limits.graphs.binproducts]
P:73 [binder, in UniMath.Topology.Topology]
p:73 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
p:736 [binder, in UniMath.Bicategories.Core.Bicat]
p:736 [binder, in UniMath.MoreFoundations.PartA]
p:74 [binder, in UniMath.Combinatorics.ZFstructures]
P:74 [binder, in UniMath.Foundations.Propositions]
p:74 [binder, in UniMath.CategoryTheory.slicecat]
p:74 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
P:74 [binder, in UniMath.MoreFoundations.Propositions]
P:74 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
p:740 [binder, in UniMath.Foundations.PartA]
p:745 [binder, in UniMath.MoreFoundations.PartA]
p:747 [binder, in UniMath.Bicategories.Core.Bicat]
p:747 [binder, in UniMath.Foundations.Sets]
p:75 [binder, in UniMath.Bicategories.Colimits.Pullback]
P:75 [binder, in UniMath.MoreFoundations.DecidablePropositions]
P:75 [binder, in UniMath.MoreFoundations.MoreEquivalences]
P:75 [binder, in UniMath.Foundations.UnivalenceAxiom]
p:75 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
p:75 [binder, in UniMath.CategoryTheory.slicecat]
p:75 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
p:75 [binder, in UniMath.CategoryTheory.Core.Univalence]
p:75 [binder, in UniMath.Bicategories.Core.TransportLaws]
p:751 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:752 [binder, in UniMath.MoreFoundations.PartA]
p:754 [binder, in UniMath.Foundations.PartA]
P:76 [binder, in UniMath.Algebra.Universal.HVectors]
p:76 [binder, in UniMath.CategoryTheory.slicecat]
P:76 [binder, in UniMath.CategoryTheory.limits.products]
p:76 [binder, in UniMath.Combinatorics.GraphPaths]
P:76 [binder, in UniMath.MoreFoundations.Propositions]
p:76 [binder, in UniMath.CategoryTheory.limits.binproducts]
p:761 [binder, in UniMath.MoreFoundations.PartA]
p:765 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:768 [binder, in UniMath.MoreFoundations.PartA]
P:77 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:77 [binder, in UniMath.MoreFoundations.DecidablePropositions]
p:77 [binder, in UniMath.CategoryTheory.slicecat]
p:77 [binder, in UniMath.CategoryTheory.Subcategory.Core]
p:771 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:777 [binder, in UniMath.MoreFoundations.PartA]
p:78 [binder, in UniMath.Bicategories.Colimits.Products]
p:78 [binder, in UniMath.MoreFoundations.PathsOver]
P:78 [binder, in UniMath.MoreFoundations.Propositions]
P:78 [binder, in UniMath.CategoryTheory.Morphisms]
p:783 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:789 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:79 [binder, in UniMath.Bicategories.Colimits.Pullback]
P:79 [binder, in UniMath.MoreFoundations.Sets]
p:79 [binder, in UniMath.MoreFoundations.MoreEquivalences]
p:79 [binder, in UniMath.CategoryTheory.slicecat]
P:791 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:793 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:797 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:8 [binder, in UniMath.Foundations.HLevels]
p:8 [binder, in UniMath.MoreFoundations.WeakEquivalences]
P:8 [binder, in UniMath.Algebra.FixedPointTheorems]
P:8 [binder, in UniMath.CategoryTheory.PseudoElements]
p:8 [binder, in UniMath.Foundations.Propositions]
p:8 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
p:8 [binder, in UniMath.PAdics.lemmas]
p:8 [binder, in UniMath.Bicategories.Colimits.Products]
P:8 [binder, in UniMath.MoreFoundations.Univalence]
P:8 [binder, in UniMath.MoreFoundations.Propositions]
p:8 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
P:8 [binder, in UniMath.Combinatorics.WellFoundedRelations]
P:8 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
p:8 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
p:8 [binder, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
p:8 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
p:8 [binder, in UniMath.MoreFoundations.NoInjectivePairing]
P:80 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
P:80 [binder, in UniMath.MoreFoundations.DecidablePropositions]
P:80 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
P:80 [binder, in UniMath.MoreFoundations.Propositions]
p:80 [binder, in UniMath.AlgebraicGeometry.Spec]
p:802 [binder, in UniMath.MoreFoundations.PartA]
P:81 [binder, in UniMath.MoreFoundations.MoreEquivalences]
p:81 [binder, in UniMath.CategoryTheory.slicecat]
P:81 [binder, in UniMath.MoreFoundations.Propositions]
p:81 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
p:818 [binder, in UniMath.MoreFoundations.PartA]
p:82 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
p:82 [binder, in UniMath.Bicategories.Colimits.Pullback]
P:82 [binder, in UniMath.Algebra.Universal.HVectors]
P:82 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
p:82 [binder, in UniMath.CategoryTheory.limits.cones]
P:821 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:826 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:826 [binder, in UniMath.MoreFoundations.PartA]
P:83 [binder, in UniMath.Foundations.PartD]
P:83 [binder, in UniMath.MoreFoundations.DecidablePropositions]
p:83 [binder, in UniMath.MoreFoundations.MoreEquivalences]
p:83 [binder, in UniMath.Algebra.GroupAction]
P:83 [binder, in UniMath.Topology.Topology]
p:83 [binder, in UniMath.CategoryTheory.Core.Univalence]
p:83 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
P:84 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
P:84 [binder, in UniMath.Topology.Topology]
p:84 [binder, in UniMath.Combinatorics.WellFoundedRelations]
p:84 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
P:85 [binder, in UniMath.MoreFoundations.DecidablePropositions]
P:85 [binder, in UniMath.Topology.Topology]
p:85 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
P:85 [binder, in UniMath.MoreFoundations.NegativePropositions]
P:85 [binder, in UniMath.CategoryTheory.limits.binproducts]
p:86 [binder, in UniMath.MoreFoundations.DecidablePropositions]
p:86 [binder, in UniMath.Algebra.Universal.Terms]
p:86 [binder, in UniMath.Algebra.Matrix]
p:86 [binder, in UniMath.MoreFoundations.PathsOver]
p:86 [binder, in UniMath.Combinatorics.WellFoundedRelations]
p:86 [binder, in UniMath.AlgebraicGeometry.Spec]
p:86 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
P:86 [binder, in UniMath.CategoryTheory.Morphisms]
p:862 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:866 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:87 [binder, in UniMath.CategoryTheory.limits.cones]
P:873 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:874 [binder, in UniMath.MoreFoundations.PartA]
P:875 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:877 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:88 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
p:88 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
p:89 [binder, in UniMath.PAdics.z_mod_p]
P:89 [binder, in UniMath.CategoryTheory.PseudoElements]
p:89 [binder, in UniMath.PAdics.lemmas]
p:89 [binder, in UniMath.CategoryTheory.Core.Univalence]
p:89 [binder, in UniMath.Combinatorics.GraphPaths]
p:89 [binder, in UniMath.AlgebraicGeometry.Spec]
P:890 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:892 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:895 [binder, in UniMath.Foundations.Sets]
P:898 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:899 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:9 [binder, in UniMath.MoreFoundations.DecidablePropositions]
p:9 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
p:9 [binder, in UniMath.MoreFoundations.StructureIdentity]
P:9 [binder, in UniMath.Combinatorics.Lists]
p:9 [binder, in UniMath.PAdics.fps]
P:9 [binder, in UniMath.MoreFoundations.NegativePropositions]
P:9 [binder, in UniMath.MoreFoundations.Nat]
p:9 [binder, in UniMath.SubstitutionSystems.MultiSorted]
P:90 [binder, in UniMath.MoreFoundations.DecidablePropositions]
p:90 [binder, in UniMath.CategoryTheory.limits.cones]
p:90 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
P:901 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:901 [binder, in UniMath.MoreFoundations.PartA]
P:901 [binder, in UniMath.Foundations.Sets]
p:902 [binder, in UniMath.Bicategories.Core.Bicat]
p:903 [binder, in UniMath.Bicategories.Core.Bicat]
p:91 [binder, in UniMath.PAdics.z_mod_p]
P:91 [binder, in UniMath.Foundations.PartD]
p:91 [binder, in UniMath.MoreFoundations.DecidablePropositions]
P:91 [binder, in UniMath.MoreFoundations.MoreEquivalences]
P:91 [binder, in UniMath.CategoryTheory.limits.pushouts]
P:91 [binder, in UniMath.Foundations.UnivalenceAxiom]
P:91 [binder, in UniMath.CategoryTheory.Morphisms]
P:915 [binder, in UniMath.Foundations.Sets]
p:92 [binder, in UniMath.Bicategories.WkCatEnrichment.whiskering]
P:92 [binder, in UniMath.CategoryTheory.limits.pullbacks]
p:926 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:927 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:927 [binder, in UniMath.MoreFoundations.PartA]
p:93 [binder, in UniMath.PAdics.z_mod_p]
p:93 [binder, in UniMath.MoreFoundations.MoreEquivalences]
P:93 [binder, in UniMath.Topology.Topology]
p:930 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
p:934 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:935 [binder, in UniMath.Foundations.Sets]
p:937 [binder, in UniMath.MoreFoundations.PartA]
P:94 [binder, in UniMath.Algebra.Universal.HVectors]
P:94 [binder, in UniMath.CategoryTheory.PseudoElements]
p:94 [binder, in UniMath.Bicategories.Modifications.Modification]
p:94 [binder, in UniMath.MoreFoundations.PathsOver]
p:94 [binder, in UniMath.CategoryTheory.Core.Univalence]
P:94 [binder, in UniMath.CategoryTheory.Morphisms]
p:940 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:945 [binder, in UniMath.MoreFoundations.PartA]
p:946 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:95 [binder, in UniMath.PAdics.z_mod_p]
p:951 [binder, in UniMath.MoreFoundations.PartA]
p:952 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:97 [binder, in UniMath.PAdics.z_mod_p]
p:97 [binder, in UniMath.PAdics.lemmas]
P:97 [binder, in UniMath.CategoryTheory.Morphisms]
p:98 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
p:99 [binder, in UniMath.PAdics.z_mod_p]
P:99 [binder, in UniMath.MoreFoundations.Sets]
p:99 [binder, in UniMath.Bicategories.Core.Univalence]
P:99 [binder, in UniMath.Topology.Topology]
Pδδ₁:95 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Pδδ₂:97 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
pε:104 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
pε:115 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
pη:102 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
pη:113 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
pχ [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
p₀:47 [binder, in UniMath.Combinatorics.Graph]
p₁':51 [binder, in UniMath.Combinatorics.Graph]
P₁:230 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
p₁:362 [binder, in UniMath.Bicategories.Colimits.Products]
p₁:42 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
p₁:50 [binder, in UniMath.Combinatorics.Graph]
p₁:55 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
p₁:840 [binder, in UniMath.MoreFoundations.PartA]
p₁:850 [binder, in UniMath.MoreFoundations.PartA]
p₁:862 [binder, in UniMath.MoreFoundations.PartA]
P₂:231 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
p₂:363 [binder, in UniMath.Bicategories.Colimits.Products]
p₂:43 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
p₂:56 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
p₂:841 [binder, in UniMath.MoreFoundations.PartA]
p₂:851 [binder, in UniMath.MoreFoundations.PartA]
p₂:863 [binder, in UniMath.MoreFoundations.PartA]
p₃:842 [binder, in UniMath.MoreFoundations.PartA]
p₃:852 [binder, in UniMath.MoreFoundations.PartA]
p₃:864 [binder, in UniMath.MoreFoundations.PartA]

Q

Q [definition, in UniMath.CategoryTheory.RightKanExtension]
Q [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
q [definition, in UniMath.CategoryTheory.precomp_ess_surj]
qF [lemma, in UniMath.CategoryTheory.precomp_ess_surj]
ql:1413 [binder, in UniMath.Foundations.Sets]
ql:499 [binder, in UniMath.Algebra.Groups]
ql:644 [binder, in UniMath.Algebra.Monoids]
QPC:315 [binder, in UniMath.CategoryTheory.PreAdditive]
QPC:321 [binder, in UniMath.CategoryTheory.PreAdditive]
qq:593 [binder, in UniMath.MoreFoundations.PathsOver]
qr:24 [binder, in UniMath.PAdics.z_mod_p]
qr:28 [binder, in UniMath.PAdics.z_mod_p]
qr:307 [binder, in UniMath.PAdics.z_mod_p]
qr:308 [binder, in UniMath.PAdics.z_mod_p]
qr:45 [binder, in UniMath.PAdics.z_mod_p]
qr:75 [binder, in UniMath.PAdics.z_mod_p]
qr:76 [binder, in UniMath.PAdics.z_mod_p]
QT [definition, in UniMath.CategoryTheory.RightKanExtension]
quantified_strong_functor_category_mor_diagram [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
quantified_signature_category_mor_diagram [definition, in UniMath.SubstitutionSystems.SignatureCategory]
Quotcategory [definition, in UniMath.CategoryTheory.PreAdditive]
QuotcategoryAdditiveFunctor [definition, in UniMath.CategoryTheory.AdditiveFunctors]
QuotcategoryAdditiveFunctor_isAdditiveFunctor [lemma, in UniMath.CategoryTheory.AdditiveFunctors]
QuotcategoryComp [definition, in UniMath.CategoryTheory.PreAdditive]
QuotcategoryCompEq [definition, in UniMath.CategoryTheory.PreAdditive]
QuotcategoryCompMor [definition, in UniMath.CategoryTheory.PreAdditive]
QuotcategoryFunctor [definition, in UniMath.CategoryTheory.PreAdditive]
QuotcategoryFunctor_isfunctor [lemma, in UniMath.CategoryTheory.PreAdditive]
QuotcategoryFunctor_data [definition, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_BinDirectSums [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
Quotcategory_isBinDirectSum [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
Quotcategory_isBinProduct [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
Quotcategory_isBinCoproduct [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
Quotcategory_Zero [definition, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_isZero [lemma, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_PreAdditive [definition, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_isPreAdditive [lemma, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_abgrops [definition, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_binops [definition, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_data [definition, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_postmor [lemma, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_premor [lemma, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_comp_linear [lemma, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_comp [definition, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_comp_iscontr [lemma, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_comp_iscontr_eq [lemma, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_comp_iscontr_PAS [lemma, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_comp_iscontr_PAS_eq [lemma, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_surj [lemma, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_ob_mor [definition, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_homsets [definition, in UniMath.CategoryTheory.PreAdditive]
Quotcategory_Additive [definition, in UniMath.CategoryTheory.Additive]
quotdecrelint [definition, in UniMath.Foundations.Sets]
quotdecrelintlogeq [definition, in UniMath.Foundations.Sets]
quotient [definition, in UniMath.Algebra.RigsAndRings.Ideals]
quotient [definition, in UniMath.Algebra.GroupAction]
Quotient [library]
quotientandtimesrearrangel [lemma, in UniMath.PAdics.padics]
QuotientFunctor [section, in UniMath.CategoryTheory.SetValuedFunctors]
QuotientFunctor.congru [variable, in UniMath.CategoryTheory.SetValuedFunctors]
QuotientFunctor.hequiv [variable, in UniMath.CategoryTheory.SetValuedFunctors]
QuotientFunctor.R [variable, in UniMath.CategoryTheory.SetValuedFunctors]
quotientprecarry [definition, in UniMath.PAdics.padics]
quotientprecarryplus [lemma, in UniMath.PAdics.padics]
quotientringsumdecom [lemma, in UniMath.PAdics.z_mod_p]
QuotientSet [library]
quotient_by_monoidfun [definition, in UniMath.Algebra.Monoids]
quotient_map [lemma, in UniMath.Algebra.GroupAction]
quotient_product [lemma, in UniMath.Algebra.GroupAction]
quotient_1 [lemma, in UniMath.Algebra.GroupAction]
quotient_mult [lemma, in UniMath.Algebra.GroupAction]
quotient_uniqueness [lemma, in UniMath.Algebra.GroupAction]
quotient_times [lemma, in UniMath.Algebra.GroupAction]
quotmod [definition, in UniMath.Algebra.Modules.Quotient]
quotmoduniv [definition, in UniMath.Algebra.Modules.Quotient]
quotmoduniv_submodule [definition, in UniMath.Algebra.Modules.Quotient]
quotmod_quotmap [definition, in UniMath.Algebra.Modules.Quotient]
R-mod( _ , _ ) (module_scope) [notation, in UniMath.Algebra.Modules.Quotient]
_ / _ (module_scope) [notation, in UniMath.Algebra.Modules.Quotient]
quotmod_mod_struct [definition, in UniMath.Algebra.Modules.Quotient]
quotmod_ringfun [definition, in UniMath.Algebra.Modules.Quotient]
quotmod_ringmap [definition, in UniMath.Algebra.Modules.Quotient]
quotmod_ringact [definition, in UniMath.Algebra.Modules.Quotient]
quotmod_abgr [definition, in UniMath.Algebra.Modules.Quotient]
_ - _ [notation, in UniMath.Algebra.Modules.Quotient]
_ + _ [notation, in UniMath.Algebra.Modules.Quotient]
quotmod_def [section, in UniMath.Algebra.Modules.Quotient]
0 [notation, in UniMath.Algebra.Modules.Quotient]
- _ [notation, in UniMath.Algebra.Modules.Quotient]
_ - _ [notation, in UniMath.Algebra.Modules.Quotient]
_ + _ [notation, in UniMath.Algebra.Modules.Quotient]
quotmod_submodule [section, in UniMath.Algebra.Modules.Quotient]
quotmod_rel [section, in UniMath.Algebra.Modules.Quotient]
Quotobjects [library]
Quotobjectscategory [definition, in UniMath.CategoryTheory.Quotobjects]
Quotobjectscategory_ob [definition, in UniMath.CategoryTheory.Quotobjects]
Quotprecategory [definition, in UniMath.CategoryTheory.PreAdditive]
QuotPrecatetgory_comp_iscontr_univ [lemma, in UniMath.CategoryTheory.PreAdditive]
quotrel [definition, in UniMath.Foundations.Sets]
quotrelimpl [lemma, in UniMath.Foundations.Sets]
quotrellogeq [lemma, in UniMath.Foundations.Sets]
quot_functor [definition, in UniMath.CategoryTheory.SetValuedFunctors]
quot_functor_data [definition, in UniMath.CategoryTheory.SetValuedFunctors]
quot_functor_mor [definition, in UniMath.CategoryTheory.SetValuedFunctors]
quot_functor_ob [definition, in UniMath.CategoryTheory.SetValuedFunctors]
quot_unel [lemma, in UniMath.CategoryTheory.PreAdditive]
Quot_assoc2 [lemma, in UniMath.CategoryTheory.PreAdditive]
Quot_assoc1 [lemma, in UniMath.CategoryTheory.PreAdditive]
quot_comp_unel_right [lemma, in UniMath.CategoryTheory.PreAdditive]
quot_comp_unel_left [lemma, in UniMath.CategoryTheory.PreAdditive]
q_cone:174 [binder, in UniMath.Bicategories.Colimits.Pullback]
q_cone:160 [binder, in UniMath.Bicategories.Colimits.Pullback]
q_cone:146 [binder, in UniMath.Bicategories.Colimits.Pullback]
q'':210 [binder, in UniMath.MoreFoundations.PathsOver]
q':129 [binder, in UniMath.PAdics.lemmas]
q':1762 [binder, in UniMath.Foundations.PartA]
q':209 [binder, in UniMath.MoreFoundations.PathsOver]
q':397 [binder, in UniMath.MoreFoundations.PartA]
q':407 [binder, in UniMath.MoreFoundations.PartA]
q':419 [binder, in UniMath.MoreFoundations.PartA]
q':45 [binder, in UniMath.Algebra.FixedPointTheorems]
q':49 [binder, in UniMath.Algebra.FixedPointTheorems]
q':577 [binder, in UniMath.MoreFoundations.PathsOver]
q':586 [binder, in UniMath.MoreFoundations.PathsOver]
Q':72 [binder, in UniMath.CategoryTheory.Morphisms]
Q':81 [binder, in UniMath.CategoryTheory.Morphisms]
q':95 [binder, in UniMath.RealNumbers.NonnegativeReals]
q':97 [binder, in UniMath.RealNumbers.NonnegativeReals]
q':99 [binder, in UniMath.RealNumbers.NonnegativeReals]
q1:23 [binder, in UniMath.Induction.M.Chains]
q:10 [binder, in UniMath.RealNumbers.DedekindCuts]
q:10 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
Q:101 [binder, in UniMath.CategoryTheory.Morphisms]
q:102 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
q:103 [binder, in UniMath.RealNumbers.NonnegativeRationals]
q:104 [binder, in UniMath.MoreFoundations.MoreEquivalences]
q:104 [binder, in UniMath.MoreFoundations.PartA]
q:1055 [binder, in UniMath.Foundations.PartA]
q:1056 [binder, in UniMath.Foundations.PartA]
q:106 [binder, in UniMath.Bicategories.Colimits.Pullback]
Q:106 [binder, in UniMath.Algebra.Universal.HVectors]
q:106 [binder, in UniMath.RealNumbers.NonnegativeRationals]
Q:106 [binder, in UniMath.CategoryTheory.Morphisms]
q:1064 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
q:108 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
Q:108 [binder, in UniMath.CategoryTheory.Morphisms]
q:109 [binder, in UniMath.Bicategories.Colimits.Pullback]
Q:109 [binder, in UniMath.Topology.Topology]
q:109 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
q:1092 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
q:11 [binder, in UniMath.RealNumbers.NonnegativeReals]
Q:11 [binder, in UniMath.MoreFoundations.DecidablePropositions]
q:11 [binder, in UniMath.CategoryTheory.NNO]
Q:11 [binder, in UniMath.MoreFoundations.Propositions]
q:11 [binder, in UniMath.Combinatorics.VectorsTests]
q:11 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
q:111 [binder, in UniMath.CategoryTheory.Core.Functors]
q:1114 [binder, in UniMath.Foundations.PartA]
q:1115 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
q:1119 [binder, in UniMath.Foundations.PartA]
q:113 [binder, in UniMath.MoreFoundations.MoreEquivalences]
q:114 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:114 [binder, in UniMath.MoreFoundations.Equivalences]
q:1176 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
q:119 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:119 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
q:119 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
q:12 [binder, in UniMath.Folds.folds_pre_2_cat]
q:12 [binder, in UniMath.PAdics.frac]
q:12 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
q:12 [binder, in UniMath.Bicategories.Colimits.Products]
q:12 [binder, in UniMath.CategoryTheory.limits.cones]
q:1200 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
q:121 [binder, in UniMath.MoreFoundations.Equivalences]
Q:122 [binder, in UniMath.Foundations.PartD]
q:1225 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
q:124 [binder, in UniMath.Bicategories.Colimits.Pullback]
Q:125 [binder, in UniMath.Algebra.Universal.HVectors]
Q:125 [binder, in UniMath.Topology.Topology]
q:126 [binder, in UniMath.MoreFoundations.MoreEquivalences]
Q:126 [binder, in UniMath.CategoryTheory.Morphisms]
q:127 [binder, in UniMath.RealNumbers.NonnegativeRationals]
q:127 [binder, in UniMath.MoreFoundations.PathsOver]
q:1270 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:1271 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:128 [binder, in UniMath.MoreFoundations.Equivalences]
q:128 [binder, in UniMath.PAdics.lemmas]
q:1284 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:1285 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:129 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:129 [binder, in UniMath.RealNumbers.NonnegativeRationals]
Q:129 [binder, in UniMath.CategoryTheory.Morphisms]
q:13 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
q:130 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
q:131 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
q:1319 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:133 [binder, in UniMath.Algebra.Universal.HVectors]
q:133 [binder, in UniMath.PAdics.lemmas]
q:134 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:134 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
q:134 [binder, in UniMath.Folds.folds_pre_2_cat]
q:135 [binder, in UniMath.MoreFoundations.Equivalences]
q:135 [binder, in UniMath.RealNumbers.NonnegativeRationals]
q:136 [binder, in UniMath.Bicategories.Core.Univalence]
q:137 [binder, in UniMath.RealNumbers.NonnegativeRationals]
Q:1373 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:138 [binder, in UniMath.Foundations.Propositions]
q:138 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
q:139 [binder, in UniMath.MoreFoundations.MoreEquivalences]
q:139 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
q:14 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
q:14 [binder, in UniMath.PAdics.lemmas]
q:140 [binder, in UniMath.MoreFoundations.Equivalences]
q:140 [binder, in UniMath.Folds.folds_pre_2_cat]
Q:140 [binder, in UniMath.Foundations.Propositions]
q:1409 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:141 [binder, in UniMath.RealNumbers.NonnegativeRationals]
q:1414 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:142 [binder, in UniMath.Foundations.Propositions]
q:142 [binder, in UniMath.RealNumbers.NonnegativeRationals]
q:143 [binder, in UniMath.MoreFoundations.PathsOver]
Q:144 [binder, in UniMath.Foundations.Propositions]
q:144 [binder, in UniMath.RealNumbers.NonnegativeRationals]
q:145 [binder, in UniMath.MoreFoundations.Equivalences]
q:145 [binder, in UniMath.PAdics.lemmas]
Q:146 [binder, in UniMath.Algebra.Universal.HVectors]
Q:146 [binder, in UniMath.Foundations.Propositions]
q:146 [binder, in UniMath.PAdics.fps]
Q:1474 [binder, in UniMath.Foundations.Sets]
q:148 [binder, in UniMath.Bicategories.Colimits.Pullback]
Q:148 [binder, in UniMath.Foundations.PartD]
q:148 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Q:149 [binder, in UniMath.Foundations.Propositions]
q:149 [binder, in UniMath.PAdics.lemmas]
q:149 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Q:1490 [binder, in UniMath.Foundations.PartA]
Q:1495 [binder, in UniMath.Foundations.PartA]
q:15 [binder, in UniMath.Bicategories.Colimits.Products]
Q:1500 [binder, in UniMath.Foundations.PartA]
Q:1509 [binder, in UniMath.Foundations.PartA]
q:151 [binder, in UniMath.MoreFoundations.PathsOver]
q:153 [binder, in UniMath.MoreFoundations.Equivalences]
Q:1547 [binder, in UniMath.Foundations.PartA]
Q:157 [binder, in UniMath.Foundations.PartD]
Q:16 [binder, in UniMath.Combinatorics.ZFstructures]
q:16 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
q:16 [binder, in UniMath.RealNumbers.DedekindCuts]
q:16 [binder, in UniMath.RealNumbers.Prelim]
q:16 [binder, in UniMath.Combinatorics.VectorsTests]
q:160 [binder, in UniMath.PAdics.fps]
q:162 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:162 [binder, in UniMath.MoreFoundations.Equivalences]
q:163 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
Q:163 [binder, in UniMath.Foundations.Propositions]
q:163 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
q:164 [binder, in UniMath.Bicategories.Core.Univalence]
q:164 [binder, in UniMath.MoreFoundations.PathsOver]
Q:165 [binder, in UniMath.Foundations.PartD]
Q:165 [binder, in UniMath.Algebra.Universal.HVectors]
Q:165 [binder, in UniMath.Foundations.Propositions]
q:166 [binder, in UniMath.MoreFoundations.MoreEquivalences]
q:166 [binder, in UniMath.PAdics.fps]
Q:168 [binder, in UniMath.Topology.Topology]
q:17 [binder, in UniMath.PAdics.frac]
q:17 [binder, in UniMath.Bicategories.Transformations.Examples.ApTransformation]
q:171 [binder, in UniMath.RealNumbers.NonnegativeReals]
q:172 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
q:173 [binder, in UniMath.RealNumbers.NonnegativeReals]
q:173 [binder, in UniMath.MoreFoundations.Equivalences]
Q:1740 [binder, in UniMath.Foundations.PartA]
Q:1744 [binder, in UniMath.Foundations.PartA]
q:1749 [binder, in UniMath.Foundations.PartA]
q:175 [binder, in UniMath.MoreFoundations.PathsOver]
q:1750 [binder, in UniMath.Foundations.PartA]
Q:1752 [binder, in UniMath.Foundations.PartA]
Q:1756 [binder, in UniMath.Foundations.PartA]
Q:176 [binder, in UniMath.Algebra.Universal.HVectors]
q:176 [binder, in UniMath.Foundations.PartA]
Q:1760 [binder, in UniMath.Foundations.PartA]
q:1761 [binder, in UniMath.Foundations.PartA]
q:18 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
q:18 [binder, in UniMath.MoreFoundations.Equivalences]
q:18 [binder, in UniMath.Bicategories.Colimits.Products]
q:181 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
q:181 [binder, in UniMath.MoreFoundations.Equivalences]
q:183 [binder, in UniMath.Foundations.PartA]
q:185 [binder, in UniMath.MoreFoundations.PathsOver]
Q:188 [binder, in UniMath.Foundations.Propositions]
q:19 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:19 [binder, in UniMath.MoreFoundations.NoInjectivePairing]
Q:190 [binder, in UniMath.Foundations.PartD]
q:193 [binder, in UniMath.MoreFoundations.PathsOver]
Q:198 [binder, in UniMath.Foundations.PartD]
q:198 [binder, in UniMath.Algebra.GroupAction]
Q:199 [binder, in UniMath.Topology.Topology]
Q:2 [binder, in UniMath.MoreFoundations.NegativePropositions]
Q:2 [binder, in UniMath.MoreFoundations.Notations]
Q:20 [binder, in UniMath.MoreFoundations.Propositions]
q:200 [binder, in UniMath.Algebra.Universal.Terms]
Q:202 [binder, in UniMath.Foundations.Propositions]
q:202 [binder, in UniMath.Algebra.GroupAction]
Q:207 [binder, in UniMath.Foundations.PartD]
q:208 [binder, in UniMath.MoreFoundations.PathsOver]
q:21 [binder, in UniMath.Bicategories.Colimits.Products]
q:211 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
Q:2167 [binder, in UniMath.Foundations.PartA]
Q:2175 [binder, in UniMath.Foundations.PartA]
q:218 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
Q:2191 [binder, in UniMath.Foundations.PartA]
Q:2198 [binder, in UniMath.Foundations.PartA]
Q:2209 [binder, in UniMath.Foundations.PartA]
Q:2214 [binder, in UniMath.Foundations.PartA]
Q:224 [binder, in UniMath.Foundations.Propositions]
q:228 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
q:23 [binder, in UniMath.PAdics.lemmas]
q:23 [binder, in UniMath.CategoryTheory.limits.cones]
Q:23 [binder, in UniMath.SyntheticHomotopyTheory.Test]
Q:233 [binder, in UniMath.CategoryTheory.slicecat]
Q:2377 [binder, in UniMath.Foundations.PartA]
q:238 [binder, in UniMath.RealNumbers.NonnegativeRationals]
Q:2387 [binder, in UniMath.Foundations.PartA]
Q:2398 [binder, in UniMath.Foundations.PartA]
q:24 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:24 [binder, in UniMath.Bicategories.Colimits.Products]
Q:24 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
q:240 [binder, in UniMath.RealNumbers.NonnegativeRationals]
Q:240 [binder, in UniMath.Topology.Topology]
q:244 [binder, in UniMath.PAdics.lemmas]
q:26 [binder, in UniMath.AlgebraicGeometry.Spec]
q:261 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
q:261 [binder, in UniMath.MoreFoundations.PathsOver]
q:264 [binder, in UniMath.RealNumbers.NonnegativeRationals]
q:27 [binder, in UniMath.Bicategories.Colimits.Pullback]
Q:27 [binder, in UniMath.Algebra.FixedPointTheorems]
q:27 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
q:270 [binder, in UniMath.RealNumbers.NonnegativeRationals]
Q:272 [binder, in UniMath.Foundations.Propositions]
Q:277 [binder, in UniMath.MoreFoundations.PartA]
q:28 [binder, in UniMath.Ktheory.GrothendieckGroup]
q:29 [binder, in UniMath.Bicategories.Colimits.Products]
Q:291 [binder, in UniMath.Algebra.FixedPointTheorems]
q:293 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
Q:296 [binder, in UniMath.Algebra.FixedPointTheorems]
q:299 [binder, in UniMath.MoreFoundations.PathsOver]
q:3 [binder, in UniMath.RealNumbers.DedekindCuts]
q:30 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:30 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
Q:30 [binder, in UniMath.MoreFoundations.Univalence]
q:30 [binder, in UniMath.AlgebraicGeometry.Spec]
Q:30 [binder, in UniMath.SyntheticHomotopyTheory.Test]
q:301 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
Q:308 [binder, in UniMath.Foundations.PartB]
q:309 [binder, in UniMath.MoreFoundations.PathsOver]
q:309 [binder, in UniMath.CategoryTheory.Core.TwoCategories]
q:315 [binder, in UniMath.PAdics.z_mod_p]
q:32 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
Q:32 [binder, in UniMath.Algebra.FixedPointTheorems]
q:324 [binder, in UniMath.PAdics.z_mod_p]
Q:326 [binder, in UniMath.Algebra.FixedPointTheorems]
q:326 [binder, in UniMath.Foundations.PartA]
q:33 [binder, in UniMath.Bicategories.Colimits.Pullback]
Q:33 [binder, in UniMath.MoreFoundations.MoreEquivalences]
Q:331 [binder, in UniMath.Algebra.FixedPointTheorems]
q:332 [binder, in UniMath.MoreFoundations.PathsOver]
Q:333 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
q:334 [binder, in UniMath.Foundations.PartA]
Q:336 [binder, in UniMath.Foundations.PartB]
q:338 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
Q:34 [binder, in UniMath.MoreFoundations.NegativePropositions]
q:34 [binder, in UniMath.SyntheticHomotopyTheory.Test]
Q:342 [binder, in UniMath.Foundations.PartB]
q:343 [binder, in UniMath.MoreFoundations.PathsOver]
Q:344 [binder, in UniMath.Foundations.PartB]
q:347 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
q:351 [binder, in UniMath.MoreFoundations.PathsOver]
q:352 [binder, in UniMath.MoreFoundations.PartA]
q:357 [binder, in UniMath.MoreFoundations.PartA]
q:359 [binder, in UniMath.Bicategories.Colimits.Products]
q:36 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:36 [binder, in UniMath.Bicategories.Colimits.Products]
Q:36 [binder, in UniMath.MoreFoundations.NegativePropositions]
q:362 [binder, in UniMath.MoreFoundations.PathsOver]
q:363 [binder, in UniMath.MoreFoundations.PartA]
q:367 [binder, in UniMath.RealNumbers.NonnegativeReals]
q:373 [binder, in UniMath.MoreFoundations.PathsOver]
q:380 [binder, in UniMath.RealNumbers.NonnegativeReals]
q:381 [binder, in UniMath.MoreFoundations.PathsOver]
q:382 [binder, in UniMath.RealNumbers.NonnegativeReals]
q:384 [binder, in UniMath.MoreFoundations.PartA]
Q:387 [binder, in UniMath.Foundations.PartD]
q:388 [binder, in UniMath.MoreFoundations.PathsOver]
Q:39 [binder, in UniMath.MoreFoundations.MoreEquivalences]
Q:396 [binder, in UniMath.Foundations.PartD]
q:396 [binder, in UniMath.MoreFoundations.PartA]
Q:396 [binder, in UniMath.Topology.Filters]
q:4 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
q:4 [binder, in UniMath.CategoryTheory.categories.Graph]
q:402 [binder, in UniMath.MoreFoundations.PathsOver]
Q:403 [binder, in UniMath.Topology.Filters]
q:405 [binder, in UniMath.MoreFoundations.PartA]
Q:409 [binder, in UniMath.Topology.Filters]
q:41 [binder, in UniMath.Combinatorics.Graph]
q:413 [binder, in UniMath.MoreFoundations.PathsOver]
q:417 [binder, in UniMath.MoreFoundations.PartA]
q:42 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
q:42 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:42 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
q:43 [binder, in UniMath.Algebra.FixedPointTheorems]
q:433 [binder, in UniMath.MoreFoundations.PathsOver]
q:44 [binder, in UniMath.PAdics.lemmas]
q:44 [binder, in UniMath.CategoryTheory.Core.Univalence]
q:441 [binder, in UniMath.MoreFoundations.PartA]
q:444 [binder, in UniMath.MoreFoundations.PathsOver]
q:45 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
Q:45 [binder, in UniMath.MoreFoundations.MoreEquivalences]
q:45 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
Q:45 [binder, in UniMath.MoreFoundations.Propositions]
q:451 [binder, in UniMath.MoreFoundations.PartA]
q:457 [binder, in UniMath.MoreFoundations.PartA]
q:46 [binder, in UniMath.MoreFoundations.DecidablePropositions]
q:46 [binder, in UniMath.MoreFoundations.Equivalences]
Q:461 [binder, in UniMath.Foundations.PartA]
q:466 [binder, in UniMath.MoreFoundations.PartA]
q:467 [binder, in UniMath.MoreFoundations.PathsOver]
q:47 [binder, in UniMath.Algebra.FixedPointTheorems]
Q:47 [binder, in UniMath.MoreFoundations.Propositions]
q:474 [binder, in UniMath.MoreFoundations.PartA]
q:477 [binder, in UniMath.Foundations.PartB]
q:479 [binder, in UniMath.MoreFoundations.PathsOver]
q:48 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
q:48 [binder, in UniMath.Bicategories.Core.TransportLaws]
q:483 [binder, in UniMath.Foundations.PartB]
q:49 [binder, in UniMath.Bicategories.Colimits.Pullback]
Q:49 [binder, in UniMath.Foundations.PartB]
q:49 [binder, in UniMath.PAdics.lemmas]
q:49 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
q:491 [binder, in UniMath.MoreFoundations.PathsOver]
q:499 [binder, in UniMath.MoreFoundations.PartA]
q:5 [binder, in UniMath.RealNumbers.DedekindCuts]
Q:5 [binder, in UniMath.MoreFoundations.Propositions]
Q:50 [binder, in UniMath.Topology.Topology]
Q:50 [binder, in UniMath.Algebra.Dcpo]
q:501 [binder, in UniMath.MoreFoundations.PathsOver]
q:51 [binder, in UniMath.Combinatorics.Vectors]
Q:51 [binder, in UniMath.Foundations.PartD]
q:51 [binder, in UniMath.Algebra.FixedPointTheorems]
Q:51 [binder, in UniMath.MoreFoundations.MoreEquivalences]
q:51 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
q:51 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
q:514 [binder, in UniMath.MoreFoundations.PathsOver]
q:52 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
Q:52 [binder, in UniMath.Foundations.Propositions]
q:527 [binder, in UniMath.MoreFoundations.PathsOver]
Q:53 [binder, in UniMath.MoreFoundations.DecidablePropositions]
Q:53 [binder, in UniMath.MoreFoundations.Propositions]
q:539 [binder, in UniMath.MoreFoundations.PathsOver]
q:539 [binder, in UniMath.Foundations.PartA]
q:54 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:54 [binder, in UniMath.Algebra.FixedPointTheorems]
Q:54 [binder, in UniMath.Foundations.Propositions]
q:549 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
q:549 [binder, in UniMath.MoreFoundations.PathsOver]
q:550 [binder, in UniMath.Foundations.PartA]
Q:556 [binder, in UniMath.Foundations.PartB]
q:557 [binder, in UniMath.MoreFoundations.PathsOver]
Q:558 [binder, in UniMath.Foundations.PartB]
Q:56 [binder, in UniMath.Foundations.UnivalenceAxiom]
Q:56 [binder, in UniMath.MoreFoundations.Propositions]
Q:56 [binder, in UniMath.Algebra.Dcpo]
q:56 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
q:56 [binder, in UniMath.PAdics.fps]
q:56 [binder, in UniMath.Bicategories.Core.TransportLaws]
q:561 [binder, in UniMath.Foundations.PartD]
q:561 [binder, in UniMath.Foundations.PartA]
q:565 [binder, in UniMath.MoreFoundations.PathsOver]
q:567 [binder, in UniMath.Foundations.PartA]
q:574 [binder, in UniMath.Foundations.PartA]
q:576 [binder, in UniMath.MoreFoundations.PathsOver]
q:58 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
Q:58 [binder, in UniMath.MoreFoundations.Propositions]
q:581 [binder, in UniMath.Foundations.PartA]
q:585 [binder, in UniMath.MoreFoundations.PathsOver]
q:589 [binder, in UniMath.Foundations.PartA]
q:59 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:59 [binder, in UniMath.RealNumbers.DedekindCuts]
Q:59 [binder, in UniMath.MoreFoundations.MoreEquivalences]
q:597 [binder, in UniMath.Foundations.PartA]
Q:6 [binder, in UniMath.MoreFoundations.NegativePropositions]
q:605 [binder, in UniMath.Foundations.PartA]
Q:61 [binder, in UniMath.MoreFoundations.Propositions]
q:610 [binder, in UniMath.Foundations.PartA]
q:62 [binder, in UniMath.RealNumbers.DedekindCuts]
Q:627 [binder, in UniMath.MoreFoundations.PartA]
Q:63 [binder, in UniMath.MoreFoundations.DecidablePropositions]
q:63 [binder, in UniMath.RealNumbers.DedekindCuts]
Q:63 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
q:63 [binder, in UniMath.Combinatorics.GraphPaths]
Q:63 [binder, in UniMath.MoreFoundations.Propositions]
q:631 [binder, in UniMath.Foundations.PartA]
q:637 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
q:638 [binder, in UniMath.Foundations.PartA]
q:64 [binder, in UniMath.Bicategories.Colimits.Pullback]
Q:64 [binder, in UniMath.MoreFoundations.MoreEquivalences]
q:65 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Q:65 [binder, in UniMath.Topology.Topology]
q:65 [binder, in UniMath.Bicategories.Core.TransportLaws]
q:659 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
q:66 [binder, in UniMath.Combinatorics.ZFstructures]
q:66 [binder, in UniMath.RealNumbers.DedekindCuts]
q:66 [binder, in UniMath.Algebra.GroupAction]
q:660 [binder, in UniMath.MoreFoundations.PartA]
q:665 [binder, in UniMath.MoreFoundations.PartA]
q:67 [binder, in UniMath.RealNumbers.DedekindCuts]
q:67 [binder, in UniMath.Combinatorics.Graph]
Q:67 [binder, in UniMath.MoreFoundations.Propositions]
q:674 [binder, in UniMath.MoreFoundations.PartA]
q:682 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:69 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:69 [binder, in UniMath.RealNumbers.DedekindCuts]
Q:69 [binder, in UniMath.Algebra.Universal.HVectors]
q:693 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:698 [binder, in UniMath.Foundations.PartA]
q:7 [binder, in UniMath.RealNumbers.DedekindCuts]
q:7 [binder, in UniMath.PAdics.frac]
q:7 [binder, in UniMath.CategoryTheory.NNO]
Q:7 [binder, in UniMath.MoreFoundations.Propositions]
Q:7 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
Q:70 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
Q:70 [binder, in UniMath.MoreFoundations.Propositions]
Q:70 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
Q:70 [binder, in UniMath.CategoryTheory.Morphisms]
q:705 [binder, in UniMath.Foundations.PartA]
q:711 [binder, in UniMath.Foundations.PartA]
q:714 [binder, in UniMath.MoreFoundations.PathsOver]
Q:715 [binder, in UniMath.Foundations.PartA]
Q:719 [binder, in UniMath.Foundations.Sets]
q:72 [binder, in UniMath.RealNumbers.DedekindCuts]
Q:72 [binder, in UniMath.MoreFoundations.Propositions]
Q:72 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
Q:720 [binder, in UniMath.Foundations.PartA]
q:724 [binder, in UniMath.Foundations.PartA]
q:725 [binder, in UniMath.Foundations.PartA]
q:73 [binder, in UniMath.PAdics.z_mod_p]
Q:73 [binder, in UniMath.Foundations.PartD]
q:731 [binder, in UniMath.MoreFoundations.PathsOver]
q:737 [binder, in UniMath.MoreFoundations.PartA]
q:74 [binder, in UniMath.RealNumbers.DedekindCuts]
Q:74 [binder, in UniMath.Topology.Topology]
q:746 [binder, in UniMath.MoreFoundations.PartA]
q:749 [binder, in UniMath.MoreFoundations.PathsOver]
Q:75 [binder, in UniMath.MoreFoundations.Propositions]
q:753 [binder, in UniMath.MoreFoundations.PartA]
q:76 [binder, in UniMath.Bicategories.Colimits.Pullback]
Q:76 [binder, in UniMath.MoreFoundations.DecidablePropositions]
q:76 [binder, in UniMath.RealNumbers.DedekindCuts]
Q:76 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
q:762 [binder, in UniMath.MoreFoundations.PartA]
q:769 [binder, in UniMath.MoreFoundations.PartA]
Q:77 [binder, in UniMath.MoreFoundations.Propositions]
Q:77 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
q:778 [binder, in UniMath.MoreFoundations.PartA]
Q:78 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:78 [binder, in UniMath.MoreFoundations.DecidablePropositions]
Q:78 [binder, in UniMath.CategoryTheory.elems_slice_equiv]
q:79 [binder, in UniMath.MoreFoundations.PathsOver]
Q:79 [binder, in UniMath.MoreFoundations.Propositions]
Q:79 [binder, in UniMath.CategoryTheory.Morphisms]
Q:792 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:794 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:8 [binder, in UniMath.RealNumbers.DedekindCuts]
q:8 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
q:80 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:80 [binder, in UniMath.PAdics.z_mod_p]
q:80 [binder, in UniMath.RealNumbers.DedekindCuts]
q:803 [binder, in UniMath.MoreFoundations.PartA]
q:819 [binder, in UniMath.MoreFoundations.PartA]
q:82 [binder, in UniMath.RealNumbers.DedekindCuts]
Q:822 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:83 [binder, in UniMath.Bicategories.Colimits.Pullback]
Q:83 [binder, in UniMath.Algebra.Universal.HVectors]
q:83 [binder, in UniMath.CategoryTheory.limits.cones]
q:84 [binder, in UniMath.MoreFoundations.MoreEquivalences]
q:84 [binder, in UniMath.Algebra.GroupAction]
q:84 [binder, in UniMath.CategoryTheory.Core.Univalence]
Q:85 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
q:86 [binder, in UniMath.PAdics.z_mod_p]
q:86 [binder, in UniMath.RealNumbers.NonnegativeReals]
q:86 [binder, in UniMath.RealNumbers.DedekindCuts]
Q:86 [binder, in UniMath.Topology.Topology]
Q:86 [binder, in UniMath.MoreFoundations.Propositions]
q:87 [binder, in UniMath.MoreFoundations.PathsOver]
q:87 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
Q:87 [binder, in UniMath.CategoryTheory.Morphisms]
Q:878 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:88 [binder, in UniMath.RealNumbers.NonnegativeReals]
q:88 [binder, in UniMath.Algebra.Matrix]
Q:89 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
q:89 [binder, in UniMath.RealNumbers.DedekindCuts]
Q:891 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:893 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:9 [binder, in UniMath.RealNumbers.DedekindCuts]
Q:9 [binder, in UniMath.CategoryTheory.Quotobjects]
Q:9 [binder, in UniMath.MoreFoundations.Propositions]
Q:9 [binder, in UniMath.CategoryTheory.categories.HSET.Structures]
q:90 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:90 [binder, in UniMath.RealNumbers.NonnegativeReals]
q:90 [binder, in UniMath.PAdics.lemmas]
q:902 [binder, in UniMath.MoreFoundations.PartA]
q:91 [binder, in UniMath.Bicategories.Colimits.Pullback]
Q:91 [binder, in UniMath.MoreFoundations.Propositions]
q:92 [binder, in UniMath.RealNumbers.NonnegativeReals]
Q:92 [binder, in UniMath.Foundations.PartD]
q:92 [binder, in UniMath.RealNumbers.DedekindCuts]
Q:92 [binder, in UniMath.CategoryTheory.Morphisms]
q:928 [binder, in UniMath.MoreFoundations.PartA]
q:938 [binder, in UniMath.MoreFoundations.PartA]
q:94 [binder, in UniMath.Bicategories.Colimits.Pullback]
q:94 [binder, in UniMath.RealNumbers.NonnegativeReals]
q:94 [binder, in UniMath.RealNumbers.DedekindCuts]
q:94 [binder, in UniMath.MoreFoundations.MoreEquivalences]
q:946 [binder, in UniMath.MoreFoundations.PartA]
q:95 [binder, in UniMath.CategoryTheory.Core.Univalence]
Q:95 [binder, in UniMath.CategoryTheory.Morphisms]
q:96 [binder, in UniMath.RealNumbers.NonnegativeReals]
q:97 [binder, in UniMath.RealNumbers.DedekindCuts]
q:98 [binder, in UniMath.RealNumbers.NonnegativeReals]
q:98 [binder, in UniMath.PAdics.lemmas]
q:98 [binder, in UniMath.MoreFoundations.PathsOver]
Q:98 [binder, in UniMath.CategoryTheory.Morphisms]
q:99 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
q:99 [binder, in UniMath.RealNumbers.DedekindCuts]
qε:105 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
qε:116 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
qη:103 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
qη:114 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
q₁:17 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
q₁:19 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
q₂:18 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
q₂:20 [binder, in UniMath.Bicategories.Core.Examples.TwoType]

R

R [definition, in UniMath.CategoryTheory.RightKanExtension]
Rabs [definition, in UniMath.RealNumbers.Reals]
Rabs_Ropp [lemma, in UniMath.RealNumbers.Reals]
Rabs_Rmult [lemma, in UniMath.RealNumbers.Reals]
Rabs_pr2RtoNRNR [lemma, in UniMath.RealNumbers.Reals]
Rabs_pr1RtoNRNR [lemma, in UniMath.RealNumbers.Reals]
rad [definition, in UniMath.CategoryTheory.Equivalences.Core]
rad_equivalence_of_cats [lemma, in UniMath.CategoryTheory.Equivalences.Core]
rad_is_left_adjoint [definition, in UniMath.CategoryTheory.Equivalences.Core]
rad_are_adjoints [definition, in UniMath.CategoryTheory.Equivalences.Core]
rad_form_adjunction [lemma, in UniMath.CategoryTheory.Equivalences.Core]
rad_eta_trans [definition, in UniMath.CategoryTheory.Equivalences.Core]
rad_eta_is_nat_trans [lemma, in UniMath.CategoryTheory.Equivalences.Core]
rad_eps_trans [definition, in UniMath.CategoryTheory.Equivalences.Core]
rad_eps_is_nat_trans [lemma, in UniMath.CategoryTheory.Equivalences.Core]
rad_is_functor [lemma, in UniMath.CategoryTheory.Equivalences.Core]
rad_functor_data [definition, in UniMath.CategoryTheory.Equivalences.Core]
rad_eta [definition, in UniMath.CategoryTheory.Equivalences.Core]
rad_mor [definition, in UniMath.CategoryTheory.Equivalences.Core]
rad_eps [definition, in UniMath.CategoryTheory.Equivalences.Core]
rad_ob [definition, in UniMath.CategoryTheory.Equivalences.Core]
Rap [definition, in UniMath.RealNumbers.Reals]
Rap_Rlt [lemma, in UniMath.RealNumbers.Reals]
Rarchimedean [lemma, in UniMath.RealNumbers.Reals]
rassociator [definition, in UniMath.Bicategories.Core.Bicat]
rassociator_transf' [definition, in UniMath.Bicategories.Core.Bicat]
rassociator_fun'_natural [lemma, in UniMath.Bicategories.Core.Bicat]
rassociator_transf [definition, in UniMath.Bicategories.Core.Bicat]
rassociator_fun_natural [lemma, in UniMath.Bicategories.Core.Bicat]
rassociator_fun' [definition, in UniMath.Bicategories.Core.Bicat]
rassociator_fun [definition, in UniMath.Bicategories.Core.Bicat]
rassociator_rassociator [lemma, in UniMath.Bicategories.Core.Bicat]
rassociator_to_lassociator_pre [lemma, in UniMath.Bicategories.Core.Bicat]
rassociator_to_lassociator_post [lemma, in UniMath.Bicategories.Core.Bicat]
rassociator_lassociator [definition, in UniMath.Bicategories.Core.Bicat]
rassociator_invertible_2cell [definition, in UniMath.Bicategories.Core.Invertible_2cells]
rassociator_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Associativity]
rassociator_pstrans_is_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Associativity]
rassociator_pstrans_data [definition, in UniMath.Bicategories.Transformations.Examples.Associativity]
rassociator_lassociator_pstrans [definition, in UniMath.Bicategories.Modifications.Examples.Associativity]
rassociator_lassociator_pstrans_is_modification [definition, in UniMath.Bicategories.Modifications.Examples.Associativity]
rassociator_lassociator_pstrans_data [definition, in UniMath.Bicategories.Modifications.Examples.Associativity]
rassocor:494 [binder, in UniMath.Bicategories.Core.Bicat]
RationalNumbers [library]
Rationals_to_NonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
RawMatrix [library]
raw_Monad_data [definition, in UniMath.CategoryTheory.Monads.Monads]
rcanfromrinv [definition, in UniMath.Algebra.Domains_and_Fields]
rdistrtocoprod [definition, in UniMath.Foundations.PartA]
rdistrtoprod [definition, in UniMath.Foundations.PartA]
Rdiv [definition, in UniMath.RealNumbers.Reals]
re [definition, in UniMath.Combinatorics.Tests]
realise_greatest_of_family [definition, in UniMath.Algebra.FixedPointTheorems]
realise_least_of_family [definition, in UniMath.Algebra.FixedPointTheorems]
Reals [definition, in UniMath.RealNumbers.Reals]
Reals [library]
recompl [definition, in UniMath.Foundations.PartC]
recomplf [definition, in UniMath.Foundations.PartC]
recompl_ne [definition, in UniMath.MoreFoundations.NegativePropositions]
rectangle [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rec:215 [binder, in UniMath.Algebra.Universal.Terms]
Refinement [section, in UniMath.Induction.M.ComputationalM]
Refinement.finalM0 [variable, in UniMath.Induction.M.ComputationalM]
Refinement.M0 [variable, in UniMath.Induction.M.ComputationalM]
Reflective [library]
reflective_subcategory_to_precategory [definition, in UniMath.CategoryTheory.Subcategory.Reflective]
reflective_subcategory_to_hsubtype [definition, in UniMath.CategoryTheory.Subcategory.Reflective]
reflective_subcategory [definition, in UniMath.CategoryTheory.Subcategory.Reflective]
Reflects [section, in UniMath.CategoryTheory.limits.graphs.limits]
reflects_isos_cat_of_elems_forgetful [lemma, in UniMath.CategoryTheory.Elements]
reflects_isos_cat_of_elems_forgetful [lemma, in UniMath.CategoryTheory.ElementsOp]
reflects_isos [definition, in UniMath.CategoryTheory.Core.Functors]
reflects_morphism [definition, in UniMath.CategoryTheory.Core.Functors]
reflects_all_limits_sub_precategory_inclusion [lemma, in UniMath.CategoryTheory.Subcategory.Limits]
reflects_all_limits [definition, in UniMath.CategoryTheory.limits.graphs.limits]
reflects_limits_of_shape [definition, in UniMath.CategoryTheory.limits.graphs.limits]
refl0:179 [binder, in UniMath.Foundations.Sets]
Reindexing [section, in UniMath.CategoryTheory.DisplayedCats.Core]
Reindexing [library]
reindexing_disp_functor [section, in UniMath.CategoryTheory.DisplayedCats.Core]
reindex_disp_cat_disp_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
reindex_disp_cat_disp_functor_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
reindex_disp_cat_disp_functor_data [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
reindex_disp_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
reindex_disp_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
reindex_disp_cat_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
reindex_disp_cat_data [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
reindex_disp_cat_id_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
reindex_disp_cat_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
rel [definition, in UniMath.CategoryTheory.categories.HSET.Colimits]
RelAdjunctionWithKleisliCategory [section, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelatedFacts [section, in UniMath.SyntheticHomotopyTheory.Circle2]
RelativeAdjunction_by_natural_hom_weq [section, in UniMath.CategoryTheory.Adjunctions.Core]
RelativeModules [library]
RelativeMonads [library]
RelativeMonads_saturated [section, in UniMath.CategoryTheory.Monads.RelativeMonads]
relative_strength_from_actionbased_strength [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
relative_strength_from_actionbased_strength_laws [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
RelModule [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Precategory [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_precategory_data [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_precategory_ob_mor [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Category [section, in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_mor_comp [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_mor_id [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Mor_equiv [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Morphism_Definition.Part2 [section, in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_mor_property [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_mor_map [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Mor [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Morphism_Definition.Part1 [section, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Morphism_Definition [section, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_laws_from_RelModule [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_data_from_RelModule [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_laws [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_functor_data [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Definition.Projections_and_Laws [section, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_ob [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_data [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Definition [section, in UniMath.CategoryTheory.Monads.RelativeModules]
RelMonad [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonadmor_idtoiso [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonadmor_iso_first_iso [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonadmor_iso_from_is_iso [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonadmor_ob_eq [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonadmor_eq_type [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonadmor_weq_nat_trans_fails [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_equiv [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_map [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_axioms_from_RelMonadMor [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_data_from_RelMonadMor [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_axioms [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_data [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_composed_radj [definition, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonadMor_composed_radj_axioms [lemma, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonadMor_composed_radj_data [definition, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonadMor_composed [definition, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonadMor_composed_axioms [lemma, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonadMor_composed_data [definition, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonads_Coreflection [library]
relmonad_eq_from_relmonad_iso_idtoiso [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonad_eq_from_relmonad_iso_obsolete [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonad_eq_from_relmonad_iso [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_composition [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_composition_laws [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_identity [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_identity_laws [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonad_eq_eq_from_relmonad_ob_eq [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_eq_obsolete [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_eq [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_axioms_from_RelMonad [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_data_from_RelMonad [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_axioms [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_ob [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_data [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonad_axiom_from_relmodule [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
RelMonad_composed_radj [definition, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonad_composed_radj_axioms [definition, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonad_composed_radj_data [definition, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonad_composed [definition, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonad_composed_axioms [definition, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonad_composed_data [definition, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonad_from_Kleisli [definition, in UniMath.CategoryTheory.Monads.Kleisli]
rel_strength_from_signature [definition, in UniMath.SubstitutionSystems.Signatures]
rel_strength_from_signature_laws [lemma, in UniMath.SubstitutionSystems.Signatures]
rel_impl [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
rel_strength_rectangle [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_pentagon [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_to_rel_strength_nat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_rectangle_eq [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_pentagon_eq [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_nat_funclass [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_nat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_codom_ok [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_codom [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_dom_ok [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_dom [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel0 [definition, in UniMath.CategoryTheory.categories.HSET.Colimits]
rel0_impl [lemma, in UniMath.CategoryTheory.categories.HSET.Colimits]
rel:2 [binder, in UniMath.Algebra.Apartness]
rel:4 [binder, in UniMath.Algebra.Apartness]
rel:6 [binder, in UniMath.Algebra.Apartness]
remakeweq [lemma, in UniMath.Foundations.PartA]
remakeweqboth [lemma, in UniMath.Foundations.PartA]
remakeweqboth_eq' [lemma, in UniMath.Foundations.PartA]
remakeweqboth_eq [lemma, in UniMath.Foundations.PartA]
remakeweqinv [lemma, in UniMath.Foundations.PartA]
remakeweqinv_eq' [lemma, in UniMath.Foundations.PartA]
remakeweqinv_eq [lemma, in UniMath.Foundations.PartA]
remakeweq_eq' [lemma, in UniMath.Foundations.PartA]
remakeweq_eq [lemma, in UniMath.Foundations.PartA]
remove_ε₁ [lemma, in UniMath.Bicategories.Core.AdjointUnique]
remove_η₂ [lemma, in UniMath.Bicategories.Core.AdjointUnique]
remove_id_right [lemma, in UniMath.CategoryTheory.Core.Categories]
remove_id_left [lemma, in UniMath.CategoryTheory.Core.Categories]
reord1_ob_inverse [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
reord1_hom_inverse [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
reord1_functor [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
reord1_functor_axioms [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
reord1_functor_data [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
replaceSum [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
replace_dni_last [definition, in UniMath.Combinatorics.StandardFiniteSets]
replace_dni_first [definition, in UniMath.Combinatorics.StandardFiniteSets]
representable [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
Representable [library]
RepresentableFunctor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
RepresentableFunctor [section, in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableFunctor.C_is_univalent_2_1 [variable, in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableModification [section, in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableModification.C_is_univalent_2_1 [variable, in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableModification.η [variable, in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableTransformation [section, in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableTransformation.C_is_univalent_2_1 [variable, in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableTransformation.f [variable, in UniMath.Bicategories.PseudoFunctors.Representable]
representable_full [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
representable_faithful [lemma, in UniMath.Bicategories.Core.EquivToAdjequiv]
representable_invertible_cells [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
representable_laws [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
representable_data [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
representable_data_nat [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
representable_data_fun [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
representable_data_cat [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
representable_comp_invmod [definition, in UniMath.Bicategories.PseudoFunctors.Yoneda]
representable_comp_is_mod [definition, in UniMath.Bicategories.PseudoFunctors.Yoneda]
representable_comp_inv2cell [definition, in UniMath.Bicategories.PseudoFunctors.Yoneda]
representable_id_invmod [definition, in UniMath.Bicategories.PseudoFunctors.Yoneda]
representable_id_is_mod [definition, in UniMath.Bicategories.PseudoFunctors.Yoneda]
representable_id_inv2cell [definition, in UniMath.Bicategories.PseudoFunctors.Yoneda]
representable1 [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
representable1_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
representable1_data [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
representable2 [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
representable2_is_modification [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
representable2_data [definition, in UniMath.Bicategories.PseudoFunctors.Representable]
Representation [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Representation [library]
Representation_Map [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Representation_to_iso [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
RepresentedFunctor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
reseqrel [definition, in UniMath.Foundations.Sets]
resrel [definition, in UniMath.Foundations.Sets]
restrict [definition, in UniMath.AlgebraicGeometry.SheavesOfRings]
restricted_adjunction_equivalence [lemma, in UniMath.CategoryTheory.Adjunctions.Restriction]
restricted_adjunction_counit [definition, in UniMath.CategoryTheory.Adjunctions.Restriction]
restricted_adjunction_unit [definition, in UniMath.CategoryTheory.Adjunctions.Restriction]
restricted_adjunction_right_adjoint [definition, in UniMath.CategoryTheory.Adjunctions.Restriction]
restricted_adjunction_left_adjoint [definition, in UniMath.CategoryTheory.Adjunctions.Restriction]
restriction [definition, in UniMath.AlgebraicGeometry.SheavesOfRings]
Restriction [section, in UniMath.CategoryTheory.Adjunctions.Restriction]
restriction [section, in UniMath.AlgebraicGeometry.Spec]
Restriction [library]
restriction_paths [lemma, in UniMath.AlgebraicGeometry.Spec]
restriction_facts [section, in UniMath.AlgebraicGeometry.Spec]
restriction_ringfun [definition, in UniMath.AlgebraicGeometry.Spec]
restriction_section [definition, in UniMath.AlgebraicGeometry.Spec]
restriction_section_map [definition, in UniMath.AlgebraicGeometry.Spec]
Restriction.ε [variable, in UniMath.CategoryTheory.Adjunctions.Restriction]
Restriction.η [variable, in UniMath.CategoryTheory.Adjunctions.Restriction]
restrict_functor_to_sub_precategory [definition, in UniMath.CategoryTheory.Subcategory.Core]
retraction [definition, in UniMath.CategoryTheory.Core.Categories]
retract_dec [lemma, in UniMath.MoreFoundations.DecidablePropositions]
reversal_LEM [lemma, in UniMath.MoreFoundations.DecidablePropositions]
reverse [definition, in UniMath.Combinatorics.GraphPaths]
reverse [definition, in UniMath.Combinatorics.Lists]
reverse [definition, in UniMath.Combinatorics.FiniteSequences]
reverseBinDirectSum [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
reverseCommIsoSquare [lemma, in UniMath.CategoryTheory.Morphisms]
reverseCommIsoSquare' [lemma, in UniMath.CategoryTheory.Morphisms]
reversereverse [lemma, in UniMath.Combinatorics.FiniteSequences]
reverseStep [lemma, in UniMath.Combinatorics.Lists]
reverse_three_args_idempotent [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
reverse_three_args_ok [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
reverse_three_args [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
reverse_in_closure [definition, in UniMath.Combinatorics.GraphPaths]
reverse_reverse [lemma, in UniMath.Combinatorics.Lists]
reverse_append [lemma, in UniMath.Combinatorics.Lists]
reverse_concatenate [lemma, in UniMath.Combinatorics.Lists]
reverse_nil [lemma, in UniMath.Combinatorics.Lists]
reverse_index' [lemma, in UniMath.Combinatorics.FiniteSequences]
reverse_index [lemma, in UniMath.Combinatorics.FiniteSequences]
reverse_binopfun [definition, in UniMath.Algebra.Free_Monoids_and_Groups]
rewrite_op [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
RewritingAids [section, in UniMath.CategoryTheory.PreAdditive]
rezk [section, in UniMath.CategoryTheory.rezk_completion]
rezk_completion_2_0 [definition, in UniMath.Bicategories.Core.YonedaLemma]
Rezk_opp_weq [definition, in UniMath.CategoryTheory.rezk_completion]
Rezk_eta_opp_Universal_Property [lemma, in UniMath.CategoryTheory.rezk_completion]
Rezk_op_adj_equiv [definition, in UniMath.CategoryTheory.rezk_completion]
Rezk_completion_endo_is_identity [definition, in UniMath.CategoryTheory.rezk_completion]
Rezk_initial_functor_from [lemma, in UniMath.CategoryTheory.rezk_completion]
Rezk_weq [definition, in UniMath.CategoryTheory.rezk_completion]
Rezk_eta_Universal_Property [lemma, in UniMath.CategoryTheory.rezk_completion]
Rezk_adj_equiv [definition, in UniMath.CategoryTheory.rezk_completion]
rezk_universal_property.fix_a_category.Ccat [variable, in UniMath.CategoryTheory.rezk_completion]
rezk_universal_property.fix_a_category.C [variable, in UniMath.CategoryTheory.rezk_completion]
rezk_universal_property.fix_a_category [section, in UniMath.CategoryTheory.rezk_completion]
rezk_universal_property.hsA [variable, in UniMath.CategoryTheory.rezk_completion]
rezk_universal_property.A [variable, in UniMath.CategoryTheory.rezk_completion]
rezk_universal_property [section, in UniMath.CategoryTheory.rezk_completion]
Rezk_eta_essentially_surjective [lemma, in UniMath.CategoryTheory.rezk_completion]
Rezk_eta_fully_faithful [lemma, in UniMath.CategoryTheory.rezk_completion]
Rezk_eta [definition, in UniMath.CategoryTheory.rezk_completion]
Rezk_completion [definition, in UniMath.CategoryTheory.rezk_completion]
rezk_completion [library]
rezk.A [variable, in UniMath.CategoryTheory.rezk_completion]
rezk.hsA [variable, in UniMath.CategoryTheory.rezk_completion]
re' [definition, in UniMath.Combinatorics.Tests]
RE1:421 [binder, in UniMath.CategoryTheory.LocalizingClass]
RE1:431 [binder, in UniMath.CategoryTheory.LocalizingClass]
RE2:422 [binder, in UniMath.CategoryTheory.LocalizingClass]
RE2:432 [binder, in UniMath.CategoryTheory.LocalizingClass]
RE:415 [binder, in UniMath.CategoryTheory.LocalizingClass]
RE:418 [binder, in UniMath.CategoryTheory.LocalizingClass]
RE:448 [binder, in UniMath.CategoryTheory.LocalizingClass]
RE:460 [binder, in UniMath.CategoryTheory.LocalizingClass]
Rge [definition, in UniMath.RealNumbers.Reals]
Rgt [definition, in UniMath.RealNumbers.Reals]
rhs [definition, in UniMath.Algebra.Universal.Equations]
RHS [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
rhs_left_inv_cell [lemma, in UniMath.Bicategories.Core.Bicat]
rhs_right_inv_cell [lemma, in UniMath.Bicategories.Core.Bicat]
rideal [definition, in UniMath.Algebra.RigsAndRings.Ideals]
rid:110 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
rig [definition, in UniMath.Algebra.RigsAndRings]
rigaddabmonoid [definition, in UniMath.Algebra.RigsAndRings]
rigaddfun [definition, in UniMath.Algebra.RigsAndRings]
rigaddiso [definition, in UniMath.Algebra.RigsAndRings]
rigaddsubmonoid [definition, in UniMath.Algebra.RigsAndRings]
rigassoc1 [definition, in UniMath.Algebra.RigsAndRings]
rigassoc2 [definition, in UniMath.Algebra.RigsAndRings]
rigaxs [definition, in UniMath.Algebra.RigsAndRings]
rigcomm1 [definition, in UniMath.Algebra.RigsAndRings]
rigcomm2 [definition, in UniMath.Algebra.RigsAndRings]
rigconstr [definition, in UniMath.Algebra.RigsAndRings]
rigdirprod [definition, in UniMath.Algebra.RigsAndRings]
rigdistraxs [definition, in UniMath.Algebra.RigsAndRings]
rigdistraxs_is [definition, in UniMath.Algebra.BinaryOperations]
rigeqrel [definition, in UniMath.Algebra.RigsAndRings]
rigfun [definition, in UniMath.Algebra.RigsAndRings]
rigfuncomp [definition, in UniMath.Algebra.RigsAndRings]
rigfunconstr [definition, in UniMath.Algebra.RigsAndRings]
rigfun_paths [lemma, in UniMath.Algebra.RigsAndRings]
rigfun_to_unel_rigaddmonoid [definition, in UniMath.Algebra.RigsAndRings]
right [definition, in UniMath.MoreFoundations.Interval]
rightCompHomo [definition, in UniMath.CategoryTheory.PreAdditive]
rightCompIsHomo [definition, in UniMath.CategoryTheory.PreAdditive]
rightDistribute [lemma, in UniMath.CategoryTheory.PreAdditive]
RightKanExtension [section, in UniMath.CategoryTheory.RightKanExtension]
RightKanExtension [library]
RightKanExtensionFromLims [section, in UniMath.CategoryTheory.RightKanExtension]
RightKanExtensionFromLims.fix_T.T [variable, in UniMath.CategoryTheory.RightKanExtension]
RightKanExtensionFromLims.fix_T [section, in UniMath.CategoryTheory.RightKanExtension]
_ ↓ _ [notation, in UniMath.CategoryTheory.RightKanExtension]
RightKanExtension_from_limits [lemma, in UniMath.CategoryTheory.RightKanExtension]
RightKanExtension.PrecompWithF [variable, in UniMath.CategoryTheory.RightKanExtension]
rightMinus [lemma, in UniMath.CategoryTheory.PreAdditive]
RightShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
RightShortExact_Coequalizer [definition, in UniMath.CategoryTheory.ShortExactSequences]
RightShortExact_Coequalizer_ShortShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
RightShortExact_Coequalizer_ShortShortExactData [definition, in UniMath.CategoryTheory.ShortExactSequences]
RightShortExact_from_ShortShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
RightShortExact_opp [definition, in UniMath.CategoryTheory.ShortExactSequences]
RightShortExact_ShortShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
RightUnitality [section, in UniMath.Bicategories.Transformations.Examples.Unitality]
RightUnitality [section, in UniMath.Bicategories.Modifications.Examples.Unitality]
RightUnitality.F [variable, in UniMath.Bicategories.Transformations.Examples.Unitality]
RightUnitality.F [variable, in UniMath.Bicategories.Modifications.Examples.Unitality]
RightWhisker [section, in UniMath.Bicategories.Transformations.Examples.Whiskering]
RightWhisker.F [variable, in UniMath.Bicategories.Transformations.Examples.Whiskering]
RightWhisker.η [variable, in UniMath.Bicategories.Transformations.Examples.Whiskering]
Right_rKleisli_functor [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
Right_rKleisli_is_functor [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
Right_rKleisli_functor_data [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
right_whisker [definition, in UniMath.Bicategories.Transformations.Examples.Whiskering]
right_whisker_is_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Whiskering]
right_whisker_data [definition, in UniMath.Bicategories.Transformations.Examples.Whiskering]
right_adjoint_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
right_unitor_of_pointedfunctors [definition, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
right_inverse_of_iso_is_inverse [lemma, in UniMath.CategoryTheory.Core.Isos]
Right_Kleisli_is_right_adjoint [definition, in UniMath.CategoryTheory.Monads.KleisliCategory]
Right_Kleisli_functor [definition, in UniMath.CategoryTheory.Monads.KleisliCategory]
Right_Kleisli_is_functor [lemma, in UniMath.CategoryTheory.Monads.KleisliCategory]
Right_Kleisli_functor_data [definition, in UniMath.CategoryTheory.Monads.KleisliCategory]
right_unitor_to_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
right_unitor_funclass [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
right_unitor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
right_adj_equiv_is_ess_sur [lemma, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
right_adj_equiv_is_ff [lemma, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
right_mult [definition, in UniMath.Algebra.GroupAction]
right_adjoint_left_from_partial [definition, in UniMath.CategoryTheory.Adjunctions.Core]
right_adjoint_from_partial [definition, in UniMath.CategoryTheory.Adjunctions.Core]
right_adjoint [definition, in UniMath.CategoryTheory.Adjunctions.Core]
right_functor [definition, in UniMath.CategoryTheory.Adjunctions.Core]
right_unitor_naturality [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
right_adj_of_disp_left_biadj [definition, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
right_adjoint_of_is_equiv_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
right_adjoint_of_disp_adjunction [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
right_adjoint_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
right_adjoint_of_disp_adjunction_data [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
right_adjoint_over_data [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
right_adj_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
right_unitor [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
right_unitor_2mor [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
right_unitor_trans [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
right_unitor_trans_type [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
right_adjoint_of_is_equiv_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
right_adjoint_of_disp_adjunction_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
right_adjoint_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
right_adjoint_of_disp_adjunction_id_data [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
right_adjoint_over_id_data [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
right_adj_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
right_adj_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
right_over_adj_preserves_cartesianness [lemma, in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
right_adjoint_preserves_limit [lemma, in UniMath.CategoryTheory.limits.graphs.limits]
right:154 [binder, in UniMath.CategoryTheory.Core.Categories]
rigiscommop2_is [definition, in UniMath.Algebra.BinaryOperations]
rigiso [definition, in UniMath.Algebra.RigsAndRings]
rigisoisrigfun [definition, in UniMath.Algebra.RigsAndRings]
rigisotorigfun [definition, in UniMath.Algebra.RigsAndRings]
rigiso_paths [definition, in UniMath.Algebra.RigsAndRings]
rigiso' [definition, in UniMath.Algebra.RigsAndRings]
rigldistr [definition, in UniMath.Algebra.RigsAndRings]
rigldistrax_is [definition, in UniMath.Algebra.BinaryOperations]
riglunax1 [definition, in UniMath.Algebra.RigsAndRings]
riglunax2 [definition, in UniMath.Algebra.RigsAndRings]
rigmultfun [definition, in UniMath.Algebra.RigsAndRings]
rigmultiso [definition, in UniMath.Algebra.RigsAndRings]
rigmultmonoid [definition, in UniMath.Algebra.RigsAndRings]
rigmultsubmonoid [definition, in UniMath.Algebra.RigsAndRings]
rigmultx0 [definition, in UniMath.Algebra.RigsAndRings]
rigmultx0_is [definition, in UniMath.Algebra.BinaryOperations]
rigmult0x [definition, in UniMath.Algebra.RigsAndRings]
rigmult0x_is [definition, in UniMath.Algebra.BinaryOperations]
rigneq0andmultlinv [definition, in UniMath.Algebra.Domains_and_Fields]
rigneq0andmultrinv [definition, in UniMath.Algebra.Domains_and_Fields]
rigop1axs [definition, in UniMath.Algebra.RigsAndRings]
rigop1axs_is [definition, in UniMath.Algebra.BinaryOperations]
rigop2axs [definition, in UniMath.Algebra.RigsAndRings]
rigop2axs_is [definition, in UniMath.Algebra.BinaryOperations]
rigquot [definition, in UniMath.Algebra.RigsAndRings]
rigrdistr [definition, in UniMath.Algebra.RigsAndRings]
rigrdistrax_is [definition, in UniMath.Algebra.BinaryOperations]
rigrunax1 [definition, in UniMath.Algebra.RigsAndRings]
rigrunax2 [definition, in UniMath.Algebra.RigsAndRings]
rigs [library]
RigsAndRings [library]
rigtoring [definition, in UniMath.Algebra.RigsAndRings]
rigtoringaddabgr [definition, in UniMath.Algebra.RigsAndRings]
rigtoringassoc2 [lemma, in UniMath.Algebra.RigsAndRings]
rigtoringcarrier [definition, in UniMath.Algebra.RigsAndRings]
rigtoringdistr [definition, in UniMath.Algebra.RigsAndRings]
rigtoringismonoidop2 [definition, in UniMath.Algebra.RigsAndRings]
rigtoringisunit [definition, in UniMath.Algebra.RigsAndRings]
rigtoringisunital [definition, in UniMath.Algebra.RigsAndRings]
rigtoringldistr [lemma, in UniMath.Algebra.RigsAndRings]
rigtoringlunit2 [lemma, in UniMath.Algebra.RigsAndRings]
rigtoringop1 [definition, in UniMath.Algebra.RigsAndRings]
rigtoringop1axs [definition, in UniMath.Algebra.RigsAndRings]
rigtoringop1int [definition, in UniMath.Algebra.RigsAndRings]
rigtoringop2 [definition, in UniMath.Algebra.RigsAndRings]
rigtoringop2comp [lemma, in UniMath.Algebra.RigsAndRings]
rigtoringop2int [definition, in UniMath.Algebra.RigsAndRings]
rigtoringrdistr [lemma, in UniMath.Algebra.RigsAndRings]
rigtoringrel [definition, in UniMath.Algebra.RigsAndRings]
rigtoringrunit2 [lemma, in UniMath.Algebra.RigsAndRings]
rigtoringunel1 [definition, in UniMath.Algebra.RigsAndRings]
rigtoringunel2 [definition, in UniMath.Algebra.RigsAndRings]
rigtoringunel2int [definition, in UniMath.Algebra.RigsAndRings]
rigunel1 [definition, in UniMath.Algebra.RigsAndRings]
rigunel1_is [definition, in UniMath.Algebra.BinaryOperations]
rigunel2 [definition, in UniMath.Algebra.RigsAndRings]
rigunel2_is [definition, in UniMath.Algebra.BinaryOperations]
rig_univalence [definition, in UniMath.Algebra.RigsAndRings]
rig_univalence_isweq [lemma, in UniMath.Algebra.RigsAndRings]
rig_univlalence_map [definition, in UniMath.Algebra.RigsAndRings]
rig_univalence_weq3 [definition, in UniMath.Algebra.RigsAndRings]
rig_univalence_weq2 [definition, in UniMath.Algebra.RigsAndRings]
rig_univalence_weq1 [definition, in UniMath.Algebra.RigsAndRings]
rig_univalent_category [definition, in UniMath.CategoryTheory.categories.rigs]
rig_category_is_univalent [definition, in UniMath.CategoryTheory.categories.rigs]
rig_category [definition, in UniMath.CategoryTheory.categories.rigs]
rig_precategory_isweq [definition, in UniMath.CategoryTheory.categories.rigs]
rig_equiv_weq_iso [definition, in UniMath.CategoryTheory.categories.rigs]
rig_equiv_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.rigs]
rig_iso_equiv_weq [definition, in UniMath.CategoryTheory.categories.rigs]
rig_iso_equiv_is_equiv [lemma, in UniMath.CategoryTheory.categories.rigs]
rig_equiv_iso [lemma, in UniMath.CategoryTheory.categories.rigs]
rig_equiv_is_iso [lemma, in UniMath.CategoryTheory.categories.rigs]
rig_iso_equiv [lemma, in UniMath.CategoryTheory.categories.rigs]
rig_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.rigs]
rig_precategory [definition, in UniMath.CategoryTheory.categories.rigs]
rig_assoc [definition, in UniMath.CategoryTheory.categories.rigs]
rig_id_right [definition, in UniMath.CategoryTheory.categories.rigs]
rig_id_left [definition, in UniMath.CategoryTheory.categories.rigs]
rig_precategory_data [definition, in UniMath.CategoryTheory.categories.rigs]
rig_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.rigs]
rig_fun_space [definition, in UniMath.CategoryTheory.categories.rigs]
ring [definition, in UniMath.Algebra.RigsAndRings]
ringaddabgr [definition, in UniMath.Algebra.RigsAndRings]
ringaddabgreqrel [definition, in UniMath.Algebra.RigsAndRings]
ringaddfun [definition, in UniMath.Algebra.RigsAndRings]
ringaddhrelandfun [lemma, in UniMath.Algebra.RigsAndRings]
ringassoc1 [definition, in UniMath.Algebra.RigsAndRings]
ringassoc2 [definition, in UniMath.Algebra.RigsAndRings]
ringaxs [definition, in UniMath.Algebra.RigsAndRings]
ringcarryequiv [lemma, in UniMath.PAdics.padics]
ringcomm1 [definition, in UniMath.Algebra.RigsAndRings]
ringcomm2 [definition, in UniMath.Algebra.RigsAndRings]
ringconstr [definition, in UniMath.Algebra.RigsAndRings]
ringdirprod [definition, in UniMath.Algebra.RigsAndRings]
ringdistraxs [definition, in UniMath.Algebra.RigsAndRings]
ringdistraxs_is [definition, in UniMath.Algebra.BinaryOperations]
ringeqrel [definition, in UniMath.Algebra.RigsAndRings]
ringfromgt0 [definition, in UniMath.Algebra.RigsAndRings]
ringfromlt0 [definition, in UniMath.Algebra.RigsAndRings]
ringfun [definition, in UniMath.Algebra.RigsAndRings]
ringfunconstr [definition, in UniMath.Algebra.RigsAndRings]
ringfun_module [definition, in UniMath.Algebra.Modules.Examples]
ringfun_left_mult [definition, in UniMath.Algebra.Modules.Examples]
ringinvmaponpathsminus [definition, in UniMath.Algebra.RigsAndRings]
ringinvmultgtandfun [lemma, in UniMath.Algebra.RigsAndRings]
ringinvunel1 [definition, in UniMath.Algebra.RigsAndRings]
ringinv1 [definition, in UniMath.Algebra.RigsAndRings]
ringiscommop2_is [definition, in UniMath.Algebra.BinaryOperations]
ringismultcancelableif [lemma, in UniMath.Algebra.RigsAndRings]
ringismultlcancelableif [lemma, in UniMath.Algebra.RigsAndRings]
ringismultrcancelableif [lemma, in UniMath.Algebra.RigsAndRings]
ringiso [definition, in UniMath.Algebra.RigsAndRings]
ringldistr [definition, in UniMath.Algebra.RigsAndRings]
ringldistrax_is [definition, in UniMath.Algebra.BinaryOperations]
ringlinvax1 [definition, in UniMath.Algebra.RigsAndRings]
ringlmultminus [lemma, in UniMath.Algebra.RigsAndRings]
ringlunax1 [definition, in UniMath.Algebra.RigsAndRings]
ringlunax2 [definition, in UniMath.Algebra.RigsAndRings]
ringminusdistl [lemma, in UniMath.PAdics.lemmas]
ringminusdistr [lemma, in UniMath.PAdics.lemmas]
ringminusminus [lemma, in UniMath.Algebra.RigsAndRings]
ringminus1 [definition, in UniMath.Algebra.RigsAndRings]
ringminus1_is [definition, in UniMath.Algebra.BinaryOperations]
ringmultabmonoid [definition, in UniMath.Algebra.RigsAndRings]
ringmultfun [definition, in UniMath.Algebra.RigsAndRings]
ringmultgtandfun [lemma, in UniMath.Algebra.RigsAndRings]
ringmultgt0lt0 [lemma, in UniMath.Algebra.RigsAndRings]
ringmultlt0gt0 [lemma, in UniMath.Algebra.RigsAndRings]
ringmultlt0lt0 [lemma, in UniMath.Algebra.RigsAndRings]
ringmultminusminus [lemma, in UniMath.Algebra.RigsAndRings]
ringmultmonoid [definition, in UniMath.Algebra.RigsAndRings]
ringmultmonoideqrel [definition, in UniMath.Algebra.RigsAndRings]
ringmultwithminus1 [definition, in UniMath.Algebra.RigsAndRings]
ringmultwithminus1_is [definition, in UniMath.Algebra.BinaryOperations]
ringmultx0 [definition, in UniMath.Algebra.RigsAndRings]
ringmultx0_is [definition, in UniMath.Algebra.BinaryOperations]
ringmult0x [definition, in UniMath.Algebra.RigsAndRings]
ringmult0x_is [definition, in UniMath.Algebra.BinaryOperations]
ringneq0andmultlinv [definition, in UniMath.Algebra.Domains_and_Fields]
ringneq0andmultrinv [definition, in UniMath.Algebra.Domains_and_Fields]
ringofendabgr [definition, in UniMath.Algebra.Modules.Core]
ringofendabgr_op2 [definition, in UniMath.Algebra.Modules.Core]
ringofendabgr_op1 [definition, in UniMath.Algebra.Modules.Core]
ringop1axs [definition, in UniMath.Algebra.RigsAndRings]
ringop1axs_is [definition, in UniMath.Algebra.BinaryOperations]
ringop2axs [definition, in UniMath.Algebra.RigsAndRings]
ringop2axs_is [definition, in UniMath.Algebra.BinaryOperations]
ringpossubmonoid [definition, in UniMath.Algebra.Domains_and_Fields]
ringquot [definition, in UniMath.Algebra.RigsAndRings]
ringrdistr [definition, in UniMath.Algebra.RigsAndRings]
ringrdistrax_is [definition, in UniMath.Algebra.BinaryOperations]
ringrinvax1 [definition, in UniMath.Algebra.RigsAndRings]
ringrmultminus [lemma, in UniMath.Algebra.RigsAndRings]
ringrunax1 [definition, in UniMath.Algebra.RigsAndRings]
ringrunax2 [definition, in UniMath.Algebra.RigsAndRings]
rings [library]
rings:101 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:106 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:11 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:112 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:117 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:12 [binder, in UniMath.Algebra.Modules.Examples]
rings:123 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:128 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:133 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:139 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:145 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:149 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:153 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:158 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:19 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:24 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:27 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:31 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:34 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:4 [binder, in UniMath.Algebra.Modules.Examples]
rings:43 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:48 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:54 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:59 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:65 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:70 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:76 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:84 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:91 [binder, in UniMath.Algebra.Modules.Multimodules]
rings:96 [binder, in UniMath.Algebra.Modules.Multimodules]
ringtogt0 [definition, in UniMath.Algebra.RigsAndRings]
ringtolt0 [definition, in UniMath.Algebra.RigsAndRings]
ringtorig [definition, in UniMath.Algebra.RigsAndRings]
ringunel1 [definition, in UniMath.Algebra.RigsAndRings]
ringunel1_is [definition, in UniMath.Algebra.BinaryOperations]
ringunel2 [definition, in UniMath.Algebra.RigsAndRings]
ringunel2_is [definition, in UniMath.Algebra.BinaryOperations]
ring_univalent_category [definition, in UniMath.CategoryTheory.categories.rings]
ring_category_is_univalent [definition, in UniMath.CategoryTheory.categories.rings]
ring_category [definition, in UniMath.CategoryTheory.categories.rings]
ring_precategory_isweq [definition, in UniMath.CategoryTheory.categories.rings]
ring_equiv_weq_iso [definition, in UniMath.CategoryTheory.categories.rings]
ring_equiv_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.rings]
ring_iso_equiv_weq [definition, in UniMath.CategoryTheory.categories.rings]
ring_iso_equiv_is_equiv [lemma, in UniMath.CategoryTheory.categories.rings]
ring_equiv_iso [lemma, in UniMath.CategoryTheory.categories.rings]
ring_equiv_is_iso [lemma, in UniMath.CategoryTheory.categories.rings]
ring_iso_equiv [lemma, in UniMath.CategoryTheory.categories.rings]
ring_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.rings]
ring_precategory [definition, in UniMath.CategoryTheory.categories.rings]
ring_assoc [lemma, in UniMath.CategoryTheory.categories.rings]
ring_id_right [lemma, in UniMath.CategoryTheory.categories.rings]
ring_id_left [lemma, in UniMath.CategoryTheory.categories.rings]
ring_precategory_data [definition, in UniMath.CategoryTheory.categories.rings]
ring_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.rings]
ring_fun_space [definition, in UniMath.CategoryTheory.categories.rings]
ring_univalence [definition, in UniMath.Algebra.RigsAndRings]
ring_univalence_isweq [lemma, in UniMath.Algebra.RigsAndRings]
ring_univalence_map [definition, in UniMath.Algebra.RigsAndRings]
ring_univalence_weq3 [definition, in UniMath.Algebra.RigsAndRings]
ring_univalence_weq2 [definition, in UniMath.Algebra.RigsAndRings]
ring_univalence_weq1' [definition, in UniMath.Algebra.RigsAndRings]
ring_univalence_weq1 [definition, in UniMath.Algebra.RigsAndRings]
ring_is_module [definition, in UniMath.Algebra.Modules.Examples]
ring_left_mult [definition, in UniMath.Algebra.Modules.Examples]
ring' [definition, in UniMath.Algebra.RigsAndRings]
Rinv [definition, in UniMath.RealNumbers.Reals]
rinvax [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
rinvpair [definition, in UniMath.Algebra.Domains_and_Fields]
rinvpairxy [definition, in UniMath.Algebra.Domains_and_Fields]
rinvunitor [definition, in UniMath.Bicategories.Core.Bicat]
rinvunitor_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Unitality]
rinvunitor_pstrans_is_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Unitality]
rinvunitor_pstrans_data [definition, in UniMath.Bicategories.Transformations.Examples.Unitality]
rinvunitor_natural [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
rinvunitor_runitor [definition, in UniMath.Bicategories.Core.Bicat]
rinvunitor_runitor_pstrans [definition, in UniMath.Bicategories.Modifications.Examples.Unitality]
rinvunitor_runitor_pstrans_is_modification [definition, in UniMath.Bicategories.Modifications.Examples.Unitality]
rinvunitor_runitor_pstrans_data [definition, in UniMath.Bicategories.Modifications.Examples.Unitality]
rinvunitor_invertible_2cell [definition, in UniMath.Bicategories.Core.Invertible_2cells]
rinvunitor_triangle [definition, in UniMath.Bicategories.Core.Unitors]
rKleisli_functors_are_relative_adjoints [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
rKleisli_functor_left_right_compose [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
Rle [definition, in UniMath.RealNumbers.Reals]
Rlt [definition, in UniMath.RealNumbers.Reals]
Rlt_Rle [lemma, in UniMath.RealNumbers.Reals]
rmap [definition, in UniMath.CategoryTheory.Profunctors.Core]
Rminus [definition, in UniMath.RealNumbers.Reals]
RMonad_def [section, in UniMath.CategoryTheory.Monads.RelativeMonads]
φ-1 [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
v [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
σ [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_radj_morphism [section, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_radj_object.TH [variable, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ-1 [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
v [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
σ [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_radj_object.T [variable, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_radj_object [section, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ-1 [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
v [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
σ [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_morphism [section, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_object.TH [variable, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ-1 [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
v [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
σ [notation, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_object.T [variable, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_object [section, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.ηinv_is_natural [variable, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.ηinv [variable, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.corefl [variable, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.φinv [variable, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.φ [variable, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.NHW [variable, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.R [variable, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer [section, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
Rmor [definition, in UniMath.CategoryTheory.RightKanExtension]
Rmor_cone [definition, in UniMath.CategoryTheory.RightKanExtension]
Rmult [definition, in UniMath.RealNumbers.Reals]
RmultapRzero [lemma, in UniMath.RealNumbers.Reals]
Rmult_apcompat_r' [lemma, in UniMath.RealNumbers.Reals]
Rmult_apcompat_r [lemma, in UniMath.RealNumbers.Reals]
Rmult_apcompat_l' [lemma, in UniMath.RealNumbers.Reals]
Rmult_apcompat_l [lemma, in UniMath.RealNumbers.Reals]
Rmult_lecompat_r' [lemma, in UniMath.RealNumbers.Reals]
Rmult_lecompat_r [lemma, in UniMath.RealNumbers.Reals]
Rmult_lecompat_l' [lemma, in UniMath.RealNumbers.Reals]
Rmult_lecompat_l [lemma, in UniMath.RealNumbers.Reals]
Rmult_ltcompat_r' [lemma, in UniMath.RealNumbers.Reals]
Rmult_ltcompat_r [lemma, in UniMath.RealNumbers.Reals]
Rmult_ltcompat_l' [lemma, in UniMath.RealNumbers.Reals]
Rmult_ltcompat_l [lemma, in UniMath.RealNumbers.Reals]
rm_op_mor [definition, in UniMath.CategoryTheory.opp_precat]
rm_op_ob [definition, in UniMath.CategoryTheory.opp_precat]
rm_opp_mor [definition, in UniMath.CategoryTheory.opp_precat]
rm_opp_ob [definition, in UniMath.CategoryTheory.opp_precat]
rm_opp_mor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
rm_opp_ob [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
rng [definition, in UniMath.Algebra.Universal.Algebras]
Rone [definition, in UniMath.RealNumbers.Reals]
Roof [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofDecomposeEqrel [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofEqclass [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassCompInvRToId [lemma, in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassCompToRoofComp [lemma, in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassDisjoint [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassEq [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassEqRoof [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofEqClassEq1 [lemma, in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassFromRoof [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassFromRoofIn [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofEqClassIn [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassIn [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofEqClassIn2 [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassIs [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassToRoofComp [lemma, in UniMath.CategoryTheory.LocalizingClass]
RoofEqrel [lemma, in UniMath.CategoryTheory.LocalizingClass]
RoofHrel [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofHrel' [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofMor1 [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofMor1Is [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofMor2 [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofOb [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofToCoroof [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofTop [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofTopEq1 [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofTopEq2 [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofTopMor1 [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofTopMor1Is [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofTopMor2 [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofTopOb [definition, in UniMath.CategoryTheory.LocalizingClass]
RoofTopToCoroof [definition, in UniMath.CategoryTheory.LocalizingClass]
roof_comp_iscontr_eqclass [lemma, in UniMath.CategoryTheory.LocalizingClass]
roof_comp_iscontr_in [lemma, in UniMath.CategoryTheory.LocalizingClass]
roof_comp_iscontr [lemma, in UniMath.CategoryTheory.LocalizingClass]
roof_post_comp [lemma, in UniMath.CategoryTheory.LocalizingClass]
roof_pre_comp [lemma, in UniMath.CategoryTheory.LocalizingClass]
roof_comp [definition, in UniMath.CategoryTheory.LocalizingClass]
Root [definition, in UniMath.Combinatorics.ZFstructures]
root [definition, in UniMath.Combinatorics.ZFstructures]
Ropp [definition, in UniMath.RealNumbers.Reals]
rotation_isos [section, in UniMath.HomologicalAlgebra.Triangulated]
rotation_mapping_cone.A [variable, in UniMath.HomologicalAlgebra.MappingCone]
rotation_mapping_cone [section, in UniMath.HomologicalAlgebra.MappingCone]
RotDTri [definition, in UniMath.HomologicalAlgebra.Triangulated]
RotDTriMor [definition, in UniMath.HomologicalAlgebra.Triangulated]
RotDTris [definition, in UniMath.HomologicalAlgebra.Triangulated]
RotInvIso_is_iso [definition, in UniMath.HomologicalAlgebra.Triangulated]
RotInvIso_Mor [definition, in UniMath.HomologicalAlgebra.Triangulated]
RotInvIso_Mor_Comm3 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
RotInvIso_Mor_Comm2 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
RotInvIso_Mor_Comm1 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
RotMorphism [definition, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismComm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismCommHomot [definition, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismCommHomot1 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismCommHomot2 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismCommMor1 [definition, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismCommMor2 [definition, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismEq2' [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismInv [definition, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismInvComm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoEq1 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoEq2'_eq [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoEq2'' [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoEq2''_3 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoEq2''_2 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoEq2''_1 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoHomot [definition, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphism_comm2 [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphism_comm [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphism_comm' [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphism_is_z_isomorphism [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotMorphism_is_z_isomorphism_inverses [lemma, in UniMath.HomologicalAlgebra.MappingCone]
RotTri [definition, in UniMath.HomologicalAlgebra.Triangulated]
RotTriIso [definition, in UniMath.HomologicalAlgebra.Triangulated]
RotTriMor [definition, in UniMath.HomologicalAlgebra.Triangulated]
RotTriMor_is_iso [definition, in UniMath.HomologicalAlgebra.Triangulated]
RotTriMor_Comm3 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
roundtrip1_ob_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip1_ob_data_is_nat_trans [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip1_ob_data_is_nat_z_iso [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip1_ob_nat_trans_data_pointwise_inv [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip1_ob_nat_trans_data [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip1_ob_as_equality [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip1_with_sections_bicat [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
roundtrip1_with_sections [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
roundtrip2_ob_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip2_ob_data_is_nat_trans [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip2_ob_data_is_nat_z_iso [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip2_ob_nat_trans_data_pointwise_inv [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip2_ob_nat_trans_data [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip2_ob_as_equality [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip2_with_sections_bicat [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
roundtrip2_with_sections [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
row [definition, in UniMath.Combinatorics.FiniteSequences]
row_vec [definition, in UniMath.Combinatorics.FiniteSequences]
Rplus [definition, in UniMath.RealNumbers.Reals]
Rplus_apcompat_r [lemma, in UniMath.RealNumbers.Reals]
Rplus_apcompat_l [lemma, in UniMath.RealNumbers.Reals]
Rplus_lecompat_r [lemma, in UniMath.RealNumbers.Reals]
Rplus_lecompat_l [lemma, in UniMath.RealNumbers.Reals]
Rplus_ltcompat_r [lemma, in UniMath.RealNumbers.Reals]
Rplus_ltcompat_l [lemma, in UniMath.RealNumbers.Reals]
rp:1483 [binder, in UniMath.Foundations.Sets]
rp:1484 [binder, in UniMath.Foundations.Sets]
rr:1030 [binder, in UniMath.Foundations.Sets]
rr:1034 [binder, in UniMath.Foundations.Sets]
rr:1038 [binder, in UniMath.Foundations.Sets]
rr:1042 [binder, in UniMath.Foundations.Sets]
rr:273 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
rr:288 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
rr:302 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
RR:35 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
RR:441 [binder, in UniMath.CategoryTheory.LocalizingClass]
RR:442 [binder, in UniMath.CategoryTheory.LocalizingClass]
RR:504 [binder, in UniMath.CategoryTheory.LocalizingClass]
RR:505 [binder, in UniMath.CategoryTheory.LocalizingClass]
RR:8 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
RSE:149 [binder, in UniMath.CategoryTheory.ShortExactSequences]
RSE:151 [binder, in UniMath.CategoryTheory.ShortExactSequences]
RSE:90 [binder, in UniMath.CategoryTheory.ShortExactSequences]
RSE:91 [binder, in UniMath.CategoryTheory.ShortExactSequences]
rs:73 [binder, in UniMath.SubstitutionSystems.Signatures]
rtoneq [lemma, in UniMath.Foundations.Sets]
RtoNRNR [definition, in UniMath.RealNumbers.Reals]
RtoNRNR_NRNRtoR [lemma, in UniMath.RealNumbers.Reals]
rtopaths [definition, in UniMath.Foundations.Sets]
Rtwo [definition, in UniMath.RealNumbers.Reals]
RT:257 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
RT:258 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
runax [definition, in UniMath.Algebra.Monoids]
runax_is [definition, in UniMath.Algebra.BinaryOperations]
runax:14 [binder, in UniMath.Algebra.Matrix]
runax:32 [binder, in UniMath.Algebra.IteratedBinaryOperations]
runax:52 [binder, in UniMath.Algebra.Matrix]
runitor [definition, in UniMath.Bicategories.Core.Bicat]
runitor_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Unitality]
runitor_pstrans_is_pstrans [definition, in UniMath.Bicategories.Transformations.Examples.Unitality]
runitor_pstrans_data [definition, in UniMath.Bicategories.Transformations.Examples.Unitality]
runitor_transf [definition, in UniMath.Bicategories.Core.Bicat]
runitor_natural [lemma, in UniMath.Bicategories.Core.Bicat]
runitor_inv:478 [binder, in UniMath.Bicategories.Core.Bicat]
runitor_rwhisker [definition, in UniMath.Bicategories.Core.Bicat]
runitor_rinvunitor [definition, in UniMath.Bicategories.Core.Bicat]
runitor_rinvunitor_pstrans [definition, in UniMath.Bicategories.Modifications.Examples.Unitality]
runitor_rinvunitor_pstrans_is_modification [definition, in UniMath.Bicategories.Modifications.Examples.Unitality]
runitor_rinvunitor_pstrans_data [definition, in UniMath.Bicategories.Modifications.Examples.Unitality]
runitor_invertible_2cell [definition, in UniMath.Bicategories.Core.Invertible_2cells]
runitor_lunitor_identity [lemma, in UniMath.Bicategories.Core.Unitors]
runitor_is_runitor_rwhisker [lemma, in UniMath.Bicategories.Core.Unitors]
runitor_triangle [lemma, in UniMath.Bicategories.Core.Unitors]
runitor_rwhisker_rwhisker [lemma, in UniMath.Bicategories.Core.Unitors]
runitor:474 [binder, in UniMath.Bicategories.Core.Bicat]
run:13 [binder, in UniMath.Algebra.Matrix]
run:51 [binder, in UniMath.Algebra.Matrix]
rwhisker [definition, in UniMath.Bicategories.Core.Bicat]
rwhisker [definition, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
rwhisker [definition, in UniMath.CategoryTheory.Core.TwoCategories]
rwhisker_hcomp [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
rwhisker_cartesian [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
rwhisker_rwhisker_alt [lemma, in UniMath.Bicategories.Core.Bicat]
rwhisker_lwhisker_rassociator [lemma, in UniMath.Bicategories.Core.Bicat]
rwhisker_rwhisker [definition, in UniMath.Bicategories.Core.Bicat]
rwhisker_lwhisker [definition, in UniMath.Bicategories.Core.Bicat]
rwhisker_vcomp [definition, in UniMath.Bicategories.Core.Bicat]
rwhisker_of_invertible_2cell [definition, in UniMath.Bicategories.Core.Invertible_2cells]
rwhisker_with_invassociator_inv2cell [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
rwhisker_with_invrunitor_inv2cell [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
rwhisker_with_invlunitor_inv2cell [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
rwhisker_with_linvunitor_inv2cell [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
rwhisker_lwhisker_with_μ_inv_inv2cell [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
rwhisker_id_inj [lemma, in UniMath.Bicategories.Core.Unitors]
rwhisker_rwhisker [definition, in UniMath.CategoryTheory.Core.TwoCategories]
rwhisker_lwhisker [definition, in UniMath.CategoryTheory.Core.TwoCategories]
rwhisker_vcomp [definition, in UniMath.CategoryTheory.Core.TwoCategories]
rwhisk:462 [binder, in UniMath.Bicategories.Core.Bicat]
RX:1015 [binder, in UniMath.Foundations.Sets]
RX:1025 [binder, in UniMath.Foundations.Sets]
RX:1046 [binder, in UniMath.Foundations.Sets]
RX:1051 [binder, in UniMath.Foundations.Sets]
RX:1120 [binder, in UniMath.Foundations.Sets]
RX:1129 [binder, in UniMath.Foundations.Sets]
RX:1143 [binder, in UniMath.Foundations.Sets]
RX:1150 [binder, in UniMath.Foundations.Sets]
RX:1158 [binder, in UniMath.Foundations.Sets]
RX:1168 [binder, in UniMath.Foundations.Sets]
RX:1180 [binder, in UniMath.Foundations.Sets]
RX:16 [binder, in UniMath.MoreFoundations.QuotientSet]
rx:165 [binder, in UniMath.RealNumbers.NonnegativeReals]
RX:36 [binder, in UniMath.MoreFoundations.QuotientSet]
RX:4 [binder, in UniMath.MoreFoundations.QuotientSet]
RX:44 [binder, in UniMath.MoreFoundations.QuotientSet]
RX:486 [binder, in UniMath.Foundations.Sets]
RX:492 [binder, in UniMath.Foundations.Sets]
RX:503 [binder, in UniMath.Foundations.Sets]
RX:510 [binder, in UniMath.Foundations.Sets]
RX:519 [binder, in UniMath.Foundations.Sets]
RX:56 [binder, in UniMath.MoreFoundations.QuotientSet]
RX:858 [binder, in UniMath.Foundations.Sets]
RX:866 [binder, in UniMath.Foundations.Sets]
RX:873 [binder, in UniMath.Foundations.Sets]
RX:881 [binder, in UniMath.Foundations.Sets]
RX:888 [binder, in UniMath.Foundations.Sets]
RX:961 [binder, in UniMath.Foundations.Sets]
RX:968 [binder, in UniMath.Foundations.Sets]
RX:985 [binder, in UniMath.Foundations.Sets]
RX:994 [binder, in UniMath.Foundations.Sets]
RY:1016 [binder, in UniMath.Foundations.Sets]
RY:1026 [binder, in UniMath.Foundations.Sets]
RY:1047 [binder, in UniMath.Foundations.Sets]
RY:1052 [binder, in UniMath.Foundations.Sets]
RY:1121 [binder, in UniMath.Foundations.Sets]
RY:1130 [binder, in UniMath.Foundations.Sets]
RY:1144 [binder, in UniMath.Foundations.Sets]
RY:1152 [binder, in UniMath.Foundations.Sets]
RY:1159 [binder, in UniMath.Foundations.Sets]
RY:1169 [binder, in UniMath.Foundations.Sets]
RY:1181 [binder, in UniMath.Foundations.Sets]
ry:128 [binder, in UniMath.RealNumbers.NonnegativeReals]
RY:17 [binder, in UniMath.MoreFoundations.QuotientSet]
RY:37 [binder, in UniMath.MoreFoundations.QuotientSet]
RY:45 [binder, in UniMath.MoreFoundations.QuotientSet]
RY:487 [binder, in UniMath.Foundations.Sets]
RY:493 [binder, in UniMath.Foundations.Sets]
RY:5 [binder, in UniMath.MoreFoundations.QuotientSet]
RY:504 [binder, in UniMath.Foundations.Sets]
RY:511 [binder, in UniMath.Foundations.Sets]
RY:520 [binder, in UniMath.Foundations.Sets]
RY:57 [binder, in UniMath.MoreFoundations.QuotientSet]
RY:859 [binder, in UniMath.Foundations.Sets]
RY:867 [binder, in UniMath.Foundations.Sets]
RY:875 [binder, in UniMath.Foundations.Sets]
RY:882 [binder, in UniMath.Foundations.Sets]
RY:889 [binder, in UniMath.Foundations.Sets]
RY:962 [binder, in UniMath.Foundations.Sets]
RY:969 [binder, in UniMath.Foundations.Sets]
RY:986 [binder, in UniMath.Foundations.Sets]
RY:995 [binder, in UniMath.Foundations.Sets]
Rzero [definition, in UniMath.RealNumbers.Reals]
RZ:18 [binder, in UniMath.MoreFoundations.QuotientSet]
RZ:46 [binder, in UniMath.MoreFoundations.QuotientSet]
RZ:58 [binder, in UniMath.MoreFoundations.QuotientSet]
r_eta_α [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
r_bind_r_lift [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
r_lift_r_bind [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
r_eta_nat_trans [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
R_functor [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
r_lift [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
r_bind_r_bind [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
r_eta_r_bind [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
r_bind_r_eta [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
r_bind [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
r_eta [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
R_functor [definition, in UniMath.CategoryTheory.RightKanExtension]
R_is_functor [lemma, in UniMath.CategoryTheory.RightKanExtension]
R_data [definition, in UniMath.CategoryTheory.RightKanExtension]
R'':1230 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
R'':1246 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
r'':19 [binder, in UniMath.NumberSystems.Tests]
R'':225 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R'':234 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':108 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R':1123 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
R':1134 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
R':1150 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
R':1160 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
R':1170 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
R':1182 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
R':1198 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
R':1212 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
R':1213 [binder, in UniMath.Algebra.BinaryOperations]
R':1220 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
R':1229 [binder, in UniMath.Algebra.BinaryOperations]
R':1231 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
R':1247 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
R':125 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R':1258 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
R':1258 [binder, in UniMath.Foundations.Sets]
R':129 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':135 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':139 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R':145 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':152 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':153 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R':160 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':167 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R':170 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':176 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
r':18 [binder, in UniMath.NumberSystems.Tests]
R':181 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R':182 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':188 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':194 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R':196 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':203 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':207 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R':209 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':221 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R':224 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':233 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':235 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R':248 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R':261 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R':271 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':277 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':284 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':305 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':312 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':319 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':327 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':334 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':341 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':348 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':356 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':363 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':370 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':377 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':384 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':390 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':397 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':447 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':467 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':47 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':477 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':50 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':510 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':517 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':524 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':531 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R':537 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
r':63 [binder, in UniMath.Combinatorics.ZFstructures]
R':91 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R':97 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R0:164 [binder, in UniMath.MoreFoundations.Sets]
r0:78 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
R1'':680 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1':679 [binder, in UniMath.CategoryTheory.LocalizingClass]
r1:24 [binder, in UniMath.Combinatorics.MoreLists]
r1:29 [binder, in UniMath.Combinatorics.MoreLists]
R1:350 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:356 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:366 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:371 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:376 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:381 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:386 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:391 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:396 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:400 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:433 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:453 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:468 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:472 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:479 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:488 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:509 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:517 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:520 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:531 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:543 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:550 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:557 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:564 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:615 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:628 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:677 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:694 [binder, in UniMath.CategoryTheory.LocalizingClass]
R1:706 [binder, in UniMath.CategoryTheory.LocalizingClass]
r1:706 [binder, in UniMath.MoreFoundations.PathsOver]
R1:710 [binder, in UniMath.CategoryTheory.LocalizingClass]
r1:722 [binder, in UniMath.MoreFoundations.PathsOver]
r1:740 [binder, in UniMath.MoreFoundations.PathsOver]
r1:8 [binder, in UniMath.Algebra.Modules.Multimodules]
R2'':682 [binder, in UniMath.CategoryTheory.LocalizingClass]
R2':681 [binder, in UniMath.CategoryTheory.LocalizingClass]
r2:25 [binder, in UniMath.Combinatorics.MoreLists]
r2:30 [binder, in UniMath.Combinatorics.MoreLists]
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r:17 [binder, in UniMath.NumberSystems.Tests]
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R:360 [binder, in UniMath.Foundations.Sets]
R:362 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R:362 [binder, in UniMath.Algebra.Modules.Core]
r:364 [binder, in UniMath.MoreFoundations.PartA]
R:366 [binder, in UniMath.Algebra.Modules.Core]
R:366 [binder, in UniMath.Algebra.Monoids]
R:367 [binder, in UniMath.Foundations.Sets]
R:369 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
r:369 [binder, in UniMath.MoreFoundations.PartA]
r:37 [binder, in UniMath.Combinatorics.ZFstructures]
R:37 [binder, in UniMath.Algebra.Archimedean]
R:37 [binder, in UniMath.Algebra.Modules.Multimodules]
r:37 [binder, in UniMath.Algebra.Modules.Examples]
R:37 [binder, in UniMath.PAdics.fps]
R:370 [binder, in UniMath.Algebra.Modules.Core]
R:372 [binder, in UniMath.Algebra.Monoids]
R:374 [binder, in UniMath.Algebra.Modules.Core]
R:374 [binder, in UniMath.Algebra.Monoids]
R:374 [binder, in UniMath.Algebra.Domains_and_Fields]
R:374 [binder, in UniMath.Foundations.Sets]
R:376 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R:376 [binder, in UniMath.PAdics.fps]
R:378 [binder, in UniMath.Algebra.Modules.Core]
r:379 [binder, in UniMath.RealNumbers.NonnegativeReals]
R:38 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
r:38 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
R:381 [binder, in UniMath.Algebra.Modules.Core]
r:381 [binder, in UniMath.RealNumbers.NonnegativeReals]
R:381 [binder, in UniMath.Foundations.Sets]
R:383 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R:384 [binder, in UniMath.Algebra.Modules.Core]
r:384 [binder, in UniMath.RealNumbers.NonnegativeReals]
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R:387 [binder, in UniMath.Foundations.Sets]
r:388 [binder, in UniMath.MoreFoundations.PartA]
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R:389 [binder, in UniMath.Foundations.Sets]
r:39 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
r:39 [binder, in UniMath.Algebra.Modules.Submodule]
R:394 [binder, in UniMath.Foundations.Sets]
R:396 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R:397 [binder, in UniMath.Foundations.Sets]
R:399 [binder, in UniMath.Foundations.Sets]
r:4 [binder, in UniMath.RealNumbers.DedekindCuts]
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r:4 [binder, in UniMath.Algebra.Modules.Quotient]
R:4 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
R:4 [binder, in UniMath.Algebra.Lattice]
R:4 [binder, in UniMath.Algebra.ConstructiveStructures]
R:4 [binder, in UniMath.PAdics.fps]
R:40 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
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R:404 [binder, in UniMath.Foundations.Sets]
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r:408 [binder, in UniMath.MoreFoundations.PartA]
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R:41 [binder, in UniMath.Algebra.Modules.Submodule]
r:41 [binder, in UniMath.Algebra.Modules.Examples]
R:410 [binder, in UniMath.Algebra.RigsAndRings]
R:412 [binder, in UniMath.Algebra.Domains_and_Fields]
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R:42 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
r:42 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
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r:420 [binder, in UniMath.MoreFoundations.PartA]
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r:43 [binder, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
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R:430 [binder, in UniMath.PAdics.fps]
R:431 [binder, in UniMath.Algebra.Domains_and_Fields]
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r:432 [binder, in UniMath.MoreFoundations.PathsOver]
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R:44 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R:44 [binder, in UniMath.Algebra.Modules.Submodule]
R:440 [binder, in UniMath.CategoryTheory.LocalizingClass]
R:442 [binder, in UniMath.Algebra.RigsAndRings]
R:445 [binder, in UniMath.CategoryTheory.LocalizingClass]
r:445 [binder, in UniMath.MoreFoundations.PathsOver]
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R:449 [binder, in UniMath.CategoryTheory.LocalizingClass]
R:449 [binder, in UniMath.PAdics.fps]
R:45 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
r:45 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
r:45 [binder, in UniMath.RealNumbers.DedekindCuts]
R:45 [binder, in UniMath.Algebra.Modules.Quotient]
r:45 [binder, in UniMath.Algebra.Modules.Examples]
R:450 [binder, in UniMath.Algebra.RigsAndRings]
R:450 [binder, in UniMath.PAdics.fps]
R:451 [binder, in UniMath.PAdics.fps]
R:452 [binder, in UniMath.PAdics.fps]
R:455 [binder, in UniMath.Algebra.Domains_and_Fields]
R:458 [binder, in UniMath.Algebra.RigsAndRings]
R:458 [binder, in UniMath.PAdics.fps]
R:46 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R:46 [binder, in UniMath.Algebra.RigsAndRings.Ideals]
R:46 [binder, in UniMath.MoreFoundations.Sets]
R:46 [binder, in UniMath.Foundations.UnivalenceAxiom]
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r:46 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
r:462 [binder, in UniMath.RealNumbers.NonnegativeReals]
R:463 [binder, in UniMath.Algebra.Domains_and_Fields]
R:463 [binder, in UniMath.PAdics.fps]
R:465 [binder, in UniMath.Algebra.RigsAndRings]
R:466 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R:467 [binder, in UniMath.Foundations.Sets]
R:469 [binder, in UniMath.Foundations.Sets]
R:47 [binder, in UniMath.Algebra.Archimedean]
R:47 [binder, in UniMath.PAdics.fps]
R:47 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
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R:471 [binder, in UniMath.Algebra.Domains_and_Fields]
R:471 [binder, in UniMath.Algebra.RigsAndRings]
R:471 [binder, in UniMath.Foundations.Sets]
R:473 [binder, in UniMath.Foundations.Sets]
R:476 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
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R:479 [binder, in UniMath.Algebra.Domains_and_Fields]
R:479 [binder, in UniMath.Foundations.Sets]
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R:48 [binder, in UniMath.AlgebraicGeometry.Spec]
r:481 [binder, in UniMath.MoreFoundations.PathsOver]
R:481 [binder, in UniMath.Foundations.Sets]
R:483 [binder, in UniMath.Foundations.Sets]
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r:487 [binder, in UniMath.Algebra.Domains_and_Fields]
R:488 [binder, in UniMath.Algebra.RigsAndRings]
r:489 [binder, in UniMath.Algebra.Domains_and_Fields]
R:49 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R:49 [binder, in UniMath.Algebra.Archimedean]
r:49 [binder, in UniMath.Foundations.UnivalenceAxiom]
R:49 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
r:49 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
r:491 [binder, in UniMath.Algebra.Domains_and_Fields]
R:492 [binder, in UniMath.Algebra.RigsAndRings]
r:493 [binder, in UniMath.Algebra.Domains_and_Fields]
R:495 [binder, in UniMath.Algebra.RigsAndRings]
r:496 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
R:496 [binder, in UniMath.Algebra.Domains_and_Fields]
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r:5 [binder, in UniMath.RealNumbers.DecidableDedekindCuts]
r:5 [binder, in UniMath.Algebra.Modules.Submodule]
R:5 [binder, in UniMath.CategoryTheory.Subcategory.Reflective]
r:5 [binder, in UniMath.CategoryTheory.SplitMonicsAndEpis]
R:50 [binder, in UniMath.Algebra.RigsAndRings.Ideals]
R:50 [binder, in UniMath.Algebra.Modules.Core]
r:50 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
r:50 [binder, in UniMath.RealNumbers.NonnegativeReals]
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r:508 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
R:508 [binder, in UniMath.Algebra.RigsAndRings]
R:509 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R:51 [binder, in UniMath.Algebra.Archimedean]
R:51 [binder, in UniMath.Algebra.Free_Monoids_and_Groups]
r:51 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
r:512 [binder, in UniMath.Algebra.Domains_and_Fields]
r:514 [binder, in UniMath.Algebra.Domains_and_Fields]
R:515 [binder, in UniMath.Algebra.RigsAndRings]
R:516 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R:52 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R:52 [binder, in UniMath.Algebra.Modules.Core]
r:52 [binder, in UniMath.Algebra.FixedPointTheorems]
r:52 [binder, in UniMath.RealNumbers.DedekindCuts]
r:52 [binder, in UniMath.Bicategories.Core.Examples.TwoType]
R:52 [binder, in UniMath.Algebra.Modules.Submodule]
R:52 [binder, in UniMath.PAdics.fps]
r:52 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
R:522 [binder, in UniMath.Foundations.Sets]
R:523 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
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R:526 [binder, in UniMath.Foundations.Sets]
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R:557 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
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R:561 [binder, in UniMath.Foundations.Sets]
R:564 [binder, in UniMath.Foundations.Sets]
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R:575 [binder, in UniMath.Foundations.Sets]
r:58 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
R:58 [binder, in UniMath.Algebra.Matrix]
R:58 [binder, in UniMath.Algebra.Modules.Submodule]
R:580 [binder, in UniMath.Foundations.Sets]
r:583 [binder, in UniMath.Foundations.Sets]
R:585 [binder, in UniMath.Foundations.Sets]
R:586 [binder, in UniMath.Algebra.RigsAndRings]
R:588 [binder, in UniMath.Algebra.RigsAndRings]
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R:595 [binder, in UniMath.Foundations.Sets]
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R:61 [binder, in UniMath.Algebra.Modules.Core]
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r:615 [binder, in UniMath.MoreFoundations.PathsOver]
r:62 [binder, in UniMath.Combinatorics.ZFstructures]
R:62 [binder, in UniMath.Algebra.Archimedean]
R:62 [binder, in UniMath.Algebra.Modules.Submodule]
r:624 [binder, in UniMath.MoreFoundations.PathsOver]
r:625 [binder, in UniMath.MoreFoundations.PathsOver]
r:63 [binder, in UniMath.Algebra.Modules.Core]
r:63 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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R:64 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
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R:65 [binder, in UniMath.AlgebraicGeometry.Spec]
R:659 [binder, in UniMath.CategoryTheory.LocalizingClass]
R:66 [binder, in UniMath.Algebra.Modules.Submodule]
r:66 [binder, in UniMath.Algebra.Modules.Examples]
r:666 [binder, in UniMath.MoreFoundations.PathsOver]
R:67 [binder, in UniMath.Algebra.Matrix]
R:671 [binder, in UniMath.Algebra.RigsAndRings]
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R:699 [binder, in UniMath.Algebra.RigsAndRings]
R:7 [binder, in UniMath.Ktheory.GrothendieckGroup]
r:7 [binder, in UniMath.RealNumbers.DecidableDedekindCuts]
R:7 [binder, in UniMath.Algebra.Modules.Submodule]
R:7 [binder, in UniMath.Algebra.ConstructiveStructures]
R:7 [binder, in UniMath.Algebra.Modules.Examples]
R:7 [binder, in UniMath.CategoryTheory.Subcategory.Reflective]
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R:702 [binder, in UniMath.Foundations.Sets]
R:708 [binder, in UniMath.Foundations.Sets]
R:71 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
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R:71 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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R:714 [binder, in UniMath.Foundations.Sets]
r:718 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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R:74 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
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r:744 [binder, in UniMath.MoreFoundations.PathsOver]
r:747 [binder, in UniMath.MoreFoundations.PartA]
r:75 [binder, in UniMath.Algebra.Modules.Core]
R:75 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
r:75 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
R:75 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
R:75 [binder, in UniMath.Algebra.Modules.Submodule]
R:75 [binder, in UniMath.AlgebraicGeometry.Spec]
r:754 [binder, in UniMath.MoreFoundations.PartA]
R:76 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
r:763 [binder, in UniMath.MoreFoundations.PartA]
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r:771 [binder, in UniMath.MoreFoundations.PartA]
R:772 [binder, in UniMath.Algebra.RigsAndRings]
r:772 [binder, in UniMath.MoreFoundations.PartA]
r:779 [binder, in UniMath.MoreFoundations.PartA]
r:78 [binder, in UniMath.Algebra.Modules.Core]
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R:78 [binder, in UniMath.MoreFoundations.Sets]
r:78 [binder, in UniMath.RealNumbers.DedekindCuts]
r:781 [binder, in UniMath.MoreFoundations.PartA]
R:784 [binder, in UniMath.Foundations.Sets]
R:787 [binder, in UniMath.Foundations.Sets]
r:79 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
r:79 [binder, in UniMath.Algebra.Modules.Core]
R:79 [binder, in UniMath.Algebra.Modules.Submodule]
r:79 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
R:791 [binder, in UniMath.Foundations.Sets]
r:794 [binder, in UniMath.MoreFoundations.PartA]
R:794 [binder, in UniMath.Foundations.Sets]
R:796 [binder, in UniMath.Foundations.Sets]
R:798 [binder, in UniMath.Foundations.Sets]
R:8 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
r:8 [binder, in UniMath.Algebra.RigsAndRings.Ideals]
R:8 [binder, in UniMath.Combinatorics.OrderedSets]
R:8 [binder, in UniMath.Algebra.Lattice]
R:8 [binder, in UniMath.Combinatorics.Equivalence_Relations]
R:80 [binder, in UniMath.Algebra.Modules.Core]
R:80 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
R:80 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R:800 [binder, in UniMath.Foundations.Sets]
r:804 [binder, in UniMath.MoreFoundations.PartA]
R:804 [binder, in UniMath.Foundations.Sets]
r:806 [binder, in UniMath.MoreFoundations.PartA]
R:808 [binder, in UniMath.Foundations.Sets]
r:81 [binder, in UniMath.PAdics.z_mod_p]
r:810 [binder, in UniMath.MoreFoundations.PartA]
R:810 [binder, in UniMath.Foundations.Sets]
R:816 [binder, in UniMath.Foundations.Sets]
r:82 [binder, in UniMath.Algebra.Modules.Core]
R:82 [binder, in UniMath.Algebra.Groups]
R:822 [binder, in UniMath.Foundations.Sets]
R:828 [binder, in UniMath.Foundations.Sets]
R:83 [binder, in UniMath.PAdics.padics]
R:83 [binder, in UniMath.CategoryTheory.Monads.LModules]
R:835 [binder, in UniMath.Foundations.Sets]
r:84 [binder, in UniMath.RealNumbers.DedekindCuts]
R:84 [binder, in UniMath.Algebra.Archimedean]
R:84 [binder, in UniMath.Algebra.Universal.HVectors]
R:845 [binder, in UniMath.Foundations.Sets]
r:85 [binder, in UniMath.Algebra.Modules.Core]
R:85 [binder, in UniMath.Algebra.Groups]
R:85 [binder, in UniMath.Algebra.ConstructiveStructures]
r:85 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
R:851 [binder, in UniMath.Foundations.Sets]
R:86 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
r:86 [binder, in UniMath.Algebra.Modules.Core]
R:86 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
r:86 [binder, in UniMath.Algebra.Modules.Submodule]
R:87 [binder, in UniMath.Algebra.Modules.Core]
r:87 [binder, in UniMath.PAdics.z_mod_p]
r:87 [binder, in UniMath.RealNumbers.NonnegativeReals]
r:87 [binder, in UniMath.RealNumbers.NonnegativeRationals]
r:87 [binder, in UniMath.Combinatorics.StandardFiniteSets]
r:88 [binder, in UniMath.RealNumbers.NonnegativeRationals]
R:88 [binder, in UniMath.Algebra.Groups]
r:88 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
r:89 [binder, in UniMath.Algebra.Modules.Core]
r:89 [binder, in UniMath.RealNumbers.NonnegativeReals]
R:89 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R:894 [binder, in UniMath.Foundations.Sets]
R:9 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
R:9 [binder, in UniMath.Algebra.Modules.Examples]
R:90 [binder, in UniMath.Algebra.Modules.Core]
R:90 [binder, in UniMath.Algebra.Archimedean]
R:900 [binder, in UniMath.Foundations.Sets]
R:91 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
r:91 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
r:91 [binder, in UniMath.RealNumbers.NonnegativeReals]
R:914 [binder, in UniMath.Foundations.Sets]
r:92 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
r:92 [binder, in UniMath.RealNumbers.NonnegativeRationals]
R:92 [binder, in UniMath.AlgebraicGeometry.Spec]
r:93 [binder, in UniMath.Algebra.Modules.Core]
r:93 [binder, in UniMath.RealNumbers.NonnegativeReals]
r:93 [binder, in UniMath.RealNumbers.NonnegativeRationals]
R:93 [binder, in UniMath.Algebra.Groups]
R:934 [binder, in UniMath.Foundations.Sets]
r:94 [binder, in UniMath.Algebra.Modules.Core]
R:943 [binder, in UniMath.Algebra.RigsAndRings]
R:95 [binder, in UniMath.Algebra.Modules.Core]
R:950 [binder, in UniMath.Algebra.RigsAndRings]
R:957 [binder, in UniMath.Algebra.RigsAndRings]
R:96 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
R:96 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
R:96 [binder, in UniMath.Algebra.Archimedean]
r:96 [binder, in UniMath.Combinatorics.Lists]
r:97 [binder, in UniMath.Algebra.Modules.Core]
r:98 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
R:98 [binder, in UniMath.MoreFoundations.Sets]
R:98 [binder, in UniMath.Algebra.Archimedean]
R:98 [binder, in UniMath.Algebra.Groups]
R:984 [binder, in UniMath.Algebra.RigsAndRings]
R:99 [binder, in UniMath.Algebra.Modules.Core]
r₁ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
r₁ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
r₁_to_r₂ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
r₁_to_r₂ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
r₁:32 [binder, in UniMath.Bicategories.Colimits.Products]
r₁:45 [binder, in UniMath.Bicategories.Colimits.Pullback]
r₁:82 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
r₁:903 [binder, in UniMath.MoreFoundations.PartA]
r₂ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
r₂ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
r₂_to_r₁ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
r₂_to_r₁ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
r₂:33 [binder, in UniMath.Bicategories.Colimits.Products]
r₂:46 [binder, in UniMath.Bicategories.Colimits.Pullback]
r₂:83 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
r₂:904 [binder, in UniMath.MoreFoundations.PartA]
r₃:34 [binder, in UniMath.Bicategories.Colimits.Products]
r₃:47 [binder, in UniMath.Bicategories.Colimits.Pullback]

S

S [definition, in UniMath.Induction.ImpredicativeInductiveSets]
S [constructor, in UniMath.Foundations.Preamble]
s [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
samehfibers [lemma, in UniMath.Foundations.PartB]
same_fiber_eqrel [definition, in UniMath.MoreFoundations.Sets]
same_sort_LHS_RHS [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
same_induced_ordering [definition, in UniMath.Combinatorics.WellOrderedSets]
same_tensor_data [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
same_precategory_data [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Sanity [section, in UniMath.CategoryTheory.ExactCategories.Tests]
sanity_check [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
Sanity2 [section, in UniMath.CategoryTheory.ExactCategories.Tests]
Schain:329 [binder, in UniMath.Combinatorics.WellOrderedSets]
Schain:333 [binder, in UniMath.Combinatorics.WellOrderedSets]
Schain:347 [binder, in UniMath.Combinatorics.WellOrderedSets]
Schain:361 [binder, in UniMath.Combinatorics.WellOrderedSets]
Schain:365 [binder, in UniMath.Combinatorics.WellOrderedSets]
scomp [definition, in UniMath.Algebra.Universal.SortedTypes]
sd:19 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
sd:36 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
sd:800 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
sd:805 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
sd:808 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
sd:811 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
sec [definition, in UniMath.SyntheticHomotopyTheory.Circle]
second_iso_on_functors [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
second_iso_nat_in_F [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
second_iso_nat_in_x [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
second_iso_on_sets [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
second_hexagon_eq [definition, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
secovercoprodtoprod [definition, in UniMath.Foundations.PartD]
section [definition, in UniMath.AlgebraicGeometry.Spec]
section [section, in UniMath.AlgebraicGeometry.Spec]
Sections [section, in UniMath.CategoryTheory.DisplayedCats.Core]
SectionsAndRetractions [section, in UniMath.CategoryTheory.Core.Categories]
# _ (mor_disp_scope) [notation, in UniMath.CategoryTheory.DisplayedCats.Core]
section_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
section_functor_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
section_functor_data [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_id [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_data_from_section_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_on_morphisms [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_on_objects [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_data [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
section_functor_pair [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
_ ⊠⊠' _ [notation, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
_ ⊠' _ [notation, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
section_tensor [section, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
section_to_nat_trafo_bicat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
section_to_nat_trafo [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
section_from_diagonal [definition, in UniMath.CategoryTheory.limits.pullbacks]
section_intersection [lemma, in UniMath.AlgebraicGeometry.Spec]
section_subset [lemma, in UniMath.AlgebraicGeometry.Spec]
section_commring [definition, in UniMath.AlgebraicGeometry.Spec]
section_unel2 [definition, in UniMath.AlgebraicGeometry.Spec]
section_op2 [definition, in UniMath.AlgebraicGeometry.Spec]
section_inv [definition, in UniMath.AlgebraicGeometry.Spec]
section_unel1 [definition, in UniMath.AlgebraicGeometry.Spec]
section_op1 [definition, in UniMath.AlgebraicGeometry.Spec]
section_hset [definition, in UniMath.AlgebraicGeometry.Spec]
section_commring [section, in UniMath.AlgebraicGeometry.Spec]
section_prop [definition, in UniMath.AlgebraicGeometry.Spec]
section_map [definition, in UniMath.AlgebraicGeometry.Spec]
sectohfiber [definition, in UniMath.Foundations.UnivalenceAxiom]
sectohfibertosec [definition, in UniMath.Foundations.UnivalenceAxiom]
sec_total2_distributivity [lemma, in UniMath.MoreFoundations.WeakEquivalences]
sec_fromempty [lemma, in UniMath.Induction.W.Naturals]
sec:116 [binder, in UniMath.MoreFoundations.MoreEquivalences]
sec:129 [binder, in UniMath.MoreFoundations.MoreEquivalences]
sec:142 [binder, in UniMath.MoreFoundations.MoreEquivalences]
sec:169 [binder, in UniMath.MoreFoundations.MoreEquivalences]
sec:87 [binder, in UniMath.MoreFoundations.MoreEquivalences]
sec:97 [binder, in UniMath.MoreFoundations.MoreEquivalences]
selfedge [definition, in UniMath.Combinatorics.ZFstructures]
seqson [definition, in UniMath.PAdics.fps]
seqsonisaset [lemma, in UniMath.PAdics.fps]
Sequence [definition, in UniMath.Combinatorics.FiniteSequences]
SequenceAssembly [lemma, in UniMath.Combinatorics.FiniteSequences]
sequenceEquality2 [definition, in UniMath.Combinatorics.FiniteSequences]
sequenceToFunction [definition, in UniMath.Combinatorics.FiniteSequences]
sequenceToUnorderedSequence [definition, in UniMath.Combinatorics.FiniteSequences]
Sequence_rect_compute_cons [lemma, in UniMath.Combinatorics.FiniteSequences]
Sequence_rect_compute_nil [lemma, in UniMath.Combinatorics.FiniteSequences]
Sequence_rect [definition, in UniMath.Combinatorics.FiniteSequences]
seq_key_eq_lemma' [definition, in UniMath.Combinatorics.FiniteSequences]
seq_key_eq_lemma [definition, in UniMath.Combinatorics.FiniteSequences]
Setcategories [library]
setcategory [definition, in UniMath.CategoryTheory.Core.Setcategories]
setcategory_eq_morphism_pi [lemma, in UniMath.CategoryTheory.Core.Setcategories]
setcategory_objects_set [definition, in UniMath.CategoryTheory.Core.Setcategories]
setcategory_total_morphisms_set [definition, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
setcoprod [definition, in UniMath.MoreFoundations.Sets]
setcoprod [definition, in UniMath.Foundations.Sets]
SetCovering [lemma, in UniMath.MoreFoundations.AxiomOfChoice]
setdirprod [definition, in UniMath.Foundations.Sets]
setofendabgr [definition, in UniMath.Algebra.Modules.Core]
setofendabgr_un1 [definition, in UniMath.Algebra.Modules.Core]
setofendabgr_inv [definition, in UniMath.Algebra.Modules.Core]
setofendabgr_un0 [lemma, in UniMath.Algebra.Modules.Core]
setofendabgr_to_unel [definition, in UniMath.Algebra.Modules.Core]
setofendabgr_to_isbinopfun [definition, in UniMath.Algebra.Modules.Core]
setproperty [definition, in UniMath.Foundations.Sets]
setquot [section, in UniMath.Ktheory.GrothendieckGroup]
setquot [definition, in UniMath.Foundations.Sets]
setquotbooleq [definition, in UniMath.Foundations.Sets]
setquotbooleqint [definition, in UniMath.Foundations.Sets]
setquotbooleqintcomp [lemma, in UniMath.Foundations.Sets]
setquotbooleqtopaths [lemma, in UniMath.Foundations.Sets]
setquotfun [definition, in UniMath.Foundations.Sets]
setquotfuncomm [definition, in UniMath.Foundations.Sets]
setquotfun2 [definition, in UniMath.Foundations.Sets]
setquotfun2comm [lemma, in UniMath.Foundations.Sets]
setquotfun2_equal [lemma, in UniMath.MoreFoundations.QuotientSet]
setquotfun2_iscomprelfun2 [lemma, in UniMath.Foundations.Sets]
setquotfun2' [definition, in UniMath.MoreFoundations.QuotientSet]
setquotincl [definition, in UniMath.Foundations.Sets]
setquotinset [definition, in UniMath.Foundations.Sets]
setquotl0 [lemma, in UniMath.Foundations.Sets]
setquotpathstobooleq [lemma, in UniMath.Foundations.Sets]
setquotpr [lemma, in UniMath.Foundations.Sets]
setquotprandpadicplus [lemma, in UniMath.PAdics.padics]
setquotprandpadictimes [lemma, in UniMath.PAdics.padics]
setquotprpathsandR [lemma, in UniMath.PAdics.lemmas]
setquotpr_linear [lemma, in UniMath.CategoryTheory.PreAdditive]
setquottodirprod [definition, in UniMath.Foundations.Sets]
setquottosetquot2 [definition, in UniMath.Foundations.Sets]
setquotuniv [lemma, in UniMath.Foundations.Sets]
setquotunivcomm [lemma, in UniMath.Foundations.Sets]
setquotunivprop [lemma, in UniMath.Foundations.Sets]
setquotunivprop' [lemma, in UniMath.MoreFoundations.Sets]
setquotuniv_equal [lemma, in UniMath.MoreFoundations.QuotientSet]
setquotuniv2 [definition, in UniMath.Foundations.Sets]
setquotuniv2comm [lemma, in UniMath.Foundations.Sets]
setquotuniv2prop [lemma, in UniMath.Foundations.Sets]
setquotuniv2prop' [lemma, in UniMath.MoreFoundations.Sets]
setquotuniv2_iscomprelfun [lemma, in UniMath.Foundations.Sets]
setquotuniv2' [definition, in UniMath.MoreFoundations.QuotientSet]
setquotuniv3prop [lemma, in UniMath.Foundations.Sets]
setquotuniv3prop' [lemma, in UniMath.MoreFoundations.Sets]
setquotuniv4prop [lemma, in UniMath.Foundations.Sets]
setquotuniv4prop' [lemma, in UniMath.MoreFoundations.Sets]
setquot_aux [definition, in UniMath.Algebra.Archimedean]
setquot_universal_property [definition, in UniMath.Ktheory.GrothendieckGroup]
setquot_map_recovery [lemma, in UniMath.Ktheory.GrothendieckGroup]
setquot_map_epi [lemma, in UniMath.Ktheory.GrothendieckGroup]
setquot2 [definition, in UniMath.Foundations.Sets]
setquot2inset [definition, in UniMath.Foundations.Sets]
setquot2pr [definition, in UniMath.Foundations.Sets]
setquot2univ [definition, in UniMath.Foundations.Sets]
setquot2univcomm [lemma, in UniMath.Foundations.Sets]
Sets [library]
Sets [library]
Sets [library]
sets:24 [binder, in UniMath.CategoryTheory.coslicecat]
sets:26 [binder, in UniMath.CategoryTheory.coslicecat]
SetValuedFunctors [library]
setwithbinop [definition, in UniMath.Algebra.BinaryOperations]
setwithbinopdirprod [definition, in UniMath.Algebra.BinaryOperations]
setwithbinopquot [definition, in UniMath.Algebra.BinaryOperations]
setwithbinop_univalence [definition, in UniMath.Algebra.BinaryOperations]
setwithbinop_univalence_isweq [lemma, in UniMath.Algebra.BinaryOperations]
setwithbinop_univalence_map [definition, in UniMath.Algebra.BinaryOperations]
setwithbinop_univalence_weq2 [definition, in UniMath.Algebra.BinaryOperations]
setwithbinop_univalence_weq1 [definition, in UniMath.Algebra.BinaryOperations]
setwithbinop_rev [definition, in UniMath.Algebra.BinaryOperations]
setwithbinop1 [definition, in UniMath.Algebra.BinaryOperations]
setwithbinop2 [definition, in UniMath.Algebra.BinaryOperations]
setwith2binop [definition, in UniMath.Algebra.BinaryOperations]
setwith2binopdirprod [definition, in UniMath.Algebra.BinaryOperations]
setwith2binopofendabgr [definition, in UniMath.Algebra.Modules.Core]
setwith2binopquot [definition, in UniMath.Algebra.BinaryOperations]
setwith2binops [library]
setwith2binop_univalent_category [definition, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_precategory_is_univalent [definition, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_category [definition, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_precategory_isweq [definition, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_equiv_weq_iso [definition, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_equiv_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_iso_equiv_weq [definition, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_iso_equiv_is_equiv [lemma, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_equiv_iso [lemma, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_equiv_is_iso [lemma, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_iso_equiv [lemma, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_iso_is_equiv [lemma, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_precategory [definition, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_assoc [lemma, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_id_right [lemma, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_id_left [lemma, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_precategory_data [definition, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_fun_space [definition, in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_univalence [definition, in UniMath.Algebra.BinaryOperations]
setwith2binop_univalence_isweq [lemma, in UniMath.Algebra.BinaryOperations]
setwith2binop_univalence_map [definition, in UniMath.Algebra.BinaryOperations]
setwith2binop_univalence_weq2 [definition, in UniMath.Algebra.BinaryOperations]
setwith2binop_univalence_weq1 [definition, in UniMath.Algebra.BinaryOperations]
set_iso:63 [binder, in UniMath.CategoryTheory.Presheaf]
set_iso:53 [binder, in UniMath.CategoryTheory.Presheaf]
set_bijection_to_weq [lemma, in UniMath.Foundations.PartB]
set_slicecat.products_set_slice [section, in UniMath.CategoryTheory.categories.HSET.Slice]
_ / _ [notation, in UniMath.CategoryTheory.categories.HSET.Slice]
set_slicecat [section, in UniMath.CategoryTheory.categories.HSET.Slice]
set_slice_fam_equiv [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
set_slice_fam_equiv.X [variable, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
set_slice_fam_equiv [section, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
SE:153 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SE:155 [binder, in UniMath.CategoryTheory.ShortExactSequences]
se:19 [binder, in UniMath.Foundations.UnivalenceAxiom]
SE:96 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SE:97 [binder, in UniMath.CategoryTheory.ShortExactSequences]
sfun [definition, in UniMath.Algebra.Universal.SortedTypes]
sheaf_commring_gluing [definition, in UniMath.AlgebraicGeometry.SheavesOfRings]
sheaf_commring_locality [definition, in UniMath.AlgebraicGeometry.SheavesOfRings]
sheaf_commring_functor [definition, in UniMath.AlgebraicGeometry.SheavesOfRings]
sheaf_commring [definition, in UniMath.AlgebraicGeometry.SheavesOfRings]
sheaf_commring [section, in UniMath.AlgebraicGeometry.SheavesOfRings]
sheaf_commring_prop [section, in UniMath.AlgebraicGeometry.SheavesOfRings]
SheavesOfRings [library]
shiftCocone [definition, in UniMath.CategoryTheory.Chains.Adamek]
shiftColimCocone [definition, in UniMath.CategoryTheory.Chains.Adamek]
shifted_limit [definition, in UniMath.Induction.M.Chains]
shiftIsColimCocone [definition, in UniMath.CategoryTheory.Chains.Adamek]
shift_cochain [definition, in UniMath.Induction.M.Chains]
shift_chain [definition, in UniMath.Induction.M.Chains]
ShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
ShortExactDiffsEq1 [lemma, in UniMath.CategoryTheory.FiveLemma]
ShortExactDiffsEq2 [lemma, in UniMath.CategoryTheory.FiveLemma]
ShortExactDiffs1 [definition, in UniMath.CategoryTheory.FiveLemma]
ShortExactDiffs2 [definition, in UniMath.CategoryTheory.FiveLemma]
ShortExactExacts1 [lemma, in UniMath.CategoryTheory.FiveLemma]
ShortExactExacts2 [lemma, in UniMath.CategoryTheory.FiveLemma]
ShortExactFiveLemma [lemma, in UniMath.CategoryTheory.FiveLemma]
ShortExactMor [definition, in UniMath.CategoryTheory.FiveLemma]
ShortExactMorComm [lemma, in UniMath.CategoryTheory.FiveLemma]
ShortExactMors [definition, in UniMath.CategoryTheory.FiveLemma]
ShortExactObs1 [definition, in UniMath.CategoryTheory.FiveLemma]
ShortExactObs2 [definition, in UniMath.CategoryTheory.FiveLemma]
ShortExactRow1 [definition, in UniMath.CategoryTheory.FiveLemma]
ShortExactRow2 [definition, in UniMath.CategoryTheory.FiveLemma]
ShortExactSequence [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ShortExactSequenceMap [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ShortExactSequences [library]
ShortExactSequenceToMorphismPair [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ShortExact_from_ShortShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
ShortExact_ShortShortExact_isKernel [lemma, in UniMath.CategoryTheory.ShortExactSequences]
ShortExact_ShortShortExact_isKernel_Eq [lemma, in UniMath.CategoryTheory.ShortExactSequences]
ShortExact_from_ShortShortExact_eq [lemma, in UniMath.CategoryTheory.ShortExactSequences]
shortexact_correspondence.A [variable, in UniMath.CategoryTheory.ShortExactSequences]
shortexact_correspondence [section, in UniMath.CategoryTheory.ShortExactSequences]
ShortExact_opp [definition, in UniMath.CategoryTheory.ShortExactSequences]
shortexact_opp [section, in UniMath.CategoryTheory.ShortExactSequences]
ShortExact_RightShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
ShortExact_LeftShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExactData [definition, in UniMath.CategoryTheory.Morphisms]
ShortShortExactData_to_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExactData_Eq_to_object [lemma, in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExactData_from_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExactData_Eq_from_object [lemma, in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExactData_opp [definition, in UniMath.CategoryTheory.Morphisms]
ShortShortExactData_opp_Eq [lemma, in UniMath.CategoryTheory.Morphisms]
shortshortexactdata_opp [section, in UniMath.CategoryTheory.Morphisms]
ShortShortExactData_Eq [definition, in UniMath.CategoryTheory.Morphisms]
ShortShortExactData_MorphismPair [definition, in UniMath.CategoryTheory.Morphisms]
ShortShortExact_to_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExact_isKernel_to_object [lemma, in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExact_from_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExact_isKernel_from_object [lemma, in UniMath.HomologicalAlgebra.Triangulated]
shortshortexact_iskernel_iscokernel.A [variable, in UniMath.CategoryTheory.ShortExactSequences]
shortshortexact_iskernel_iscokernel [section, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isShortExact [definition, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isShortExact_isKernel [lemma, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isShortExact_isKernel_eq [lemma, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isSortExact_eq [lemma, in UniMath.CategoryTheory.ShortExactSequences]
shortshortexact_to_leftshortexact.A [variable, in UniMath.CategoryTheory.ShortExactSequences]
shortshortexact_to_leftshortexact [section, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_opp [definition, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isCokernel [definition, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isCokernel_isKernel [lemma, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isCokernel_eq2 [lemma, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isCokernel_eq1 [lemma, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_Cokernel [definition, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_isCokernel [lemma, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_isCokernel_eq2 [lemma, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_isCokernel_eq1 [lemma, in UniMath.CategoryTheory.ShortExactSequences]
shortshortexact_cokernel.hs [variable, in UniMath.CategoryTheory.ShortExactSequences]
shortshortexact_cokernel.A [variable, in UniMath.CategoryTheory.ShortExactSequences]
shortshortexact_cokernel [section, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_Kernel [definition, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_isKernel [definition, in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_ShortShortExactData [definition, in UniMath.CategoryTheory.ShortExactSequences]
short_exact_five_lemma [section, in UniMath.CategoryTheory.FiveLemma]
short_short_exact_sequences [section, in UniMath.HomologicalAlgebra.Triangulated]
shSet [definition, in UniMath.Algebra.Universal.SortedTypes]
shSet_eq_from_shSet_iso_idtoiso [lemma, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
shSet_eq_from_shSet_iso [definition, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
shSet_iso_fiber [lemma, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
shSet_category [definition, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
shSet_precategory [definition, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
shSet_precategory_data [definition, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
shSet_precategory_ob_mor [definition, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
si [definition, in UniMath.Foundations.NaturalNumbers]
sieve [definition, in UniMath.CategoryTheory.GrothendieckTopos]
sieve [definition, in UniMath.CategoryTheory.Presheaf]
sieve_nat_trans [definition, in UniMath.CategoryTheory.GrothendieckTopos]
sieve_functor [definition, in UniMath.CategoryTheory.GrothendieckTopos]
sieve_mor [definition, in UniMath.CategoryTheory.Presheaf]
sieve_bounded_lattice [definition, in UniMath.CategoryTheory.Presheaf]
sieve_lattice [definition, in UniMath.CategoryTheory.Presheaf]
sieve_eq [lemma, in UniMath.CategoryTheory.Presheaf]
sieve_def [definition, in UniMath.CategoryTheory.Presheaf]
Sigma [section, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
Sigma [section, in UniMath.CategoryTheory.DisplayedCats.Constructions]
Sigma [library]
SigmaDisplayedUnivalent [section, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaDisplayedUnivalent.HC [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaDisplayedUnivalent.HD₁ [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaDisplayedUnivalent.HD₁_2_1 [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaDisplayedUnivalent.HD₂ [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaDisplayedUnivalent.HD₂_2_1 [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaDisplayedUnivalent.LG₁ [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaDisplayedUnivalent.LG₂ [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigmapr1_disp_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigmapr1_disp_functor_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigmapr1_disp_functor_data [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
SigmaSig [definition, in UniMath.SubstitutionSystems.MLTT79]
SigmaTotalUnivalent [section, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_univalent_2_with_props [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_univalent_2_0_with_props [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_idtoiso_2_0_alt [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_univalent_2_1_with_props [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_invertible_to_pair_disp_invertible [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_is_univalent_2 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_is_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_is_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_prebicat_laws [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_bicat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_cat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_cat_id_comp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_cat_ob_mor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_isweq_iso [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigma_disp_iso_map [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigma_disp_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigma_disp_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigma_disp_cat_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigma_disp_cat_data [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigma_disp_cat_id_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigma_disp_cat_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Constructions]
Sigma.C [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
Sigma.D [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
Sigma.E [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
Signature [definition, in UniMath.SubstitutionSystems.Signatures]
Signature [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
signature [definition, in UniMath.Algebra.Universal.Signatures]
SignatureCategory [section, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory [library]
SignatureCategoryToActionBasedStrongFunctorCategory [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
SignatureCategoryToActionBasedStrongFunctorCategory_is_functor [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
SignatureCategoryToActionBasedStrongFunctorCategory_data [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
SignatureCategory.C [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.D [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.D' [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram.g2 [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram.g1 [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram.f2 [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram.f1 [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram.Y [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram.X [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram [section, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.α [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.θ' [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.θ [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.H' [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.H [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Ht' [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Ht [variable, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor [section, in UniMath.SubstitutionSystems.SignatureCategory]
Ptd [notation, in UniMath.SubstitutionSystems.SignatureCategory]
U [notation, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureExamples [library]
SignatureForgetfulFunctor [definition, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureForgetfulFunctorFaithful [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureInitialAlgebra [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
SignatureInitialAlgebra [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
SignatureInitialAlgebraHSET [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
SignatureInitialAlgebraSetSort [definition, in UniMath.SubstitutionSystems.MultiSorted]
SignatureLiftModule [section, in UniMath.SubstitutionSystems.ModulesFromSignatures]
SignatureLiftModule.M [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
SignatureLiftModule.strength_law1_pw [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
SignatureLiftModule.T [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
SignatureLiftModule.T2 [variable, in UniMath.SubstitutionSystems.ModulesFromSignatures]
EndC [notation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
Ptd [notation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
p _ [notation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
U [notation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
SignatureMor [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
SignatureMor [definition, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureMor_eq [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureMor_to_nat_trans [definition, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureMor_ok [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureMor_comp_subproof [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
SignatureMor_id_subproof [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
Signatures [library]
Signatures [library]
SignatureToHSS [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
SignatureToHSSisInitial [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
signature_from_rel_strength [definition, in UniMath.SubstitutionSystems.Signatures]
signature_from_rel_strength_laws [lemma, in UniMath.SubstitutionSystems.Signatures]
Signature_Functor [definition, in UniMath.SubstitutionSystems.Signatures]
signature_of_eqspec [definition, in UniMath.Algebra.Universal.Equations]
signature_simple_single_sorted_compile [definition, in UniMath.Algebra.Universal.Signatures]
signature_simple_single_sorted [definition, in UniMath.Algebra.Universal.Signatures]
signature_simple_compile [definition, in UniMath.Algebra.Universal.Signatures]
signature_simple [definition, in UniMath.Algebra.Universal.Signatures]
Signature_category_is_univalent [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
signature_mor_from_ab_strength_mor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
signature_mor_from_ab_strength_mor_diagram [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
signature_from_strong_functor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
signature_from_ab_strength [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
signature_from_ab_strength_law2 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
signature_from_ab_strength_law1 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Signature_category_in [definition, in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_in_diagram [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_pr2 [definition, in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_pr2_diagram [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_pr1 [definition, in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_pr1_diagram [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_Hstandard [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_Pisset [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_ob_ok [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category [definition, in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_displayed [definition, in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_mor_diagram_pointwise [lemma, in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_mor_diagram [definition, in UniMath.SubstitutionSystems.SignatureCategory]
Sig_strength_law2 [definition, in UniMath.SubstitutionSystems.Signatures]
Sig_strength_law1 [definition, in UniMath.SubstitutionSystems.Signatures]
Sig_hat_exp_functor_list [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
Sig_exp_functor_list [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
Sig_exp_functor [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
Sig_hat_exp_functor_list [definition, in UniMath.SubstitutionSystems.MultiSorted]
Sig_exp_functor_list [definition, in UniMath.SubstitutionSystems.MultiSorted]
Sig_exp_functor [definition, in UniMath.SubstitutionSystems.MultiSorted]
sig1:53 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
sig2:54 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
sig:145 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
sig:15 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
sig:153 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
sig:166 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
sig:33 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
sig:39 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
sig:50 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
sig:51 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
sig:57 [binder, in UniMath.SubstitutionSystems.MultiSorted]
sig:58 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
sig:58 [binder, in UniMath.SubstitutionSystems.MultiSorted]
sig:59 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
sig:59 [binder, in UniMath.SubstitutionSystems.MultiSorted]
sig:63 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
sig:64 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
sig:65 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
sig:70 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
sig:72 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
sig:73 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
sig:76 [binder, in UniMath.SubstitutionSystems.Signatures]
simple_t [definition, in UniMath.Algebra.Universal.Examples.Tests]
SimplicialSets [library]
simplified_cone [definition, in UniMath.Induction.M.Chains]
simplify_cochain_cone [lemma, in UniMath.Induction.M.Chains]
simplify_cochain_step_idpath [lemma, in UniMath.Induction.M.Limits]
simplify_cochain_step [lemma, in UniMath.Induction.M.Limits]
singleton [definition, in UniMath.CategoryTheory.categories.monoids]
singletonSequence [definition, in UniMath.Topology.Prelim]
SIP [definition, in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP [section, in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP [library]
SIP.C [variable, in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.H [variable, in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.Hcomp [variable, in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.Hid [variable, in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.Hisprop [variable, in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.Hstandard [variable, in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.P [variable, in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.Pisset [variable, in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.univC [variable, in UniMath.CategoryTheory.DisplayedCats.SIP]
six_rec [definition, in UniMath.SubstitutionSystems.CCS_alt]
six_rec [definition, in UniMath.SubstitutionSystems.PCF_alt]
six_rec [definition, in UniMath.SubstitutionSystems.CCS]
size [definition, in UniMath.CategoryTheory.Inductives.Trees]
size_map [lemma, in UniMath.CategoryTheory.Inductives.Trees]
size_node [lemma, in UniMath.CategoryTheory.Inductives.Trees]
skewMonoid [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
SkewMonoidalCategories [library]
skewmonoidal_pentagon_eq [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_rho_alpha_eq [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_alpha_lambda_eq [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_triangle_eq [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_rho_lambda_eq [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_category [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_assoc_ax [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_assoc [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_assoc_nt [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_unitr_ax [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_unitr [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_unitr_nt [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_unitl_ax [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_unitl [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_unitl_nt [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_I [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_tensor [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_data [definition, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewMonoid_Mor_equiv [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_composition [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_composition_laws [lemma, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_identity [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_identity_laws [lemma, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_Mor_μ [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_Mor_η [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_Mor [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_Mor_laws [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_unitr [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_unitl [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_pentagon [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_to_data [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_laws [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_data [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
slice [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
Slice [library]
slicecat [library]
_ / _ [notation, in UniMath.CategoryTheory.slicecat]
slicecat_terminal [section, in UniMath.CategoryTheory.slicecat]
_ / _ [notation, in UniMath.CategoryTheory.slicecat]
slicecat_initial [section, in UniMath.CategoryTheory.slicecat]
_ / _ [notation, in UniMath.CategoryTheory.slicecat]
slicecat_coproducts [section, in UniMath.CategoryTheory.slicecat]
_ / _ [notation, in UniMath.CategoryTheory.slicecat]
slicecat_bincoproducts [section, in UniMath.CategoryTheory.slicecat]
_ / _ [notation, in UniMath.CategoryTheory.slicecat]
slicecat_binproducts [section, in UniMath.CategoryTheory.slicecat]
slicecat_colimits.U [variable, in UniMath.CategoryTheory.slicecat]
_ / _ [notation, in UniMath.CategoryTheory.slicecat]
slicecat_colimits [section, in UniMath.CategoryTheory.slicecat]
slicecat_functor_comp [lemma, in UniMath.CategoryTheory.slicecat]
slicecat_functor_comp_ob [lemma, in UniMath.CategoryTheory.slicecat]
slicecat_functor_identity [lemma, in UniMath.CategoryTheory.slicecat]
slicecat_functor_identity_ob [lemma, in UniMath.CategoryTheory.slicecat]
_ / _ [notation, in UniMath.CategoryTheory.slicecat]
slicecat_functor_theory [section, in UniMath.CategoryTheory.slicecat]
slicecat_functor [definition, in UniMath.CategoryTheory.slicecat]
slicecat_functor_data [definition, in UniMath.CategoryTheory.slicecat]
slicecat_functor_subproof [lemma, in UniMath.CategoryTheory.slicecat]
slicecat_functor_ob [definition, in UniMath.CategoryTheory.slicecat]
_ / _ [notation, in UniMath.CategoryTheory.slicecat]
slicecat_functor_def [section, in UniMath.CategoryTheory.slicecat]
_ / _ [notation, in UniMath.CategoryTheory.slicecat]
slicecat_theory [section, in UniMath.CategoryTheory.slicecat]
slicecat_to_cat [definition, in UniMath.CategoryTheory.slicecat]
slicecat_mor_comm [definition, in UniMath.CategoryTheory.slicecat]
slicecat_mor_morphism [definition, in UniMath.CategoryTheory.slicecat]
slicecat_ob_morphism [definition, in UniMath.CategoryTheory.slicecat]
slicecat_ob_object [definition, in UniMath.CategoryTheory.slicecat]
slicecat_mor [definition, in UniMath.CategoryTheory.slicecat]
slicecat_ob [definition, in UniMath.CategoryTheory.slicecat]
SliceFamEquiv [library]
slice_binprod_to_pullback [definition, in UniMath.CategoryTheory.slicecat]
slice_precat_colims [lemma, in UniMath.CategoryTheory.slicecat]
slice_precat_colims_of_shape [lemma, in UniMath.CategoryTheory.slicecat]
slice_precat_ColimCocone [lemma, in UniMath.CategoryTheory.slicecat]
slice_precat_isColimCocone [lemma, in UniMath.CategoryTheory.slicecat]
slice_precat_iso_to_iso [lemma, in UniMath.CategoryTheory.slicecat]
_ / _ [notation, in UniMath.CategoryTheory.slicecat]
slice_precat_theory [section, in UniMath.CategoryTheory.slicecat]
slice_cat [definition, in UniMath.CategoryTheory.slicecat]
slice_precat [definition, in UniMath.CategoryTheory.slicecat]
slice_precat_data [definition, in UniMath.CategoryTheory.slicecat]
slice_precat_ob_mor [definition, in UniMath.CategoryTheory.slicecat]
slice_precat_def [section, in UniMath.CategoryTheory.slicecat]
slice_binprod_to_pullback_inv [lemma, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
slice_isBinProduct_to_isPullback [lemma, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
slice_unit [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_all_iso [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_counit [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_counit_fun [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_is_funct [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_data [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_mor [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob_is_nat [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob_nat [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob_is_funct [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob_funct_data [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob_mor [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob_ob [definition, in UniMath.CategoryTheory.elems_slice_equiv]
slice_fam_form_adj [lemma, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_unit [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_all_iso [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_counit [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_counit_fun [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_to_fam [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_to_fam_data [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_to_fam_mor [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_to_fam_mor_fun [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_to_fam_fun [definition, in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
smaller [definition, in UniMath.Combinatorics.BoundedSearch]
smaller_S [definition, in UniMath.Combinatorics.BoundedSearch]
smallestUniqueness [lemma, in UniMath.Combinatorics.OrderedSets]
smf_from_param_distr [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_parts [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong2 [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong2_inv_ok [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong2_inv [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong2_aux [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong1 [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong1_inv_ok [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong1_inv [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong1_aux [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smF:29 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
smF:3 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
smF:30 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
smF:31 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
smF:32 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
smF:33 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
smF:34 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
smF:35 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
smF:39 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
smul:3 [binder, in UniMath.Algebra.Modules.Submodule]
sm_mult [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
sm_unit [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
sm_ob [definition, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
sni [definition, in UniMath.Combinatorics.StandardFiniteSets]
Sn:12 [binder, in UniMath.CategoryTheory.Chains.Adamek]
someseq [definition, in UniMath.Combinatorics.Tests]
_ ∘ _ [notation, in UniMath.Folds.folds_precat]
some_lemmas_about_folds_precats.C [variable, in UniMath.Folds.folds_precat]
some_lemmas_about_folds_precats [section, in UniMath.Folds.folds_precat]
Some_sorted_option_functor [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
some_binprod [definition, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
some_pullback [definition, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
SOM:100 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:108 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:116 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:124 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:137 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:14 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:145 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:153 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:164 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:17 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:174 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:184 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:194 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:204 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:215 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:225 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:235 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:245 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:255 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:26 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:272 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:282 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:292 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:293 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:295 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:297 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:35 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:43 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:5 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:51 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:59 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:67 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:75 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:84 [binder, in UniMath.CategoryTheory.LocalizingClass]
SOM:92 [binder, in UniMath.CategoryTheory.LocalizingClass]
sort [definition, in UniMath.SubstitutionSystems.CCS_alt]
sort [definition, in UniMath.Algebra.Universal.Signatures]
sort [definition, in UniMath.SubstitutionSystems.CCS]
SortedTypes [section, in UniMath.Algebra.Universal.Examples.Tests]
SortedTypes [library]
sorted_option_functor [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
sorted_option_functorSet [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
sorted_option_functor [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
sorted_option_functor [definition, in UniMath.SubstitutionSystems.MultiSorted]
sorts [definition, in UniMath.Algebra.Universal.Signatures]
sortToC_fun [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
sort_in [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
sort:66 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
Source [definition, in UniMath.CategoryTheory.Morphisms]
so_pty [section, in UniMath.Algebra.Lattice]
so_pty [section, in UniMath.RealNumbers.Sets]
Spec [definition, in UniMath.AlgebraicGeometry.Spec]
spec [section, in UniMath.AlgebraicGeometry.Spec]
Spec [library]
SpecialGenMendlerIteration [definition, in UniMath.SubstitutionSystems.GenMendlerIteration]
SpecialGenMendlerIteration [definition, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
SpecializedGMIt [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
SpecializedGMIt [definition, in UniMath.SubstitutionSystems.LiftingInitial]
SpecializedGMIt_Thm15 [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
SpecializedGMIt_Thm15 [definition, in UniMath.SubstitutionSystems.LiftingInitial]
SplitEpis [section, in UniMath.CategoryTheory.SplitMonicsAndEpis]
SplitEpis_HSET [lemma, in UniMath.CategoryTheory.categories.HSET.Structures]
SplitMonic [section, in UniMath.CategoryTheory.SplitMonicsAndEpis]
SplitMonicsAndEpis [library]
SplitSequences [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SplitSequences.Foo [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
split_essentially_surjective_inv_on_obj [definition, in UniMath.CategoryTheory.Core.Functors]
split_essentially_surjective [definition, in UniMath.CategoryTheory.Core.Functors]
split_epi_to_epi [definition, in UniMath.CategoryTheory.SplitMonicsAndEpis]
split_epi_is_epi [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
split_epi [definition, in UniMath.CategoryTheory.SplitMonicsAndEpis]
split_monic_to_monic [definition, in UniMath.CategoryTheory.SplitMonicsAndEpis]
split_monic_is_monic [lemma, in UniMath.CategoryTheory.SplitMonicsAndEpis]
split_monic [definition, in UniMath.CategoryTheory.SplitMonicsAndEpis]
square_functor [definition, in UniMath.SubstitutionSystems.LamSignature]
squash_to_hSet_2' [definition, in UniMath.MoreFoundations.Sets]
squash_to_hSet_2 [definition, in UniMath.MoreFoundations.Sets]
squash_to_hSet [definition, in UniMath.MoreFoundations.Sets]
squash_to_prop [lemma, in UniMath.Foundations.Propositions]
squash_BinProducts_WOSET [definition, in UniMath.CategoryTheory.categories.wosets]
squash_map_epi [lemma, in UniMath.MoreFoundations.Propositions]
squash_map_uniqueness [lemma, in UniMath.MoreFoundations.Propositions]
squash_uniqueness [lemma, in UniMath.MoreFoundations.Propositions]
squash_rec [lemma, in UniMath.MoreFoundations.Propositions]
squash_to_hProp [lemma, in UniMath.MoreFoundations.Propositions]
squash_to_set [definition, in UniMath.Foundations.Sets]
squash_pairs_to_set [definition, in UniMath.Foundations.Sets]
squash_path [lemma, in UniMath.MoreFoundations.Notations]
squash_element [abbreviation, in UniMath.MoreFoundations.Notations]
squash_fun2 [abbreviation, in UniMath.MoreFoundations.Notations]
squash_fun [abbreviation, in UniMath.MoreFoundations.Notations]
src [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
SSED:109 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:114 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:119 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:121 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:136 [binder, in UniMath.CategoryTheory.Morphisms]
SSED:137 [binder, in UniMath.CategoryTheory.Morphisms]
SSED:140 [binder, in UniMath.CategoryTheory.Morphisms]
SSED:143 [binder, in UniMath.CategoryTheory.Morphisms]
SSED:146 [binder, in UniMath.CategoryTheory.Morphisms]
SSED:149 [binder, in UniMath.CategoryTheory.Morphisms]
SSED:15 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:16 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:174 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:2 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:204 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:213 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:217 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:219 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:223 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:31 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:76 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSED:77 [binder, in UniMath.CategoryTheory.ShortExactSequences]
sSet [definition, in UniMath.CategoryTheory.SimplicialSets]
SSE1:202 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE1:205 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE1:208 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE1:211 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE1:214 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE1:217 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE1:220 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE1:223 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE1:226 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE1:229 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE1:232 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE1:235 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE1:238 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE1:241 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:203 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:206 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:209 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:212 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:215 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:218 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:221 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:224 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:227 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:230 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:233 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:236 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:239 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE2:242 [binder, in UniMath.CategoryTheory.FiveLemma]
SSE:103 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:107 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:108 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:139 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:141 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:143 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:157 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:159 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:162 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:163 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:170 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:175 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:79 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:80 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:81 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:82 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:83 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:87 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:88 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:92 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:93 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SSE:99 [binder, in UniMath.CategoryTheory.ShortExactSequences]
SS_imp_S [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
ss':16 [binder, in UniMath.Algebra.Universal.Terms]
ss':20 [binder, in UniMath.Algebra.Universal.Terms]
ss':24 [binder, in UniMath.Algebra.Universal.Terms]
ss:15 [binder, in UniMath.Algebra.Universal.Terms]
ss:18 [binder, in UniMath.Algebra.Universal.Terms]
ss:18 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
ss:23 [binder, in UniMath.Algebra.Universal.Terms]
ss:25 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
ss:274 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ss:32 [binder, in UniMath.Algebra.Universal.Terms]
Ss:49 [binder, in UniMath.Combinatorics.WellOrderedSets]
ss:54 [binder, in UniMath.Algebra.Universal.Terms]
ss:58 [binder, in UniMath.Algebra.Universal.Terms]
ss:63 [binder, in UniMath.Algebra.Universal.Terms]
ss:7 [binder, in UniMath.Algebra.Universal.Terms]
ss:8 [binder, in UniMath.Algebra.Universal.Terms]
ss₁:10 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
ss₁:46 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
ss₁:55 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
ss₁:9 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
ss₂:10 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
ss₂:11 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
ss₂:47 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
ss₂:56 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
stack [definition, in UniMath.Algebra.Universal.Terms]
stackconcatenate [definition, in UniMath.Algebra.Universal.Terms]
stackconcatenate_opexec [lemma, in UniMath.Algebra.Universal.Terms]
StandardCategories [library]
standardFiniteOrderedSet [definition, in UniMath.Combinatorics.OrderedSets]
standardFiniteSet [definition, in UniMath.Combinatorics.FiniteSets]
StandardFiniteSets [library]
StandardFunctions [section, in UniMath.Bicategories.Colimits.Products]
_ ⊗₂ _ [notation, in UniMath.Bicategories.Colimits.Products]
_ ⊗₁ _ [notation, in UniMath.Bicategories.Colimits.Products]
_ ⊗ _ [notation, in UniMath.Bicategories.Colimits.Products]
π₁ [notation, in UniMath.Bicategories.Colimits.Products]
π₂ [notation, in UniMath.Bicategories.Colimits.Products]
⟨ _ , _ ⟩ [notation, in UniMath.Bicategories.Colimits.Products]
⟪ _ , _ ⟫ [notation, in UniMath.Bicategories.Colimits.Products]
StandardLimitHomot [section, in UniMath.Induction.M.Limits]
StandardLimits [section, in UniMath.Induction.M.Limits]
StandardLimitUP [section, in UniMath.Induction.M.Limits]
standard_limit_up_weq [definition, in UniMath.Induction.M.Limits]
standard_limit_homot [definition, in UniMath.Induction.M.Limits]
standard_limit [definition, in UniMath.Induction.M.Limits]
star [definition, in UniMath.Algebra.Universal.SortedTypes]
starcomp [lemma, in UniMath.Algebra.Universal.SortedTypes]
starfun [definition, in UniMath.Algebra.Universal.SortedTypes]
staridfun [lemma, in UniMath.Algebra.Universal.SortedTypes]
stdlim_shift:10 [binder, in UniMath.Induction.M.Chains]
stdPathOver [definition, in UniMath.MoreFoundations.PathsOver]
stdPathOver' [definition, in UniMath.MoreFoundations.PathsOver]
std_auto [lemma, in UniMath.Combinatorics.OrderedSets]
step [definition, in UniMath.Combinatorics.MetricTree]
step1 [lemma, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
step1 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step1_total [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
step1_disp_univalent [lemma, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
step1_disp [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
step1_disp_axioms [lemma, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
step10 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step11 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step12 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step13 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step2 [lemma, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
step2 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step2_disp [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
step3 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step3_disp [definition, in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
step4 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step5 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step6 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step7 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step8 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step9 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
stf:47 [binder, in UniMath.CategoryTheory.CommaCategories]
stf:54 [binder, in UniMath.CategoryTheory.CommaCategories]
STLC [definition, in UniMath.SubstitutionSystems.STLC]
STLC [library]
STLC_Monad [definition, in UniMath.SubstitutionSystems.STLC]
STLC_Functor_Initial [lemma, in UniMath.SubstitutionSystems.STLC]
STLC_Functor [definition, in UniMath.SubstitutionSystems.STLC]
STLC_Signature [definition, in UniMath.SubstitutionSystems.STLC]
STLC_Sig [definition, in UniMath.SubstitutionSystems.STLC]
STLC_Monad_ok [lemma, in UniMath.SubstitutionSystems.STLC_alt]
STLC_M [definition, in UniMath.SubstitutionSystems.STLC_alt]
STLC_Monad [definition, in UniMath.SubstitutionSystems.STLC_alt]
STLC_Functor_Initial [lemma, in UniMath.SubstitutionSystems.STLC_alt]
STLC_Functor [definition, in UniMath.SubstitutionSystems.STLC_alt]
STLC_Signature [definition, in UniMath.SubstitutionSystems.STLC_alt]
STLC_Sig [definition, in UniMath.SubstitutionSystems.STLC_alt]
STLC_alt [library]
stn [definition, in UniMath.Combinatorics.StandardFiniteSets]
stnlt [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnmtostnn [definition, in UniMath.Combinatorics.StandardFiniteSets]
stnneq [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnneq_to_nopath [definition, in UniMath.Combinatorics.StandardFiniteSets]
stnneq_iff_nopath [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnposet [definition, in UniMath.Combinatorics.StandardFiniteSets]
stnprod [definition, in UniMath.Combinatorics.StandardFiniteSets]
stnprod_eq [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnprod_step [definition, in UniMath.Combinatorics.StandardFiniteSets]
stnsdnegweqtoeq [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnset [definition, in UniMath.Combinatorics.StandardFiniteSets]
stnsum [definition, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_diffs [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_lt [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_add [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_ge1 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_first_le [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_last_le [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_const [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_1 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_pos_0 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_pos [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_dni [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_left_le' [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_left_le [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_left_right [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_le [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_eq [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stnsum_step [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stntonat [definition, in UniMath.Combinatorics.StandardFiniteSets]
stntonat_incl [definition, in UniMath.Combinatorics.StandardFiniteSets]
stn_extens [definition, in UniMath.Combinatorics.Vectors]
stn_ord_bij [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stn_ord_inj [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stn_ord_incl [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stn_predicate [definition, in UniMath.Combinatorics.StandardFiniteSets]
stn_right_first [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stn_compl [definition, in UniMath.Combinatorics.StandardFiniteSets]
stn_left_compare [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stn_left'' [definition, in UniMath.Combinatorics.StandardFiniteSets]
stn_left' [definition, in UniMath.Combinatorics.StandardFiniteSets]
stn_left_0 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stn_right_compute [definition, in UniMath.Combinatorics.StandardFiniteSets]
stn_left_compute [definition, in UniMath.Combinatorics.StandardFiniteSets]
stn_right [definition, in UniMath.Combinatorics.StandardFiniteSets]
stn_left [definition, in UniMath.Combinatorics.StandardFiniteSets]
stn_to_nat [definition, in UniMath.Combinatorics.StandardFiniteSets]
stn_eq_or_neq [lemma, in UniMath.Combinatorics.StandardFiniteSets]
stn_ne_iff_neq [lemma, in UniMath.Combinatorics.StandardFiniteSets]
StrengthForSignature [definition, in UniMath.SubstitutionSystems.Signatures]
StrengthForSignature_eq [lemma, in UniMath.SubstitutionSystems.Signatures]
Strength_Prestrength [definition, in UniMath.SubstitutionSystems.Signatures]
strength_law2_pw [lemma, in UniMath.SubstitutionSystems.ModulesFromSignatures]
strength_nat_from_alt [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
strength_nat_from_alt_aux_codom [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
strength_nat_from_alt_aux_dom [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
StrictCats [library]
StrictCompositor [section, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
StrictCompositor [library]
StrictCompositor.C [variable, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
StrictCompositor.D [variable, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
StrictIdentitor [section, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
StrictIdentitor [library]
StrictIdentitor.C [variable, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
StrictIdentitor.D [variable, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
strictify [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
Strictify [section, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
Strictify [library]
strictify_unit_inv_strictify_unit [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_strictify_unit_inv [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_inv [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_inv_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_is_pstrans_help₃ [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_is_pstrans_help₂ [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_is_pstrans_help₁ [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_inv_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_data_help4 [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_data_help3 [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_data_help2 [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_data_help1 [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_strictify_counit_inv [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_inv_strictify_counit [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_inv [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_inv_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_inv_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_inv_data_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_inv_data_comp [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_is_pstrans_help₃ [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_is_pstrans_help₂ [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_is_pstrans_help₁ [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_comp [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_comp_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_comp_comp [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_invertible_2cells [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_compositor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_compositor_help [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_identitor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_identitor_help [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_cell [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_mor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_mor_is_strict_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_mor_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_ob [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_ob_is_strict_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_ob_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
Strictify.B₁ [variable, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
Strictify.B₂ [variable, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
Strictify.HB₂_2_1 [variable, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
Strictness [library]
strictness_from_univalent_2_1 [definition, in UniMath.Bicategories.Core.Strictness]
strictness_structure_to_data [definition, in UniMath.Bicategories.Core.Strictness]
strictness_structure [definition, in UniMath.Bicategories.Core.Strictness]
strictness_structure_laws [definition, in UniMath.Bicategories.Core.Strictness]
strictness_structure_data [definition, in UniMath.Bicategories.Core.Strictness]
StrictProjection [section, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
StrictProjection.F [variable, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
StrictPseudoFunctor [library]
StrictPseudoFunctorBicat [section, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
StrictPseudoFunctorBicat [library]
StrictPseudoFunctorBicat.C [variable, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
StrictPseudoFunctorBicat.D [variable, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
StrictPseudoFunctorData [section, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
StrictPseudoFunctorData.C [variable, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
StrictPseudoFunctorData.D [variable, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
StrictPseudoFunctorDerivedLaws [section, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
StrictPseudoFunctorDerivedLaws.F [variable, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
StrictToPseudo [library]
strict_fiber_bicat_data_laws_lassociator_rassociator [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_rinvunitor_runitor [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_runitor_rinvunitor [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_linvunitor_lunitor [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_lunitor_linvunitor [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_vcomp_whisker [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_rwhisker_rwhisker [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_rwhisker_lwhisker [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_lwhisker_lwhisker [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_runitor [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_lunitor [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_rwhisker [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_lwhisker [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_id2_lwhisker [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_rwhisker_id2 [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_assoc [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_right [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_left [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
Strict_Fiber_Bicat [section, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_pstrans_to_nattrans_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strict_psfunctor_to_functor_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strict_counit_data_help [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strict_pr1_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
strict_pr1_psfunctor_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
strict_pr1_psfunctor_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
strict_psfunctor_bicat_is_univalent_2 [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_bicat_is_univalent_2_0 [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_bicat_is_univalent_2_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_bicat [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_rwhisker_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_lwhisker_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_lassociator_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_runitor_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_lunitor_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_vcomp2_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_id2_law [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_comp_cell [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_id_cell [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_comp [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_id [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_on_cells [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_data_is_univalent_2 [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_data_is_univalent_2_0 [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_data_is_univalent_2_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_data [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_data_bicat [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_data_disp [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_bicat_to_two_cat_to_strict_bicat [lemma, in UniMath.Bicategories.Core.Strictness]
strict_bicat_to_two_cat [definition, in UniMath.Bicategories.Core.Strictness]
strict_bicat_to_two_cat_laws [lemma, in UniMath.Bicategories.Core.Strictness]
strict_bicat_to_two_cat_category [definition, in UniMath.Bicategories.Core.Strictness]
strict_bicat_to_two_cat_data [definition, in UniMath.Bicategories.Core.Strictness]
strict_bicat_to_precategory_has_homsets [lemma, in UniMath.Bicategories.Core.Strictness]
strict_bicat_to_precategory_is_precategory [definition, in UniMath.Bicategories.Core.Strictness]
strict_bicat_to_precategory_data [definition, in UniMath.Bicategories.Core.Strictness]
strict_bicat [definition, in UniMath.Bicategories.Core.Strictness]
strict_monoidal_cat [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
strict_compositor_is_disp_univalent_2 [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
strict_compositor_is_disp_univalent_2_0 [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
strict_compositor_is_disp_univalent_2_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
strict_compositor_disp_cat [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
strict_compositor_disp_cat_id_comp [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
strict_compositor_disp_cat_data [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
strict_modification_eq [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_pstrans_data [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_F_runitor [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_F_lunitor [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_comp_natural [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_rassociator [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_rinvunitor [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_linvunitor [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_is_iso [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_rwhisker [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_lwhisker [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_lassociator [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_runitor [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_lunitor [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_vcomp [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_id2 [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_comp_cell [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_id_cell [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_comp [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_id [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_on_cells [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_to_strict_psfunctor_data [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_identitor_is_disp_univalent_2 [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
strict_identitor_is_disp_univalent_2_0 [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
strict_identitor_is_disp_univalent_2_1 [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
strict_identitor_disp_cat [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
strict_identitor_disp_id_comp [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
strict_identitor_disp_cat_data [definition, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
strict_bicat_of_strict_cats [definition, in UniMath.Bicategories.Core.Examples.StrictCats]
strict_cat_prebicat_laws [lemma, in UniMath.Bicategories.Core.Examples.StrictCats]
strict_cat_prebicat_data [definition, in UniMath.Bicategories.Core.Examples.StrictCats]
strict_psfunctor_to_psfunctor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_compositor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_identitor [definition, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_cell_to_modification [definition, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_mor_to_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_mor_to_pstrans_is_pstrans [definition, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_mor_to_pstrans_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_map [definition, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_map_laws [definition, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_map_data [definition, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_fiber_bicat [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
strict_fiber_bicat_data_laws [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
strict_fiber_bicat_data_laws_lassociator_lassociator [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
strict_fiber_bicat_data_laws_runitor_rwhisker [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
strict_fiber_bicat_data_laws_rassociator_lassociator [definition, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
stronginduction [lemma, in UniMath.PAdics.lemmas]
strongly_from_weakly_well_founded [lemma, in UniMath.Combinatorics.WellFoundedRelations]
strongly_well_founded [definition, in UniMath.Combinatorics.WellFoundedRelations]
StrongOrder [definition, in UniMath.Algebra.Lattice]
StrongOrder [definition, in UniMath.RealNumbers.Sets]
StrongOrder_setquot [definition, in UniMath.Algebra.Lattice]
StrongOrder_reverse_correct [lemma, in UniMath.RealNumbers.Sets]
StrongOrder_reverse [definition, in UniMath.RealNumbers.Sets]
Strong_Functor_category_Hstandard [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_category_Pisset [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_FunctorForgetfulFunctorFaithful [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_FunctorForgetfulFunctor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_Mor_eq [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_Mor_to_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_Mor_ok [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_Mor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_category_ob_ok [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_category [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_category_displayed [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category.AsDisplayedCategory [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_Mor_comp_subproof [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_Mor_id_subproof [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_mor_diagram [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category.Strong_Functor_Category_mor [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
_ #⊙' _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
_ ⊙' _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
_ #⊙ _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
_ ⊙ _ [notation, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
strong_monoidal_functor_μ_inv [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor_μ [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor_ϵ_inv [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor_ϵ [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor_μ_is_nat_z_iso [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor_ϵ_is_z_iso [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor_lax_monoidal_functor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Strong_Monoidal_Functor_Action_Reloaded [section, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
Struc [definition, in UniMath.MoreFoundations.StructureIdentity]
StrucEquiv [definition, in UniMath.MoreFoundations.StructureIdentity]
structs:14 [binder, in UniMath.Algebra.Modules.Multimodules]
structs:46 [binder, in UniMath.Algebra.Modules.Multimodules]
StructureIdentity [section, in UniMath.MoreFoundations.StructureIdentity]
StructureIdentity [library]
_ ≅ _ [notation, in UniMath.MoreFoundations.StructureIdentity]
Structures [section, in UniMath.Algebra.Matrix]
Structures [library]
Structures [library]
structure_sheaf [definition, in UniMath.AlgebraicGeometry.Spec]
structure_presheaf [definition, in UniMath.AlgebraicGeometry.Spec]
structure_presheaf_data [definition, in UniMath.AlgebraicGeometry.Spec]
structure_sheaf [section, in UniMath.AlgebraicGeometry.Spec]
struct_hom.Hcomp [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
struct_hom.Hid [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
struct_hom.Hisprop [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
struct_hom.H [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
struct_hom.P [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
struct_hom.C [variable, in UniMath.CategoryTheory.DisplayedCats.Constructions]
struct_hom [section, in UniMath.CategoryTheory.DisplayedCats.Constructions]
Struc_univalence [lemma, in UniMath.MoreFoundations.StructureIdentity]
str:120 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
str:122 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
str:124 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
str:126 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
str:60 [binder, in UniMath.Bicategories.Core.Bicat]
str:71 [binder, in UniMath.Algebra.Modules.Examples]
st1':38 [binder, in UniMath.Algebra.Universal.Terms]
st1:35 [binder, in UniMath.Algebra.Universal.Terms]
st1:40 [binder, in UniMath.Algebra.Universal.Terms]
st2':37 [binder, in UniMath.Algebra.Universal.Terms]
st2:36 [binder, in UniMath.Algebra.Universal.Terms]
st2:41 [binder, in UniMath.Algebra.Universal.Terms]
st:22 [binder, in UniMath.Algebra.Universal.Terms]
st:26 [binder, in UniMath.Algebra.Universal.Terms]
sub [definition, in UniMath.Foundations.Preamble]
subabgr [definition, in UniMath.Algebra.Groups]
subabgr_incl [definition, in UniMath.Algebra.Groups]
subabgr_quot [definition, in UniMath.CategoryTheory.PreAdditive]
subabmonoid [definition, in UniMath.Algebra.Monoids]
subabmonoid_incl [definition, in UniMath.Algebra.Monoids]
SubboundedlatticeObject [section, in UniMath.CategoryTheory.LatticeObject]
_ ×× _ (cat) [notation, in UniMath.CategoryTheory.LatticeObject]
_ ⊗ _ (cat) [notation, in UniMath.CategoryTheory.LatticeObject]
subcategory [definition, in UniMath.CategoryTheory.Subcategory.Core]
subcategory_univalent [definition, in UniMath.CategoryTheory.Subcategory.Full]
subcategory_of_monics [definition, in UniMath.CategoryTheory.Monics]
subgr [definition, in UniMath.Algebra.Groups]
subgrconstr [definition, in UniMath.Algebra.Groups]
subgrhrel [definition, in UniMath.CategoryTheory.PreAdditive]
subgrhrel_hprop [definition, in UniMath.CategoryTheory.PreAdditive]
subgrtosubmonoid [definition, in UniMath.Algebra.Groups]
subgr_incl [definition, in UniMath.Algebra.Groups]
SublatticeObject [section, in UniMath.CategoryTheory.LatticeObject]
_ ×× _ (cat) [notation, in UniMath.CategoryTheory.LatticeObject]
_ ⊗ _ (cat) [notation, in UniMath.CategoryTheory.LatticeObject]
submodule [definition, in UniMath.Algebra.Modules.Submodule]
Submodule [library]
submoduleadd [definition, in UniMath.Algebra.Modules.Submodule]
submoduleinv [definition, in UniMath.Algebra.Modules.Submodule]
submodulemult [definition, in UniMath.Algebra.Modules.Submodule]
submoduletosubabgr [definition, in UniMath.Algebra.Modules.Submodule]
_ - _ [notation, in UniMath.Algebra.Modules.Submodule]
_ + _ [notation, in UniMath.Algebra.Modules.Submodule]
submodule_helpers [section, in UniMath.Algebra.Modules.Submodule]
submodule_incl [definition, in UniMath.Algebra.Modules.Submodule]
submodule_smul [definition, in UniMath.Algebra.Modules.Submodule]
submodule_to_issubsetwithsmul [definition, in UniMath.Algebra.Modules.Submodule]
submodule0 [definition, in UniMath.Algebra.Modules.Submodule]
submonoid [definition, in UniMath.Algebra.Monoids]
submonoidtosubsetswithbinop [definition, in UniMath.Algebra.Monoids]
submonoid_incl [definition, in UniMath.Algebra.Monoids]
SubObj [definition, in UniMath.CategoryTheory.Subobjects]
subobj [section, in UniMath.CategoryTheory.Subobjects]
SubobjectClassifier [library]
Subobjects [library]
Subobjectscategory [definition, in UniMath.CategoryTheory.Subobjects]
Subobjectscategory_ob [definition, in UniMath.CategoryTheory.Subobjects]
subobject_classifier_pullback_sym [definition, in UniMath.CategoryTheory.SubobjectClassifier]
subobject_classifier_pullback [definition, in UniMath.CategoryTheory.SubobjectClassifier]
subobject_classifier_square_commutes [definition, in UniMath.CategoryTheory.SubobjectClassifier]
subobject_classifier_universal_property [definition, in UniMath.CategoryTheory.SubobjectClassifier]
subobject_classifier_object [definition, in UniMath.CategoryTheory.SubobjectClassifier]
subobject_classifier [definition, in UniMath.CategoryTheory.SubobjectClassifier]
subobject_classifier_HSET [definition, in UniMath.CategoryTheory.categories.HSET.Structures]
subobject_classifier_HSET_pullback [definition, in UniMath.CategoryTheory.categories.HSET.Structures]
SubObjPoset [definition, in UniMath.CategoryTheory.Subobjects]
SubObj_rel [definition, in UniMath.CategoryTheory.Subobjects]
Subposet [definition, in UniMath.MoreFoundations.Subposets]
Subposets [section, in UniMath.Algebra.FixedPointTheorems]
Subposets [library]
subposet_incl [definition, in UniMath.Algebra.FixedPointTheorems]
Subposet_to_Subposet' [definition, in UniMath.MoreFoundations.Subposets]
Subposet' [definition, in UniMath.MoreFoundations.Subposets]
Subposet'_equiv_Subposet [definition, in UniMath.MoreFoundations.Subposets]
Subposet'_to_Subposet [definition, in UniMath.MoreFoundations.Subposets]
Subposet'_to_Poset [definition, in UniMath.MoreFoundations.Subposets]
subprecategory_of_monics_mor [definition, in UniMath.CategoryTheory.Monics]
subprecategory_of_monics_ob [definition, in UniMath.CategoryTheory.Monics]
subprecategory_of_monics [definition, in UniMath.CategoryTheory.Monics]
subprecategory_of_epis_ob [definition, in UniMath.CategoryTheory.Epis]
subprecategory_of_epis [definition, in UniMath.CategoryTheory.Epis]
subrig [definition, in UniMath.Algebra.RigsAndRings]
subrigtosubsetswith2binop [definition, in UniMath.Algebra.RigsAndRings]
subring [definition, in UniMath.Algebra.RigsAndRings]
subringtosubsetswith2binop [definition, in UniMath.Algebra.RigsAndRings]
subset [definition, in UniMath.MoreFoundations.Sets]
subsetFiniteness [lemma, in UniMath.Combinatorics.FiniteSets]
subsetFiniteSet [definition, in UniMath.Combinatorics.FiniteSets]
SubsetsOfMors [definition, in UniMath.CategoryTheory.LocalizingClass]
subsetsplit [definition, in UniMath.Foundations.PartB]
subsetsplitinv [definition, in UniMath.Foundations.PartB]
subsetswithbinop [definition, in UniMath.Algebra.BinaryOperations]
subsetswithbinopconstr [definition, in UniMath.Algebra.BinaryOperations]
subsetswith2binop [definition, in UniMath.Algebra.BinaryOperations]
subsetswith2binopconstr [definition, in UniMath.Algebra.BinaryOperations]
subst [definition, in UniMath.SubstitutionSystems.STLC_alt]
SubstitutionSystems [library]
SubstitutionSystems_Summary [library]
substLam [definition, in UniMath.SubstitutionSystems.LamFromBindingSig]
substructure_univalence [lemma, in UniMath.Combinatorics.ZFstructures]
subst_interchange_law [lemma, in UniMath.CategoryTheory.Monads.Monads]
subst_interchange_law_gen [lemma, in UniMath.CategoryTheory.Monads.Monads]
subst_interchange_law_instantiated [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
subst_slice_eqn_ok [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
subst_slice_eqn [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
subst_slice_as_bind_slice_agrees [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
subst_slice_as_bind_slice [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
subst_slice_ok [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
subst_slice [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
subst_interchange_law_instantiated [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
subst_interchange_law_gen_instantiated [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
subst_interchange [lemma, in UniMath.SubstitutionSystems.STLC_alt]
subterms [definition, in UniMath.Algebra.Universal.Terms]
subterms_build_term [lemma, in UniMath.Algebra.Universal.Terms]
subterms_length [definition, in UniMath.Algebra.Universal.Terms]
subtypeInjectivity [lemma, in UniMath.Foundations.PartB]
subtypeInjectivity_prop [lemma, in UniMath.Foundations.Propositions]
subtypePairEquality [definition, in UniMath.Foundations.PartB]
subtypePairEquality' [definition, in UniMath.Foundations.PartB]
subtypePath [lemma, in UniMath.Foundations.PartB]
subtypePath_prop [lemma, in UniMath.Foundations.Propositions]
subtypePath' [lemma, in UniMath.Foundations.PartB]
Subtypes [library]
subtypesdirprod [definition, in UniMath.Foundations.Sets]
subtype_binaryintersection_univ [definition, in UniMath.Algebra.FixedPointTheorems]
subtype_binaryintersection_leq2 [definition, in UniMath.Algebra.FixedPointTheorems]
subtype_binaryintersection_leq1 [definition, in UniMath.Algebra.FixedPointTheorems]
subtype_binaryintersection [definition, in UniMath.Algebra.FixedPointTheorems]
subtype_binaryunion [definition, in UniMath.Algebra.FixedPointTheorems]
subtype_plus_in [definition, in UniMath.MoreFoundations.Subtypes]
subtype_plus_has_point [definition, in UniMath.MoreFoundations.Subtypes]
subtype_plus_incl [definition, in UniMath.MoreFoundations.Subtypes]
subtype_plus [definition, in UniMath.MoreFoundations.Subtypes]
subtype_deceq [lemma, in UniMath.MoreFoundations.Subtypes]
subtype_inc_comp [lemma, in UniMath.MoreFoundations.Subtypes]
subtype_containment_isPartialOrder [lemma, in UniMath.MoreFoundations.Subtypes]
subtype_containment_isantisymm [lemma, in UniMath.MoreFoundations.Subtypes]
subtype_containment_ispreorder [lemma, in UniMath.MoreFoundations.Subtypes]
subtype_containment_isrefl [lemma, in UniMath.MoreFoundations.Subtypes]
subtype_containment_istrans [lemma, in UniMath.MoreFoundations.Subtypes]
subtype_intersection [definition, in UniMath.MoreFoundations.Subtypes]
subtype_union_containedIn [definition, in UniMath.MoreFoundations.Subtypes]
subtype_union [definition, in UniMath.MoreFoundations.Subtypes]
subtype_equal_cond [lemma, in UniMath.MoreFoundations.Subtypes]
subtype_difference_containedIn [definition, in UniMath.MoreFoundations.Subtypes]
subtype_difference [definition, in UniMath.MoreFoundations.Subtypes]
subtype_notEqual_from_negEqual [lemma, in UniMath.MoreFoundations.Subtypes]
subtype_notEqual_to_negEqual [lemma, in UniMath.MoreFoundations.Subtypes]
subtype_notEqual_containedIn [lemma, in UniMath.MoreFoundations.Subtypes]
subtype_notEqual [definition, in UniMath.MoreFoundations.Subtypes]
subtype_equal [definition, in UniMath.MoreFoundations.Subtypes]
subtype_smallerThan [definition, in UniMath.MoreFoundations.Subtypes]
subtype_inc [definition, in UniMath.MoreFoundations.Subtypes]
subtype_notContainedIn [definition, in UniMath.MoreFoundations.Subtypes]
subtype_containedIn [definition, in UniMath.MoreFoundations.Subtypes]
subtype_isIn [definition, in UniMath.MoreFoundations.Subtypes]
subtype_set [definition, in UniMath.MoreFoundations.Subtypes]
subt:273 [binder, in UniMath.MoreFoundations.PartA]
sub_img_functor [definition, in UniMath.CategoryTheory.Core.Functors]
sub_initial [definition, in UniMath.Combinatorics.WellOrderedSets]
sub_precategory_morphisms_set [definition, in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_inclusion [definition, in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_inclusion_data [definition, in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_data [definition, in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_ob_mor [definition, in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_comp [definition, in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_id [definition, in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_morphisms [definition, in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_predicate_morphisms [definition, in UniMath.CategoryTheory.Subcategory.Core]
sub_ob [definition, in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_predicate_objects [definition, in UniMath.CategoryTheory.Subcategory.Core]
sub_precategories [definition, in UniMath.CategoryTheory.Subcategory.Core]
sub_bounded_latticeob [definition, in UniMath.CategoryTheory.LatticeObject]
sub_latticeob [definition, in UniMath.CategoryTheory.LatticeObject]
Sub1Cell [library]
Sub1CellBicategory [section, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
succ [definition, in UniMath.Foundations.Preamble]
sucNNO [definition, in UniMath.CategoryTheory.NNO]
sum [definition, in UniMath.CategoryTheory.Inductives.Lists]
Sum [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Sum [definition, in UniMath.Induction.ImpredicativeInductiveSets]
sum [definition, in UniMath.CategoryTheory.Inductives.Trees]
SumBindingSig [definition, in UniMath.SubstitutionSystems.BindingSigToMonad]
sumMapExistence [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sumMapUniqueness [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
SumMultiSortedSig [definition, in UniMath.SubstitutionSystems.MultiSorted_alt]
SumOfAdmissibleEpis [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SumOfAdmissibleMonos [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SumOfCokernels [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SumOfExactSequences [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SumOfKernelCokernelPairs [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SumOfKernels [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
sumofmaps [definition, in UniMath.Foundations.PartA]
sumofmaps_homot [definition, in UniMath.MoreFoundations.PartA]
sumofmaps_funcomp [definition, in UniMath.MoreFoundations.PartA]
sumofmaps_assoc_right [definition, in UniMath.Foundations.PartA]
sumofmaps_assoc_left [definition, in UniMath.Foundations.PartA]
sumofmaps_free_gr_unit [lemma, in UniMath.Algebra.Free_Monoids_and_Groups]
SumOfSignatures [library]
SumSig [definition, in UniMath.SubstitutionSystems.MLTT79]
SumStrength1 [lemma, in UniMath.SubstitutionSystems.BinSumOfSignatures]
SumStrength1' [lemma, in UniMath.SubstitutionSystems.BinSumOfSignatures]
SumStrength1' [lemma, in UniMath.SubstitutionSystems.SumOfSignatures]
SumStrength2 [lemma, in UniMath.SubstitutionSystems.BinSumOfSignatures]
SumStrength2' [lemma, in UniMath.SubstitutionSystems.BinSumOfSignatures]
SumStrength2' [lemma, in UniMath.SubstitutionSystems.SumOfSignatures]
sums_lift [definition, in UniMath.CategoryTheory.Additive]
sum_of_fibers [lemma, in UniMath.MoreFoundations.PartD]
Sum_of_Signatures [definition, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
Sum_univ_prop [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Sum_η [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Sum_com_con [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Sum_weak_eta [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Sum_β_r [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Sum_β_l [lemma, in UniMath.Induction.ImpredicativeInductiveSets]
Sum_rec [definition, in UniMath.Induction.ImpredicativeInductiveSets]
Sum_inr [definition, in UniMath.Induction.ImpredicativeInductiveSets]
Sum_inl [definition, in UniMath.Induction.ImpredicativeInductiveSets]
Sum_as_set [definition, in UniMath.Induction.ImpredicativeInductiveSets]
Sum_isaset [definition, in UniMath.Induction.ImpredicativeInductiveSets]
sum_entries2 [lemma, in UniMath.Algebra.Matrix]
sum_entries1 [lemma, in UniMath.Algebra.Matrix]
Sum_of_Signatures [definition, in UniMath.SubstitutionSystems.SumOfSignatures]
sum_of_signatures.construction.S12' [variable, in UniMath.SubstitutionSystems.SumOfSignatures]
sum_of_signatures.construction.S11' [variable, in UniMath.SubstitutionSystems.SumOfSignatures]
sum_of_signatures.construction.θ1 [variable, in UniMath.SubstitutionSystems.SumOfSignatures]
sum_of_signatures.construction.H1 [variable, in UniMath.SubstitutionSystems.SumOfSignatures]
CCD [notation, in UniMath.SubstitutionSystems.SumOfSignatures]
sum_of_signatures.construction [section, in UniMath.SubstitutionSystems.SumOfSignatures]
sum_of_signatures [section, in UniMath.SubstitutionSystems.SumOfSignatures]
Sum_of_Signatures [definition, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
sum_unoseq_ring [definition, in UniMath.Algebra.IteratedBinaryOperations]
sum':317 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sum:272 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sum:276 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sum:286 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sum:293 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sum:300 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sum:307 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sum:316 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sum:354 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sum:359 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sum:366 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sum:48 [binder, in UniMath.CategoryTheory.Additive]
sum:647 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sum:653 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
sunit [definition, in UniMath.Algebra.Universal.SortedTypes]
sunitset [definition, in UniMath.Algebra.Universal.SortedTypes]
support [definition, in UniMath.Algebra.Universal.Algebras]
supportset [definition, in UniMath.Algebra.Universal.Algebras]
surjectionisepitosets [lemma, in UniMath.Foundations.Sets]
surjective_iscontr_im [lemma, in UniMath.Foundations.Sets]
sUU [definition, in UniMath.Algebra.Universal.SortedTypes]
su:52 [binder, in UniMath.CategoryTheory.Additive]
su:94 [binder, in UniMath.CategoryTheory.ExactCategories.Tests]
swap [definition, in UniMath.Bicategories.Core.Strictness]
swap [definition, in UniMath.CategoryTheory.FunctorAlgebras]
swapped_tensor [section, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
swapped_tensor [section, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
swapping_of_strong_monoidal_functor_on_objects [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
swapping_of_strong_monoidal_functor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
swapping_of_lax_monoidal_functor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
swapping_of_lax_monoidal_functor_assoc [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
swapping_of_monoidal_cat [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
swapping_of_tensor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
swapweq [definition, in UniMath.CategoryTheory.FunctorAlgebras]
SwitchIso [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SwitchMap [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SwitchMapEqn [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SwitchMapEqnTo [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SwitchMapMapEqn [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
switchPullback [definition, in UniMath.CategoryTheory.limits.pullbacks]
switch_weq' [definition, in UniMath.MoreFoundations.Univalence]
switch_weq [definition, in UniMath.MoreFoundations.Univalence]
sx0:102 [binder, in UniMath.Combinatorics.FiniteSets]
sx0:110 [binder, in UniMath.Combinatorics.FiniteSets]
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sy:109 [binder, in UniMath.Combinatorics.FiniteSets]
sy:117 [binder, in UniMath.Combinatorics.FiniteSets]
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SY:1362 [binder, in UniMath.Algebra.BinaryOperations]
sy:138 [binder, in UniMath.Combinatorics.FiniteSets]
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S:10 [binder, in UniMath.Algebra.RigsAndRings.Ideals]
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S:10 [binder, in UniMath.Combinatorics.WellOrderedSets]
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S:10 [binder, in UniMath.CategoryTheory.Subobjects]
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S:1043 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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S:107 [binder, in UniMath.Combinatorics.WellOrderedSets]
S:107 [binder, in UniMath.CategoryTheory.Monads.Derivative]
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S:169 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
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S:2 [binder, in UniMath.Algebra.Modules.Multimodules]
S:2 [binder, in UniMath.CategoryTheory.Monads.Derivative]
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S:203 [binder, in UniMath.Combinatorics.WellOrderedSets]
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S:71 [binder, in UniMath.RealNumbers.DedekindCuts]
S:71 [binder, in UniMath.Combinatorics.WellOrderedSets]
s:71 [binder, in UniMath.AlgebraicGeometry.Spec]
S:72 [binder, in UniMath.Bicategories.Core.Strictness]
s:724 [binder, in UniMath.MoreFoundations.PathsOver]
s:725 [binder, in UniMath.CategoryTheory.LocalizingClass]
S:73 [binder, in UniMath.RealNumbers.DedekindCuts]
s:73 [binder, in UniMath.AlgebraicGeometry.Spec]
s:737 [binder, in UniMath.CategoryTheory.LocalizingClass]
s:74 [binder, in UniMath.Algebra.Universal.Terms]
S:74 [binder, in UniMath.Bicategories.Core.Strictness]
s:74 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
s:74 [binder, in UniMath.AlgebraicGeometry.Spec]
s:741 [binder, in UniMath.Foundations.PartA]
s:742 [binder, in UniMath.MoreFoundations.PathsOver]
s:745 [binder, in UniMath.CategoryTheory.LocalizingClass]
S:75 [binder, in UniMath.RealNumbers.DedekindCuts]
S:75 [binder, in UniMath.Combinatorics.WellOrderedSets]
S:75 [binder, in UniMath.CategoryTheory.Monads.Derivative]
s:76 [binder, in UniMath.Algebra.Modules.Core]
s:76 [binder, in UniMath.Algebra.Universal.Terms]
s:763 [binder, in UniMath.CategoryTheory.LocalizingClass]
s:769 [binder, in UniMath.CategoryTheory.LocalizingClass]
s:77 [binder, in UniMath.Algebra.IteratedBinaryOperations]
s:776 [binder, in UniMath.CategoryTheory.LocalizingClass]
S:78 [binder, in UniMath.Combinatorics.WellOrderedSets]
s:784 [binder, in UniMath.CategoryTheory.LocalizingClass]
S:788 [binder, in UniMath.Algebra.RigsAndRings]
s:79 [binder, in UniMath.CategoryTheory.LocalizingClass]
s:79 [binder, in UniMath.Foundations.PartD]
S:79 [binder, in UniMath.RealNumbers.DedekindCuts]
s:79 [binder, in UniMath.Algebra.Universal.Terms]
S:79 [binder, in UniMath.Bicategories.Core.Strictness]
s:79 [binder, in UniMath.AlgebraicGeometry.Spec]
S:792 [binder, in UniMath.Algebra.RigsAndRings]
S:794 [binder, in UniMath.Algebra.RigsAndRings]
S:796 [binder, in UniMath.Algebra.RigsAndRings]
S:798 [binder, in UniMath.Algebra.RigsAndRings]
S:8 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
s:8 [binder, in UniMath.SubstitutionSystems.STLC]
S:8 [binder, in UniMath.Combinatorics.WellOrderedSets]
s:8 [binder, in UniMath.SubstitutionSystems.MultiSorted]
s:8 [binder, in UniMath.Algebra.Universal.SortedTypes]
S:801 [binder, in UniMath.Algebra.RigsAndRings]
S:805 [binder, in UniMath.MoreFoundations.PartA]
S:81 [binder, in UniMath.RealNumbers.DedekindCuts]
s:81 [binder, in UniMath.Algebra.Universal.Terms]
S:81 [binder, in UniMath.Combinatorics.WellOrderedSets]
S:81 [binder, in UniMath.MoreFoundations.Subtypes]
S:816 [binder, in UniMath.Algebra.RigsAndRings]
S:818 [binder, in UniMath.Algebra.RigsAndRings]
S:82 [binder, in UniMath.CategoryTheory.Monads.Derivative]
s:823 [binder, in UniMath.Algebra.RigsAndRings]
S:827 [binder, in UniMath.Algebra.RigsAndRings]
s:83 [binder, in UniMath.Algebra.Modules.Core]
s:83 [binder, in UniMath.Algebra.Universal.Terms]
S:84 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
S:84 [binder, in UniMath.Bicategories.Core.Strictness]
s:84 [binder, in UniMath.Combinatorics.WellOrderedSets]
s:84 [binder, in UniMath.AlgebraicGeometry.Spec]
s:84 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
S:841 [binder, in UniMath.Algebra.RigsAndRings]
S:847 [binder, in UniMath.Algebra.RigsAndRings]
S:849 [binder, in UniMath.Algebra.RigsAndRings]
S:851 [binder, in UniMath.Algebra.RigsAndRings]
S:855 [binder, in UniMath.Algebra.RigsAndRings]
S:857 [binder, in UniMath.Algebra.RigsAndRings]
s:86 [binder, in UniMath.MoreFoundations.Subtypes]
S:861 [binder, in UniMath.Algebra.RigsAndRings]
S:865 [binder, in UniMath.Algebra.RigsAndRings]
S:867 [binder, in UniMath.Algebra.RigsAndRings]
S:869 [binder, in UniMath.Algebra.RigsAndRings]
S:87 [binder, in UniMath.Combinatorics.WellOrderedSets]
s:87 [binder, in UniMath.AlgebraicGeometry.Spec]
S:871 [binder, in UniMath.Algebra.RigsAndRings]
S:873 [binder, in UniMath.Algebra.RigsAndRings]
s:88 [binder, in UniMath.CategoryTheory.LocalizingClass]
S:881 [binder, in UniMath.Algebra.RigsAndRings]
S:883 [binder, in UniMath.Algebra.RigsAndRings]
S:885 [binder, in UniMath.Algebra.RigsAndRings]
s:887 [binder, in UniMath.Algebra.RigsAndRings]
S:889 [binder, in UniMath.Algebra.RigsAndRings]
S:89 [binder, in UniMath.CategoryTheory.Monads.Derivative]
S:89 [binder, in UniMath.MoreFoundations.Subtypes]
S:893 [binder, in UniMath.Algebra.RigsAndRings]
S:896 [binder, in UniMath.Algebra.RigsAndRings]
S:898 [binder, in UniMath.Algebra.RigsAndRings]
s:9 [binder, in UniMath.Algebra.RigsAndRings.Ideals]
s:9 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
s:9 [binder, in UniMath.SubstitutionSystems.STLC_alt]
S:9 [binder, in UniMath.Algebra.Universal.SortedTypes]
S:900 [binder, in UniMath.Algebra.RigsAndRings]
S:902 [binder, in UniMath.Algebra.RigsAndRings]
S:905 [binder, in UniMath.Algebra.RigsAndRings]
S:909 [binder, in UniMath.Algebra.RigsAndRings]
S:91 [binder, in UniMath.RealNumbers.DedekindCuts]
S:91 [binder, in UniMath.Combinatorics.WellOrderedSets]
S:91 [binder, in UniMath.MoreFoundations.Subtypes]
S:911 [binder, in UniMath.Algebra.RigsAndRings]
S:913 [binder, in UniMath.Algebra.RigsAndRings]
S:915 [binder, in UniMath.Algebra.RigsAndRings]
S:917 [binder, in UniMath.Algebra.RigsAndRings]
S:921 [binder, in UniMath.Algebra.RigsAndRings]
S:927 [binder, in UniMath.Algebra.RigsAndRings]
S:93 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
S:93 [binder, in UniMath.Bicategories.Core.Strictness]
S:933 [binder, in UniMath.Algebra.RigsAndRings]
S:937 [binder, in UniMath.Algebra.RigsAndRings]
S:94 [binder, in UniMath.CategoryTheory.Monads.Derivative]
S:94 [binder, in UniMath.MoreFoundations.Subtypes]
S:942 [binder, in UniMath.Algebra.RigsAndRings]
S:949 [binder, in UniMath.Algebra.RigsAndRings]
S:95 [binder, in UniMath.Combinatorics.WellOrderedSets]
S:956 [binder, in UniMath.Algebra.RigsAndRings]
s:96 [binder, in UniMath.CategoryTheory.LocalizingClass]
s:96 [binder, in UniMath.Foundations.PartD]
S:96 [binder, in UniMath.RealNumbers.DedekindCuts]
S:96 [binder, in UniMath.MoreFoundations.Univalence]
s:97 [binder, in UniMath.Combinatorics.Lists]
S:98 [binder, in UniMath.MoreFoundations.Subtypes]
S:983 [binder, in UniMath.Algebra.RigsAndRings]
s:99 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
S:99 [binder, in UniMath.Combinatorics.WellOrderedSets]
sδ':100 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
sδ:101 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
sδ:102 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
sδ:99 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
sη':33 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
sη':35 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
sη':37 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
sη:32 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
sη:34 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
sη:36 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
sη:48 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
sθ1:64 [binder, in UniMath.SubstitutionSystems.Signatures]
sθ2:65 [binder, in UniMath.SubstitutionSystems.Signatures]
s₁:22 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
s₁:32 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
s₁:4 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
s₁:41 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
s₁:5 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
s₁:50 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
s₂:23 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
s₂:33 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
s₂:42 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
s₂:5 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
s₂:51 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
s₂:6 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]

T

T [definition, in UniMath.Folds.folds_pre_2_cat]
T [definition, in UniMath.Folds.folds_precat]
Tactics [library]
tail [definition, in UniMath.Combinatorics.MoreLists]
tail [definition, in UniMath.Combinatorics.FiniteSequences]
tallyStandardSubset [definition, in UniMath.Combinatorics.FiniteSets]
tallyStandardSubsetSegment [definition, in UniMath.Combinatorics.FiniteSets]
tar [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Target [definition, in UniMath.CategoryTheory.Morphisms]
target_category [definition, in UniMath.CategoryTheory.rezk_completion]
target_action [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
target_paths [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
target_points:49 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
target_points:45 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
target_points:42 [binder, in UniMath.SyntheticHomotopyTheory.Halfline]
target_paths [definition, in UniMath.SyntheticHomotopyTheory.Halfline]
Tarski [section, in UniMath.Algebra.FixedPointTheorems]
Tarski_fixpoint_theorem [lemma, in UniMath.Algebra.FixedPointTheorems]
Tarski_fixpoint_theorem_statement [definition, in UniMath.Algebra.FixedPointTheorems]
tautological_RelModule [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
tautological_RelModule_law [lemma, in UniMath.CategoryTheory.Monads.RelativeModules]
tautological_RelModule_data [definition, in UniMath.CategoryTheory.Monads.RelativeModules]
Tautological_RelModule [section, in UniMath.CategoryTheory.Monads.RelativeModules]
tautological_LModule [definition, in UniMath.CategoryTheory.Monads.LModules]
tautological_LModule_law [lemma, in UniMath.CategoryTheory.Monads.LModules]
tautological_LModule_data [definition, in UniMath.CategoryTheory.Monads.LModules]
tau_from_alg [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
ta:272 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ta:292 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ta:324 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ta:332 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
TC':6 [binder, in UniMath.CategoryTheory.Subcategory.Limits]
TC:10 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
TC:127 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
TC:13 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
TC:144 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
TC:150 [binder, in UniMath.CategoryTheory.Monads.Monads]
TC:151 [binder, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
TC:17 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
TC:2 [binder, in UniMath.CategoryTheory.NNO]
TC:20 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
TC:24 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
TC:27 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
TC:286 [binder, in UniMath.CategoryTheory.limits.bincoproducts]
TC:32 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
TC:35 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
TC:35 [binder, in UniMath.CategoryTheory.limits.terminal]
TC:40 [binder, in UniMath.CategoryTheory.LatticeObject]
TC:46 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
TC:5 [binder, in UniMath.CategoryTheory.Subcategory.Limits]
TC:65 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
TC:69 [binder, in UniMath.CategoryTheory.LatticeObject]
TC:97 [binder, in UniMath.CategoryTheory.LatticeObject]
td:264 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
td:271 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
td:291 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
td:300 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
td:308 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
td:316 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
td:323 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
td:331 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
td:340 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
td:348 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
temp:86 [binder, in UniMath.CategoryTheory.Inductives.Lists]
temp:89 [binder, in UniMath.CategoryTheory.Inductives.Lists]
tensor [abbreviation, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
tensor [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
tensor [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
tensor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
tensor [definition, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
tensor [definition, in UniMath.CategoryTheory.Monoidal.Actions]
tensor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
tensor [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
tensor [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
tensor [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
tensor [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
tensorial_strength [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
tensorial_action [definition, in UniMath.CategoryTheory.Monoidal.Actions]
tensor_from_bicat_and_ob [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
tensor_D [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
tensor_C [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
tensor_pointedfunctors [definition, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
tensor_pointedfunctor_is_functor [definition, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
tensor_pointedfunctor_data [definition, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
tensor_comp [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
tensor_id [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
tensor_A [definition, in UniMath.CategoryTheory.Monoidal.Actions]
tensor_A [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
tensor' [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
tensor:149 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
tensor:2 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
tensor:2 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
tensor:205 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
tensor:62 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
tensor:68 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
term [definition, in UniMath.Algebra.Universal.VTerms]
term [definition, in UniMath.Algebra.Universal.Terms]
Term [section, in UniMath.Algebra.Universal.Terms]
Term [module, in UniMath.Algebra.Universal.Examples.Bool]
TermAlgebra [section, in UniMath.Algebra.Universal.TermAlgebras]
TermAlgebra [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
TermAlgebras [library]
termCochain [definition, in UniMath.CategoryTheory.Chains.Cochains]
termCone [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
TermC:22 [binder, in UniMath.CategoryTheory.Chains.Cochains]
termDiagram [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
termfun [definition, in UniMath.Foundations.PartA]
TermHetSubst [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
TermHSS [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Terminal [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
Terminal [definition, in UniMath.CategoryTheory.limits.terminal]
terminal [library]
terminal [library]
terminalArrow [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
TerminalArrow [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
TerminalArrow [definition, in UniMath.CategoryTheory.limits.terminal]
TerminalArrowEq [lemma, in UniMath.CategoryTheory.limits.terminal]
TerminalArrowUnique [lemma, in UniMath.CategoryTheory.limits.graphs.terminal]
TerminalArrowUnique [lemma, in UniMath.CategoryTheory.limits.terminal]
terminalcoalgebra_iso [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
terminalcoalgebra_isiso [lemma, in UniMath.CategoryTheory.FunctorCoalgebras]
TerminalEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.graphs.terminal]
TerminalEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.terminal]
TerminalFunctorCat [section, in UniMath.CategoryTheory.limits.terminal]
TerminalFunctorCat.C [variable, in UniMath.CategoryTheory.limits.terminal]
TerminalFunctorCat.D [variable, in UniMath.CategoryTheory.limits.terminal]
TerminalFunctorCat.ID [variable, in UniMath.CategoryTheory.limits.terminal]
TerminalHSET [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
TerminalHSET_from_Lims [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
terminalObject [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
TerminalObject [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
TerminalObject [definition, in UniMath.CategoryTheory.limits.graphs.terminal]
TerminalObject [definition, in UniMath.CategoryTheory.limits.terminal]
TerminalSortToC [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
TerminalSortToSet [lemma, in UniMath.SubstitutionSystems.CCS_alt]
TerminalSortToSet [lemma, in UniMath.SubstitutionSystems.STLC_alt]
TerminalToProduct [lemma, in UniMath.CategoryTheory.limits.FinOrdProducts]
TerminalType [lemma, in UniMath.CategoryTheory.categories.Type.Limits]
TerminalTypeToSet [lemma, in UniMath.SubstitutionSystems.PCF_alt]
TerminalX [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
Terminal_PreShv [lemma, in UniMath.CategoryTheory.Presheaf]
Terminal_from_Lims [lemma, in UniMath.CategoryTheory.limits.graphs.terminal]
Terminal_WOSET [lemma, in UniMath.CategoryTheory.categories.wosets]
Terminal_wosetfuncat [lemma, in UniMath.CategoryTheory.categories.wosets]
Terminal_slice_precat [lemma, in UniMath.CategoryTheory.slicecat]
Terminal_HSET_slice [lemma, in UniMath.CategoryTheory.categories.HSET.Slice]
terminal_in_full_subcategory [lemma, in UniMath.CategoryTheory.Subcategory.Limits]
Terminal_opp [definition, in UniMath.CategoryTheory.limits.Opp]
terminal_cochain_shifted_lim [definition, in UniMath.Induction.M.Chains]
terminal_cochain [definition, in UniMath.Induction.M.Chains]
Terminal_functor_precat [definition, in UniMath.CategoryTheory.limits.terminal]
terminal_from_empty_product [definition, in UniMath.CategoryTheory.limits.terminal]
Terminal_and_EmptyProd [section, in UniMath.CategoryTheory.limits.terminal]
Terminal_Unique.H [variable, in UniMath.CategoryTheory.limits.terminal]
Terminal_Unique.C [variable, in UniMath.CategoryTheory.limits.terminal]
Terminal_Unique [section, in UniMath.CategoryTheory.limits.terminal]
terminal_binprod_unit_r [lemma, in UniMath.CategoryTheory.limits.binproducts]
terminal_binprod_unit_l [lemma, in UniMath.CategoryTheory.limits.binproducts]
terminal:79 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
terminal:85 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
terminal:93 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
TermInduction [section, in UniMath.Algebra.Universal.Terms]
TermMonad [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Terms [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Terms [library]
termset [definition, in UniMath.Algebra.Universal.VTerms]
termset [definition, in UniMath.Algebra.Universal.Terms]
term_to_opp [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
term_ind_step [lemma, in UniMath.Algebra.Universal.Terms]
term_ind_onlength_nirrelevant [lemma, in UniMath.Algebra.Universal.Terms]
term_ind [lemma, in UniMath.Algebra.Universal.Terms]
term_ind_onlength [lemma, in UniMath.Algebra.Universal.Terms]
term_ind_HP [definition, in UniMath.Algebra.Universal.Terms]
term_notnil [lemma, in UniMath.Algebra.Universal.Terms]
term_normalization [lemma, in UniMath.Algebra.Universal.Terms]
term_decompose [definition, in UniMath.Algebra.Universal.Terms]
term_extens [lemma, in UniMath.Algebra.Universal.Terms]
term_algebra [definition, in UniMath.Algebra.Universal.TermAlgebras]
term_four [definition, in UniMath.Algebra.Universal.Examples.Tests]
term_two [definition, in UniMath.Algebra.Universal.Examples.Tests]
term_one [definition, in UniMath.Algebra.Universal.Examples.Tests]
term_zero [definition, in UniMath.Algebra.Universal.Examples.Tests]
Term.bool_varspec [definition, in UniMath.Algebra.Universal.Examples.Bool]
Term.bot [definition, in UniMath.Algebra.Universal.Examples.Bool]
Term.conj [definition, in UniMath.Algebra.Universal.Examples.Bool]
Term.disj [definition, in UniMath.Algebra.Universal.Examples.Bool]
Term.impl [definition, in UniMath.Algebra.Universal.Examples.Bool]
Term.interp [definition, in UniMath.Algebra.Universal.Examples.Bool]
Term.neg [definition, in UniMath.Algebra.Universal.Examples.Bool]
Term.T [definition, in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests [module, in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests.Dummett [lemma, in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests.f [definition, in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests.not_tautology [lemma, in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests.v [definition, in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests.x [definition, in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests.y [definition, in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests.z [definition, in UniMath.Algebra.Universal.Examples.Bool]
Term.top [definition, in UniMath.Algebra.Universal.Examples.Bool]
term2oplist [definition, in UniMath.Algebra.Universal.Terms]
term2proof [definition, in UniMath.Algebra.Universal.Terms]
test [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
test [section, in UniMath.CategoryTheory.limits.binproducts]
Test [library]
Test [library]
Test [library]
testfun [definition, in UniMath.Combinatorics.Tests]
testlemma1 [lemma, in UniMath.PAdics.z_mod_p]
testlemma2 [lemma, in UniMath.PAdics.z_mod_p]
testlemma21 [lemma, in UniMath.PAdics.z_mod_p]
testlemma3 [lemma, in UniMath.PAdics.z_mod_p]
testlemma9 [lemma, in UniMath.PAdics.z_mod_p]
testlist [definition, in UniMath.CategoryTheory.Inductives.Lists]
testlistS [definition, in UniMath.CategoryTheory.Inductives.Lists]
Tests [library]
Tests [library]
Tests [library]
Tests [library]
Tests [library]
Tests [library]
Tests_el.f [variable, in UniMath.Combinatorics.VectorsTests]
Tests_el.v [variable, in UniMath.Combinatorics.VectorsTests]
Tests_el [section, in UniMath.Combinatorics.VectorsTests]
testtree [definition, in UniMath.CategoryTheory.Inductives.Trees]
Test_search.P_inhab' [variable, in UniMath.Combinatorics.Tests]
Test_search [section, in UniMath.Combinatorics.Tests]
Test_ord.TestLex2.y [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex2.x [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex2.X [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex2.j [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex2.i [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex2 [section, in UniMath.Combinatorics.Tests]
Test_ord.TestLex.t' [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex.t [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex.y2 [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex.y1 [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex.x3 [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex.x2 [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex.T [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex.Z [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex.S [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex.Y [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex.R [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex.X [variable, in UniMath.Combinatorics.Tests]
Test_ord.TestLex [section, in UniMath.Combinatorics.Tests]
Test_ord [section, in UniMath.Combinatorics.Tests]
Test_finite_sets [section, in UniMath.Combinatorics.Tests]
Test_seq [section, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.eqT [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.T [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.eqW [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.W [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.Y' [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.eqV [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.V [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.finY [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.y' [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.y [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.Y [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.c'' [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.c' [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.c [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.eqQ [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.C [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.eqbool [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.decide [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.x' [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.x [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.eqX [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.finX [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.X [variable, in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq [section, in UniMath.Combinatorics.Tests]
Test_fin [section, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqfromprodofstn.f' [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqfromprodofstn.f [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqfromprodofstn [section, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqstnsum.f' [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqstnsum.f [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqstnsum.W [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqstnsum.Y [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqstnsum.X [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqstnsum [section, in UniMath.Combinatorics.Tests]
Test_stn.Test2 [section, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.jni [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.j [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.v [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.Y [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.i [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.X [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.n [variable, in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl [section, in UniMath.Combinatorics.Tests]
Test_stn [section, in UniMath.Combinatorics.Tests]
_ :: _ [notation, in UniMath.Combinatorics.Tests]
[] [notation, in UniMath.Combinatorics.Tests]
Test_list [section, in UniMath.Combinatorics.Tests]
Test_assoc.Unnamed_thm8 [definition, in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm7 [definition, in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm6 [definition, in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm5 [definition, in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm4 [definition, in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm3 [definition, in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm2 [definition, in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm1 [definition, in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm0 [definition, in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm [definition, in UniMath.Algebra.Tests]
Test_assoc.Test [section, in UniMath.Algebra.Tests]
_ :: _ [notation, in UniMath.Algebra.Tests]
[] [notation, in UniMath.Algebra.Tests]
Test_assoc [module, in UniMath.Algebra.Tests]
Test_vec_append.w [variable, in UniMath.Combinatorics.VectorsTests]
Test_vec_append.v [variable, in UniMath.Combinatorics.VectorsTests]
Test_vec_append.u [variable, in UniMath.Combinatorics.VectorsTests]
Test_vec_append [section, in UniMath.Combinatorics.VectorsTests]
Test_vec_foldr1.v [variable, in UniMath.Combinatorics.VectorsTests]
Test_vec_foldr1 [section, in UniMath.Combinatorics.VectorsTests]
Test_vec_foldr.v [variable, in UniMath.Combinatorics.VectorsTests]
Test_vec_foldr [section, in UniMath.Combinatorics.VectorsTests]
Test_rat.Unnamed_thm1 [definition, in UniMath.NumberSystems.Tests]
Test_rat.Unnamed_thm0 [definition, in UniMath.NumberSystems.Tests]
Test_rat.Unnamed_thm [definition, in UniMath.NumberSystems.Tests]
Test_rat [module, in UniMath.NumberSystems.Tests]
Test_int.Unnamed_thm4 [definition, in UniMath.NumberSystems.Tests]
Test_int.Unnamed_thm3 [definition, in UniMath.NumberSystems.Tests]
Test_int.Unnamed_thm2 [definition, in UniMath.NumberSystems.Tests]
Test_int.Unnamed_thm1 [definition, in UniMath.NumberSystems.Tests]
Test_int.Unnamed_thm0 [definition, in UniMath.NumberSystems.Tests]
Test_int.Unnamed_thm [definition, in UniMath.NumberSystems.Tests]
Test_int [module, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm16 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm15 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm14 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm13 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm12 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm11 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm10 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm9 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm8 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm7 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm6 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm5 [definition, in UniMath.NumberSystems.Tests]
_ □ _ [notation, in UniMath.NumberSystems.Tests]
Test_finsum.Iteration [section, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm5 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm4 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm3 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm2 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm1 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm0 [definition, in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm [definition, in UniMath.NumberSystems.Tests]
Test_finsum [module, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm32 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm31 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm30 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm29 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm28 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm27 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm26 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm25 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm24 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm23 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Test_weqdicompl.w [variable, in UniMath.NumberSystems.Tests]
Test_nat.Test_weqdicompl [section, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm22 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm21 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm20 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm19 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm18 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm17 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm16 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm15 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm14 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm13 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm12 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm11 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm10 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm10 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm9 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm8 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm7 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm6 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm5 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm4 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Test_A.f' [variable, in UniMath.NumberSystems.Tests]
Test_nat.Test_A.f [variable, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm3 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm3 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm2 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm1 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Test_A.cn' [variable, in UniMath.NumberSystems.Tests]
Test_nat.Test_A.cn [variable, in UniMath.NumberSystems.Tests]
Test_nat.Test_A.w [variable, in UniMath.NumberSystems.Tests]
Test_nat.Test_A.C' [variable, in UniMath.NumberSystems.Tests]
Test_nat.Test_A.C [variable, in UniMath.NumberSystems.Tests]
Test_nat.Test_A [section, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm0 [definition, in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm [definition, in UniMath.NumberSystems.Tests]
Test_nat [module, in UniMath.NumberSystems.Tests]
Test_sets.Unnamed_thm0 [definition, in UniMath.Foundations.Tests]
Test_sets.Unnamed_thm [definition, in UniMath.Foundations.Tests]
Test_sets [module, in UniMath.Foundations.Tests]
Test_weqtotal2overcoprod.P [variable, in UniMath.Foundations.Tests]
Test_weqtotal2overcoprod [section, in UniMath.Foundations.Tests]
Test_isweq_iso.w [variable, in UniMath.Foundations.Tests]
Test_isweq_iso.f [variable, in UniMath.Foundations.Tests]
Test_isweq_iso [section, in UniMath.Foundations.Tests]
test' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
test.C [variable, in UniMath.CategoryTheory.limits.binproducts]
test.H [variable, in UniMath.CategoryTheory.limits.binproducts]
_ x _ [notation, in UniMath.CategoryTheory.limits.binproducts]
test0 [definition, in UniMath.PAdics.fps]
test1 [definition, in UniMath.PAdics.fps]
TExt [definition, in UniMath.HomologicalAlgebra.Triangulated]
TExtComm1 [definition, in UniMath.HomologicalAlgebra.Triangulated]
TExtComm2 [definition, in UniMath.HomologicalAlgebra.Triangulated]
TExtMor [definition, in UniMath.HomologicalAlgebra.Triangulated]
TExt_Mor [definition, in UniMath.HomologicalAlgebra.Triangulated]
te:1987 [binder, in UniMath.Foundations.PartA]
TE:216 [binder, in UniMath.HomologicalAlgebra.Triangulated]
TE:222 [binder, in UniMath.HomologicalAlgebra.Triangulated]
TE:228 [binder, in UniMath.HomologicalAlgebra.Triangulated]
TE:234 [binder, in UniMath.HomologicalAlgebra.Triangulated]
theDefinition [section, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
TheoremOfHinzeAndWu [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
ThePseudoFunctors [section, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
ThePseudoFunctors.FunctorCategoryWithFixedSource [section, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
ThePseudoFunctors.ProductWithFixedSecondArgument [section, in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
theSmallest [definition, in UniMath.Combinatorics.WellOrderedSets]
theta [definition, in UniMath.SubstitutionSystems.Signatures]
thetahat [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
thetahat [definition, in UniMath.SubstitutionSystems.LiftingInitial]
thetahat_0 [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
thetahat_0 [definition, in UniMath.SubstitutionSystems.LiftingInitial]
theUnivalenceProperty [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
the_comp [definition, in UniMath.Combinatorics.WellFoundedRelations]
the_value [definition, in UniMath.Combinatorics.WellFoundedRelations]
the_attempt [definition, in UniMath.Combinatorics.WellFoundedRelations]
the_world_explodes [lemma, in UniMath.Paradoxes.GirardsParadox]
third_iso_on_functors [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
third_iso_nat_in_F [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
third_iso_nat_in_x [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
third_iso_on_sets [lemma, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
third_monad_law_from_hss [lemma, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Three [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
three [definition, in UniMath.Combinatorics.StandardFiniteSets]
Three [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
three_rec_dep [definition, in UniMath.Combinatorics.StandardFiniteSets]
three_rec [definition, in UniMath.Combinatorics.StandardFiniteSets]
ThroughZeroIsZero [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
tightap [definition, in UniMath.Algebra.Apartness]
tightapSet [definition, in UniMath.Algebra.Apartness]
tightapSet_dec [lemma, in UniMath.Algebra.Apartness]
tightapSet_rel [definition, in UniMath.Algebra.Apartness]
tightapSet_apSet [definition, in UniMath.Algebra.Apartness]
tightap_aprel [definition, in UniMath.Algebra.Apartness]
tightness [lemma, in UniMath.Combinatorics.OrderedSets]
tildehProp [definition, in UniMath.Foundations.Propositions]
timesazero [lemma, in UniMath.PAdics.lemmas]
timesV [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
timesV' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
timesW [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
timesW' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
tiny_object_preshv.Yon [variable, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
tiny_object_preshv.prod_functor_c [variable, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
tiny_object_preshv [section, in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
tip:22 [binder, in UniMath.CategoryTheory.Subcategory.Limits]
Ti:51 [binder, in UniMath.HomologicalAlgebra.Triangulated]
Ti:55 [binder, in UniMath.HomologicalAlgebra.Triangulated]
Ti:59 [binder, in UniMath.HomologicalAlgebra.Triangulated]
Ti:76 [binder, in UniMath.HomologicalAlgebra.Triangulated]
Ti:80 [binder, in UniMath.HomologicalAlgebra.Triangulated]
Ti:84 [binder, in UniMath.HomologicalAlgebra.Triangulated]
Ti:88 [binder, in UniMath.HomologicalAlgebra.Triangulated]
tl [definition, in UniMath.Combinatorics.Vectors]
tl_vec_map [lemma, in UniMath.Combinatorics.Vectors]
tl:126 [binder, in UniMath.Combinatorics.MoreLists]
tl:31 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
TM1:33 [binder, in UniMath.HomologicalAlgebra.Triangulated]
TM1:38 [binder, in UniMath.HomologicalAlgebra.Triangulated]
TM1:43 [binder, in UniMath.HomologicalAlgebra.Triangulated]
TM2:34 [binder, in UniMath.HomologicalAlgebra.Triangulated]
TM2:39 [binder, in UniMath.HomologicalAlgebra.Triangulated]
TM2:44 [binder, in UniMath.HomologicalAlgebra.Triangulated]
TM:29 [binder, in UniMath.HomologicalAlgebra.Triangulated]
Tm:49 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Tm:82 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
tn:8 [binder, in UniMath.Algebra.Universal.Examples.Nat]
toabgrdiff [definition, in UniMath.Algebra.Groups]
toabmonoidfrac [definition, in UniMath.Algebra.Monoids]
ToAcyclicComplexFromObject [definition, in UniMath.HomologicalAlgebra.Complexes]
ToAcyclicComplexFromObject_Eq [lemma, in UniMath.HomologicalAlgebra.Complexes]
ToAcyclicComplexFromObject_mors_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
ToAcyclicComplexFromObject_mors_comm_eq2 [lemma, in UniMath.HomologicalAlgebra.Complexes]
ToAcyclicComplexFromObject_mors_comm_eq1 [lemma, in UniMath.HomologicalAlgebra.Complexes]
ToAcyclicComplexFromObject_mors [definition, in UniMath.HomologicalAlgebra.Complexes]
TOanti [definition, in UniMath.Combinatorics.WellOrderedSets]
ToBinDirectSum [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
ToBinDirectSumFormula [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
ToBinDirectSumFormulaUnique [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
ToBinDirectSumsEq [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
ToBinDirectSumUnique [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
toBranch_hsubtype [lemma, in UniMath.Combinatorics.ZFstructures]
tococonusf [definition, in UniMath.Foundations.PartA]
tocommringfrac [definition, in UniMath.Algebra.RigsAndRings]
tocommringfracandminus [definition, in UniMath.Algebra.RigsAndRings]
tocommringfracandminus0 [definition, in UniMath.Algebra.RigsAndRings]
tocompltodisjoint [definition, in UniMath.Foundations.PartC]
tocompltoii1x [definition, in UniMath.Foundations.PartC]
tocompltoii2y [definition, in UniMath.Foundations.PartC]
toDirectSum [definition, in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
todneg [definition, in UniMath.Foundations.PartA]
TOeq_to_refl_1 [definition, in UniMath.Combinatorics.WellOrderedSets]
TOeq_to_refl [definition, in UniMath.Combinatorics.WellOrderedSets]
tofldfrac [definition, in UniMath.Algebra.Domains_and_Fields]
tofldfracandminus [definition, in UniMath.Algebra.Domains_and_Fields]
tofldfracandminus0 [definition, in UniMath.Algebra.Domains_and_Fields]
toforallpaths [definition, in UniMath.Foundations.PartA]
toforallpaths_induction [lemma, in UniMath.Foundations.UnivalenceAxiom]
toforallpaths_funextsec_comp [definition, in UniMath.MoreFoundations.Univalence]
toforallpaths_funextsec [lemma, in UniMath.MoreFoundations.Univalence]
tonegcoprod [lemma, in UniMath.Foundations.Propositions]
tonegdirprod [lemma, in UniMath.Foundations.Propositions]
toneghdisj [lemma, in UniMath.Foundations.Propositions]
top [section, in UniMath.AlgebraicGeometry.Topology]
toPathOverIdpath [definition, in UniMath.MoreFoundations.PathsOver]
TopologicalSet [definition, in UniMath.Topology.Topology]
TopologicalSpace [definition, in UniMath.AlgebraicGeometry.Topology]
topologicalSpaceSet [definition, in UniMath.AlgebraicGeometry.Topology]
Topological_ConstructiveField [definition, in UniMath.Topology.Topology]
Topological_ConstructiveDivisionRig [definition, in UniMath.Topology.Topology]
Topological_fld [definition, in UniMath.Topology.Topology]
Topological_DivRig [definition, in UniMath.Topology.Topology]
Topological_ring [definition, in UniMath.Topology.Topology]
Topological_rig [definition, in UniMath.Topology.Topology]
Topological_gr [definition, in UniMath.Topology.Topology]
Topological_monoid [definition, in UniMath.Topology.Topology]
Topology [library]
Topology [library]
TopologyDirprod [definition, in UniMath.Topology.Topology]
topologydirprod [definition, in UniMath.Topology.Topology]
topologydirprod [section, in UniMath.Topology.Topology]
topologydirprod_neighborhood [lemma, in UniMath.Topology.Topology]
topologydirprod_point [lemma, in UniMath.Topology.Topology]
topologydirprod_and [lemma, in UniMath.Topology.Topology]
topologydirprod_htrue [lemma, in UniMath.Topology.Topology]
topologydirprod_imply [lemma, in UniMath.Topology.Topology]
TopologyFromNeighborhood [definition, in UniMath.Topology.Topology]
topologyfromneighborhood [definition, in UniMath.Topology.Topology]
TopologyFromNeighborhood [section, in UniMath.Topology.Topology]
TopologyFromNeighborhood_correct [lemma, in UniMath.Topology.Topology]
topologyfromneighborhood_open [lemma, in UniMath.Topology.Topology]
TopologyGenerated [definition, in UniMath.Topology.Topology]
topologygenerated [definition, in UniMath.Topology.Topology]
topologygenerated [section, in UniMath.Topology.Topology]
TopologyGenerated_smallest [lemma, in UniMath.Topology.Topology]
TopologyGenerated_included [lemma, in UniMath.Topology.Topology]
topologygenerated_neighborhood [lemma, in UniMath.Topology.Topology]
topologygenerated_point [lemma, in UniMath.Topology.Topology]
topologygenerated_and [lemma, in UniMath.Topology.Topology]
topologygenerated_htrue [lemma, in UniMath.Topology.Topology]
topologygenerated_imply [lemma, in UniMath.Topology.Topology]
TopologySubtype [definition, in UniMath.Topology.Topology]
topologysubtype [definition, in UniMath.Topology.Topology]
topologysubtype [section, in UniMath.Topology.Topology]
topologysubtype_neighborhood [lemma, in UniMath.Topology.Topology]
topologysubtype_point [lemma, in UniMath.Topology.Topology]
topologysubtype_and [lemma, in UniMath.Topology.Topology]
topologysubtype_htrue [lemma, in UniMath.Topology.Topology]
topologysubtype_imply [lemma, in UniMath.Topology.Topology]
Topology_pty [section, in UniMath.Topology.Topology]
top_disp_cat_axioms [definition, in UniMath.Topology.CategoryTop]
top_disp_cat_data [definition, in UniMath.Topology.CategoryTop]
top_disp_cat_ob_mor [definition, in UniMath.Topology.CategoryTop]
top_mor_M:109 [binder, in UniMath.CategoryTheory.LatticeObject]
top_mor [definition, in UniMath.CategoryTheory.LatticeObject]
top_op [definition, in UniMath.Algebra.Universal.Examples.Tests]
top:41 [binder, in UniMath.Algebra.Lattice]
top:45 [binder, in UniMath.Algebra.Lattice]
top:48 [binder, in UniMath.CategoryTheory.LatticeObject]
top:49 [binder, in UniMath.Algebra.Lattice]
top:52 [binder, in UniMath.CategoryTheory.LatticeObject]
top:56 [binder, in UniMath.CategoryTheory.LatticeObject]
TOrefl [definition, in UniMath.Combinatorics.WellOrderedSets]
toRepresentableFunctor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
toRepresentation [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
toringdiff [definition, in UniMath.Algebra.RigsAndRings]
Torsor [definition, in UniMath.Algebra.GroupAction]
TorsorIso_rect' [lemma, in UniMath.Algebra.GroupAction]
TorsorIso_rect [lemma, in UniMath.Algebra.GroupAction]
torsorMapIsIso [lemma, in UniMath.Algebra.GroupAction]
torsorMap_to_path [definition, in UniMath.Algebra.GroupAction]
torsorMap_to_torsorIso [definition, in UniMath.Algebra.GroupAction]
torsor_univalence_id [lemma, in UniMath.Algebra.GroupAction]
torsor_eqweq_to_path [definition, in UniMath.Algebra.GroupAction]
torsor_univalence_inv_comp_eval [definition, in UniMath.Algebra.GroupAction]
torsor_univalence_comp [definition, in UniMath.Algebra.GroupAction]
torsor_hlevel [lemma, in UniMath.Algebra.GroupAction]
torsor_univalence_transport [definition, in UniMath.Algebra.GroupAction]
torsor_univalence [definition, in UniMath.Algebra.GroupAction]
torsor_update_nonempty [definition, in UniMath.Algebra.GroupAction]
torsor_mult_weq' [definition, in UniMath.Algebra.GroupAction]
torsor_mult_weq [definition, in UniMath.Algebra.GroupAction]
torsor_splitting [definition, in UniMath.Algebra.GroupAction]
torsor_nonempty [definition, in UniMath.Algebra.GroupAction]
tosecovertotal2 [definition, in UniMath.Foundations.PartD]
tosecoverunit [definition, in UniMath.Foundations.PartD]
tosecoverunit_compute [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
TOSrel [definition, in UniMath.Combinatorics.WellOrderedSets]
tosubquot [definition, in UniMath.Foundations.Sets]
TOSubset [definition, in UniMath.Combinatorics.WellOrderedSets]
TOSubset_plus_point_initial [lemma, in UniMath.Combinatorics.WellOrderedSets]
TOSubset_plus_point_le [lemma, in UniMath.Combinatorics.WellOrderedSets]
TOSubset_plus_point_incl [lemma, in UniMath.Combinatorics.WellOrderedSets]
TOSubset_plus_point [definition, in UniMath.Combinatorics.WellOrderedSets]
TOSubset_plus_point_rel [definition, in UniMath.Combinatorics.WellOrderedSets]
TOSubset_to_subtype [definition, in UniMath.Combinatorics.WellOrderedSets]
TOSubset_set [definition, in UniMath.Combinatorics.WellOrderedSets]
tosubtypesdirprodcarrier [definition, in UniMath.Foundations.Sets]
tosub_fidelity [lemma, in UniMath.Combinatorics.WellOrderedSets]
tosub_le [definition, in UniMath.Combinatorics.WellOrderedSets]
tosub_order_compat [definition, in UniMath.Combinatorics.WellOrderedSets]
tosunit [definition, in UniMath.Algebra.Universal.SortedTypes]
total [definition, in UniMath.Combinatorics.ZFstructures]
totalAssociativity [definition, in UniMath.MoreFoundations.PartA]
TotalDispProd [section, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
TotalDispProd.T [variable, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
TotalDispProd.T' [variable, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
totalfst [definition, in UniMath.MoreFoundations.PartD]
totalfst_display [lemma, in UniMath.MoreFoundations.PartD]
totalfun [definition, in UniMath.Foundations.PartA]
TotalOrdering [definition, in UniMath.Combinatorics.WellOrderedSets]
totalsubgr [definition, in UniMath.Algebra.Groups]
totalsubmonoid [definition, in UniMath.Algebra.Monoids]
totalsubsetwithbinop [definition, in UniMath.Algebra.BinaryOperations]
totalsubsetwith2binop [definition, in UniMath.Algebra.BinaryOperations]
totalsubtype [definition, in UniMath.Foundations.Sets]
totaltoforall [definition, in UniMath.Foundations.PartD]
Total_invertible_2cells [section, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
total_psfunctor [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
total_psfunctor_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
total_psfunctor_data [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
Total_Internal_Adjunction [section, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
total_sigma_cell_eq [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
total_cell_eq [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
total_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
total_functor_axioms [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
total_functor_data [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
total_iso_equiv [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
total_isweq_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
total_iso_equiv_map [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
total_iso [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
total_category [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
total_category_has_homsets [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
total_precategory [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
total_category_is_precat [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
total_category_data [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
total_category_id_comp [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
total_category_ob_mor [definition, in UniMath.CategoryTheory.DisplayedCats.Core]
Total_Category.Total_Category_data [section, in UniMath.CategoryTheory.DisplayedCats.Core]
Total_Category [section, in UniMath.CategoryTheory.DisplayedCats.Core]
total_invmodification [definition, in UniMath.Bicategories.DisplayedBicats.DispModification]
total_invmodification_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispModification]
total_invmodification_data [definition, in UniMath.Bicategories.DisplayedBicats.DispModification]
total_modification_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispModification]
total_modification_data [definition, in UniMath.Bicategories.DisplayedBicats.DispModification]
total_domain [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
total_functor_alg [definition, in UniMath.CategoryTheory.DisplayedCats.Examples]
total_is_univalent_2 [lemma, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
total_is_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Globally_Univalent.HD [variable, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Globally_Univalent.HC [variable, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Globally_Univalent.D [variable, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Globally_Univalent [section, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
total_is_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Univalent_2_1.HD [variable, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Univalent_2_1.HC [variable, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Univalent_2_1.D [variable, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Univalent_2_1 [section, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
total_limits [definition, in UniMath.CategoryTheory.DisplayedCats.Limits]
total_bicat [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_prebicat_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_prebicat_data [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_prebicat_2_id_comp_struct [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_prebicat_cell_struct [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_prebicat_1_data [definition, in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_pstrans [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
total_pstrans_laws [lemma, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
total_pstrans_data [definition, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
total_univalent_category [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
total_tensor [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
total_bifunctor [definition, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
total_left_biadj_data [definition, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
total_left_biadj_unit_counit [definition, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
total_is_biequivalence [definition, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_biequivalence_counit_inv_counit [definition, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_biequivalence_counit_counit_inv [definition, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_biequivalence_unit_inv_unit [definition, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_biequivalence_unit_unit_inv [definition, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_biequivalence_counit_inv [definition, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_biequivalence_unit_inv [definition, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_is_biequivalence_unit_counit [definition, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_morphisms [definition, in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
total2 [record, in UniMath.Foundations.Preamble]
total2asstol [lemma, in UniMath.Foundations.PartA]
total2asstor [lemma, in UniMath.Foundations.PartA]
total2tohexists [definition, in UniMath.Foundations.Propositions]
total2withnattoleF [lemma, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
total2_assoc_fun_left [lemma, in UniMath.MoreFoundations.WeakEquivalences]
total2_paths_hProp_equiv [lemma, in UniMath.Foundations.Propositions]
total2_reassoc_paths' [lemma, in UniMath.MoreFoundations.PartA]
total2_reassoc_paths [lemma, in UniMath.MoreFoundations.PartA]
total2_paths2_comp2 [definition, in UniMath.MoreFoundations.PartA]
total2_paths2_comp1 [definition, in UniMath.MoreFoundations.PartA]
total2_hSet [definition, in UniMath.Foundations.Sets]
total2_paths_equiv [lemma, in UniMath.Foundations.PartA]
total2_section_path [lemma, in UniMath.Foundations.PartA]
total2_base_map [definition, in UniMath.Foundations.PartA]
total2_fiber_paths [lemma, in UniMath.Foundations.PartA]
total2_paths2_b [lemma, in UniMath.Foundations.PartA]
total2_paths2_f [lemma, in UniMath.Foundations.PartA]
total2_paths2 [lemma, in UniMath.Foundations.PartA]
total2_paths_b [lemma, in UniMath.Foundations.PartA]
total2_paths_f [lemma, in UniMath.Foundations.PartA]
total2_hProp [definition, in UniMath.MoreFoundations.Notations]
total2_paths_equiv'_compute [lemma, in UniMath.MoreFoundations.AlternativeProofs]
total2_paths_equiv' [lemma, in UniMath.MoreFoundations.AlternativeProofs]
total:438 [binder, in UniMath.Combinatorics.WellOrderedSets]
TOtot [definition, in UniMath.Combinatorics.WellOrderedSets]
TOtotal [definition, in UniMath.Combinatorics.WellOrderedSets]
tototal2overcoprod [definition, in UniMath.Foundations.PartA]
tototal2overunit [definition, in UniMath.Foundations.PartA]
TOtrans [definition, in UniMath.Combinatorics.WellOrderedSets]
toTrivialTorsor [definition, in UniMath.Algebra.GroupAction]
tot_nle_iff_gt [lemma, in UniMath.Combinatorics.OrderedSets]
tot_nge_to_le [lemma, in UniMath.Combinatorics.OrderedSets]
tounit [definition, in UniMath.Foundations.PartA]
ToZeroIsEpi [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
to_ListK [lemma, in UniMath.CategoryTheory.Inductives.Lists]
to_listK [lemma, in UniMath.CategoryTheory.Inductives.Lists]
to_list [definition, in UniMath.CategoryTheory.Inductives.Lists]
to_List [definition, in UniMath.CategoryTheory.Inductives.Lists]
to_EpisAreCokernels [definition, in UniMath.CategoryTheory.Abelian]
to_MonicsAreKernels [definition, in UniMath.CategoryTheory.Abelian]
to_Data2 [definition, in UniMath.CategoryTheory.Abelian]
to_Data1 [definition, in UniMath.CategoryTheory.Abelian]
to_Cokernels [definition, in UniMath.CategoryTheory.Abelian]
to_Kernels [definition, in UniMath.CategoryTheory.Abelian]
to_BinCoproducts [definition, in UniMath.CategoryTheory.Abelian]
to_BinProducts [definition, in UniMath.CategoryTheory.Abelian]
to_Zero [definition, in UniMath.CategoryTheory.Abelian]
to_BinOpId'' [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
to_BinOpId' [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
to_matrix [definition, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
to_col [definition, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
to_row [definition, in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
to_ComplementaryPair [definition, in UniMath.MoreFoundations.DecidablePropositions]
to_image [definition, in UniMath.Algebra.FixedPointTheorems]
to_initial_isEpi [lemma, in UniMath.CategoryTheory.limits.initial]
to_binop [definition, in UniMath.CategoryTheory.CategoriesWithBinOps]
to_Pr2_isEpi [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
to_Pr1_isEpi [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
to_In2_isMonic [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
to_In1_isMonic [lemma, in UniMath.CategoryTheory.limits.BinDirectSums]
to_Pr2 [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
to_Pr1 [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
to_In2 [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
to_In1 [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
to_BinOpId [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
to_Unel2 [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
to_Unel1 [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
to_IdIn2 [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
to_IdIn1 [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
to_isBinProduct [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
to_isBinCoproduct [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
to_quot_mor [definition, in UniMath.CategoryTheory.PreAdditive]
to_op_elem [lemma, in UniMath.CategoryTheory.PreAdditive]
to_inv_elem [lemma, in UniMath.CategoryTheory.PreAdditive]
to_inv_isEpi [lemma, in UniMath.CategoryTheory.PreAdditive]
to_inv_isMonic [lemma, in UniMath.CategoryTheory.PreAdditive]
to_inv_zero [lemma, in UniMath.CategoryTheory.PreAdditive]
to_rinvax' [lemma, in UniMath.CategoryTheory.PreAdditive]
to_linvax' [lemma, in UniMath.CategoryTheory.PreAdditive]
to_runax'' [lemma, in UniMath.CategoryTheory.PreAdditive]
to_lunax'' [lemma, in UniMath.CategoryTheory.PreAdditive]
to_postmor_unel' [lemma, in UniMath.CategoryTheory.PreAdditive]
to_premor_unel' [lemma, in UniMath.CategoryTheory.PreAdditive]
to_postmor_unel [definition, in UniMath.CategoryTheory.PreAdditive]
to_premor_unel [definition, in UniMath.CategoryTheory.PreAdditive]
to_postmor_linear' [lemma, in UniMath.CategoryTheory.PreAdditive]
to_premor_linear' [lemma, in UniMath.CategoryTheory.PreAdditive]
to_postmor_linear [definition, in UniMath.CategoryTheory.PreAdditive]
to_premor_linear [definition, in UniMath.CategoryTheory.PreAdditive]
to_postmor_monoidfun [definition, in UniMath.CategoryTheory.PreAdditive]
to_premor_monoidfun [definition, in UniMath.CategoryTheory.PreAdditive]
to_postmor_monoid [definition, in UniMath.CategoryTheory.PreAdditive]
to_premor_monoid [definition, in UniMath.CategoryTheory.PreAdditive]
to_binop_inv_comm_2 [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_binop_inv_comm_1 [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_binop_inv_inv [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_assoc [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_rrw [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_lrw [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_rcan [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_lcan [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_inv_unel [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_postmor [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_premor [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_commax' [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_commax [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_inv [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_runax' [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_runax [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_lunax' [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_lunax [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_unel [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_abgr [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_isabgrop [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_setwithbinop [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_homset [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_has_homsets [definition, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_isEpi [lemma, in UniMath.CategoryTheory.Additive]
to_isMonic [lemma, in UniMath.CategoryTheory.Additive]
to_hasBinDirectSums [definition, in UniMath.CategoryTheory.Additive]
to_hasZero [definition, in UniMath.CategoryTheory.Additive]
to_Unel2' [lemma, in UniMath.CategoryTheory.Additive]
to_Unel1' [lemma, in UniMath.CategoryTheory.Additive]
to_BinProducts [definition, in UniMath.CategoryTheory.Additive]
to_BinCoproducts [definition, in UniMath.CategoryTheory.Additive]
to_BinDirectSums [definition, in UniMath.CategoryTheory.Additive]
to_Zero [definition, in UniMath.CategoryTheory.Additive]
to_AdditiveStructure [definition, in UniMath.CategoryTheory.Additive]
toℤ [definition, in UniMath.NumberSystems.Integers]
toℤneg [definition, in UniMath.NumberSystems.Integers]
tpair [constructor, in UniMath.Foundations.Preamble]
tp:2364 [binder, in UniMath.Foundations.PartA]
tp:68 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
tp:70 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
tp:74 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
tp:76 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
trafotargetbicat_cat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotargetbicat_disp [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotargetbicat_disp_cat_axioms [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotargetbicat_disp_cells_isaprop [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotargetbicat_disp_cat_data [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotargetbicat_disp_cat_id_comp [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotargetbicat_disp_cat_ob_mor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_with_eq [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_cat [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_disp [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_disp_cat_axioms [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_disp_cells_isaprop [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_disp_cat_data [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_disp_cat_id_comp [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_disp_cat_ob_mor [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
traho_of_Hinze_Wu_ok [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
traho_of_Hinze_Wu [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Trans [definition, in UniMath.HomologicalAlgebra.Triangulated]
trans [definition, in UniMath.Paradoxes.GirardsParadox]
transfiniteRecursion [lemma, in UniMath.Combinatorics.WellOrderedSets]
transitive_paths_weq [definition, in UniMath.MoreFoundations.WeakEquivalences]
TranslationComplex [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquivCounitInv [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquivCounitInvComm [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquivUnitInv [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquivUnitInvComm [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv_is_iso2 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv_is_iso2_eq2 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv_is_iso2_eq1 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv_is_iso1 [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv_is_iso1_eq2 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv_is_iso1_eq1 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorHIm [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorHImEq [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorHImEquality [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorHImMor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorHomotopies [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_AdditiveFunctor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_isAdditiveFunctor [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_Mor_Im [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_comm [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_is_functor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_Mor_Comp [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_Mor_Id [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_data [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_Mor_unique [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_Mor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_Mor_data [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorPreservesHomotopies [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctors [library]
TranslationFunctor_eq [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor_Additive [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor_isAdditive [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor_isfunctor [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor_data [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor_comm [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor_comp [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv_is_iso2 [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv_is_iso2_eq2' [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv_is_iso2_eq1' [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv_is_iso1 [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv_is_iso1_eq2' [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv_is_iso1_eq1' [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHInvTranslationH [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHInvTranslationHNatTrans_isnattrans [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHInvTranslationH_adjunction [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHInvTranslationH_adjunction_eq2 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHInvTranslationH_adjunction_eq1 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHomot [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHTranslationInvHNatTrans [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationInvTranslation [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationInvTranslation_adjunction [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationInvTranslation_adjunction_eq2 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationInvTranslation_adjunction_eq1 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationInvTranslation_eq2 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationInvTranslation_eq1 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationMorphism [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationMorphism_mor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationTranslationInvNatTrans [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationTranslationInvNatTrans_isnattrans [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationTranslationInvNatTrans_Mor [definition, in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationTranslationInvNatTrans_Eq1 [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
translation_functor.A [variable, in UniMath.HomologicalAlgebra.TranslationFunctors]
translation_functor [section, in UniMath.HomologicalAlgebra.TranslationFunctors]
translelt:207 [binder, in UniMath.Combinatorics.OrderedSets]
transltle:203 [binder, in UniMath.Combinatorics.OrderedSets]
translt:222 [binder, in UniMath.Combinatorics.OrderedSets]
transportb [definition, in UniMath.Foundations.PartA]
transportbfinv [definition, in UniMath.Foundations.PartA]
transportb_isotoid [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
transportb_disp_psfunctor [definition, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
transportb_pair [definition, in UniMath.MoreFoundations.PartA]
transportb_transpose_left [definition, in UniMath.MoreFoundations.PartA]
transportb_transpose_right [definition, in UniMath.MoreFoundations.PartA]
transportb_dirprod [definition, in UniMath.Foundations.PartA]
transportb_const [definition, in UniMath.Foundations.PartA]
transportb_fun' [lemma, in UniMath.Foundations.PartA]
transportb2 [definition, in UniMath.MoreFoundations.PartA]
transportD [definition, in UniMath.Foundations.PartA]
transportf [definition, in UniMath.Foundations.PartA]
transportfbinv [definition, in UniMath.Foundations.PartA]
transportFiniteOrdering [definition, in UniMath.Combinatorics.OrderedSets]
transportf_PreShv [lemma, in UniMath.CategoryTheory.Presheaf]
transportf_cell_from_invertible_2cell_eq [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
transportf_subtypePath' [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
transportf_make_ob [lemma, in UniMath.CategoryTheory.ElementsOp]
transportf_make_ob_eq [lemma, in UniMath.CategoryTheory.ElementsOp]
transportf_isotoid_functor [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
transportf_yy [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
transportf_reindex [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
transportf_bind [lemma, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
transportf_fun_idpath [lemma, in UniMath.MoreFoundations.Equivalences]
transportf_subtypePath [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
transportf_isotoid' [lemma, in UniMath.CategoryTheory.limits.bincoproducts]
transportf_funextfun [definition, in UniMath.Foundations.UnivalenceAxiom]
transportf_precompose_disp [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
transportf_iso_disp [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
transportf_trivial [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
transportf_pathsinv0_var [lemma, in UniMath.CategoryTheory.DisplayedCats.Constructions]
transportf_fst_arg [lemma, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
transportf_fst_arg_type [lemma, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
transportf_isotoid_dep'' [lemma, in UniMath.CategoryTheory.Core.Univalence]
transportf_isotoid_dep' [lemma, in UniMath.CategoryTheory.Core.Univalence]
transportf_isotoid_dep [lemma, in UniMath.CategoryTheory.Core.Univalence]
transportf_isotoid' [lemma, in UniMath.CategoryTheory.Core.Univalence]
transportf_isotoid [lemma, in UniMath.CategoryTheory.Core.Univalence]
transportf_total2_paths_f [definition, in UniMath.MoreFoundations.PartA]
transportf_sec_constant [lemma, in UniMath.MoreFoundations.PartA]
transportf_paths_FlFr [lemma, in UniMath.MoreFoundations.PartA]
transportf_total2_const [lemma, in UniMath.MoreFoundations.PartA]
transportf_pathsinv0' [definition, in UniMath.MoreFoundations.PartA]
transportf_pair [lemma, in UniMath.MoreFoundations.PartA]
transportf_set [lemma, in UniMath.MoreFoundations.PartA]
transportf_comp_lemma_hset [lemma, in UniMath.MoreFoundations.PartA]
transportf_comp_lemma [lemma, in UniMath.MoreFoundations.PartA]
transportf_pathsinv0 [definition, in UniMath.MoreFoundations.PartA]
transportf_transpose_left [definition, in UniMath.MoreFoundations.PartA]
transportf_transpose_right [lemma, in UniMath.MoreFoundations.PartA]
transportf_total2_base [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
transportf_id3 [definition, in UniMath.Foundations.PartA]
transportf_id2 [definition, in UniMath.Foundations.PartA]
transportf_id1 [definition, in UniMath.Foundations.PartA]
transportf_dirprod [definition, in UniMath.Foundations.PartA]
transportf_total2 [definition, in UniMath.Foundations.PartA]
transportf_fiber_total2_paths [lemma, in UniMath.Foundations.PartA]
transportf_paths [lemma, in UniMath.Foundations.PartA]
transportf_const [definition, in UniMath.Foundations.PartA]
transportf_fun [definition, in UniMath.Foundations.PartA]
transportf_eq [definition, in UniMath.Foundations.PartA]
transportf_total2_paths_f [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
transportf_isotoid' [lemma, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
transportf2 [definition, in UniMath.MoreFoundations.PartA]
transportf2_comp [lemma, in UniMath.CategoryTheory.limits.graphs.eqdiag]
TransportLaws [library]
TransportMorphisms [library]
transportOverSet [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
transportPathOver [definition, in UniMath.MoreFoundations.PathsOver]
transportPathOver' [definition, in UniMath.MoreFoundations.PathsOver]
transportPathTotal [definition, in UniMath.MoreFoundations.PartA]
transport_swap [lemma, in UniMath.CategoryTheory.limits.graphs.eqdiag]
transport_of_relmonad_bind_is_pointwise [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
transport_of_relmonad_η_is_pointwise [lemma, in UniMath.CategoryTheory.Monads.RelativeMonads]
transport_comp [lemma, in UniMath.CategoryTheory.catiso]
transport_comp_target [lemma, in UniMath.CategoryTheory.catiso]
transport_id [lemma, in UniMath.CategoryTheory.catiso]
transport_mor [lemma, in UniMath.CategoryTheory.catiso]
transport_along_funextsec [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
transport_counit [lemma, in UniMath.Bicategories.Core.AdjointUnique]
transport_unit [lemma, in UniMath.Bicategories.Core.AdjointUnique]
transport_source_KernelIn [lemma, in UniMath.CategoryTheory.limits.kernels]
transport_source_KernelIn_eq [lemma, in UniMath.CategoryTheory.limits.kernels]
transport_kernels.Z [variable, in UniMath.CategoryTheory.limits.kernels]
transport_kernels.hs [variable, in UniMath.CategoryTheory.limits.kernels]
transport_kernels.C [variable, in UniMath.CategoryTheory.limits.kernels]
transport_kernels [section, in UniMath.CategoryTheory.limits.kernels]
transport_of_functor_map_is_pointwise [lemma, in UniMath.CategoryTheory.FunctorCategory]
transport_source_ZeroArrow [lemma, in UniMath.CategoryTheory.limits.zero]
transport_target_ZeroArrow [lemma, in UniMath.CategoryTheory.limits.zero]
transport_source_isMonic [lemma, in UniMath.CategoryTheory.Monics]
transport_target_isMonic [lemma, in UniMath.CategoryTheory.Monics]
transport_invmap [definition, in UniMath.MoreFoundations.PartA]
transport_invweq [definition, in UniMath.MoreFoundations.PartA]
transport_funapp [definition, in UniMath.MoreFoundations.PartA]
transport_functions [lemma, in UniMath.MoreFoundations.PartA]
transport_idfun [lemma, in UniMath.MoreFoundations.PartA]
transport_fun_path [definition, in UniMath.MoreFoundations.PartA]
transport_type_path [definition, in UniMath.MoreFoundations.PartA]
transport_stn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
transport_stnsum [lemma, in UniMath.Combinatorics.StandardFiniteSets]
transport_shift_cochain [definition, in UniMath.Induction.M.Chains]
transport_hz_to_Pr2' [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_Pr2 [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_Pr1' [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_Pr1 [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_In2' [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_In2 [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_In1' [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_In1 [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_to_BinDirectSums_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_to_BinDirectSums [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_toBinDirectSums [section, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_double_section_source_target [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_double_section [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_section' [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_section [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_target_source [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_hz_source_target [lemma, in UniMath.HomologicalAlgebra.Complexes]
transport_section'.C [variable, in UniMath.HomologicalAlgebra.Complexes]
transport_section' [section, in UniMath.HomologicalAlgebra.Complexes]
transport_source_is_iso [lemma, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_target_is_iso [lemma, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_mor_funextfun [lemma, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_target_funextfun [definition, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_source_funextfun [definition, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_source_target_comm [lemma, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_target_source [lemma, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_source_target [lemma, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_source_path [lemma, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_target_path [lemma, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_compose' [lemma, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_compose [lemma, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_source_precompose [lemma, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_target_postcompose [lemma, in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_source_to_binop [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
transport_target_to_binop [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
transport_source_to_inv [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
transport_target_to_inv [lemma, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
transport_morphisms.PA [variable, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
transport_morphisms [section, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
transport_stn [definition, in UniMath.Combinatorics.FiniteSequences]
transport_source_ComplexHomotFunctor [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
transport_target_ComplexHomotFunctor [lemma, in UniMath.HomologicalAlgebra.TranslationFunctors]
transport_two_cell_FlFr [lemma, in UniMath.Bicategories.Core.TransportLaws]
transport_one_cell_FlFr_iso [definition, in UniMath.Bicategories.Core.TransportLaws]
transport_one_cell_FlFr_inv [definition, in UniMath.Bicategories.Core.TransportLaws]
transport_one_cell_FlFr [definition, in UniMath.Bicategories.Core.TransportLaws]
transport_section [definition, in UniMath.Foundations.PartA]
transport_map [definition, in UniMath.Foundations.PartA]
transport_b_b [definition, in UniMath.Foundations.PartA]
transport_f_f [definition, in UniMath.Foundations.PartA]
transport_b_f [definition, in UniMath.Foundations.PartA]
transport_f_b [definition, in UniMath.Foundations.PartA]
transport_source_isEpi [lemma, in UniMath.CategoryTheory.Epis]
transport_target_isEpi [lemma, in UniMath.CategoryTheory.Epis]
transposcommsqstr [definition, in UniMath.Foundations.PartA]
transpose [definition, in UniMath.Combinatorics.FiniteSequences]
transposhfpsqstr [lemma, in UniMath.Foundations.PartA]
trans0:178 [binder, in UniMath.Foundations.Sets]
trans2:221 [binder, in UniMath.Combinatorics.OrderedSets]
tra:240 [binder, in UniMath.Algebra.Archimedean]
Tree [definition, in UniMath.Combinatorics.ZFstructures]
Tree [definition, in UniMath.CategoryTheory.Inductives.Trees]
Tree [definition, in UniMath.Combinatorics.MetricTree]
treeFunctor_Initial [lemma, in UniMath.CategoryTheory.Inductives.Trees]
treeInd [lemma, in UniMath.CategoryTheory.Inductives.Trees]
treeIndProp [lemma, in UniMath.CategoryTheory.Inductives.Trees]
treeOmegaFunctor [definition, in UniMath.CategoryTheory.Inductives.Trees]
Trees [library]
Tree_isWellFounded [definition, in UniMath.Combinatorics.ZFstructures]
Tree_univalence [lemma, in UniMath.Combinatorics.ZFstructures]
Tree_iso [definition, in UniMath.Combinatorics.ZFstructures]
tree_induction [definition, in UniMath.Combinatorics.MetricTree]
tree_isaset [lemma, in UniMath.Combinatorics.MetricTree]
tree_deceq [lemma, in UniMath.Combinatorics.MetricTree]
Tri [definition, in UniMath.HomologicalAlgebra.Triangulated]
Triang [definition, in UniMath.HomologicalAlgebra.Triangulated]
triangle_l_inv [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
triangle_l [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
triangle_r_inv [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
triangle_r [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
triangle_identity [lemma, in UniMath.Bicategories.BicategoryOfBicat]
triangle_eq_of_pointedfunctors [lemma, in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
triangle_eq_swapping_of_tensor [lemma, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
triangle_eq [definition, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
triangle_eq_from_alt [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
triangle_eq_r [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
triangle_eq_l [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
triangle_id_right_ad [definition, in UniMath.CategoryTheory.Adjunctions.Core]
triangle_id_left_ad [definition, in UniMath.CategoryTheory.Adjunctions.Core]
triangle_2_statement [definition, in UniMath.CategoryTheory.Adjunctions.Core]
triangle_1_statement [definition, in UniMath.CategoryTheory.Adjunctions.Core]
triangle_eq_A [definition, in UniMath.CategoryTheory.Monoidal.Actions]
triangle_2_from_1 [lemma, in UniMath.CategoryTheory.Equivalences.Core]
triangle_eq_nice_implies_triangle_eq [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
triangle_eq_implies_triangle_eq_nice [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
triangle_eq_nice [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
triangle_eq_readable [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
triangle_eq [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
triangle_1_from_2_for_equiv_over_id [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
triangle_2_from_1_for_equiv_over [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
triangle_2_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
triangle_1_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
triangle_2_statement_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
triangle_1_statement_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
triangle_identity' [lemma, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
triangle_axiom [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
triangle_axiom_type [definition, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
triangle_1_from_2_for_equiv_over_id [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_2_from_1_for_equiv_over_id [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_2_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_1_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_2_statement_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_1_statement_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_2_over_statement [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_1_over_statement [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_eq_A [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
triangle_id_inverse' [lemma, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
triangle_id_inverse [lemma, in UniMath.CategoryTheory.Equivalences.FullyFaithful]
triangle1:111 [binder, in UniMath.Bicategories.Core.Adjunctions]
triangle2:112 [binder, in UniMath.Bicategories.Core.Adjunctions]
Triangulated [library]
TriangulatedFiveLemma [lemma, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedFiveLemma1 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedFiveLemma2 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedMorphism_to_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedMorphism_from_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedMorsComm_to_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedMorsComm_from_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowDiffsEq_to_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowDiffsEq_from_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowDiffs_to_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowDiffs_from_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowExacts_to_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowExacts_from_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowMors_to_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowMors_from_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowObs_to_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowObs_from_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRow_to_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRow_from_object [definition, in UniMath.HomologicalAlgebra.Triangulated]
triangulated_five_lemma [section, in UniMath.HomologicalAlgebra.Triangulated]
Triang_PreTriang [definition, in UniMath.HomologicalAlgebra.Triangulated]
trichotomy [lemma, in UniMath.Combinatorics.OrderedSets]
TriIso [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriIsoId [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriIsoInv [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriIsoMor [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriIso_comp [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriIso_is_iso [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriMor [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriMorId [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriMorId_comm3 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
TriMorId_comms [lemma, in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso_inv_is_iso [lemma, in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso_inv [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso_to_inv_Comm3 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso_to_inv_Comm [lemma, in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso_comp [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso3 [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso2 [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso1 [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriMor_comp [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriMor_comp_comm3 [lemma, in UniMath.HomologicalAlgebra.Triangulated]
TriMor_comp_comms [lemma, in UniMath.HomologicalAlgebra.Triangulated]
TriMor_Mors [definition, in UniMath.HomologicalAlgebra.Triangulated]
TriMP [definition, in UniMath.HomologicalAlgebra.Triangulated]
Trivial [library]
TrivialCleaving [library]
TrivialDirectSum [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
TrivialDirectSum' [definition, in UniMath.CategoryTheory.limits.BinDirectSums]
TrivialDTri [definition, in UniMath.HomologicalAlgebra.Triangulated]
TrivialDTrisData [definition, in UniMath.HomologicalAlgebra.Triangulated]
TrivialExactSequence [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
TrivialExactSequence' [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
triviality_isomorphism_compute [lemma, in UniMath.Algebra.GroupAction]
triviality_isomorphism [definition, in UniMath.Algebra.GroupAction]
trivialsubgr [definition, in UniMath.Algebra.Groups]
trivialsubmonoid [definition, in UniMath.Algebra.Monoids]
trivialTorsor [definition, in UniMath.Algebra.GroupAction]
trivialTorsorAuto [definition, in UniMath.Algebra.GroupAction]
trivialTorsorAuto_mult [lemma, in UniMath.Algebra.GroupAction]
trivialTorsorAuto_unit [lemma, in UniMath.Algebra.GroupAction]
trivialTorsorRightMultiplication [definition, in UniMath.Algebra.GroupAction]
trivialTorsor_weq [definition, in UniMath.Algebra.GroupAction]
TrivialTri [definition, in UniMath.HomologicalAlgebra.Triangulated]
trivial_is_univalent_2_0 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_adj_equiv_weq_disp_adj_equiv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_adj_equiv_to_adj_to_disp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_adj_equiv_to_disp_to_adj [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_adj_equiv_to_adj_equiv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_adj_equiv_to_disp_adj_equiv [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_is_univalent_2_1 [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_invertible_2cell_weq_disp_invertible [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_invertible_to_invertible_to_disp_invertible [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_invertible_to_disp_invertible_to_invertible [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_invertible_to_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_is_disp_invertible_to_is_invertible_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_invertible_2cell_to_disp_invertible [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_is_invertible_2cell_to_is_disp_invertible [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_displayed_bicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_displayed_prebicat [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_prebicat_laws [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_displayed_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_prebicat_1_id_comp_cells [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_cat_data [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_cat_id_comp [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_cat_ob_mor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
Trivial_Displayed.C [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
Trivial_Displayed.B [variable, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
Trivial_Displayed [section, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_cleaving_of_bicats [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_rwhisker_cartesian [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_lwhisker_cartesian [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_global_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_cartesian_1cell_is_adj_equiv [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_cartesian_1cell_left_equiv_axioms [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_cartesian_1cell_left_adj_data [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_cartesian_1cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_lift_2cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_lift_1cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_local_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_cartesian_2cell_is_invertible [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_invertible_is_cartesian_2cell [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
tri_2_GGεη [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
tri_1_GGεη [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
TRRGhomo_topath [lemma, in UniMath.Combinatorics.ZFstructures]
TRRGhomo_frompath [lemma, in UniMath.Combinatorics.ZFstructures]
TRRGraph [definition, in UniMath.Combinatorics.ZFstructures]
TRRGraphData [definition, in UniMath.Combinatorics.ZFstructures]
TRRGraphiso [definition, in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence_compute [lemma, in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence [definition, in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence_weq1_idpath [lemma, in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence_weq2_idpath [lemma, in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence_weq2 [definition, in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence_weq1 [definition, in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence_map [definition, in UniMath.Combinatorics.ZFstructures]
TRRG_transitivity [definition, in UniMath.Combinatorics.ZFstructures]
TRRG_root [definition, in UniMath.Combinatorics.ZFstructures]
TRRG_edgerel [definition, in UniMath.Combinatorics.ZFstructures]
true [definition, in UniMath.CategoryTheory.SubobjectClassifier]
true [constructor, in UniMath.Foundations.Preamble]
truetonegfalse [definition, in UniMath.Foundations.PartA]
trueWitness [definition, in UniMath.MoreFoundations.DecidablePropositions]
true_is_monic [lemma, in UniMath.CategoryTheory.SubobjectClassifier]
true' [definition, in UniMath.CategoryTheory.SubobjectClassifier]
true:13 [binder, in UniMath.CategoryTheory.SubobjectClassifier]
true:4 [binder, in UniMath.CategoryTheory.SubobjectClassifier]
truncminus [definition, in UniMath.Algebra.Lattice]
truncminus_pos' [lemma, in UniMath.Algebra.Lattice]
truncminus_pos [lemma, in UniMath.Algebra.Lattice]
truncminus_gt [section, in UniMath.Algebra.Lattice]
truncminus_Lmin_l [lemma, in UniMath.Algebra.Lattice]
truncminus_Lmax_r [lemma, in UniMath.Algebra.Lattice]
truncminus_Lmax_l [lemma, in UniMath.Algebra.Lattice]
truncminus_le_l [lemma, in UniMath.Algebra.Lattice]
truncminus_le_r [lemma, in UniMath.Algebra.Lattice]
truncminus_truncminus [lemma, in UniMath.Algebra.Lattice]
truncminus_le [lemma, in UniMath.Algebra.Lattice]
truncminus_ge_0 [lemma, in UniMath.Algebra.Lattice]
truncminus_0_l_le0 [lemma, in UniMath.Algebra.Lattice]
truncminus_0_l_ge0 [lemma, in UniMath.Algebra.Lattice]
truncminus_eq_0 [lemma, in UniMath.Algebra.Lattice]
truncminus_0_r [lemma, in UniMath.Algebra.Lattice]
truncminus_pty [section, in UniMath.Algebra.Lattice]
truncnattruncauto [definition, in UniMath.PAdics.fps]
truncnattruncautobound [lemma, in UniMath.PAdics.fps]
truncnattruncautoinv [definition, in UniMath.PAdics.fps]
truncnattruncautoisauto [lemma, in UniMath.PAdics.fps]
truncnattruncautoisinj [lemma, in UniMath.PAdics.fps]
truth_about_ε [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration]
tr:32 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
TR:535 [binder, in UniMath.HomologicalAlgebra.Triangulated]
TR:536 [binder, in UniMath.HomologicalAlgebra.Triangulated]
tt [constructor, in UniMath.Foundations.Preamble]
tte:1318 [binder, in UniMath.Foundations.PartA]
tte:1319 [binder, in UniMath.Foundations.PartA]
TT:154 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
TT:158 [binder, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
Tt:50 [binder, in UniMath.Combinatorics.WellOrderedSets]
tuple_functor [definition, in UniMath.CategoryTheory.ProductCategory]
tuple_functor_axioms [lemma, in UniMath.CategoryTheory.ProductCategory]
tuple_functor_data [definition, in UniMath.CategoryTheory.ProductCategory]
Two [definition, in UniMath.CategoryTheory.limits.graphs.coequalizers]
Two [definition, in UniMath.CategoryTheory.limits.graphs.pushouts]
Two [definition, in UniMath.CategoryTheory.limits.graphs.equalizers]
two [definition, in UniMath.Combinatorics.StandardFiniteSets]
Two [definition, in UniMath.CategoryTheory.limits.graphs.pullbacks]
twobinopeqrel [definition, in UniMath.Algebra.BinaryOperations]
twobinopfun [definition, in UniMath.Algebra.BinaryOperations]
twobinopfuncomp [definition, in UniMath.Algebra.BinaryOperations]
twobinopfun_paths [definition, in UniMath.Algebra.BinaryOperations]
twobinophrel [definition, in UniMath.Algebra.BinaryOperations]
twobinopincltotwobinopfun [definition, in UniMath.Algebra.BinaryOperations]
twobinopiso [definition, in UniMath.Algebra.BinaryOperations]
twobinopisocomp [definition, in UniMath.Algebra.BinaryOperations]
twobinopisototwobinopfun [definition, in UniMath.Algebra.BinaryOperations]
twobinopisototwobinopmono [definition, in UniMath.Algebra.BinaryOperations]
twobinopiso_paths [lemma, in UniMath.Algebra.BinaryOperations]
twobinopmono [definition, in UniMath.Algebra.BinaryOperations]
twobinopmonocomp [definition, in UniMath.Algebra.BinaryOperations]
twobinoppo [definition, in UniMath.Algebra.BinaryOperations]
TwoCategories [library]
twomor_naturality [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
twoNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
twoNonnegativeRationals_correct [lemma, in UniMath.RealNumbers.NonnegativeRationals]
twoNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
TwoOps [section, in UniMath.Algebra.Matrix]
twooutofsixu [lemma, in UniMath.Foundations.PartA]
twooutofsixv [lemma, in UniMath.Foundations.PartA]
twooutofsixw [lemma, in UniMath.Foundations.PartA]
twooutof3a [lemma, in UniMath.Foundations.PartA]
twooutof3b [lemma, in UniMath.Foundations.PartA]
twooutof3c [lemma, in UniMath.Foundations.PartA]
twooutof3c_iff_2_homot [lemma, in UniMath.Foundations.PartA]
twooutof3c_iff_1_homot [lemma, in UniMath.Foundations.PartA]
twooutof3c_iff_1 [lemma, in UniMath.Foundations.PartA]
twooutof3c_iff_2 [lemma, in UniMath.Foundations.PartA]
TwoType [library]
TwoTypeBiGroupoid [section, in UniMath.Bicategories.Core.Examples.TwoType]
TwoTypeBiGroupoid.HX [variable, in UniMath.Bicategories.Core.Examples.TwoType]
TwoTypeBiGroupoid.X [variable, in UniMath.Bicategories.Core.Examples.TwoType]
two_cells_from_monoidal [definition, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
two_graph [definition, in UniMath.CategoryTheory.limits.bincoproducts]
two_cat_equiv_strict_bicat [definition, in UniMath.Bicategories.Core.Strictness]
two_cat_to_strict_bicat_to_two_cat [lemma, in UniMath.Bicategories.Core.Strictness]
two_cat_to_strict_bicat [definition, in UniMath.Bicategories.Core.Strictness]
two_cat_is_strict_bicat [lemma, in UniMath.Bicategories.Core.Strictness]
two_cat_to_bicat [definition, in UniMath.Bicategories.Core.Strictness]
two_cat_to_prebicat [definition, in UniMath.Bicategories.Core.Strictness]
two_cat_to_prebicat_laws [lemma, in UniMath.Bicategories.Core.Strictness]
two_cat_to_prebicat_data [definition, in UniMath.Bicategories.Core.Strictness]
two_type_bicat_laws [lemma, in UniMath.Bicategories.Core.Examples.TwoType]
two_type_bicat_data [definition, in UniMath.Bicategories.Core.Examples.TwoType]
two_graph [definition, in UniMath.CategoryTheory.limits.graphs.binproducts]
two_rec_dep [definition, in UniMath.Combinatorics.StandardFiniteSets]
two_rec [definition, in UniMath.Combinatorics.StandardFiniteSets]
two_arg_paths_b [lemma, in UniMath.Foundations.PartA]
two_arg_paths_f [lemma, in UniMath.Foundations.PartA]
two_arg_paths [lemma, in UniMath.Foundations.PartA]
two_cat_to_two_precat [definition, in UniMath.CategoryTheory.Core.TwoCategories]
two_cat [definition, in UniMath.CategoryTheory.Core.TwoCategories]
two_cat_law_projections [section, in UniMath.CategoryTheory.Core.TwoCategories]
two_cat_laws_from_two_cat [definition, in UniMath.CategoryTheory.Core.TwoCategories]
two_cat_category_from_two_cat [definition, in UniMath.CategoryTheory.Core.TwoCategories]
two_precat [definition, in UniMath.CategoryTheory.Core.TwoCategories]
two_cat_laws [definition, in UniMath.CategoryTheory.Core.TwoCategories]
two_cat_category [definition, in UniMath.CategoryTheory.Core.TwoCategories]
two_cat_cells [definition, in UniMath.CategoryTheory.Core.TwoCategories]
two_cat_data [definition, in UniMath.CategoryTheory.Core.TwoCategories]
two_graph [definition, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
two_graph [definition, in UniMath.CategoryTheory.limits.binproducts]
Tx:233 [binder, in UniMath.Combinatorics.WellOrderedSets]
tx:2571 [binder, in UniMath.Foundations.PartA]
ty [definition, in UniMath.SubstitutionSystems.CCS_alt]
ty [definition, in UniMath.SubstitutionSystems.CCS]
type_precat [definition, in UniMath.CategoryTheory.categories.Type.Core]
type_cone_homot_to_path [lemma, in UniMath.Induction.M.Limits]
type_cone [lemma, in UniMath.Induction.M.Limits]
Ty:241 [binder, in UniMath.Combinatorics.WellOrderedSets]
Ty:242 [binder, in UniMath.Combinatorics.WellOrderedSets]
Ty:48 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Ty:81 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
T_hss [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
T_func [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
T_mon [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
T_alg [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
T_mod [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
T_mon [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
T_on_SAlg [definition, in UniMath.CategoryTheory.Monads.MonadAlgebras]
T_assoc [lemma, in UniMath.Folds.folds_precat]
T_I_r [lemma, in UniMath.Folds.folds_precat]
T_I_l [lemma, in UniMath.Folds.folds_precat]
T_func_T [lemma, in UniMath.Folds.folds_precat]
T_func [definition, in UniMath.Folds.folds_precat]
T_contr [lemma, in UniMath.Folds.folds_precat]
T_squared [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
t'w:638 [binder, in UniMath.Foundations.PartD]
t'w:642 [binder, in UniMath.Foundations.PartD]
T'':131 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
T'':136 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
T'':154 [binder, in UniMath.CategoryTheory.Monads.LModules]
T'':162 [binder, in UniMath.CategoryTheory.Monads.KTriples]
T'':169 [binder, in UniMath.CategoryTheory.Monads.KTriples]
T'':34 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
T'':39 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
T'':56 [binder, in UniMath.CategoryTheory.Monads.LModules]
T'':62 [binder, in UniMath.CategoryTheory.Monads.LModules]
T'':71 [binder, in UniMath.CategoryTheory.Monads.Monads]
T'':77 [binder, in UniMath.CategoryTheory.Monads.Monads]
T':102 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
t':103 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
T':107 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
T':108 [binder, in UniMath.CategoryTheory.Monads.LModules]
T':110 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
T':113 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
t':114 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
T':116 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
T':119 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
t':125 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
t':125 [binder, in UniMath.Algebra.Universal.Terms]
T':126 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
T':13 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
T':130 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
t':134 [binder, in UniMath.Algebra.Universal.Terms]
T':134 [binder, in UniMath.CategoryTheory.Monads.KTriples]
T':135 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
T':138 [binder, in UniMath.CategoryTheory.Monads.KTriples]
t':14 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
T':14 [binder, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
T':142 [binder, in UniMath.CategoryTheory.Monads.KTriples]
t':149 [binder, in UniMath.PAdics.padics]
t':153 [binder, in UniMath.PAdics.padics]
t':153 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
t':155 [binder, in UniMath.MoreFoundations.MoreEquivalences]
T':16 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
T':16 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
t':16 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
T':161 [binder, in UniMath.CategoryTheory.Monads.KTriples]
T':162 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
T':168 [binder, in UniMath.CategoryTheory.Monads.KTriples]
T':17 [binder, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
T':171 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
T':180 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
T':186 [binder, in UniMath.CategoryTheory.Monads.Monads]
T':189 [binder, in UniMath.CategoryTheory.Monads.Monads]
T':19 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
T':197 [binder, in UniMath.Algebra.GroupAction]
t':20 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
T':20 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
T':20 [binder, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
T':201 [binder, in UniMath.Algebra.GroupAction]
T':22 [binder, in UniMath.CategoryTheory.limits.graphs.terminal]
T':22 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
T':22 [binder, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
t':222 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
T':23 [binder, in UniMath.CategoryTheory.limits.terminal]
T':24 [binder, in UniMath.CategoryTheory.limits.graphs.terminal]
T':25 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
T':25 [binder, in UniMath.CategoryTheory.limits.terminal]
T':26 [binder, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
t':26 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
T':28 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
T':28 [binder, in UniMath.CategoryTheory.Monads.LModules]
T':3 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
T':33 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
t':335 [binder, in UniMath.CategoryTheory.PreAdditive]
T':34 [binder, in UniMath.CategoryTheory.Monads.LModules]
T':35 [binder, in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
t':36 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
T':37 [binder, in UniMath.CategoryTheory.Monads.Monads]
T':38 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
T':38 [binder, in UniMath.CategoryTheory.Monads.LModules]
T':42 [binder, in UniMath.CategoryTheory.Monads.LModules]
T':43 [binder, in UniMath.CategoryTheory.Monads.MonadAlgebras]
T':43 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
t':44 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
T':44 [binder, in UniMath.CategoryTheory.Monads.Monads]
T':44 [binder, in UniMath.CategoryTheory.Monads.MonadAlgebras]
T':44 [binder, in UniMath.CategoryTheory.Monads.KTriples]
T':453 [binder, in UniMath.Foundations.PartD]
t':456 [binder, in UniMath.Foundations.PartD]
t':458 [binder, in UniMath.Foundations.PartD]
T':46 [binder, in UniMath.CategoryTheory.Monads.MonadAlgebras]
T':46 [binder, in UniMath.CategoryTheory.Monads.LModules]
t':460 [binder, in UniMath.Foundations.PartD]
t':462 [binder, in UniMath.Foundations.PartD]
T':47 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
T':48 [binder, in UniMath.CategoryTheory.Monads.Monads]
t':49 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
T':50 [binder, in UniMath.CategoryTheory.Monads.MonadAlgebras]
T':52 [binder, in UniMath.CategoryTheory.Monads.Monads]
T':53 [binder, in UniMath.CategoryTheory.Monads.MonadAlgebras]
T':53 [binder, in UniMath.CategoryTheory.Monads.KTriples]
T':55 [binder, in UniMath.CategoryTheory.Monads.LModules]
t':559 [binder, in UniMath.MoreFoundations.PartA]
T':56 [binder, in UniMath.CategoryTheory.Monads.Monads]
T':56 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
T':57 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
T':58 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
T':58 [binder, in UniMath.CategoryTheory.Monads.KTriples]
t':592 [binder, in UniMath.MoreFoundations.PartA]
t':6 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
t':60 [binder, in UniMath.MoreFoundations.Univalence]
t':602 [binder, in UniMath.MoreFoundations.PartA]
T':61 [binder, in UniMath.CategoryTheory.Monads.Monads]
T':61 [binder, in UniMath.CategoryTheory.Monads.LModules]
T':63 [binder, in UniMath.CategoryTheory.Monads.KTriples]
t':67 [binder, in UniMath.MoreFoundations.Univalence]
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t:70 [binder, in UniMath.MoreFoundations.MoreEquivalences]
t:70 [binder, in UniMath.Foundations.UnivalenceAxiom]
T:70 [binder, in UniMath.CategoryTheory.Monads.Derivative]
T:71 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
T:71 [binder, in UniMath.CategoryTheory.Monads.Derivative]
T:71 [binder, in UniMath.MoreFoundations.Subtypes]
T:72 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
T:72 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
t:72 [binder, in UniMath.Foundations.UnivalenceAxiom]
T:72 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
T:72 [binder, in UniMath.Combinatorics.WellOrderedSets]
T:72 [binder, in UniMath.CategoryTheory.Monads.Derivative]
T:72 [binder, in UniMath.CategoryTheory.Monads.LModules]
T:72 [binder, in UniMath.CategoryTheory.Monads.KTriples]
T:726 [binder, in UniMath.Foundations.PartA]
t:728 [binder, in UniMath.Foundations.PartA]
t:73 [binder, in UniMath.MoreFoundations.Equivalences]
t:73 [binder, in UniMath.SubstitutionSystems.LiftingInitial]
T:731 [binder, in UniMath.Foundations.PartA]
t:732 [binder, in UniMath.MoreFoundations.PathsOver]
t:733 [binder, in UniMath.Foundations.PartA]
T:734 [binder, in UniMath.Foundations.PartA]
T:735 [binder, in UniMath.Foundations.PartA]
t:737 [binder, in UniMath.Foundations.PartA]
T:74 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
T:74 [binder, in UniMath.MoreFoundations.MoreEquivalences]
T:74 [binder, in UniMath.Foundations.UnivalenceAxiom]
T:74 [binder, in UniMath.MoreFoundations.PathsOver]
T:74 [binder, in UniMath.CategoryTheory.Monads.Derivative]
T:74 [binder, in UniMath.CategoryTheory.Monads.LModules]
T:75 [binder, in UniMath.CategoryTheory.catiso]
T:75 [binder, in UniMath.CategoryTheory.Monads.Monads]
T:75 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
T:75 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
t:75 [binder, in UniMath.Topology.Topology]
t:75 [binder, in UniMath.MoreFoundations.PathsOver]
t:750 [binder, in UniMath.MoreFoundations.PathsOver]
T:755 [binder, in UniMath.CategoryTheory.LocalizingClass]
T:76 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
t:76 [binder, in UniMath.MoreFoundations.MoreEquivalences]
t:76 [binder, in UniMath.Foundations.UnivalenceAxiom]
T:76 [binder, in UniMath.Combinatorics.WellOrderedSets]
T:76 [binder, in UniMath.Topology.Topology]
T:77 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
T:77 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
t:77 [binder, in UniMath.Algebra.Universal.Terms]
t:78 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
T:78 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
t:78 [binder, in UniMath.Foundations.UnivalenceAxiom]
T:78 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
T:79 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
T:79 [binder, in UniMath.Combinatorics.WellOrderedSets]
T:79 [binder, in UniMath.Topology.Topology]
T:79 [binder, in UniMath.MoreFoundations.Univalence]
T:79 [binder, in UniMath.CategoryTheory.Monads.KTriples]
T:797 [binder, in UniMath.MoreFoundations.PartA]
t:8 [binder, in UniMath.SubstitutionSystems.STLC_alt]
T:8 [binder, in UniMath.MoreFoundations.Subtypes]
T:8 [binder, in UniMath.CategoryTheory.Monads.KTriples]
T:8 [binder, in UniMath.CategoryTheory.limits.terminal]
T:80 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
T:808 [binder, in UniMath.MoreFoundations.PartA]
t:809 [binder, in UniMath.MoreFoundations.PartA]
T:81 [binder, in UniMath.CategoryTheory.catiso]
T:81 [binder, in UniMath.CategoryTheory.Monads.Monads]
T:81 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
T:81 [binder, in UniMath.Topology.Topology]
T:81 [binder, in UniMath.CategoryTheory.Monads.Derivative]
t:81 [binder, in UniMath.Foundations.Sets]
T:82 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
T:82 [binder, in UniMath.Combinatorics.WellOrderedSets]
T:82 [binder, in UniMath.MoreFoundations.Subtypes]
T:823 [binder, in UniMath.Foundations.PartA]
t:824 [binder, in UniMath.Foundations.PartA]
T:826 [binder, in UniMath.Foundations.PartA]
t:827 [binder, in UniMath.Foundations.PartA]
T:83 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
T:83 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
t:83 [binder, in UniMath.Combinatorics.WellFoundedRelations]
t:83 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
T:830 [binder, in UniMath.Foundations.PartA]
t:831 [binder, in UniMath.Foundations.PartA]
T:832 [binder, in UniMath.Foundations.PartA]
t:833 [binder, in UniMath.Foundations.PartA]
T:835 [binder, in UniMath.Foundations.PartA]
t:836 [binder, in UniMath.Foundations.PartA]
T:839 [binder, in UniMath.Foundations.PartA]
T:84 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
T:84 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
t:84 [binder, in UniMath.RealNumbers.NonnegativeRationals]
t:84 [binder, in UniMath.CategoryTheory.Groupoids]
T:84 [binder, in UniMath.CategoryTheory.Monads.KTriples]
t:840 [binder, in UniMath.Foundations.PartA]
T:841 [binder, in UniMath.Foundations.PartA]
t:842 [binder, in UniMath.Foundations.PartA]
T:845 [binder, in UniMath.Foundations.PartA]
t:846 [binder, in UniMath.Foundations.PartA]
T:847 [binder, in UniMath.Foundations.PartA]
t:848 [binder, in UniMath.Foundations.PartA]
T:85 [binder, in UniMath.CategoryTheory.catiso]
t:85 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
T:85 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
T:85 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
t:85 [binder, in UniMath.Combinatorics.WellFoundedRelations]
t:85 [binder, in UniMath.AlgebraicGeometry.Spec]
T:851 [binder, in UniMath.Foundations.PartA]
t:852 [binder, in UniMath.Foundations.PartA]
T:853 [binder, in UniMath.Foundations.PartA]
t:854 [binder, in UniMath.Foundations.PartA]
T:855 [binder, in UniMath.Foundations.PartA]
T:859 [binder, in UniMath.Foundations.PartA]
T:86 [binder, in UniMath.CategoryTheory.Monads.Monads]
T:86 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
T:86 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
t:86 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
t:860 [binder, in UniMath.Foundations.PartA]
T:861 [binder, in UniMath.Foundations.PartA]
t:87 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
t:87 [binder, in UniMath.Topology.Topology]
t:88 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
T:88 [binder, in UniMath.CategoryTheory.Monads.Monads]
T:88 [binder, in UniMath.Topology.Topology]
T:88 [binder, in UniMath.CategoryTheory.Monads.Derivative]
t:88 [binder, in UniMath.AlgebraicGeometry.Spec]
T:887 [binder, in UniMath.Foundations.PartA]
T:89 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
T:89 [binder, in UniMath.CategoryTheory.Monads.KTriples]
t:9 [binder, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
T:9 [binder, in UniMath.HomologicalAlgebra.KAPreTriangulated]
T:9 [binder, in UniMath.Combinatorics.ZFstructures]
t:9 [binder, in UniMath.SubstitutionSystems.STLC]
T:9 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
T:9 [binder, in UniMath.CategoryTheory.limits.graphs.terminal]
T:9 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
t:9 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
T:9 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
T:9 [binder, in UniMath.CategoryTheory.Monads.Kleisli]
t:9 [binder, in UniMath.MoreFoundations.Univalence]
T:90 [binder, in UniMath.Foundations.UnivalenceAxiom]
T:90 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
T:90 [binder, in UniMath.Topology.Topology]
T:90 [binder, in UniMath.MoreFoundations.PathsOver]
t:91 [binder, in UniMath.Foundations.Propositions]
T:91 [binder, in UniMath.CategoryTheory.FunctorAlgebras]
t:92 [binder, in UniMath.Foundations.UnivalenceAxiom]
T:93 [binder, in UniMath.CategoryTheory.Monads.Derivative]
T:93 [binder, in UniMath.CategoryTheory.Monads.KTriples]
T:94 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
t:94 [binder, in UniMath.Foundations.UnivalenceAxiom]
t:94 [binder, in UniMath.Algebra.Dcpo]
T:95 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
t:95 [binder, in UniMath.Topology.Topology]
T:95 [binder, in UniMath.Combinatorics.WellFoundedRelations]
t:95 [binder, in UniMath.Foundations.PartC]
t:95 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
T:96 [binder, in UniMath.Topology.Topology]
t:96 [binder, in UniMath.Algebra.Dcpo]
t:96 [binder, in UniMath.Foundations.PartC]
T:97 [binder, in UniMath.MoreFoundations.Univalence]
T:98 [binder, in UniMath.CategoryTheory.catiso]
T:98 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
T:99 [binder, in UniMath.CategoryTheory.Monads.Derivative]
t₁:12 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₁:16 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
t₁:23 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
t₁:24 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₁:34 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₁:44 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₁:53 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₁:58 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₁:61 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₁:65 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₁:7 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
t₁:7 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₁:8 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
t₂:13 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₂:17 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
t₂:24 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
t₂:25 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₂:35 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₂:45 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₂:54 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₂:59 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₂:62 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₂:66 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₂:8 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
t₂:8 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₂:9 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
t₃:26 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
t₃:36 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]

U

UAct [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
uax:57 [binder, in UniMath.CategoryTheory.Enriched.Enriched]
UA_for_HLevels [lemma, in UniMath.Foundations.HLevels]
UA_for_Predicates [lemma, in UniMath.Foundations.HLevels]
ub:158 [binder, in UniMath.RealNumbers.Sets]
ub:162 [binder, in UniMath.RealNumbers.Sets]
ub:177 [binder, in UniMath.RealNumbers.Sets]
ub:181 [binder, in UniMath.RealNumbers.Sets]
ub:8 [binder, in UniMath.RealNumbers.NonnegativeReals]
ufun [definition, in UniMath.Paradoxes.GirardsParadox]
ugpd:18 [binder, in UniMath.CategoryTheory.Groupoids]
ugpd:19 [binder, in UniMath.CategoryTheory.Groupoids]
ugpd:42 [binder, in UniMath.CategoryTheory.Groupoids]
uip [lemma, in UniMath.Foundations.PartB]
uip_injective_pairing [lemma, in UniMath.MoreFoundations.NoInjectivePairing]
uip_statement [definition, in UniMath.MoreFoundations.NoInjectivePairing]
unax [definition, in UniMath.Algebra.Monoids]
unax_is [definition, in UniMath.Algebra.BinaryOperations]
unax:16 [binder, in UniMath.Algebra.Matrix]
unax:54 [binder, in UniMath.Algebra.Matrix]
uncurry [definition, in UniMath.Foundations.PartA]
uncurry_after_curry [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
uncurry_nattrans [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
uncurry_functor [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
uncurry_functor_data_is_functor [lemma, in UniMath.CategoryTheory.PrecategoryBinProduct]
uncurry_functor_data [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
uncurry_curry [lemma, in UniMath.Foundations.PartA]
UnderCategories [library]
_ / _ [notation, in UniMath.CategoryTheory.UnderCategories]
undercategories_morphisms.hs [variable, in UniMath.CategoryTheory.UnderCategories]
undercategories_morphisms.C [variable, in UniMath.CategoryTheory.UnderCategories]
undercategories_morphisms [section, in UniMath.CategoryTheory.UnderCategories]
Undercategory [definition, in UniMath.CategoryTheory.UnderCategories]
Undercategory_data [definition, in UniMath.CategoryTheory.UnderCategories]
Undercategory_ob_mor [definition, in UniMath.CategoryTheory.UnderCategories]
underlyingAction [definition, in UniMath.Algebra.GroupAction]
underlyingActionMap [definition, in UniMath.Algebra.GroupAction]
underlyingAction_injectivity_inv_comp [definition, in UniMath.Algebra.GroupAction]
underlyingAction_injectivity_comp' [definition, in UniMath.Algebra.GroupAction]
underlyingAction_injectivity_comp [definition, in UniMath.Algebra.GroupAction]
underlyingAction_injectivity [lemma, in UniMath.Algebra.GroupAction]
underlyingAction_incl [lemma, in UniMath.Algebra.GroupAction]
underlyingFiniteSet [definition, in UniMath.Combinatorics.OrderedSets]
underlyingFunction [definition, in UniMath.Algebra.GroupAction]
underlyingIso [definition, in UniMath.Algebra.GroupAction]
underlyingIso_injectivity [lemma, in UniMath.Algebra.GroupAction]
underlyingIso_incl [lemma, in UniMath.Algebra.GroupAction]
underlyingLoop [definition, in UniMath.MoreFoundations.PartA]
underlyingOrderedSet [definition, in UniMath.Combinatorics.OrderedSets]
underlyingPoint [definition, in UniMath.Algebra.GroupAction]
underlyingPoset [definition, in UniMath.Combinatorics.OrderedSets]
underlyingPoset_weq [definition, in UniMath.Combinatorics.OrderedSets]
underlyingTorsor [definition, in UniMath.Algebra.GroupAction]
underlyingType [definition, in UniMath.MoreFoundations.PartA]
Under_precategories_mor_functor_data [definition, in UniMath.CategoryTheory.UnderCategories]
Under_precategories_mor_mor [definition, in UniMath.CategoryTheory.UnderCategories]
Under_precategories_mor_mor_eq [lemma, in UniMath.CategoryTheory.UnderCategories]
Under_precategories_mor_ob [definition, in UniMath.CategoryTheory.UnderCategories]
Under_comp [definition, in UniMath.CategoryTheory.UnderCategories]
Under_comp_eq [lemma, in UniMath.CategoryTheory.UnderCategories]
Under_id [definition, in UniMath.CategoryTheory.UnderCategories]
Under_mor_equality [definition, in UniMath.CategoryTheory.UnderCategories]
Under_mor_eq [definition, in UniMath.CategoryTheory.UnderCategories]
Under_mor_mor [definition, in UniMath.CategoryTheory.UnderCategories]
Under_mor [definition, in UniMath.CategoryTheory.UnderCategories]
Under_ob_mor [definition, in UniMath.CategoryTheory.UnderCategories]
Under_ob_cod [definition, in UniMath.CategoryTheory.UnderCategories]
Under_ob [definition, in UniMath.CategoryTheory.UnderCategories]
unel [definition, in UniMath.Algebra.Monoids]
unelabgrfun [definition, in UniMath.Algebra.Groups]
unelabgrfun_ismonoidfun [lemma, in UniMath.Algebra.Groups]
unelabmonoidfun [definition, in UniMath.Algebra.Monoids]
unelabmonoidfun_ismonoidfun [lemma, in UniMath.Algebra.Monoids]
unelgrfun [definition, in UniMath.Algebra.Groups]
unelgrfun_ismonoidfun [lemma, in UniMath.Algebra.Groups]
unelmodulefun [definition, in UniMath.Algebra.Modules.Core]
unelmodulefun_ismodulefun [lemma, in UniMath.Algebra.Modules.Core]
unelmonoidfun [definition, in UniMath.Algebra.Monoids]
unelmonoidfun_ismonoidfun [lemma, in UniMath.Algebra.Monoids]
unel_is [definition, in UniMath.Algebra.BinaryOperations]
unel:2 [binder, in UniMath.Algebra.IteratedBinaryOperations]
unfold_data.C [variable, in UniMath.Bicategories.BicatOfBicategory]
unfold_data [section, in UniMath.Bicategories.BicatOfBicategory]
unfold_inv_from_iso_α [lemma, in UniMath.CategoryTheory.Chains.Adamek]
UnicodeNotations [library]
union [definition, in UniMath.Topology.Prelim]
union [section, in UniMath.AlgebraicGeometry.Topology]
union_sieve [definition, in UniMath.CategoryTheory.Presheaf]
union_not_contained_in [lemma, in UniMath.Topology.Prelim]
union_hProp [lemma, in UniMath.Topology.Prelim]
union_or [lemma, in UniMath.Topology.Prelim]
union_hfalse [lemma, in UniMath.Topology.Prelim]
union_facts [section, in UniMath.AlgebraicGeometry.Topology]
union_open [definition, in UniMath.AlgebraicGeometry.Topology]
union_open_hsubtype [definition, in UniMath.AlgebraicGeometry.Topology]
UniqueConstruction [definition, in UniMath.Foundations.PartA]
UniqueConstruction_to_weq [lemma, in UniMath.Foundations.PartA]
uniqueExists [lemma, in UniMath.MoreFoundations.Propositions]
uniqueFiller [lemma, in UniMath.MoreFoundations.PartA]
Uniqueness [section, in UniMath.Induction.W.Uniqueness]
Uniqueness [section, in UniMath.Bicategories.Colimits.Final]
Uniqueness [section, in UniMath.Induction.M.Uniqueness]
uniqueness [definition, in UniMath.MoreFoundations.PartA]
Uniqueness [section, in UniMath.Bicategories.Colimits.Initial]
Uniqueness [module, in UniMath.MoreFoundations.Nat]
Uniqueness [library]
Uniqueness [library]
UniquenessAdjoint [section, in UniMath.Bicategories.Core.AdjointUnique]
UniquenessAdjoint.A₁ [variable, in UniMath.Bicategories.Core.AdjointUnique]
UniquenessAdjoint.A₂ [variable, in UniMath.Bicategories.Core.AdjointUnique]
UniquenessAdjoint.l [variable, in UniMath.Bicategories.Core.AdjointUnique]
uniqueness' [definition, in UniMath.MoreFoundations.PartA]
Uniqueness.C [variable, in UniMath.Bicategories.Colimits.Final]
Uniqueness.C [variable, in UniMath.Bicategories.Colimits.Initial]
Uniqueness.HC [variable, in UniMath.Bicategories.Colimits.Final]
Uniqueness.HC [variable, in UniMath.Bicategories.Colimits.Initial]
Uniqueness.helper_D [lemma, in UniMath.MoreFoundations.Nat]
Uniqueness.helper_C [lemma, in UniMath.MoreFoundations.Nat]
Uniqueness.helper_B [lemma, in UniMath.MoreFoundations.Nat]
Uniqueness.helper_A [lemma, in UniMath.MoreFoundations.Nat]
Uniqueness.hNatRecursionUniq [lemma, in UniMath.MoreFoundations.Nat]
Uniqueness.hNatRecursion_weq [lemma, in UniMath.MoreFoundations.Nat]
Uniqueness.HX [variable, in UniMath.Bicategories.Colimits.Final]
Uniqueness.HX [variable, in UniMath.Bicategories.Colimits.Initial]
Uniqueness.HY [variable, in UniMath.Bicategories.Colimits.Final]
Uniqueness.HY [variable, in UniMath.Bicategories.Colimits.Initial]
Uniqueness.X [variable, in UniMath.Bicategories.Colimits.Final]
Uniqueness.X [variable, in UniMath.Bicategories.Colimits.Initial]
Uniqueness.Y [variable, in UniMath.Bicategories.Colimits.Final]
Uniqueness.Y [variable, in UniMath.Bicategories.Colimits.Initial]
_ ⇒ _ [notation, in UniMath.Induction.W.Uniqueness]
_ ⇒ _ [notation, in UniMath.Induction.M.Uniqueness]
F* [notation, in UniMath.Induction.W.Uniqueness]
F* [notation, in UniMath.Induction.M.Uniqueness]
unique_exists [lemma, in UniMath.Foundations.PartB]
unique_adjoint_equivalence_comp [lemma, in UniMath.Bicategories.Core.AdjointUnique]
unique_adjoint_equivalence_inv [lemma, in UniMath.Bicategories.Core.AdjointUnique]
unique_internal_adjoint_equivalence [lemma, in UniMath.Bicategories.Core.AdjointUnique]
unique_strictness_structure_is_univalent_2_1 [definition, in UniMath.Bicategories.Core.Strictness]
unique_lift [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
unique_maps_to_biinitial [definition, in UniMath.Bicategories.Colimits.Initial]
unique_maps [definition, in UniMath.Bicategories.Colimits.Initial]
uniq_iter [definition, in UniMath.SubstitutionSystems.ModulesFromSignatures]
unit [definition, in UniMath.CategoryTheory.Adjunctions.Core]
unit [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
unit [inductive, in UniMath.Foundations.Preamble]
unitabgr [definition, in UniMath.Algebra.Groups]
unitabgr_isabgrop [definition, in UniMath.Algebra.Groups]
unitabmonoid [definition, in UniMath.Algebra.Monoids]
unitabmonoid_isabmonoid [definition, in UniMath.Algebra.Monoids]
UnitalBinop [library]
unitalgebra [definition, in UniMath.Algebra.Universal.Algebras]
Unitality [library]
Unitality [library]
unitcounit_of_is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
UnitFunctor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
unitgr [definition, in UniMath.Algebra.Groups]
unitgr_isgrop [definition, in UniMath.Algebra.Groups]
unithom [definition, in UniMath.Algebra.Universal.Algebras]
unitHSET [definition, in UniMath.CategoryTheory.categories.HSET.Core]
unitl0 [lemma, in UniMath.Foundations.PartA]
unitl1 [lemma, in UniMath.Foundations.PartA]
unitl2 [lemma, in UniMath.Foundations.PartA]
unitl3 [lemma, in UniMath.Foundations.PartA]
unitmonoid [definition, in UniMath.Algebra.Monoids]
unitmonoid_ismonoid [definition, in UniMath.Algebra.Monoids]
unitors [section, in UniMath.Bicategories.Core.Unitors]
Unitors [library]
UnitorsAndAssociatorsForEndofunctors [library]
unitset [definition, in UniMath.Foundations.Sets]
unitunit_of_is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
unit_binop_structure_disp_cat_ob_prop [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_structure_disp_cat_mor_not_contr [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_structure_disp_cat_mor_prop [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_structure_disp_cat_not_adds_properties [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_structure [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_structure_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_structure_disp_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_property [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_property_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_property_disp_cat [definition, in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_triangle [lemma, in UniMath.Bicategories.Core.Bicat]
unit_category [definition, in UniMath.CategoryTheory.categories.StandardCategories]
unit_functor [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
unit_precategory [definition, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
unit_bind [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
unit_kt [definition, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
unit_bind:29 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
unit_1_type [definition, in UniMath.Bicategories.Colimits.Final]
unit_univalent_disp_cat [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
unit_disp_cat [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
unit_woset [definition, in UniMath.Combinatorics.WellOrderedSets]
unit_from_hom [definition, in UniMath.CategoryTheory.Adjunctions.Core]
unit_left_from_partial [definition, in UniMath.CategoryTheory.Adjunctions.Core]
unit_from_right_adjoint [definition, in UniMath.CategoryTheory.Adjunctions.Core]
unit_from_left_adjoint [definition, in UniMath.CategoryTheory.Adjunctions.Core]
unit_from_are_adjoints [definition, in UniMath.CategoryTheory.Adjunctions.Core]
unit_iso_from_adj_equivalence_of_cats [definition, in UniMath.CategoryTheory.Equivalences.Core]
unit_nat_iso_from_adj_equivalence_of_cats [definition, in UniMath.CategoryTheory.Equivalences.Core]
unit_pointwise_iso_from_adj_equivalence [definition, in UniMath.CategoryTheory.Equivalences.Core]
unit_help_lift₂ [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
unit_help_lift₁ [definition, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
unit_of_disp_left_biadj [definition, in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
unit_of_is_disp_biequivalence [definition, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
unit_mu_kleisli_functor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
unit_mu_kleisli [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
unit_kleisli [definition, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
unit_kleisli_natural [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
unit_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
unit_over_id [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
unit_over [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
unit_counit_from_is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
unit_of_is_biequivalence [definition, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
univalence [definition, in UniMath.Foundations.UnivalenceAxiom]
Univalence [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
Univalence [library]
Univalence [library]
Univalence [library]
Univalence [library]
Univalence [library]
univalenceAxiom [axiom, in UniMath.Foundations.UnivalenceAxiom]
UnivalenceAxiom [library]
UnivalenceAxiom2 [library]
UnivalenceImplications [section, in UniMath.Foundations.UnivalenceAxiom]
UnivalenceImplications.univalenceAxiom [variable, in UniMath.Foundations.UnivalenceAxiom]
UnivalenceOfCodomain [section, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
UnivalenceOfCodomain.AdjEquivToDispAdjEquiv [section, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
UnivalenceOp [library]
univalenceStatement [definition, in UniMath.Foundations.UnivalenceAxiom]
univalenceUAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
univalenceweq [definition, in UniMath.CategoryTheory.categories.HSET.Univalence]
univalenceweq [definition, in UniMath.CategoryTheory.categories.Type.Univalence]
univalence_pathsinv0 [lemma, in UniMath.MoreFoundations.NoInjectivePairing]
univalent_category_mod_precategory [definition, in UniMath.CategoryTheory.categories.modules]
univalent_disp_cat_has_groupoid_obs [lemma, in UniMath.CategoryTheory.DisplayedCats.Core]
Univalent_Categories [section, in UniMath.CategoryTheory.DisplayedCats.Core]
univalent_bicategory_0_cell_hlevel_4 [lemma, in UniMath.Bicategories.Core.AdjointUnique]
univalent_two_cat_2cells_are_prop [lemma, in UniMath.Bicategories.Core.Strictness]
univalent_bicategory_1_cell_hlevel_3 [lemma, in UniMath.Bicategories.Core.Univalence]
univalent_fibration_is_cloven [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
univalent_2_1_to_local_iso_cleaving [definition, in UniMath.Bicategories.DisplayedBicats.Fibration]
univalent_2_1_to_local_iso_cleaving_help [definition, in UniMath.Bicategories.DisplayedBicats.Fibration]
univalent_groupoid_arrow_weq_path [lemma, in UniMath.CategoryTheory.Groupoids]
univalent_groupoid_to_groupoid [definition, in UniMath.CategoryTheory.Groupoids]
univalent_groupoid_is_pregroupoid [definition, in UniMath.CategoryTheory.Groupoids]
univalent_groupoid_to_univalent_category [definition, in UniMath.CategoryTheory.Groupoids]
univalent_groupoid [definition, in UniMath.CategoryTheory.Groupoids]
univalent_category_binproduct [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
univalent_category_has_groupoid_ob [lemma, in UniMath.CategoryTheory.Core.Univalence]
univalent_category_is_univalent [definition, in UniMath.CategoryTheory.Core.Univalence]
univalent_category_has_homsets [definition, in UniMath.CategoryTheory.Core.Univalence]
univalent_category_to_category [definition, in UniMath.CategoryTheory.Core.Univalence]
univalent_category [definition, in UniMath.CategoryTheory.Core.Univalence]
univalent_cat_is_univalent_2 [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
univalent_cat_is_univalent_2_0 [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
univalent_cat_is_univalent_2_1 [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
univalent_cat_idtoiso_2_1 [definition, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
univD:62 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Universal [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Universal [library]
universalElement [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalMap [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalmap [definition, in UniMath.Algebra.Universal.FreeAlgebras]
universalMapIdentity [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalMapProperty [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalMapUniqueness [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalMapUniqueness' [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalMap' [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalObject [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalObjectFunctor [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalObjectFunctor_comm [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalObjectFunctor_on_map [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalProperty [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Universal_Unique.H [variable, in UniMath.CategoryTheory.limits.pushouts]
Universal_Unique.C [variable, in UniMath.CategoryTheory.limits.pushouts]
Universal_Unique [section, in UniMath.CategoryTheory.limits.pushouts]
Universal_Unique.H [variable, in UniMath.CategoryTheory.limits.pullbacks]
Universal_Unique.C [variable, in UniMath.CategoryTheory.limits.pullbacks]
Universal_Unique [section, in UniMath.CategoryTheory.limits.pullbacks]
univfromtwoaxioms [lemma, in UniMath.Foundations.UnivalenceAxiom]
univfromtwoaxiomshProp [lemma, in UniMath.Foundations.Propositions]
UnivProductFromPullback [definition, in UniMath.CategoryTheory.limits.pullbacks]
univ_arrow_mor_assoc [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
univ_2:193 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
univ_2:191 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
univ_2_1:189 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
univ_2_0:188 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
univ_surj_nt_unique [lemma, in UniMath.CategoryTheory.SetValuedFunctors]
univ_surj_nt_ax_pw_pw [lemma, in UniMath.CategoryTheory.SetValuedFunctors]
univ_surj_nt_ax_pw [lemma, in UniMath.CategoryTheory.SetValuedFunctors]
univ_surj_nt_ax [lemma, in UniMath.CategoryTheory.SetValuedFunctors]
univ_surj_nt [definition, in UniMath.CategoryTheory.SetValuedFunctors]
univ_hom [definition, in UniMath.Bicategories.Core.Univalence]
univ_function_is_equivariant [definition, in UniMath.Algebra.GroupAction]
univ_function_pointed [definition, in UniMath.Algebra.GroupAction]
univ_function [definition, in UniMath.Algebra.GroupAction]
univ_cat_binprod_cone [definition, in UniMath.Bicategories.Colimits.Products]
univ_surj_unique [lemma, in UniMath.Foundations.Sets]
univ_surj_ax [lemma, in UniMath.Foundations.Sets]
univ_surj [definition, in UniMath.Foundations.Sets]
unkleislify [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
unkleislify_kleislify [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
unkleislify_data_eq [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
unkleislify_mor [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
unkleislify_mor_laws [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
unkleislify_laws [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
unkleislify_data [definition, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
Unnamed_thm52 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm51 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm50 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm49 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm48 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm47 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm46 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm45 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm44 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm43 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm42 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm41 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm40 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm39 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm38 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm37 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm36 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm35 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm34 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm33 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm32 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm31 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm30 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm29 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm28 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm27 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm26 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm25 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm24 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm23 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm22 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm21 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm20 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm19 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm18 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm17 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm16 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm15 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm15 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm14 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm13 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm12 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm11 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm10 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm9 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm8 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm7 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm6 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm5 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm4 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm3 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm2 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm1 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm0 [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm [definition, in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm [definition, in UniMath.MoreFoundations.NullHomotopies]
Unnamed_thm4 [definition, in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm4 [definition, in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm3 [definition, in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm2 [definition, in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm1 [definition, in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm0 [definition, in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm [definition, in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm10 [definition, in UniMath.MoreFoundations.Test]
Unnamed_thm9 [definition, in UniMath.MoreFoundations.Test]
Unnamed_thm8 [definition, in UniMath.MoreFoundations.Test]
Unnamed_thm7 [definition, in UniMath.MoreFoundations.Test]
Unnamed_thm6 [definition, in UniMath.MoreFoundations.Test]
Unnamed_thm5 [definition, in UniMath.MoreFoundations.Test]
Unnamed_thm4 [definition, in UniMath.MoreFoundations.Test]
Unnamed_thm3 [definition, in UniMath.MoreFoundations.Test]
Unnamed_thm2 [definition, in UniMath.MoreFoundations.Test]
Unnamed_thm1 [definition, in UniMath.MoreFoundations.Test]
Unnamed_thm0 [definition, in UniMath.MoreFoundations.Test]
Unnamed_thm [definition, in UniMath.MoreFoundations.Test]
Unnamed_thm [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Unnamed_thm [definition, in UniMath.CategoryTheory.Monads.Monads]
Unnamed_thm [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Unnamed_thm [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Unnamed_thm [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Unnamed_thm [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Unnamed_thm [definition, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Unnamed_thm3 [definition, in UniMath.Ktheory.GrothendieckGroup]
Unnamed_thm2 [definition, in UniMath.Ktheory.GrothendieckGroup]
Unnamed_thm1 [definition, in UniMath.Ktheory.GrothendieckGroup]
Unnamed_thm0 [definition, in UniMath.Ktheory.GrothendieckGroup]
Unnamed_thm [definition, in UniMath.Ktheory.GrothendieckGroup]
Unnamed_thm143 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm142 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm141 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm140 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm139 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm138 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm138 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm138 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm137 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm136 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm135 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm134 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm133 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm132 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm131 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm130 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm129 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm128 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm127 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm126 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm125 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm124 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm123 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm122 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm121 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm120 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm119 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm118 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm117 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm116 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm115 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm114 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm113 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm112 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm111 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm110 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm109 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm108 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm107 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm106 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm105 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm104 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm103 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm102 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm101 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm100 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm99 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm98 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm97 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm96 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm95 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm94 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm93 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm92 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm91 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm90 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm89 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm88 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm87 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm86 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm85 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm84 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm83 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm82 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm81 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm80 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm79 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm78 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm77 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm76 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm75 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm74 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm73 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm72 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm71 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm70 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm69 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm68 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm67 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm66 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm65 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm64 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm63 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm62 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm61 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm60 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm59 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm58 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm57 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm56 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm55 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm54 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm53 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm52 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm52 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm51 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm50 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm49 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm48 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm47 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm46 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm45 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm44 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm43 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm42 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm41 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm40 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm39 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm38 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm37 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm36 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm35 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm34 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm33 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm32 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm31 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm30 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm29 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm28 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm27 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm26 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm25 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm24 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm23 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm22 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm21 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm20 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm19 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm18 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm17 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm16 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm15 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm14 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm13 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm12 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm11 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm10 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm9 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm8 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm7 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm6 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm5 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm4 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm3 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm2 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm1 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm0 [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm [definition, in UniMath.Combinatorics.Tests]
Unnamed_thm [definition, in UniMath.CategoryTheory.opp_precat]
Unnamed_thm0 [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Unnamed_thm [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Unnamed_thm0 [definition, in UniMath.Algebra.GroupAction]
Unnamed_thm0 [definition, in UniMath.Algebra.GroupAction]
Unnamed_thm [definition, in UniMath.Algebra.GroupAction]
Unnamed_thm [definition, in UniMath.CategoryTheory.HorizontalComposition]
Unnamed_thm [definition, in UniMath.CategoryTheory.Groupoids]
Unnamed_thm [definition, in UniMath.CategoryTheory.Groupoids]
Unnamed_thm [definition, in UniMath.CategoryTheory.Groupoids]
Unnamed_thm [definition, in UniMath.CategoryTheory.PrecategoryBinProduct]
Unnamed_thm [definition, in UniMath.CategoryTheory.Monads.Kleisli]
Unnamed_thm [definition, in UniMath.MoreFoundations.PathsOver]
Unnamed_thm0 [definition, in UniMath.MoreFoundations.PartA]
Unnamed_thm [definition, in UniMath.MoreFoundations.PartA]
Unnamed_thm0 [definition, in UniMath.MoreFoundations.Interval]
Unnamed_thm [definition, in UniMath.MoreFoundations.Interval]
Unnamed_thm35 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm34 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm33 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm32 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm31 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm30 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm29 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm28 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm27 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm26 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm25 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm24 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm23 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm22 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm21 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm20 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm19 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm18 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm17 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm16 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm15 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm14 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm13 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm12 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm11 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm10 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm9 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm8 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm7 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm6 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm5 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm4 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm3 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm2 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm1 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm0 [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm [definition, in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm3 [definition, in UniMath.Algebra.Universal.Examples.Nat]
Unnamed_thm2 [definition, in UniMath.Algebra.Universal.Examples.Nat]
Unnamed_thm1 [definition, in UniMath.Algebra.Universal.Examples.Nat]
Unnamed_thm0 [definition, in UniMath.Algebra.Universal.Examples.Nat]
Unnamed_thm [definition, in UniMath.Algebra.Universal.Examples.Nat]
Unnamed_thm [definition, in UniMath.CategoryTheory.Inductives.Trees]
Unnamed_thm3 [definition, in UniMath.Combinatorics.Lists]
Unnamed_thm2 [definition, in UniMath.Combinatorics.Lists]
Unnamed_thm1 [definition, in UniMath.Combinatorics.Lists]
Unnamed_thm0 [definition, in UniMath.Combinatorics.Lists]
Unnamed_thm [definition, in UniMath.Combinatorics.Lists]
Unnamed_thm1 [definition, in UniMath.Topology.Filters]
Unnamed_thm0 [definition, in UniMath.Topology.Filters]
Unnamed_thm [definition, in UniMath.Topology.Filters]
Unnamed_thm0 [definition, in UniMath.MoreFoundations.Propositions]
Unnamed_thm0 [definition, in UniMath.MoreFoundations.Propositions]
Unnamed_thm [definition, in UniMath.MoreFoundations.Propositions]
Unnamed_thm [definition, in UniMath.MoreFoundations.Propositions]
Unnamed_thm [definition, in UniMath.MoreFoundations.Propositions]
Unnamed_thm [definition, in UniMath.Combinatorics.WellFoundedRelations]
Unnamed_thm10 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm9 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm8 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm7 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm6 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm5 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm4 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm3 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm2 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm1 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm0 [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm [definition, in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm2 [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Unnamed_thm1 [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Unnamed_thm0 [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Unnamed_thm [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Unnamed_thm [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Unnamed_thm0 [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
Unnamed_thm [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
Unnamed_thm7 [definition, in UniMath.Combinatorics.VectorsTests]
Unnamed_thm6 [definition, in UniMath.Combinatorics.VectorsTests]
Unnamed_thm5 [definition, in UniMath.Combinatorics.VectorsTests]
Unnamed_thm4 [definition, in UniMath.Combinatorics.VectorsTests]
Unnamed_thm3 [definition, in UniMath.Combinatorics.VectorsTests]
Unnamed_thm2 [definition, in UniMath.Combinatorics.VectorsTests]
Unnamed_thm1 [definition, in UniMath.Combinatorics.VectorsTests]
Unnamed_thm0 [definition, in UniMath.Combinatorics.VectorsTests]
Unnamed_thm [definition, in UniMath.Combinatorics.VectorsTests]
Unnamed_thm0 [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
Unnamed_thm [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
Unnamed_thm6 [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm5 [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm5 [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm4 [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm3 [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm2 [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm1 [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm0 [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm38 [definition, in UniMath.Foundations.Tests]
Unnamed_thm37 [definition, in UniMath.Foundations.Tests]
Unnamed_thm36 [definition, in UniMath.Foundations.Tests]
Unnamed_thm35 [definition, in UniMath.Foundations.Tests]
Unnamed_thm34 [definition, in UniMath.Foundations.Tests]
Unnamed_thm33 [definition, in UniMath.Foundations.Tests]
Unnamed_thm32 [definition, in UniMath.Foundations.Tests]
Unnamed_thm31 [definition, in UniMath.Foundations.Tests]
Unnamed_thm30 [definition, in UniMath.Foundations.Tests]
Unnamed_thm29 [definition, in UniMath.Foundations.Tests]
Unnamed_thm28 [definition, in UniMath.Foundations.Tests]
Unnamed_thm27 [definition, in UniMath.Foundations.Tests]
Unnamed_thm26 [definition, in UniMath.Foundations.Tests]
Unnamed_thm25 [definition, in UniMath.Foundations.Tests]
Unnamed_thm24 [definition, in UniMath.Foundations.Tests]
Unnamed_thm23 [definition, in UniMath.Foundations.Tests]
Unnamed_thm22 [definition, in UniMath.Foundations.Tests]
Unnamed_thm21 [definition, in UniMath.Foundations.Tests]
Unnamed_thm20 [definition, in UniMath.Foundations.Tests]
Unnamed_thm19 [definition, in UniMath.Foundations.Tests]
Unnamed_thm18 [definition, in UniMath.Foundations.Tests]
Unnamed_thm17 [definition, in UniMath.Foundations.Tests]
Unnamed_thm16 [definition, in UniMath.Foundations.Tests]
Unnamed_thm15 [definition, in UniMath.Foundations.Tests]
Unnamed_thm14 [definition, in UniMath.Foundations.Tests]
Unnamed_thm13 [definition, in UniMath.Foundations.Tests]
Unnamed_thm12 [definition, in UniMath.Foundations.Tests]
Unnamed_thm11 [definition, in UniMath.Foundations.Tests]
Unnamed_thm10 [definition, in UniMath.Foundations.Tests]
Unnamed_thm9 [definition, in UniMath.Foundations.Tests]
Unnamed_thm8 [definition, in UniMath.Foundations.Tests]
Unnamed_thm7 [definition, in UniMath.Foundations.Tests]
Unnamed_thm6 [definition, in UniMath.Foundations.Tests]
Unnamed_thm5 [definition, in UniMath.Foundations.Tests]
Unnamed_thm4 [definition, in UniMath.Foundations.Tests]
Unnamed_thm3 [definition, in UniMath.Foundations.Tests]
Unnamed_thm2 [definition, in UniMath.Foundations.Tests]
Unnamed_thm1 [definition, in UniMath.Foundations.Tests]
Unnamed_thm0 [definition, in UniMath.Foundations.Tests]
Unnamed_thm [definition, in UniMath.Foundations.Tests]
unop [definition, in UniMath.Algebra.BinaryOperations]
unop [definition, in UniMath.RealNumbers.Sets]
UnorderedSequence [definition, in UniMath.Combinatorics.FiniteSequences]
unorderedSequenceToFunction [definition, in UniMath.Combinatorics.FiniteSequences]
unshiftCocone [definition, in UniMath.CategoryTheory.Chains.Adamek]
unx:1024 [binder, in UniMath.Algebra.BinaryOperations]
unx:998 [binder, in UniMath.Algebra.BinaryOperations]
uny:1007 [binder, in UniMath.Algebra.BinaryOperations]
uny:1034 [binder, in UniMath.Algebra.BinaryOperations]
un0:100 [binder, in UniMath.Algebra.BinaryOperations]
un0:105 [binder, in UniMath.Algebra.BinaryOperations]
un0:109 [binder, in UniMath.Algebra.BinaryOperations]
un0:114 [binder, in UniMath.Algebra.BinaryOperations]
un0:118 [binder, in UniMath.Algebra.BinaryOperations]
un0:122 [binder, in UniMath.Algebra.BinaryOperations]
un0:128 [binder, in UniMath.Algebra.BinaryOperations]
un0:286 [binder, in UniMath.Algebra.BinaryOperations]
un0:290 [binder, in UniMath.Algebra.BinaryOperations]
un0:45 [binder, in UniMath.Algebra.BinaryOperations]
un0:49 [binder, in UniMath.Algebra.BinaryOperations]
un0:52 [binder, in UniMath.Algebra.BinaryOperations]
un0:56 [binder, in UniMath.Algebra.BinaryOperations]
un0:59 [binder, in UniMath.Algebra.BinaryOperations]
un0:62 [binder, in UniMath.Algebra.BinaryOperations]
un0:67 [binder, in UniMath.Algebra.BinaryOperations]
un0:70 [binder, in UniMath.Algebra.BinaryOperations]
un0:74 [binder, in UniMath.Algebra.BinaryOperations]
un0:75 [binder, in UniMath.Algebra.BinaryOperations]
un:15 [binder, in UniMath.Algebra.Matrix]
un:53 [binder, in UniMath.Algebra.Matrix]
uOF_comp [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
uOF_identity [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
uord [definition, in UniMath.Paradoxes.GirardsParadox]
Up [definition, in UniMath.Combinatorics.ZFstructures]
UpperBounds [section, in UniMath.Algebra.FixedPointTheorems]
upper:11 [binder, in UniMath.PAdics.padics]
upper:111 [binder, in UniMath.PAdics.fps]
upper:117 [binder, in UniMath.PAdics.fps]
upper:12 [binder, in UniMath.PAdics.fps]
upper:124 [binder, in UniMath.PAdics.fps]
upper:129 [binder, in UniMath.PAdics.fps]
upper:134 [binder, in UniMath.PAdics.fps]
upper:139 [binder, in UniMath.PAdics.fps]
upper:147 [binder, in UniMath.PAdics.fps]
upper:150 [binder, in UniMath.PAdics.fps]
upper:153 [binder, in UniMath.PAdics.fps]
upper:156 [binder, in UniMath.PAdics.fps]
upper:161 [binder, in UniMath.PAdics.fps]
upper:168 [binder, in UniMath.PAdics.fps]
upper:17 [binder, in UniMath.PAdics.fps]
upper:171 [binder, in UniMath.PAdics.fps]
upper:174 [binder, in UniMath.PAdics.fps]
upper:179 [binder, in UniMath.PAdics.fps]
upper:184 [binder, in UniMath.PAdics.fps]
upper:185 [binder, in UniMath.PAdics.fps]
upper:186 [binder, in UniMath.PAdics.fps]
upper:187 [binder, in UniMath.PAdics.fps]
upper:189 [binder, in UniMath.PAdics.fps]
upper:192 [binder, in UniMath.PAdics.fps]
upper:193 [binder, in UniMath.PAdics.fps]
upper:198 [binder, in UniMath.PAdics.fps]
upper:2 [binder, in UniMath.PAdics.fps]
upper:27 [binder, in UniMath.PAdics.fps]
upper:33 [binder, in UniMath.PAdics.fps]
upper:38 [binder, in UniMath.PAdics.fps]
upper:4 [binder, in UniMath.PAdics.padics]
upper:420 [binder, in UniMath.PAdics.fps]
upper:43 [binder, in UniMath.PAdics.fps]
upper:44 [binder, in UniMath.PAdics.padics]
upper:48 [binder, in UniMath.PAdics.fps]
upper:5 [binder, in UniMath.PAdics.fps]
upper:53 [binder, in UniMath.PAdics.fps]
upper:58 [binder, in UniMath.PAdics.fps]
upper:61 [binder, in UniMath.PAdics.lemmas]
upper:84 [binder, in UniMath.PAdics.padics]
Upstream [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
UpstreamInBicat [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
UpstreamInBicat.EquivalenceInBicat [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Upstream.TheEquivalence [section, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
upto [definition, in UniMath.Combinatorics.WellOrderedSets]
upto_eqn [lemma, in UniMath.Combinatorics.WellOrderedSets]
upto' [definition, in UniMath.Combinatorics.WellOrderedSets]
upto'_eqn [lemma, in UniMath.Combinatorics.WellOrderedSets]
UpUpid [lemma, in UniMath.Combinatorics.ZFstructures]
Upw [definition, in UniMath.Combinatorics.ZFstructures]
Upw_to_TRRGraph [definition, in UniMath.Combinatorics.ZFstructures]
Upw_rooted [lemma, in UniMath.Combinatorics.ZFstructures]
Upw_transitive [lemma, in UniMath.Combinatorics.ZFstructures]
Upw_reflexive [lemma, in UniMath.Combinatorics.ZFstructures]
Upw_to_PointedGraph [definition, in UniMath.Combinatorics.ZFstructures]
Upw_E [definition, in UniMath.Combinatorics.ZFstructures]
Upw_underlying [definition, in UniMath.Combinatorics.ZFstructures]
Up_to_Up_inv [definition, in UniMath.Combinatorics.ZFstructures]
Up_to_Up [definition, in UniMath.Combinatorics.ZFstructures]
uset [definition, in UniMath.Paradoxes.GirardsParadox]
USig [definition, in UniMath.SubstitutionSystems.MLTT79]
Utilities [section, in UniMath.CategoryTheory.DisplayedCats.Core]
Utilities [library]
UU [definition, in UniMath.Foundations.Preamble]
UU_rect [lemma, in UniMath.Foundations.UnivalenceAxiom]
uu:35 [binder, in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
uvf:38 [binder, in UniMath.CategoryTheory.CommaCategories]
uvg:48 [binder, in UniMath.CategoryTheory.CommaCategories]
uvg:55 [binder, in UniMath.CategoryTheory.CommaCategories]
U_cauchy:383 [binder, in UniMath.RealNumbers.NonnegativeReals]
U_corr:374 [binder, in UniMath.RealNumbers.NonnegativeReals]
U_open:372 [binder, in UniMath.RealNumbers.NonnegativeReals]
U_bot:370 [binder, in UniMath.RealNumbers.NonnegativeReals]
U_action [definition, in UniMath.CategoryTheory.Monoidal.Actions]
U_action_plaw [lemma, in UniMath.CategoryTheory.Monoidal.Actions]
U_action_tlaw [lemma, in UniMath.CategoryTheory.Monoidal.Actions]
U_action_χ [definition, in UniMath.CategoryTheory.Monoidal.Actions]
U_action_χ_is_nat_z_iso [lemma, in UniMath.CategoryTheory.Monoidal.Actions]
U_action_χ_nat_trans_ok [lemma, in UniMath.CategoryTheory.Monoidal.Actions]
U_action_χ_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.Actions]
U_action_ρ [definition, in UniMath.CategoryTheory.Monoidal.Actions]
U_action_ρ_is_nat_z_iso [definition, in UniMath.CategoryTheory.Monoidal.Actions]
U_action_ρ_nat_trans_ok [lemma, in UniMath.CategoryTheory.Monoidal.Actions]
U_action_ρ_nat_trans [definition, in UniMath.CategoryTheory.Monoidal.Actions]
U_action_alt_ok3 [lemma, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
U_action_alt_ok2 [lemma, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
U_action_alt_ok1 [lemma, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
U_action_alt [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
U' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
u':187 [binder, in UniMath.Algebra.Dcpo]
U1:93 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
U2:94 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
U:10 [binder, in UniMath.AlgebraicGeometry.SheavesOfRings]
u:10 [binder, in UniMath.Bicategories.Core.Examples.Initial]
u:10 [binder, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
u:10 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
U:10 [binder, in UniMath.AlgebraicGeometry.Topology]
u:10 [binder, in UniMath.Combinatorics.GraphPaths]
u:10 [binder, in UniMath.Algebra.Dcpo]
u:101 [binder, in UniMath.Induction.M.Chains]
u:103 [binder, in UniMath.CategoryTheory.limits.cats.limits]
U:103 [binder, in UniMath.AlgebraicGeometry.Spec]
U:105 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
u:108 [binder, in UniMath.Induction.M.Chains]
u:108 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
u:109 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
u:11 [binder, in UniMath.Bicategories.Core.Examples.Initial]
u:11 [binder, in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
u:11 [binder, in UniMath.Combinatorics.GraphPaths]
u:11 [binder, in UniMath.Algebra.Dcpo]
u:111 [binder, in UniMath.CategoryTheory.limits.cats.limits]
u:112 [binder, in UniMath.Combinatorics.Vectors]
u:115 [binder, in UniMath.Induction.M.Chains]
u:115 [binder, in UniMath.Algebra.Dcpo]
u:116 [binder, in UniMath.Combinatorics.Vectors]
u:116 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
u:117 [binder, in UniMath.Folds.folds_pre_2_cat]
U:12 [binder, in UniMath.AlgebraicGeometry.SheavesOfRings]
u:12 [binder, in UniMath.Bicategories.Core.Examples.Initial]
u:12 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
u:12 [binder, in UniMath.Algebra.Dcpo]
U:12 [binder, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
u:120 [binder, in UniMath.Folds.folds_pre_2_cat]
u:120 [binder, in UniMath.RealNumbers.Reals]
u:120 [binder, in UniMath.CategoryTheory.limits.cats.limits]
u:122 [binder, in UniMath.Induction.M.Chains]
u:123 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
u:123 [binder, in UniMath.Folds.folds_pre_2_cat]
u:125 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
u:125 [binder, in UniMath.Folds.folds_pre_2_cat]
u:125 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
u:127 [binder, in UniMath.Folds.folds_pre_2_cat]
u:129 [binder, in UniMath.RealNumbers.Reals]
u:129 [binder, in UniMath.CategoryTheory.limits.cats.limits]
u:129 [binder, in UniMath.Induction.M.Chains]
u:13 [binder, in UniMath.Bicategories.Core.Examples.Initial]
u:13 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
u:13 [binder, in UniMath.CategoryTheory.NNO]
u:131 [binder, in UniMath.Folds.folds_pre_2_cat]
u:134 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
u:136 [binder, in UniMath.RealNumbers.Reals]
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U:24 [binder, in UniMath.AlgebraicGeometry.Spec]
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U:25 [binder, in UniMath.RealNumbers.DedekindCuts]
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U:29 [binder, in UniMath.RealNumbers.DedekindCuts]
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U:35 [binder, in UniMath.RealNumbers.DedekindCuts]
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U:94 [binder, in UniMath.AlgebraicGeometry.Spec]
U:96 [binder, in UniMath.AlgebraicGeometry.Spec]
U:99 [binder, in UniMath.AlgebraicGeometry.Spec]

V

V [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
v [definition, in UniMath.Foundations.Tests]
value_in_image [definition, in UniMath.Algebra.FixedPointTheorems]
var [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
var [definition, in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
variables [definition, in UniMath.Algebra.Universal.Equations]
Variables [section, in UniMath.Algebra.Universal.VTerms]
Varieties [section, in UniMath.Algebra.Universal.EqAlgebras]
varname [definition, in UniMath.Algebra.Universal.VTerms]
varsort [definition, in UniMath.Algebra.Universal.VTerms]
varsorts:5 [binder, in UniMath.Algebra.Universal.VTerms]
varspec [definition, in UniMath.Algebra.Universal.VTerms]
varsupp [definition, in UniMath.Algebra.Universal.VTerms]
varsupp:4 [binder, in UniMath.Algebra.Universal.VTerms]
vars:87 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
varterm [definition, in UniMath.Algebra.Universal.VTerms]
VarTerms [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
var_map [definition, in UniMath.SubstitutionSystems.STLC]
var_map [definition, in UniMath.SubstitutionSystems.CCS_alt]
var_map [definition, in UniMath.SubstitutionSystems.PCF_alt]
var_map [definition, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
var_map [definition, in UniMath.SubstitutionSystems.STLC_alt]
var_map [definition, in UniMath.SubstitutionSystems.CCS]
var_map [definition, in UniMath.SubstitutionSystems.MLTT79]
var_map [definition, in UniMath.SubstitutionSystems.LamFromBindingSig]
vassocl [definition, in UniMath.Bicategories.Core.Bicat]
vassocr [definition, in UniMath.Bicategories.Core.Bicat]
vassocr [definition, in UniMath.CategoryTheory.Core.TwoCategories]
vassoc4 [lemma, in UniMath.Bicategories.Core.Bicat]
VCompDispIsInvertible [section, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
vcomp_rinvunitor [definition, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
vcomp_disp_invertible [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
vcomp_disp_is_invertible [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
vcomp_disp_is_invertible_linv [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
vcomp_disp_is_invertible_rinv [definition, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
vcomp_is_cartesian_2cell [definition, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
vcomp_lcancel [lemma, in UniMath.Bicategories.Core.Bicat]
vcomp_rcancel [lemma, in UniMath.Bicategories.Core.Bicat]
vcomp_linv [definition, in UniMath.Bicategories.Core.Bicat]
vcomp_rinv [definition, in UniMath.Bicategories.Core.Bicat]
vcomp_whisker [definition, in UniMath.Bicategories.Core.Bicat]
vcomp_runitor [definition, in UniMath.Bicategories.Core.Bicat]
vcomp_lunitor [definition, in UniMath.Bicategories.Core.Bicat]
vcomp_move_L_pM [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
vcomp_move_L_Mp [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
vcomp_move_R_pM [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
vcomp_move_R_Mp [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
vcomp_move_L_pV [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
vcomp_move_L_Vp [lemma, in UniMath.Bicategories.Core.Invertible_2cells]
vcomp_runitor [definition, in UniMath.CategoryTheory.Core.TwoCategories]
vcomp_lunitor [definition, in UniMath.CategoryTheory.Core.TwoCategories]
vcomp_whisker [definition, in UniMath.CategoryTheory.Core.TwoCategories]
vcomp2 [definition, in UniMath.Bicategories.Core.Bicat]
vcomp2 [definition, in UniMath.CategoryTheory.Core.TwoCategories]
vcomp:448 [binder, in UniMath.Bicategories.Core.Bicat]
vcons [definition, in UniMath.Combinatorics.Vectors]
Ve [definition, in UniMath.Combinatorics.ZFstructures]
vec [definition, in UniMath.Combinatorics.Vectors]
vecoplist2oplist [definition, in UniMath.Algebra.Universal.Terms]
vecoplist2oplist_inj [lemma, in UniMath.Algebra.Universal.Terms]
vecoplist2oplist_vcons [lemma, in UniMath.Algebra.Universal.Terms]
vecs [section, in UniMath.Combinatorics.Vectors]
vecsn:38 [binder, in UniMath.Combinatorics.FiniteSequences]
vecS_eq [definition, in UniMath.Combinatorics.Vectors]
Vector [definition, in UniMath.Combinatorics.FiniteSequences]
vectorEquality [definition, in UniMath.Combinatorics.FiniteSequences]
Vectors [library]
VectorsTests [library]
vector_stn_proofirrelevance [definition, in UniMath.Combinatorics.FiniteSequences]
Vector_rect [definition, in UniMath.Combinatorics.FiniteSequences]
vector_hlevel [lemma, in UniMath.Combinatorics.FiniteSequences]
vec_zip [definition, in UniMath.Combinatorics.Vectors]
vec_map_const [lemma, in UniMath.Combinatorics.Vectors]
vec_fill [definition, in UniMath.Combinatorics.Vectors]
vec_append_lid [lemma, in UniMath.Combinatorics.Vectors]
vec_map_make_vec [lemma, in UniMath.Combinatorics.Vectors]
vec_map_comp [lemma, in UniMath.Combinatorics.Vectors]
vec_map_id [lemma, in UniMath.Combinatorics.Vectors]
vec_append [definition, in UniMath.Combinatorics.Vectors]
vec_foldr1 [definition, in UniMath.Combinatorics.Vectors]
vec_foldr [definition, in UniMath.Combinatorics.Vectors]
vec_map_as_make_vec [lemma, in UniMath.Combinatorics.Vectors]
vec_map [definition, in UniMath.Combinatorics.Vectors]
vec_ind [lemma, in UniMath.Combinatorics.Vectors]
vec_extens [lemma, in UniMath.Combinatorics.Vectors]
vec0_eq [definition, in UniMath.Combinatorics.Vectors]
vec1:77 [binder, in UniMath.Algebra.Matrix]
vec2:78 [binder, in UniMath.Algebra.Matrix]
vec:15 [binder, in UniMath.Combinatorics.FiniteSequences]
vec:26 [binder, in UniMath.Combinatorics.FiniteSequences]
vec:30 [binder, in UniMath.Combinatorics.FiniteSequences]
vec:39 [binder, in UniMath.Combinatorics.FiniteSequences]
vec:59 [binder, in UniMath.Combinatorics.FiniteSequences]
vec:64 [binder, in UniMath.Combinatorics.FiniteSequences]
vec:71 [binder, in UniMath.Algebra.Matrix]
vec:75 [binder, in UniMath.Algebra.Matrix]
vec:80 [binder, in UniMath.Algebra.Matrix]
vec:82 [binder, in UniMath.Algebra.Matrix]
vertex [definition, in UniMath.Combinatorics.Graph]
vertex [definition, in UniMath.CategoryTheory.limits.graphs.colimits]
ver1:12 [binder, in UniMath.Induction.M.Chains]
ver1:17 [binder, in UniMath.Induction.M.Chains]
ver1:7 [binder, in UniMath.Induction.M.Chains]
ver2:13 [binder, in UniMath.Induction.M.Chains]
ver2:18 [binder, in UniMath.Induction.M.Chains]
ver2:8 [binder, in UniMath.Induction.M.Chains]
ver3:19 [binder, in UniMath.Induction.M.Chains]
ver:48 [binder, in UniMath.Induction.M.Limits]
ver:49 [binder, in UniMath.Induction.M.Limits]
vis:132 [binder, in UniMath.Foundations.UnivalenceAxiom]
vis:133 [binder, in UniMath.Foundations.UnivalenceAxiom]
vnil [definition, in UniMath.Combinatorics.Vectors]
vsignature [definition, in UniMath.Algebra.Universal.VTerms]
vs:13 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
vs:19 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
vs:25 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
vs:31 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
VTerms [library]
vw:106 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
vw:107 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
vw:108 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
vw:109 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
vw:110 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v':1001 [binder, in UniMath.Foundations.PartA]
v':35 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
v':49 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v':53 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v':81 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v1:155 [binder, in UniMath.Combinatorics.Vectors]
v1:24 [binder, in UniMath.Induction.M.Chains]
v1:4 [binder, in UniMath.Algebra.Matrix]
v1:65 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v1:76 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v1:94 [binder, in UniMath.Algebra.Universal.Terms]
v2:156 [binder, in UniMath.Combinatorics.Vectors]
v2:5 [binder, in UniMath.Algebra.Matrix]
v2:66 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v2:77 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v2:95 [binder, in UniMath.Algebra.Universal.Terms]
v3:67 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v3:78 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
V:1 [binder, in UniMath.Combinatorics.GraphPaths]
V:1 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
v:1 [binder, in UniMath.Tactics.Monoids_Tactics]
V:1 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
V:10 [binder, in UniMath.Algebra.Universal.VTerms]
v:10 [binder, in UniMath.Algebra.Universal.HVectors]
v:10 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
v:10 [binder, in UniMath.Algebra.Universal.FreeAlgebras]
V:10 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:100 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v:101 [binder, in UniMath.Algebra.Universal.HVectors]
v:101 [binder, in UniMath.Bicategories.Core.Strictness]
v:102 [binder, in UniMath.Algebra.Universal.Terms]
v:102 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v:102 [binder, in UniMath.Induction.M.Chains]
v:105 [binder, in UniMath.Induction.M.Chains]
v:106 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:107 [binder, in UniMath.Algebra.Universal.Terms]
v:109 [binder, in UniMath.Induction.M.Chains]
v:11 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
V:11 [binder, in UniMath.Algebra.Universal.Equations]
v:11 [binder, in UniMath.Algebra.Universal.VTerms]
v:110 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
v:110 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
v:112 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
v:112 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:112 [binder, in UniMath.Induction.M.Chains]
v:116 [binder, in UniMath.Algebra.Universal.Terms]
v:116 [binder, in UniMath.Algebra.Universal.HVectors]
v:116 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:116 [binder, in UniMath.Induction.M.Chains]
v:116 [binder, in UniMath.Algebra.Dcpo]
v:118 [binder, in UniMath.Combinatorics.Vectors]
v:118 [binder, in UniMath.Algebra.Universal.Terms]
v:118 [binder, in UniMath.Folds.folds_pre_2_cat]
v:118 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:119 [binder, in UniMath.Induction.M.Chains]
V:12 [binder, in UniMath.Combinatorics.GraphPaths]
v:12 [binder, in UniMath.Algebra.Universal.FreeAlgebras]
v:120 [binder, in UniMath.Algebra.Universal.Terms]
v:121 [binder, in UniMath.Folds.folds_pre_2_cat]
v:121 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:122 [binder, in UniMath.Algebra.Universal.HVectors]
v:123 [binder, in UniMath.Induction.M.Chains]
v:124 [binder, in UniMath.CategoryTheory.limits.graphs.coequalizers]
v:124 [binder, in UniMath.Algebra.Universal.Terms]
v:124 [binder, in UniMath.Folds.folds_pre_2_cat]
v:125 [binder, in UniMath.Combinatorics.Vectors]
v:126 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:13 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
V:13 [binder, in UniMath.Algebra.Universal.VTerms]
v:13 [binder, in UniMath.Combinatorics.Vectors]
v:130 [binder, in UniMath.Algebra.Universal.HVectors]
v:130 [binder, in UniMath.Induction.M.Chains]
v:132 [binder, in UniMath.Combinatorics.Vectors]
v:134 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
v:137 [binder, in UniMath.Induction.M.Chains]
v:139 [binder, in UniMath.CategoryTheory.limits.cats.limits]
V:14 [binder, in UniMath.Algebra.Universal.Equations]
v:14 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
v:14 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:14 [binder, in UniMath.Combinatorics.GraphPaths]
V:14 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:14 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:140 [binder, in UniMath.MoreFoundations.PartA]
v:141 [binder, in UniMath.Algebra.Universal.HVectors]
v:142 [binder, in UniMath.Algebra.Universal.Terms]
v:143 [binder, in UniMath.Induction.M.Chains]
v:144 [binder, in UniMath.Algebra.Universal.Terms]
v:144 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:1441 [binder, in UniMath.Foundations.PartA]
v:145 [binder, in UniMath.Combinatorics.Vectors]
v:1450 [binder, in UniMath.Foundations.PartA]
v:1459 [binder, in UniMath.Foundations.PartA]
v:146 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
v:149 [binder, in UniMath.Combinatorics.Vectors]
v:149 [binder, in UniMath.Induction.M.Chains]
V:15 [binder, in UniMath.AlgebraicGeometry.SheavesOfRings]
V:15 [binder, in UniMath.Algebra.Universal.VTerms]
v:15 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
V:15 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:151 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:152 [binder, in UniMath.CategoryTheory.limits.graphs.bincoproducts]
v:154 [binder, in UniMath.Algebra.Universal.Terms]
v:155 [binder, in UniMath.Induction.M.Chains]
v:156 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:157 [binder, in UniMath.PAdics.padics]
v:158 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:159 [binder, in UniMath.PAdics.padics]
v:16 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
v:16 [binder, in UniMath.Algebra.Universal.VTerms]
v:16 [binder, in UniMath.Algebra.Dcpo]
v:160 [binder, in UniMath.Algebra.Universal.HVectors]
v:161 [binder, in UniMath.Induction.M.Chains]
v:164 [binder, in UniMath.PAdics.padics]
v:164 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:164 [binder, in UniMath.Induction.M.Chains]
v:166 [binder, in UniMath.PAdics.padics]
v:168 [binder, in UniMath.PAdics.padics]
v:168 [binder, in UniMath.Induction.M.Chains]
v:169 [binder, in UniMath.PAdics.padics]
v:169 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
V:17 [binder, in UniMath.Algebra.Universal.Equations]
v:17 [binder, in UniMath.CategoryTheory.limits.cats.limits]
V:17 [binder, in UniMath.Combinatorics.GraphPaths]
V:17 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:170 [binder, in UniMath.PAdics.padics]
v:170 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:171 [binder, in UniMath.PAdics.padics]
v:172 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
v:172 [binder, in UniMath.Induction.M.Chains]
v:174 [binder, in UniMath.Algebra.Universal.HVectors]
v:175 [binder, in UniMath.Induction.M.Chains]
v:175 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:178 [binder, in UniMath.Induction.M.Chains]
V:18 [binder, in UniMath.Algebra.Universal.VTerms]
v:18 [binder, in UniMath.Algebra.Universal.HVectors]
v:18 [binder, in UniMath.Induction.M.Limits]
V:181 [binder, in UniMath.Topology.Topology]
v:181 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:181 [binder, in UniMath.Induction.M.Chains]
v:184 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:185 [binder, in UniMath.Induction.M.Chains]
v:186 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:188 [binder, in UniMath.Induction.M.Chains]
v:189 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
V:19 [binder, in UniMath.Algebra.Universal.Equations]
v:19 [binder, in UniMath.CategoryTheory.categories.HSET.Colimits]
v:19 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:19 [binder, in UniMath.Combinatorics.GraphPaths]
v:196 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:197 [binder, in UniMath.Algebra.Universal.Terms]
V:2 [binder, in UniMath.Algebra.Universal.Equations]
V:2 [binder, in UniMath.Algebra.Universal.VTerms]
v:2 [binder, in UniMath.Algebra.Universal.HVectors]
V:2 [binder, in UniMath.Algebra.Universal.EqAlgebras]
v:2 [binder, in UniMath.Tactics.Monoids_Tactics]
V:2 [binder, in UniMath.Algebra.Universal.FreeAlgebras]
V:20 [binder, in UniMath.Combinatorics.ZFstructures]
V:20 [binder, in UniMath.Algebra.Universal.VTerms]
v:20 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
V:20 [binder, in UniMath.Combinatorics.GraphPaths]
v:20 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
V:204 [binder, in UniMath.Topology.Topology]
v:207 [binder, in UniMath.Algebra.Universal.Terms]
v:207 [binder, in UniMath.PAdics.fps]
v:209 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
V:21 [binder, in UniMath.Algebra.Universal.VTerms]
v:21 [binder, in UniMath.Combinatorics.Vectors]
v:21 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
v:21 [binder, in UniMath.AlgebraicGeometry.Topology]
V:21 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:21 [binder, in UniMath.Paradoxes.GirardsParadox]
v:214 [binder, in UniMath.Algebra.Universal.Terms]
v:215 [binder, in UniMath.MoreFoundations.PartA]
v:215 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:219 [binder, in UniMath.CategoryTheory.limits.cats.limits]
V:22 [binder, in UniMath.Combinatorics.ZFstructures]
V:22 [binder, in UniMath.Algebra.Universal.Equations]
v:22 [binder, in UniMath.Algebra.Universal.HVectors]
V:22 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:221 [binder, in UniMath.Algebra.Universal.Terms]
v:221 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:223 [binder, in UniMath.Algebra.Universal.Terms]
v:225 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:226 [binder, in UniMath.Algebra.Universal.Terms]
v:226 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:23 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
v:23 [binder, in UniMath.Algebra.Universal.VTerms]
v:23 [binder, in UniMath.Combinatorics.Vectors]
v:23 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:23 [binder, in UniMath.Induction.M.Limits]
v:230 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:238 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:239 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:239 [binder, in UniMath.Induction.M.Chains]
V:24 [binder, in UniMath.Algebra.Universal.VTerms]
v:24 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
v:24 [binder, in UniMath.Combinatorics.GraphPaths]
v:242 [binder, in UniMath.Induction.M.Chains]
v:243 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:245 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:246 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:247 [binder, in UniMath.Induction.M.Chains]
v:25 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
v:25 [binder, in UniMath.Algebra.Universal.VTerms]
v:25 [binder, in UniMath.Combinatorics.Vectors]
v:25 [binder, in UniMath.Algebra.Universal.HVectors]
v:25 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:25 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:25 [binder, in UniMath.AlgebraicGeometry.Topology]
V:25 [binder, in UniMath.AlgebraicGeometry.Spec]
v:251 [binder, in UniMath.Induction.M.Chains]
v:253 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:256 [binder, in UniMath.Induction.M.Chains]
V:26 [binder, in UniMath.Combinatorics.ZFstructures]
v:26 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
V:26 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:260 [binder, in UniMath.Induction.M.Chains]
v:260 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:264 [binder, in UniMath.Induction.M.Chains]
v:267 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:268 [binder, in UniMath.Induction.M.Chains]
V:27 [binder, in UniMath.Combinatorics.GraphPaths]
v:27 [binder, in UniMath.Induction.M.Limits]
v:272 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
V:28 [binder, in UniMath.Algebra.Universal.VTerms]
v:28 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
v:28 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:28 [binder, in UniMath.Paradoxes.GirardsParadox]
v:28 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
V:29 [binder, in UniMath.Combinatorics.ZFstructures]
v:29 [binder, in UniMath.Algebra.Universal.VTerms]
v:3 [binder, in UniMath.Tactics.Monoids_Tactics]
v:3 [binder, in UniMath.Induction.M.Limits]
V:30 [binder, in UniMath.Algebra.Universal.VTerms]
v:30 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
v:30 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
V:30 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
v:31 [binder, in UniMath.Paradoxes.GirardsParadox]
V:310 [binder, in UniMath.Topology.Topology]
V:314 [binder, in UniMath.Topology.Topology]
v:315 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:317 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:319 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:32 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
V:32 [binder, in UniMath.Combinatorics.ZFstructures]
v:32 [binder, in UniMath.Algebra.Universal.HVectors]
v:32 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
v:32 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:321 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:323 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
V:324 [binder, in UniMath.Topology.Topology]
v:325 [binder, in UniMath.PAdics.z_mod_p]
v:325 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:327 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:327 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:328 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:329 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
v:329 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
V:33 [binder, in UniMath.Algebra.Universal.VTerms]
v:33 [binder, in UniMath.Combinatorics.Vectors]
V:332 [binder, in UniMath.Topology.Topology]
v:333 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
v:335 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
v:335 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:338 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
V:338 [binder, in UniMath.Topology.Topology]
v:339 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:34 [binder, in UniMath.CategoryTheory.limits.graphs.eqdiag]
v:34 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:34 [binder, in UniMath.Combinatorics.GraphPaths]
v:342 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:342 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
V:345 [binder, in UniMath.Topology.Topology]
v:349 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
V:35 [binder, in UniMath.Combinatorics.ZFstructures]
V:35 [binder, in UniMath.AlgebraicGeometry.Spec]
V:351 [binder, in UniMath.Topology.Topology]
v:355 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
V:36 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:36 [binder, in UniMath.Paradoxes.GirardsParadox]
V:362 [binder, in UniMath.Topology.Topology]
v:37 [binder, in UniMath.Combinatorics.Vectors]
V:374 [binder, in UniMath.Topology.Topology]
V:38 [binder, in UniMath.Combinatorics.ZFstructures]
V:38 [binder, in UniMath.Algebra.Universal.VTerms]
v:381 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
V:386 [binder, in UniMath.Topology.Topology]
v:386 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
V:39 [binder, in UniMath.Combinatorics.ZFstructures]
v:39 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
v:39 [binder, in UniMath.Paradoxes.GirardsParadox]
V:390 [binder, in UniMath.Topology.Topology]
v:394 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
V:395 [binder, in UniMath.Topology.Topology]
v:4 [binder, in UniMath.Combinatorics.GraphPaths]
v:4 [binder, in UniMath.Tactics.Monoids_Tactics]
V:4 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:40 [binder, in UniMath.Combinatorics.Vectors]
v:40 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
V:40 [binder, in UniMath.Combinatorics.GraphPaths]
v:405 [binder, in UniMath.Combinatorics.WellOrderedSets]
v:407 [binder, in UniMath.Combinatorics.WellOrderedSets]
v:41 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
v:413 [binder, in UniMath.Combinatorics.WellOrderedSets]
v:415 [binder, in UniMath.Combinatorics.WellOrderedSets]
v:42 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:42 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:424 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:43 [binder, in UniMath.Algebra.Universal.VTerms]
v:43 [binder, in UniMath.Combinatorics.Vectors]
v:43 [binder, in UniMath.Algebra.Universal.HVectors]
v:43 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
V:44 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
v:440 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
V:45 [binder, in UniMath.Algebra.Universal.VTerms]
v:45 [binder, in UniMath.Combinatorics.GraphPaths]
v:451 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:453 [binder, in UniMath.MoreFoundations.PathsOver]
v:46 [binder, in UniMath.Combinatorics.Vectors]
v:463 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:469 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:47 [binder, in UniMath.PAdics.padics]
v:47 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
V:47 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:479 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:48 [binder, in UniMath.PAdics.padics]
v:48 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:48 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
V:48 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:49 [binder, in UniMath.Algebra.Universal.VTerms]
v:49 [binder, in UniMath.Combinatorics.Vectors]
v:49 [binder, in UniMath.Algebra.Universal.HVectors]
V:49 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
V:5 [binder, in UniMath.Algebra.Universal.Equations]
v:5 [binder, in UniMath.CategoryTheory.limits.cats.limits]
V:5 [binder, in UniMath.Combinatorics.GraphPaths]
V:5 [binder, in UniMath.Algebra.Universal.FreeAlgebras]
V:5 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:5 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:50 [binder, in UniMath.Combinatorics.GraphPaths]
v:51 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v:52 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
V:52 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
V:53 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
v:53 [binder, in UniMath.Algebra.Universal.HVectors]
v:530 [binder, in UniMath.MoreFoundations.PartA]
v:54 [binder, in UniMath.Combinatorics.Vectors]
v:54 [binder, in UniMath.Combinatorics.GraphPaths]
v:54 [binder, in UniMath.Algebra.Dcpo]
v:55 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
V:55 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:56 [binder, in UniMath.PAdics.lemmas]
v:57 [binder, in UniMath.Combinatorics.Vectors]
v:57 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
V:57 [binder, in UniMath.Combinatorics.GraphPaths]
v:57 [binder, in UniMath.Induction.M.Limits]
v:58 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
v:58 [binder, in UniMath.Algebra.Universal.HVectors]
V:58 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:581 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
v:59 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
V:6 [binder, in UniMath.AlgebraicGeometry.SheavesOfRings]
v:6 [binder, in UniMath.CategoryTheory.categories.HSET.Limits]
v:6 [binder, in UniMath.Algebra.Universal.TermAlgebras]
v:6 [binder, in UniMath.Induction.M.Limits]
V:6 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:60 [binder, in UniMath.SyntheticHomotopyTheory.Circle]
v:60 [binder, in UniMath.Combinatorics.GraphPaths]
v:616 [binder, in UniMath.Foundations.PartA]
V:62 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
v:63 [binder, in UniMath.PAdics.padics]
v:63 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
V:63 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:64 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
V:64 [binder, in UniMath.Combinatorics.GraphPaths]
v:65 [binder, in UniMath.PAdics.padics]
v:66 [binder, in UniMath.Combinatorics.Vectors]
v:66 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:67 [binder, in UniMath.Algebra.Universal.HVectors]
v:67 [binder, in UniMath.Combinatorics.GraphPaths]
V:67 [binder, in UniMath.AlgebraicGeometry.Spec]
v:68 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v:69 [binder, in UniMath.Combinatorics.Vectors]
v:69 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v:7 [binder, in UniMath.Combinatorics.GraphPaths]
V:7 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:70 [binder, in UniMath.CategoryTheory.limits.graphs.colimits]
v:70 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
V:71 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
v:71 [binder, in UniMath.Tactics.Abmonoids_Tactics]
v:71 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
V:71 [binder, in UniMath.Combinatorics.GraphPaths]
v:72 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:72 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v:73 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:73 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v:74 [binder, in UniMath.Combinatorics.Vectors]
v:74 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:74 [binder, in UniMath.Tactics.Nat_Tactics]
v:74 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v:74 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:75 [binder, in UniMath.Algebra.Universal.HVectors]
v:75 [binder, in UniMath.Tactics.Nat_Tactics]
v:75 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
v:75 [binder, in UniMath.Combinatorics.GraphPaths]
v:76 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:76 [binder, in UniMath.Tactics.Nat_Tactics]
V:77 [binder, in UniMath.Combinatorics.GraphPaths]
v:77 [binder, in UniMath.CategoryTheory.Profunctors.Core]
V:77 [binder, in UniMath.AlgebraicGeometry.Spec]
v:78 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
v:78 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:78 [binder, in UniMath.Induction.M.Chains]
V:78 [binder, in UniMath.CategoryTheory.Profunctors.Core]
v:79 [binder, in UniMath.Combinatorics.Vectors]
v:79 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
V:8 [binder, in UniMath.Algebra.Universal.Equations]
V:8 [binder, in UniMath.Algebra.Universal.VTerms]
v:8 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:8 [binder, in UniMath.Algebra.Universal.FreeAlgebras]
V:8 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
v:8 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
V:80 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
v:80 [binder, in UniMath.Combinatorics.GraphPaths]
v:81 [binder, in UniMath.Algebra.Universal.HVectors]
v:81 [binder, in UniMath.CategoryTheory.limits.cats.limits]
v:81 [binder, in UniMath.Induction.M.Chains]
V:81 [binder, in UniMath.Combinatorics.GraphPaths]
v:81 [binder, in UniMath.CategoryTheory.Profunctors.Core]
v:82 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
V:82 [binder, in UniMath.CategoryTheory.Profunctors.Core]
v:84 [binder, in UniMath.Combinatorics.Vectors]
v:84 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:84 [binder, in UniMath.Induction.M.Chains]
v:84 [binder, in UniMath.Combinatorics.GraphPaths]
v:85 [binder, in UniMath.CategoryTheory.Inductives.Lists]
V:85 [binder, in UniMath.Combinatorics.GraphPaths]
v:86 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:86 [binder, in UniMath.CategoryTheory.limits.graphs.limits]
v:87 [binder, in UniMath.Induction.M.Chains]
V:88 [binder, in UniMath.CategoryTheory.Inductives.PropositionalLogic]
v:88 [binder, in UniMath.CategoryTheory.Inductives.Lists]
v:88 [binder, in UniMath.Algebra.Universal.Terms]
v:88 [binder, in UniMath.Combinatorics.GraphPaths]
V:89 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
v:89 [binder, in UniMath.Combinatorics.Vectors]
v:892 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
v:90 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:91 [binder, in UniMath.Algebra.Universal.Terms]
v:91 [binder, in UniMath.Induction.M.Chains]
v:92 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:93 [binder, in UniMath.Algebra.Universal.HVectors]
v:94 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:94 [binder, in UniMath.Induction.M.Chains]
v:95 [binder, in UniMath.Combinatorics.Vectors]
v:95 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
v:96 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
v:97 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
V:97 [binder, in UniMath.AlgebraicGeometry.Spec]
V:98 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
v:98 [binder, in UniMath.Induction.M.Chains]
v:995 [binder, in UniMath.Foundations.PartA]
v:999 [binder, in UniMath.Foundations.PartA]
vηs:97 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
vηs:98 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
vη:93 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
vη:94 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
vη:95 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
vη:96 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]

W

w [definition, in UniMath.Combinatorics.Tests]
W [definition, in UniMath.Induction.W.Core]
W [section, in UniMath.Induction.W.Core]
weak [definition, in UniMath.SubstitutionSystems.STLC_alt]
WeakEquivalences [library]
weakly_well_founded [definition, in UniMath.Combinatorics.WellFoundedRelations]
weak_fromnegdirprod [lemma, in UniMath.Foundations.Propositions]
weak_fibration [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
weak_iso_fibration [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
weak_equivalence [definition, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
wedge [definition, in UniMath.CategoryTheory.Profunctors.Core]
wedge_pr [definition, in UniMath.CategoryTheory.Profunctors.Core]
weighting [definition, in UniMath.Algebra.Matrix]
Weighting [section, in UniMath.Algebra.Matrix]
weighting_coweighting_sum [lemma, in UniMath.Algebra.Matrix]
wei:93 [binder, in UniMath.Algebra.Matrix]
WellFoundedRelations [library]
WellOrderedSet [definition, in UniMath.Combinatorics.WellOrderedSets]
WellOrderedSets [library]
WellOrderedSet_to_hSet [definition, in UniMath.Combinatorics.WellOrderedSets]
WellOrdering [definition, in UniMath.Combinatorics.WellOrderedSets]
wellsorted_in [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
weq [definition, in UniMath.Foundations.PartA]
weqabgrdiff [definition, in UniMath.Algebra.Groups]
weqabgrdiffint [definition, in UniMath.Algebra.Groups]
weqbandf [definition, in UniMath.Foundations.PartA]
weqbfun [definition, in UniMath.Foundations.PartD]
weqboolsumtocoprod [definition, in UniMath.Foundations.PartA]
weqbweq [lemma, in UniMath.Foundations.PartD]
weqccontrhfiber [definition, in UniMath.Foundations.PartA]
weqccontrhfiber2 [definition, in UniMath.Foundations.PartA]
weqcomp [definition, in UniMath.Foundations.PartA]
weqcompassoc [definition, in UniMath.Foundations.PartD]
weqcompidl [definition, in UniMath.Foundations.PartD]
weqcompidr [definition, in UniMath.Foundations.PartD]
weqcompinjl [definition, in UniMath.Foundations.PartD]
weqcompinjr [definition, in UniMath.Foundations.PartD]
weqcompinvl [definition, in UniMath.Foundations.PartD]
weqcompinvr [definition, in UniMath.Foundations.PartD]
weqcompweql [definition, in UniMath.Foundations.PartD]
weqcompweqr [definition, in UniMath.Foundations.PartD]
weqcomp_assoc [definition, in UniMath.Foundations.PartD]
weqcomp_to_funcomp [definition, in UniMath.Foundations.PartA]
weqcomp_to_funcomp_app [definition, in UniMath.Foundations.PartA]
weqcontrcontr [definition, in UniMath.Foundations.PartA]
weqcontrtounit [definition, in UniMath.Foundations.PartA]
weqcoprodasstol [definition, in UniMath.Foundations.PartA]
weqcoprodasstor [definition, in UniMath.Foundations.PartA]
weqcoprodcomm [definition, in UniMath.Foundations.PartA]
weqcoprodf [definition, in UniMath.Foundations.PartA]
weqcoprodf1 [definition, in UniMath.Foundations.PartA]
weqcoprodf2 [definition, in UniMath.Foundations.PartA]
weqcoprodsplit [definition, in UniMath.Foundations.PartA]
weqcoprodtoboolsum [definition, in UniMath.Foundations.PartA]
weqcoproj [definition, in UniMath.Foundations.PartC]
weqcutforstn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqcutonweq [definition, in UniMath.Foundations.PartD]
weqdicompl [lemma, in UniMath.MoreFoundations.NegativePropositions]
weqdirprodasstol [definition, in UniMath.Foundations.PartA]
weqdirprodasstor [definition, in UniMath.Foundations.PartA]
weqdirprodcomm [definition, in UniMath.Foundations.PartA]
weqdirprodf [definition, in UniMath.Foundations.PartA]
weqdnicompl [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqdnicompl_compute [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqdnicoprod [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqdnicoprod_invmap [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqdnicoprod_compute [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqdnicoprod_map [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqdnicoprod_provisional [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqempty [definition, in UniMath.Foundations.PartA]
weqeqh [definition, in UniMath.Foundations.Sets]
weqeqweqhProp [definition, in UniMath.Foundations.Propositions]
weqexistsnatlehnsn' [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqexistsnatlehn0 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqffun [definition, in UniMath.Foundations.PartD]
weqfibtototal [definition, in UniMath.Foundations.PartA]
weqfibtototal_comp [definition, in UniMath.MoreFoundations.MoreEquivalences]
weqfldfracgt [definition, in UniMath.Algebra.Domains_and_Fields]
weqfldfracgtintcomp_b [lemma, in UniMath.Algebra.Domains_and_Fields]
weqfldfracgtintcomp_f [lemma, in UniMath.Algebra.Domains_and_Fields]
weqfldfracgtint_b [definition, in UniMath.Algebra.Domains_and_Fields]
weqfldfracgtint_f [definition, in UniMath.Algebra.Domains_and_Fields]
weqfldfracgt_b [definition, in UniMath.Algebra.Domains_and_Fields]
weqfldfracgt_f [definition, in UniMath.Algebra.Domains_and_Fields]
weqforallnatlehnsn' [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqforallnatlehn0 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqforallnegtonegexists [definition, in UniMath.Foundations.Propositions]
weqforalltohfiber [definition, in UniMath.Foundations.PartD]
weqforalltototal [definition, in UniMath.Foundations.PartD]
weqfp [definition, in UniMath.Foundations.PartA]
weqfp_compute_2 [definition, in UniMath.Foundations.PartA]
weqfp_compute_1 [definition, in UniMath.Foundations.PartA]
weqfp_invmap [definition, in UniMath.Foundations.PartA]
weqfp_map [definition, in UniMath.Foundations.PartA]
weqfromcoconusf [definition, in UniMath.Foundations.PartA]
weqfromcoprodofstn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqfromcoprodofstn_eq2 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqfromcoprodofstn_eq1 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqfromcoprodofstn_map [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqfromcoprodofstn_invmap_r0 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqfromcoprodofstn_invmap [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqfromdecsubsetofstn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqfromfunstntostn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqfromhfiberfromstn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqfromprodofstn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqfromweqstntostn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqfunextsec [definition, in UniMath.Foundations.UnivalenceAxiom]
weqfunfromcontr [definition, in UniMath.Foundations.PartD]
weqfunfromcoprodtoprod [lemma, in UniMath.Foundations.PartD]
weqfunfromdirprod [definition, in UniMath.Foundations.PartD]
weqfunfromtotal2 [definition, in UniMath.Foundations.PartD]
weqfunfromunit [definition, in UniMath.Foundations.PartD]
weqfunfromunit_HSET [lemma, in UniMath.CategoryTheory.categories.HSET.Limits]
weqfuntoprodtoprod [lemma, in UniMath.Foundations.PartD]
weqfuntototaltototal [definition, in UniMath.Foundations.PartD]
weqfweq [lemma, in UniMath.Foundations.PartD]
weqhfibercoprodf1 [lemma, in UniMath.Foundations.PartC]
weqhfibercoprodf2 [lemma, in UniMath.Foundations.PartC]
weqhfiberdnihfiberdi [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqhfibernoi1 [lemma, in UniMath.Foundations.PartC]
weqhfibernoi2 [lemma, in UniMath.Foundations.PartC]
weqhfibersgtof' [definition, in UniMath.Foundations.PartA]
weqhfibersgwtog [lemma, in UniMath.Foundations.PartA]
weqhfibersg'tof [definition, in UniMath.Foundations.PartA]
weqhfibershomot [lemma, in UniMath.Foundations.PartA]
weqhfibersofsumofmaps [lemma, in UniMath.Foundations.PartC]
weqhfibertobhfiber [lemma, in UniMath.Foundations.PartC]
weqhfibertocontr [lemma, in UniMath.Foundations.PartB]
weqhfibertoforall [definition, in UniMath.Foundations.PartD]
weqhfibertohfp [lemma, in UniMath.Foundations.PartA]
weqhfibertounit [lemma, in UniMath.Foundations.PartB]
weqhfiberunit [definition, in UniMath.Foundations.PartB]
weqhfpcomm [lemma, in UniMath.Foundations.PartA]
weqhfptohfpoverX [definition, in UniMath.Foundations.PartA]
weqhfptohfpoverX' [definition, in UniMath.Foundations.PartA]
weqhomot [lemma, in UniMath.MoreFoundations.PartA]
weqhrelhrel0abmonoidfrac [lemma, in UniMath.Algebra.Monoids]
weqhrelhrel0commringfrac [lemma, in UniMath.Algebra.RigsAndRings]
weqiff [definition, in UniMath.Foundations.PartB]
weqii1withneg [definition, in UniMath.Foundations.PartA]
weqii2withneg [definition, in UniMath.Foundations.PartA]
weqimplimpl [definition, in UniMath.Foundations.PartB]
weqinvweq [lemma, in UniMath.Foundations.PartD]
weqishinhnegtoneg [lemma, in UniMath.Foundations.Propositions]
weqisolatedstntostn [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqlcancelablercancelable [lemma, in UniMath.Algebra.BinaryOperations]
weqldistrrdistr [lemma, in UniMath.Algebra.BinaryOperations]
weqleFtototalwithnat [definition, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
weqletoleh [definition, in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
weqlinvertiblerinvertible [lemma, in UniMath.Algebra.BinaryOperations]
weqlinvrinv [lemma, in UniMath.Algebra.BinaryOperations]
weqlistfun [lemma, in UniMath.Combinatorics.Lists]
weqListSequence [definition, in UniMath.Combinatorics.FiniteSequences]
weqlmultingr [definition, in UniMath.Algebra.Groups]
weqlogeq [definition, in UniMath.MoreFoundations.Propositions]
weqlunitrunit [lemma, in UniMath.Algebra.BinaryOperations]
weqneghexistsnegtotal2 [definition, in UniMath.Foundations.Propositions]
weqnegtonegishinh [lemma, in UniMath.Foundations.Propositions]
weqneqh [definition, in UniMath.Foundations.Sets]
weqoncompl [definition, in UniMath.Foundations.PartC]
weqoncompl_ne_compute [definition, in UniMath.MoreFoundations.NegativePropositions]
weqoncompl_ne [definition, in UniMath.MoreFoundations.NegativePropositions]
weqoncompl_compute [definition, in UniMath.Foundations.PartC]
weqOneSidedDcuts [lemma, in UniMath.RealNumbers.DedekindCuts]
weqonpaths [definition, in UniMath.Foundations.PartA]
weqonpathsincl [definition, in UniMath.Foundations.PartB]
weqonpaths2 [definition, in UniMath.MoreFoundations.Univalence]
weqonsec [definition, in UniMath.MoreFoundations.Univalence]
weqonsecbase [definition, in UniMath.Foundations.PartD]
weqonsecfibers [definition, in UniMath.Foundations.PartD]
weqoverdnicoprod [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqoverdnicoprod_eq2 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqoverdnicoprod_eq1' [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqoverdnicoprod_eq1 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
Weqpaths [section, in UniMath.MoreFoundations.PartA]
weqpathsinpr_quot_functor [lemma, in UniMath.CategoryTheory.SetValuedFunctors]
weqpathsinsetquot [lemma, in UniMath.Foundations.Sets]
weqpathsinsetquot2 [lemma, in UniMath.Foundations.Sets]
weqpathsinv0 [definition, in UniMath.Foundations.PartA]
weqpathssetquot2l1 [lemma, in UniMath.Foundations.Sets]
weqpathsweq [definition, in UniMath.Foundations.UnivalenceAxiom]
weqpathsweqhProp [definition, in UniMath.Foundations.Propositions]
weqpathsweqhProp' [definition, in UniMath.Foundations.Propositions]
weqpathsweqStatement [definition, in UniMath.Foundations.UnivalenceAxiom]
weqpathsweqUAH [definition, in UniMath.Foundations.UnivalenceAxiom]
weqpath_cast [definition, in UniMath.MoreFoundations.Univalence]
weqpath_transport [definition, in UniMath.MoreFoundations.Univalence]
weqproperty [definition, in UniMath.Foundations.PartA]
weqpr1 [definition, in UniMath.Foundations.PartB]
weqpr1_irr_sec [definition, in UniMath.MoreFoundations.MoreEquivalences]
weqrdistrtocoprod [definition, in UniMath.Foundations.PartA]
weqrdistrtoprod [definition, in UniMath.Foundations.PartA]
weqrecompl [definition, in UniMath.Foundations.PartC]
weqrecomplf [definition, in UniMath.Foundations.PartC]
weqrecompl_ne [definition, in UniMath.MoreFoundations.NegativePropositions]
weqrmultingr [definition, in UniMath.Algebra.Groups]
weqsecovercontr [definition, in UniMath.Foundations.PartD]
weqsecovercontr_uncurried [definition, in UniMath.Induction.M.Chains]
weqsecovercontr' [lemma, in UniMath.Combinatorics.FiniteSequences]
weqsecovercoprodtoprod [definition, in UniMath.Foundations.PartD]
weqsecovertotal2 [definition, in UniMath.Foundations.PartD]
weqsecoverunit [definition, in UniMath.Foundations.PartD]
weqsetquotsurj [definition, in UniMath.Foundations.Sets]
weqsetquottodirprod [lemma, in UniMath.Foundations.Sets]
weqsetquotweq [definition, in UniMath.Foundations.Sets]
weqstnprod [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum_invmap_step2 [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum_invmap_step1 [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum_invmap [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum_map [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1 [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1_eq' [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1_eq [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1_prelim_eq' [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1_prelim_eq [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1_step [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1_prelim [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum2 [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqstn0toempty [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqstn1tounit [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqstn2tobool [definition, in UniMath.Combinatorics.StandardFiniteSets]
weqsubquot [definition, in UniMath.Foundations.Sets]
weqsubsetsplit [lemma, in UniMath.Foundations.PartB]
weqsubtypesdirprod [lemma, in UniMath.Foundations.Sets]
weqtococonusf [definition, in UniMath.Foundations.PartA]
weqtocompltodisjoint [definition, in UniMath.Foundations.PartC]
weqtodirprodwithunit [definition, in UniMath.Foundations.PartA]
weqtoempty [definition, in UniMath.Foundations.PartA]
weqtoempty2 [definition, in UniMath.Foundations.PartA]
weqtoeqstn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqtoforallpaths [definition, in UniMath.Foundations.UnivalenceAxiom]
weqtoforallpathsStatement [definition, in UniMath.Foundations.UnivalenceAxiom]
weqtoincl [definition, in UniMath.Foundations.PartB]
weqtopaths [definition, in UniMath.Foundations.UnivalenceAxiom]
weqtopathshProp [definition, in UniMath.Foundations.Propositions]
weqtopathsStatement [definition, in UniMath.Foundations.UnivalenceAxiom]
weqtopathsUAH [definition, in UniMath.Foundations.UnivalenceAxiom]
weqtopaths:86 [binder, in UniMath.Foundations.UnivalenceAxiom]
weqtopaths:96 [binder, in UniMath.Foundations.UnivalenceAxiom]
weqtotalsubtype [definition, in UniMath.Foundations.Sets]
weqtotaltofib [definition, in UniMath.Foundations.PartA]
weqtotaltoforall [definition, in UniMath.Foundations.PartD]
weqtotal2 [lemma, in UniMath.MoreFoundations.PartA]
weqtotal2asstol [definition, in UniMath.Foundations.PartA]
weqtotal2asstor [lemma, in UniMath.Foundations.PartA]
weqtotal2comm [definition, in UniMath.MoreFoundations.WeakEquivalences]
weqtotal2comm12 [definition, in UniMath.Foundations.PartA]
weqtotal2dirprodassoc [definition, in UniMath.Foundations.PartA]
weqtotal2dirprodassoc' [definition, in UniMath.Foundations.PartA]
weqtotal2dirprodcomm [definition, in UniMath.Foundations.PartA]
weqtotal2overcoprod [lemma, in UniMath.Foundations.PartA]
weqtotal2overcoprod' [definition, in UniMath.Foundations.PartA]
weqtotal2overunit [lemma, in UniMath.Foundations.PartA]
weqtransportbUAH [lemma, in UniMath.Foundations.UnivalenceAxiom]
weqtranspos [lemma, in UniMath.Foundations.PartC]
weqtranspos0 [definition, in UniMath.Foundations.PartC]
weqTwoSidedOneSided [lemma, in UniMath.RealNumbers.DedekindCuts]
wequnittocontr [definition, in UniMath.Foundations.PartA]
weqweq [lemma, in UniMath.Foundations.PartD]
weqweqstnsn [lemma, in UniMath.Combinatorics.StandardFiniteSets]
weqZtohfp [definition, in UniMath.Foundations.PartA]
weq_list [lemma, in UniMath.CategoryTheory.Inductives.Lists]
weq_hom_in_subcat_from_hom_in_precat [definition, in UniMath.CategoryTheory.Subcategory.Full]
weq_subtypes_iff [lemma, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
weq_subtypes' [lemma, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
weq_to_Equivalence' [definition, in UniMath.MoreFoundations.Equivalences]
weq_to_Equivalence [definition, in UniMath.MoreFoundations.Equivalences]
weq_to_iff [definition, in UniMath.Foundations.PartB]
weq_Kleisli_Monad_categories [lemma, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
weq_pathscomp0r [definition, in UniMath.MoreFoundations.MoreEquivalences]
weq_to_InverseEquivalence [definition, in UniMath.MoreFoundations.MoreEquivalences]
weq_fully_faithful_full_and_faithful [definition, in UniMath.CategoryTheory.Core.Functors]
weq_ff_functor_on_weq_isobandf_compute [lemma, in UniMath.CategoryTheory.Core.Functors]
weq_ff_functor_on_weq_isobandf [definition, in UniMath.CategoryTheory.Core.Functors]
weq_ff_functor_on_iso_compute [lemma, in UniMath.CategoryTheory.Core.Functors]
weq_ff_functor_on_iso [definition, in UniMath.CategoryTheory.Core.Functors]
weq_from_fully_faithful [definition, in UniMath.CategoryTheory.Core.Functors]
weq_cat_eq_cat_equiv [definition, in UniMath.CategoryTheory.CategoryEquality]
weq_is_adjoint_equivalence_help [definition, in UniMath.Bicategories.Core.Examples.OneTypes]
weq_iso [lemma, in UniMath.CategoryTheory.slicecat]
weq_on_objects_from_adj_equiv_of_cats [definition, in UniMath.CategoryTheory.Equivalences.Core]
weq_to_iso_SET [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
weq_iff_iso_SET [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
weq_Kleisli_Monad [definition, in UniMath.CategoryTheory.Monads.Kleisli]
weq_total2_prod [definition, in UniMath.MoreFoundations.PartA]
weq_over_sections [definition, in UniMath.MoreFoundations.Univalence]
weq_transportf_comp [definition, in UniMath.MoreFoundations.Univalence]
weq_transportf [definition, in UniMath.MoreFoundations.Univalence]
weq_binprod_to_pullback [definition, in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
weq_subtypes [definition, in UniMath.Foundations.Sets]
weq_section_from_diagonal [definition, in UniMath.CategoryTheory.limits.pullbacks]
weq_matrix_1_1 [lemma, in UniMath.Combinatorics.FiniteSequences]
weq_vector_1 [lemma, in UniMath.Combinatorics.FiniteSequences]
weq_iso [definition, in UniMath.Foundations.PartA]
weq_transportb_adjointness [definition, in UniMath.Foundations.PartA]
weq_transportf_adjointness [definition, in UniMath.Foundations.PartA]
weq_bicat_prebicategory [definition, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
weq1 [lemma, in UniMath.Foundations.HLevels]
weq2 [lemma, in UniMath.Foundations.HLevels]
wf [definition, in UniMath.Paradoxes.GirardsParadox]
wfp [definition, in UniMath.Paradoxes.GirardsParadox]
wfs [definition, in UniMath.Paradoxes.GirardsParadox]
wfs_wf_t [definition, in UniMath.Paradoxes.GirardsParadox]
wfs_wf [definition, in UniMath.Paradoxes.GirardsParadox]
wfs_wf_wfp_desc [lemma, in UniMath.Paradoxes.GirardsParadox]
wfs_wf_wfp_compshift [definition, in UniMath.Paradoxes.GirardsParadox]
wfs_wf_wfp_seq [definition, in UniMath.Paradoxes.GirardsParadox]
wfs_wf_wfp_shift [definition, in UniMath.Paradoxes.GirardsParadox]
wfs_wf_trans [definition, in UniMath.Paradoxes.GirardsParadox]
wfs_wf_uord [definition, in UniMath.Paradoxes.GirardsParadox]
which [definition, in UniMath.Combinatorics.Tests]
whiskering [section, in UniMath.CategoryTheory.PrecategoryBinProduct]
Whiskering [library]
whiskering [library]
whiskering [library]
whisker_ηg [lemma, in UniMath.Bicategories.Core.EquivToAdjequiv]
whisker_ηg_type [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
whisker_r_eq [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
whisker_l_eq [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
whisker_r_iso_id₁ [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
whisker_l_iso_id₁ [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
whisker_r_natural [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
whisker_l_natural [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
whisker_r_hcomp [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
whisker_l_hcomp [lemma, in UniMath.Bicategories.Core.BicategoryLaws]
whisker_right_right [lemma, in UniMath.Bicategories.BicatOfBicategory]
whisker_left_right [lemma, in UniMath.Bicategories.BicatOfBicategory]
whisker_left_left [lemma, in UniMath.Bicategories.BicatOfBicategory]
whisker_right_on_comp [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_right_id_inj [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_right_inv [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_right_iso [definition, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_right_id_2mor [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_right_id_1mor [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_right [definition, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left_on_comp [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left_id_inj [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left_inv [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left_iso [definition, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left_id_2mor [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left_id_1mor [lemma, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left [definition, in UniMath.Bicategories.WkCatEnrichment.whiskering]
whoa [lemma, in UniMath.Paradoxes.GirardsParadox]
whole_from_parts [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
wittohexists [definition, in UniMath.Foundations.Propositions]
wit:50 [binder, in UniMath.Foundations.Propositions]
wma_decidable [lemma, in UniMath.MoreFoundations.DoubleNegation]
wma_dneg [lemma, in UniMath.MoreFoundations.DoubleNegation]
wofun [definition, in UniMath.Combinatorics.WellOrderedSets]
wofun_eq [lemma, in UniMath.Combinatorics.WellOrderedSets]
WOlt [definition, in UniMath.Combinatorics.WellOrderedSets]
WOlt_trich [lemma, in UniMath.Combinatorics.WellOrderedSets]
WOlt_to_WOlt' [lemma, in UniMath.Combinatorics.WellOrderedSets]
WOlt_isirrefl [lemma, in UniMath.Combinatorics.WellOrderedSets]
WOlt_istrans [lemma, in UniMath.Combinatorics.WellOrderedSets]
WOlt' [definition, in UniMath.Combinatorics.WellOrderedSets]
WOlt'_to_WOlt [lemma, in UniMath.Combinatorics.WellOrderedSets]
WOrel [definition, in UniMath.Combinatorics.WellOrderedSets]
Working [section, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
Working.Functor_eq_map_isweq [variable, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
WOSET [definition, in UniMath.CategoryTheory.categories.wosets]
WOSET [section, in UniMath.CategoryTheory.categories.wosets]
wosetfuncat [definition, in UniMath.CategoryTheory.categories.wosets]
wosetfuncat [section, in UniMath.CategoryTheory.categories.wosets]
wosetfun_precategory [definition, in UniMath.CategoryTheory.categories.wosets]
wosets [library]
WOSET_setcategory [definition, in UniMath.CategoryTheory.categories.wosets]
WOSET_precategory [definition, in UniMath.CategoryTheory.categories.wosets]
WOSET.isaset_WellOrderedSet [variable, in UniMath.CategoryTheory.categories.wosets]
WOSrel [definition, in UniMath.Combinatorics.WellOrderedSets]
WOStotal [definition, in UniMath.Combinatorics.WellOrderedSets]
WosubPoset [definition, in UniMath.Combinatorics.WellOrderedSets]
WOSubset [definition, in UniMath.Combinatorics.WellOrderedSets]
WOSubset_plus_point [definition, in UniMath.Combinatorics.WellOrderedSets]
WOSubset_to_TOSubset [definition, in UniMath.Combinatorics.WellOrderedSets]
WOSubset_to_subtype [definition, in UniMath.Combinatorics.WellOrderedSets]
WOSubset_set [definition, in UniMath.Combinatorics.WellOrderedSets]
wosub_le_smaller [definition, in UniMath.Combinatorics.WellOrderedSets]
wosub_le_isPartialOrder [lemma, in UniMath.Combinatorics.WellOrderedSets]
wosub_fidelity [lemma, in UniMath.Combinatorics.WellOrderedSets]
wosub_inc [definition, in UniMath.Combinatorics.WellOrderedSets]
wosub_univalence_compute [lemma, in UniMath.Combinatorics.WellOrderedSets]
wosub_univalence [lemma, in UniMath.Combinatorics.WellOrderedSets]
wosub_univalence_map [definition, in UniMath.Combinatorics.WellOrderedSets]
wosub_comparable [definition, in UniMath.Combinatorics.WellOrderedSets]
wosub_equal [definition, in UniMath.Combinatorics.WellOrderedSets]
wosub_le_isrefl [lemma, in UniMath.Combinatorics.WellOrderedSets]
wosub_le_subi [definition, in UniMath.Combinatorics.WellOrderedSets]
wosub_le_comp [definition, in UniMath.Combinatorics.WellOrderedSets]
wosub_le_inc [definition, in UniMath.Combinatorics.WellOrderedSets]
wosub_le [definition, in UniMath.Combinatorics.WellOrderedSets]
WOSwo [definition, in UniMath.Combinatorics.WellOrderedSets]
WOS_hasSmallest [definition, in UniMath.Combinatorics.WellOrderedSets]
wo_setcategory [definition, in UniMath.CategoryTheory.categories.wosets]
WO_theUniqueSmallest [lemma, in UniMath.Combinatorics.WellOrderedSets]
WO_theSmallest [lemma, in UniMath.Combinatorics.WellOrderedSets]
WO_hasSmallest [definition, in UniMath.Combinatorics.WellOrderedSets]
WO_isantisymm [definition, in UniMath.Combinatorics.WellOrderedSets]
WO_istotal [definition, in UniMath.Combinatorics.WellOrderedSets]
WO_istrans [definition, in UniMath.Combinatorics.WellOrderedSets]
WO_isrefl [definition, in UniMath.Combinatorics.WellOrderedSets]
WO_isTotalOrder [definition, in UniMath.Combinatorics.WellOrderedSets]
wo_lt_to_le [lemma, in UniMath.Combinatorics.WellOrderedSets]
wqevecfun [definition, in UniMath.Combinatorics.Vectors]
wrap_inverse' [lemma, in UniMath.CategoryTheory.Core.Isos]
wrap_inverse [lemma, in UniMath.CategoryTheory.Core.Isos]
WSig [definition, in UniMath.SubstitutionSystems.MLTT79]
wwf_lt:127 [binder, in UniMath.Combinatorics.WellFoundedRelations]
wwf_lt:112 [binder, in UniMath.Combinatorics.WellFoundedRelations]
ww' [definition, in UniMath.Combinatorics.Tests]
ww:128 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ww:182 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ww:184 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ww:200 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ww:209 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
ww:351 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ww:371 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ww:387 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ww:407 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ww:44 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
ww:459 [binder, in UniMath.Combinatorics.StandardFiniteSets]
W_alg_eq [lemma, in UniMath.Induction.W.Uniqueness]
W_carriers_eq [lemma, in UniMath.Induction.W.Uniqueness]
W_carriers_iso [lemma, in UniMath.Induction.W.Uniqueness]
w_w [definition, in UniMath.Combinatorics.Tests]
W_is_initial [definition, in UniMath.Induction.W.Core]
W_algebra [definition, in UniMath.Induction.W.Core]
w' [definition, in UniMath.Combinatorics.Tests]
W'c:406 [binder, in UniMath.Combinatorics.WellOrderedSets]
W'c:408 [binder, in UniMath.Combinatorics.WellOrderedSets]
W'c:410 [binder, in UniMath.Combinatorics.WellOrderedSets]
W'c:412 [binder, in UniMath.Combinatorics.WellOrderedSets]
W'd:414 [binder, in UniMath.Combinatorics.WellOrderedSets]
W'd:416 [binder, in UniMath.Combinatorics.WellOrderedSets]
W'd:418 [binder, in UniMath.Combinatorics.WellOrderedSets]
W'd:420 [binder, in UniMath.Combinatorics.WellOrderedSets]
w':1002 [binder, in UniMath.Foundations.PartA]
w':115 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
w':120 [binder, in UniMath.CategoryTheory.limits.cokernels]
w':121 [binder, in UniMath.MoreFoundations.MoreEquivalences]
w':134 [binder, in UniMath.MoreFoundations.MoreEquivalences]
w':142 [binder, in UniMath.CategoryTheory.limits.coequalizers]
w':1468 [binder, in UniMath.Foundations.PartA]
w':1478 [binder, in UniMath.Foundations.PartA]
w':148 [binder, in UniMath.MoreFoundations.MoreEquivalences]
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w:8 [binder, in UniMath.Combinatorics.GraphPaths]
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w:80 [binder, in UniMath.Combinatorics.FiniteSets]
w:80 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
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w:81 [binder, in UniMath.Paradoxes.GirardsParadox]
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w:82 [binder, in UniMath.MoreFoundations.Univalence]
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w:84 [binder, in UniMath.MoreFoundations.Equivalences]
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w:85 [binder, in UniMath.CategoryTheory.Profunctors.Core]
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W:99 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
w:991 [binder, in UniMath.Foundations.PartA]
w:996 [binder, in UniMath.Foundations.PartA]

X

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xa':925 [binder, in UniMath.Algebra.RigsAndRings]
xa1:323 [binder, in UniMath.Algebra.Groups]
xa1:330 [binder, in UniMath.Algebra.Groups]
xa1:387 [binder, in UniMath.Algebra.Groups]
xa1:436 [binder, in UniMath.NumberSystems.Integers]
xa1:441 [binder, in UniMath.NumberSystems.Integers]
xa2:324 [binder, in UniMath.Algebra.Groups]
xa2:331 [binder, in UniMath.Algebra.Groups]
xa2:388 [binder, in UniMath.Algebra.Groups]
xa2:437 [binder, in UniMath.NumberSystems.Integers]
xa2:442 [binder, in UniMath.NumberSystems.Integers]
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xa:236 [binder, in UniMath.Algebra.Domains_and_Fields]
xa:250 [binder, in UniMath.Algebra.Domains_and_Fields]
xa:313 [binder, in UniMath.Algebra.Domains_and_Fields]
xa:327 [binder, in UniMath.Algebra.Groups]
xa:340 [binder, in UniMath.Algebra.Domains_and_Fields]
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xa:385 [binder, in UniMath.Algebra.Monoids]
xa:402 [binder, in UniMath.NumberSystems.RationalNumbers]
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xa:918 [binder, in UniMath.Algebra.RigsAndRings]
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xe':99 [binder, in UniMath.Foundations.PartB]
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xe:101 [binder, in UniMath.Foundations.PartB]
xe:1067 [binder, in UniMath.Foundations.PartA]
xe:1075 [binder, in UniMath.Foundations.PartA]
xe:1085 [binder, in UniMath.Foundations.PartA]
xe:1086 [binder, in UniMath.Foundations.PartA]
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xe:1095 [binder, in UniMath.Foundations.PartA]
xe:1102 [binder, in UniMath.Foundations.PartA]
xe:1109 [binder, in UniMath.Foundations.PartA]
xe:132 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
xe:1336 [binder, in UniMath.Foundations.PartA]
xe:1337 [binder, in UniMath.Foundations.PartA]
xe:1338 [binder, in UniMath.Foundations.PartA]
xe:1339 [binder, in UniMath.Foundations.PartA]
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xe:147 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
xe:1920 [binder, in UniMath.Foundations.PartA]
xe:1932 [binder, in UniMath.Foundations.PartA]
xe:1933 [binder, in UniMath.Foundations.PartA]
xe:2094 [binder, in UniMath.Foundations.PartA]
xe:2102 [binder, in UniMath.Foundations.PartA]
xe:2134 [binder, in UniMath.Foundations.PartA]
xe:2135 [binder, in UniMath.Foundations.PartA]
xe:2569 [binder, in UniMath.Foundations.PartA]
xe:2582 [binder, in UniMath.Foundations.PartA]
xe:2583 [binder, in UniMath.Foundations.PartA]
xe:328 [binder, in UniMath.Foundations.PartC]
xe:98 [binder, in UniMath.Foundations.PartB]
XF:18 [binder, in UniMath.SubstitutionSystems.BinSumOfSignatures]
XF:18 [binder, in UniMath.SubstitutionSystems.SumOfSignatures]
xinv:306 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
xinv:335 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
xisaset:11 [binder, in UniMath.CategoryTheory.categories.preorder_categories]
xisyis:121 [binder, in UniMath.Foundations.Sets]
xi':362 [binder, in UniMath.CategoryTheory.limits.pullbacks]
xi:287 [binder, in UniMath.Combinatorics.WellOrderedSets]
xi:361 [binder, in UniMath.CategoryTheory.limits.pullbacks]
xj:288 [binder, in UniMath.Combinatorics.WellOrderedSets]
Xkphi_idtoiso [definition, in UniMath.CategoryTheory.precomp_ess_surj]
Xkphi_transp [definition, in UniMath.CategoryTheory.precomp_ess_surj]
xn:53 [binder, in UniMath.Induction.W.Naturals]
xn:55 [binder, in UniMath.Induction.W.Naturals]
Xopen:475 [binder, in UniMath.RealNumbers.NonnegativeReals]
Xphi [definition, in UniMath.CategoryTheory.precomp_ess_surj]
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xpq:1504 [binder, in UniMath.Foundations.PartA]
xpq:1505 [binder, in UniMath.Foundations.PartA]
xpq:1506 [binder, in UniMath.Foundations.PartA]
xpyp:1589 [binder, in UniMath.Foundations.PartA]
xp:1488 [binder, in UniMath.Foundations.Sets]
xp:1489 [binder, in UniMath.Foundations.Sets]
xp:208 [binder, in UniMath.Induction.M.Chains]
xp:209 [binder, in UniMath.Induction.M.Chains]
xp:215 [binder, in UniMath.Foundations.Propositions]
xp:2382 [binder, in UniMath.Foundations.PartA]
xp:2392 [binder, in UniMath.Foundations.PartA]
xp:2393 [binder, in UniMath.Foundations.PartA]
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xp:283 [binder, in UniMath.MoreFoundations.PartA]
xp:392 [binder, in UniMath.Foundations.PartD]
xp:398 [binder, in UniMath.Foundations.PartD]
xp:402 [binder, in UniMath.Foundations.PartD]
xp:407 [binder, in UniMath.Foundations.PartD]
xp:717 [binder, in UniMath.Foundations.PartA]
xp:73 [binder, in UniMath.Foundations.PartA]
xst:23 [binder, in UniMath.SubstitutionSystems.MultiSorted]
xst:31 [binder, in UniMath.SubstitutionSystems.MultiSorted]
xst:32 [binder, in UniMath.SubstitutionSystems.MultiSorted]
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xst:43 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
xst:44 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
xst:49 [binder, in UniMath.SubstitutionSystems.MultiSorted]
xst:58 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
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xs'':833 [binder, in UniMath.Algebra.RigsAndRings]
xs':829 [binder, in UniMath.Algebra.RigsAndRings]
xs':832 [binder, in UniMath.Algebra.RigsAndRings]
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xs1:109 [binder, in UniMath.Combinatorics.MoreLists]
xs1:98 [binder, in UniMath.Combinatorics.MoreLists]
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xs2:110 [binder, in UniMath.Combinatorics.MoreLists]
xs2:99 [binder, in UniMath.Combinatorics.MoreLists]
xs:10 [binder, in UniMath.Combinatorics.MoreLists]
xs:106 [binder, in UniMath.Induction.M.Chains]
xs:113 [binder, in UniMath.Induction.M.Chains]
xs:12 [binder, in UniMath.Combinatorics.Lists]
xs:12 [binder, in UniMath.SubstitutionSystems.MultiSorted]
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xs:128 [binder, in UniMath.Induction.M.Chains]
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xs:133 [binder, in UniMath.CategoryTheory.Inductives.Lists]
xs:135 [binder, in UniMath.Induction.M.Chains]
xs:141 [binder, in UniMath.Induction.M.Chains]
xs:147 [binder, in UniMath.Induction.M.Chains]
xs:15 [binder, in UniMath.Combinatorics.Lists]
xs:153 [binder, in UniMath.Induction.M.Chains]
xs:159 [binder, in UniMath.Induction.M.Chains]
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xs:18 [binder, in UniMath.SubstitutionSystems.MultiSorted]
xs:197 [binder, in UniMath.MoreFoundations.PartA]
xs:20 [binder, in UniMath.Combinatorics.MoreLists]
xs:209 [binder, in UniMath.MoreFoundations.PartA]
xs:24 [binder, in UniMath.SubstitutionSystems.MultiSorted_alt]
xs:25 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
xs:26 [binder, in UniMath.SubstitutionSystems.MultiSorted]
xs:29 [binder, in UniMath.SubstitutionSystems.MultiSorted]
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xs:30 [binder, in UniMath.SubstitutionSystems.MultiSorted]
xs:31 [binder, in UniMath.SubstitutionSystems.BindingSigToMonad]
xs:33 [binder, in UniMath.Algebra.Universal.HVectors]
xs:34 [binder, in UniMath.Algebra.Universal.Terms]
xs:34 [binder, in UniMath.Algebra.IteratedBinaryOperations]
xs:343 [binder, in UniMath.Algebra.Groups]
xs:35 [binder, in UniMath.Algebra.IteratedBinaryOperations]
xs:37 [binder, in UniMath.Algebra.IteratedBinaryOperations]
xs:38 [binder, in UniMath.Algebra.Universal.HVectors]
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xs:40 [binder, in UniMath.Induction.M.Chains]
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xs:49 [binder, in UniMath.Algebra.Universal.Terms]
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xs:52 [binder, in UniMath.Induction.M.Chains]
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xs:55 [binder, in UniMath.Induction.M.Chains]
xs:56 [binder, in UniMath.CategoryTheory.Inductives.Lists]
xs:58 [binder, in UniMath.CategoryTheory.Inductives.Lists]
xs:58 [binder, in UniMath.Induction.M.Chains]
xs:6 [binder, in UniMath.Combinatorics.MoreLists]
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xs:70 [binder, in UniMath.Combinatorics.Lists]
xs:76 [binder, in UniMath.Combinatorics.Lists]
xs:78 [binder, in UniMath.Combinatorics.Lists]
xs:79 [binder, in UniMath.Combinatorics.MoreLists]
xs:799 [binder, in UniMath.Algebra.RigsAndRings]
xs:8 [binder, in UniMath.Combinatorics.Lists]
xs:828 [binder, in UniMath.Algebra.RigsAndRings]
xs:831 [binder, in UniMath.Algebra.RigsAndRings]
xs:84 [binder, in UniMath.Combinatorics.Lists]
xs:85 [binder, in UniMath.Induction.M.Chains]
xs:92 [binder, in UniMath.Induction.M.Chains]
xs:94 [binder, in UniMath.Combinatorics.Lists]
xs:99 [binder, in UniMath.Induction.M.Chains]
Xtop:476 [binder, in UniMath.RealNumbers.NonnegativeReals]
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xu:1482 [binder, in UniMath.Foundations.PartA]
xu:1483 [binder, in UniMath.Foundations.PartA]
xu:1486 [binder, in UniMath.Foundations.PartA]
xu:1487 [binder, in UniMath.Foundations.PartA]
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xxx:112 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
xxx:120 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
xxx:126 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
xxx:135 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
xxx:144 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
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xx'e:2477 [binder, in UniMath.Foundations.PartA]
xx'e:2564 [binder, in UniMath.Foundations.PartA]
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xx':1188 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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xx':97 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
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xx1':84 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
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xx1:312 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
xx1:316 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
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xx1:72 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
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xx2:313 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
xx2:317 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
xx2:69 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
xx2:74 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
xx2:79 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
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xx2:91 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
xx:10 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
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xx:100 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
xx:1000 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:101 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
xx:1013 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1017 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:1025 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1038 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1038 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:104 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:1043 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:105 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:1051 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1055 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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xx:1060 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:1061 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1068 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:107 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
xx:1080 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1088 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:109 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1091 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:11 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
xx:11 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:110 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
xx:110 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:1111 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:1126 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1141 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:115 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:115 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:116 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:1174 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1174 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:1189 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1198 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:12 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
xx:12 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
xx:12 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
xx:12 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
xx:1205 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1214 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:122 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
xx:1223 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:1236 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:125 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
xx:125 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1259 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:126 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:1263 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:127 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
xx:1277 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:1279 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1281 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1297 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:1297 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:1299 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:13 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
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xx:131 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:131 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
xx:133 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
xx:135 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:136 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
xx:14 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:142 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
xx:142 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
xx:143 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:145 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:146 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:1473 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
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xx:148 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:1485 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:1499 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:15 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
xx:1508 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:152 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:1524 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:153 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:153 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
xx:1552 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:1556 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:1560 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
xx:157 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
xx:158 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:158 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:16 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:16 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
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xx:161 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:167 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
xx:167 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
xx:169 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:17 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
xx:170 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
xx:174 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
xx:175 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
xx:176 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:177 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:177 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
xx:177 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
xx:1771 [binder, in UniMath.Foundations.PartA]
xx:1773 [binder, in UniMath.Foundations.PartA]
xx:1779 [binder, in UniMath.Foundations.PartA]
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xx:1780 [binder, in UniMath.Foundations.PartA]
xx:179 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
xx:18 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
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xx:181 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:182 [binder, in UniMath.CategoryTheory.categories.abgrs]
xx:182 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:183 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
xx:188 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:188 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:188 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
xx:19 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
xx:19 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
xx:196 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
xx:197 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:197 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
xx:197 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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xx:199 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:199 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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xx:200 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:200 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
xx:204 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
xx:204 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:206 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
xx:209 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:21 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
xx:21 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:21 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
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xx:210 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:212 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
xx:214 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:215 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
xx:216 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:217 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
xx:22 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
xx:220 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
xx:220 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:221 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:221 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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xx:230 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:231 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
xx:232 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:233 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:235 [binder, in UniMath.Combinatorics.ZFstructures]
xx:236 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
xx:236 [binder, in UniMath.CategoryTheory.slicecat]
xx:236 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:237 [binder, in UniMath.Combinatorics.ZFstructures]
xx:237 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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xx:246 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:246 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
xx:248 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:25 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
xx:25 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
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xx:252 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:258 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
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xx:29 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:29 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
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xx:395 [binder, in UniMath.Foundations.PartC]
xx:396 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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xx:408 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:41 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:416 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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xx:450 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
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xx:457 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:459 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:46 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
xx:46 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
xx:461 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:463 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:463 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:466 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:471 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
xx:473 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
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xx:479 [binder, in UniMath.Foundations.PartD]
xx:48 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
xx:480 [binder, in UniMath.Foundations.PartD]
xx:480 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
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X:98 [binder, in UniMath.Combinatorics.OrderedSets]
x:98 [binder, in UniMath.MoreFoundations.MoreEquivalences]
x:98 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
X:98 [binder, in UniMath.Algebra.BinaryOperations]
x:98 [binder, in UniMath.RealNumbers.Reals]
x:98 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
X:98 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
X:98 [binder, in UniMath.Algebra.Domains_and_Fields]
x:98 [binder, in UniMath.Algebra.Lattice]
X:98 [binder, in UniMath.Algebra.GroupAction]
X:98 [binder, in UniMath.Combinatorics.WellOrderedSets]
X:98 [binder, in UniMath.Algebra.ConstructiveStructures]
X:98 [binder, in UniMath.Combinatorics.Lists]
X:98 [binder, in UniMath.Foundations.Sets]
x:98 [binder, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
x:98 [binder, in UniMath.Combinatorics.FiniteSequences]
X:98 [binder, in UniMath.MoreFoundations.NegativePropositions]
x:98 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
X:98 [binder, in UniMath.Foundations.PartA]
X:98 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
X:98 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
x:981 [binder, in UniMath.Bicategories.Core.Bicat]
x:981 [binder, in UniMath.Foundations.Sets]
X:981 [binder, in UniMath.Foundations.PartA]
X:982 [binder, in UniMath.Algebra.RigsAndRings]
X:983 [binder, in UniMath.Algebra.BinaryOperations]
X:983 [binder, in UniMath.Foundations.Sets]
x:983 [binder, in UniMath.HomologicalAlgebra.MappingCone]
x:985 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
x:986 [binder, in UniMath.Bicategories.Core.Bicat]
X:987 [binder, in UniMath.Algebra.BinaryOperations]
X:987 [binder, in UniMath.Foundations.PartA]
x:988 [binder, in UniMath.HomologicalAlgebra.MappingCone]
x:989 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
x:989 [binder, in UniMath.Foundations.Sets]
X:99 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
x:99 [binder, in UniMath.Algebra.DivisionRig]
x:99 [binder, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
x:99 [binder, in UniMath.MoreFoundations.DecidablePropositions]
X:99 [binder, in UniMath.Algebra.Monoids]
x:99 [binder, in UniMath.MoreFoundations.MoreEquivalences]
X:99 [binder, in UniMath.Algebra.Archimedean]
x:99 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
x:99 [binder, in UniMath.RealNumbers.Reals]
X:99 [binder, in UniMath.CategoryTheory.AbelianToAdditive]
X:99 [binder, in UniMath.PAdics.lemmas]
x:99 [binder, in UniMath.RealNumbers.NonnegativeRationals]
x:99 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
x:99 [binder, in UniMath.Algebra.Domains_and_Fields]
x:99 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
x:99 [binder, in UniMath.CategoryTheory.slicecat]
X:99 [binder, in UniMath.Algebra.RigsAndRings]
x:99 [binder, in UniMath.Algebra.ConstructiveStructures]
x:99 [binder, in UniMath.Combinatorics.Lists]
X:99 [binder, in UniMath.MoreFoundations.Propositions]
x:99 [binder, in UniMath.Foundations.Sets]
X:99 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
X:99 [binder, in UniMath.Combinatorics.FiniteSequences]
x:99 [binder, in UniMath.MoreFoundations.NegativePropositions]
x:99 [binder, in UniMath.Foundations.PartC]
x:99 [binder, in UniMath.HomologicalAlgebra.TranslationFunctors]
x:99 [binder, in UniMath.CategoryTheory.precomp_ess_surj]
X:991 [binder, in UniMath.Algebra.BinaryOperations]
X:992 [binder, in UniMath.Foundations.Sets]
X:993 [binder, in UniMath.Foundations.PartA]
x:994 [binder, in UniMath.HomologicalAlgebra.MappingCone]
X:995 [binder, in UniMath.Algebra.BinaryOperations]
X:997 [binder, in UniMath.Foundations.PartA]
x:998 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
x:998 [binder, in UniMath.Foundations.Sets]
x₁:1214 [binder, in UniMath.Algebra.BinaryOperations]
x₁:1230 [binder, in UniMath.Algebra.BinaryOperations]
X₁:131 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
X₁:139 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
x₁:14 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
x₁:25 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
x₁:3 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
x₁:46 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
x₁:933 [binder, in UniMath.MoreFoundations.PartA]
x₁:941 [binder, in UniMath.MoreFoundations.PartA]
x₂:1215 [binder, in UniMath.Algebra.BinaryOperations]
x₂:1231 [binder, in UniMath.Algebra.BinaryOperations]
X₂:132 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
X₂:140 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
x₂:15 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
x₂:26 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
x₂:4 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
x₂:47 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
x₂:934 [binder, in UniMath.MoreFoundations.PartA]
x₂:942 [binder, in UniMath.MoreFoundations.PartA]
x₃:32 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]

Y

y [definition, in UniMath.Bicategories.PseudoFunctors.Yoneda]
Y [definition, in UniMath.CategoryTheory.precomp_ess_surj]
yb:383 [binder, in UniMath.Algebra.Groups]
yb:386 [binder, in UniMath.Algebra.Monoids]
yb:432 [binder, in UniMath.Algebra.Monoids]
yb:458 [binder, in UniMath.Algebra.Monoids]
yb:919 [binder, in UniMath.Algebra.RigsAndRings]
yes:87 [binder, in UniMath.MoreFoundations.DecidablePropositions]
yes:92 [binder, in UniMath.MoreFoundations.DecidablePropositions]
ye':2044 [binder, in UniMath.Foundations.PartA]
ye':2051 [binder, in UniMath.Foundations.PartA]
ye':2057 [binder, in UniMath.Foundations.PartA]
ye':2063 [binder, in UniMath.Foundations.PartA]
ye':2070 [binder, in UniMath.Foundations.PartA]
ye':2078 [binder, in UniMath.Foundations.PartA]
ye':2085 [binder, in UniMath.Foundations.PartA]
ye:2015 [binder, in UniMath.Foundations.PartA]
ye:2093 [binder, in UniMath.Foundations.PartA]
ye:2101 [binder, in UniMath.Foundations.PartA]
ye:2109 [binder, in UniMath.Foundations.PartA]
ye:2117 [binder, in UniMath.Foundations.PartA]
ye:2125 [binder, in UniMath.Foundations.PartA]
ye:2133 [binder, in UniMath.Foundations.PartA]
ye:2144 [binder, in UniMath.Foundations.PartA]
ye:2151 [binder, in UniMath.Foundations.PartA]
ye:2158 [binder, in UniMath.Foundations.PartA]
ye:338 [binder, in UniMath.Foundations.PartC]
ye:480 [binder, in UniMath.Foundations.PartC]
ye:481 [binder, in UniMath.Foundations.PartC]
yhp:247 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
yhp:252 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
yhp:257 [binder, in UniMath.SyntheticHomotopyTheory.AffineLine]
yi:289 [binder, in UniMath.Combinatorics.WellOrderedSets]
yj:290 [binder, in UniMath.Combinatorics.WellOrderedSets]
Yoneda [section, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
yoneda [definition, in UniMath.CategoryTheory.yoneda]
Yoneda [section, in UniMath.Bicategories.PseudoFunctors.Yoneda]
yoneda [library]
Yoneda [library]
YonedaBinproducts [library]
YonedaLemma [section, in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma [library]
YonedaLemma.B_is_univalent_2_1 [variable, in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.F [variable, in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.PresheafToYonedaMor [section, in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.PresheafToYonedaMor.a [variable, in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.PresheafToYonedaMor.b [variable, in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.PresheafToYonedaMor.f [variable, in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.PresheafToYonedaOb [section, in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.PresheafToYonedaOb.x [variable, in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.X [variable, in UniMath.Bicategories.Core.YonedaLemma]
YonedaLocalEquivalence [section, in UniMath.Bicategories.Core.YonedaLemma]
YonedaLocalEquivalence.B_is_univalent_2_1 [variable, in UniMath.Bicategories.Core.YonedaLemma]
YonedaLocalEquivalence.X [variable, in UniMath.Bicategories.Core.YonedaLemma]
YonedaLocalEquivalence.Y [variable, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_local_equivalence [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_mor_is_equivalence [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable_is_iso [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable_is_natural [lemma, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable_component_mod [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable_is_modification [lemma, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable_component_mod_component [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable_component_mod_is_nat_trans [lemma, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable_component_mod_component_nat [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_counit [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_counit_is_natural [lemma, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_counit_component [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_iso [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_is_inverses [lemma, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_is_nat_trans [lemma, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_component_mod [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_component_is_modification [lemma, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_component_mod_component_nat [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_component_mod_component_is_nat_trans [lemma, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_component_mod_component_nat_component [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_is_functor [lemma, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_data [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_data_mor [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_data_ob [definition, in UniMath.Bicategories.Core.YonedaLemma]
yoneda_functor_precomp_nat_trans [definition, in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.B [variable, in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.A [variable, in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.fix_object.Fff [variable, in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp [definition, in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp' [definition, in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.fix_object.c [variable, in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.fix_object [section, in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.F [variable, in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.D [variable, in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.C [variable, in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp [section, in UniMath.CategoryTheory.yoneda]
yoneda_fully_faithful [lemma, in UniMath.CategoryTheory.yoneda]
yoneda_weq [definition, in UniMath.CategoryTheory.yoneda]
yoneda_iso_target [definition, in UniMath.CategoryTheory.yoneda]
yoneda_iso_sets [lemma, in UniMath.CategoryTheory.yoneda]
yoneda_map_2_1 [lemma, in UniMath.CategoryTheory.yoneda]
yoneda_map_1_2 [lemma, in UniMath.CategoryTheory.yoneda]
yoneda_map_2 [definition, in UniMath.CategoryTheory.yoneda]
yoneda_map_2_ax [lemma, in UniMath.CategoryTheory.yoneda]
yoneda_map_1 [definition, in UniMath.CategoryTheory.yoneda]
yoneda_functor_data [definition, in UniMath.CategoryTheory.yoneda]
yoneda_morphisms [definition, in UniMath.CategoryTheory.yoneda]
yoneda_morphisms_data [definition, in UniMath.CategoryTheory.yoneda]
yoneda_objects [definition, in UniMath.CategoryTheory.yoneda]
yoneda_ob_functor_data [definition, in UniMath.CategoryTheory.yoneda]
yoneda_objects_mor [definition, in UniMath.CategoryTheory.yoneda]
yoneda_objects_ob [definition, in UniMath.CategoryTheory.yoneda]
Yoneda.C_is_univalent_2_1 [variable, in UniMath.Bicategories.PseudoFunctors.Yoneda]
yon_binprod_is_iso [lemma, in UniMath.CategoryTheory.YonedaBinproducts]
yon_binprod_inv_nat_trans [definition, in UniMath.CategoryTheory.YonedaBinproducts]
yon_binprod_inv_nat_trans_data [definition, in UniMath.CategoryTheory.YonedaBinproducts]
yon_binprod_nat_trans [definition, in UniMath.CategoryTheory.YonedaBinproducts]
yon_binprod_nat_trans_data [definition, in UniMath.CategoryTheory.YonedaBinproducts]
yp:2301 [binder, in UniMath.Foundations.PartA]
yp:2312 [binder, in UniMath.Foundations.PartA]
yp:45 [binder, in UniMath.Foundations.Propositions]
yp:74 [binder, in UniMath.Foundations.PartA]
ys:34 [binder, in UniMath.Algebra.Universal.HVectors]
yxe:870 [binder, in UniMath.Foundations.PartA]
yxe:878 [binder, in UniMath.Foundations.PartA]
yx:1522 [binder, in UniMath.Foundations.PartA]
yx:1523 [binder, in UniMath.Foundations.PartA]
yx:1526 [binder, in UniMath.Foundations.PartA]
yx:1527 [binder, in UniMath.Foundations.PartA]
yx:1651 [binder, in UniMath.Foundations.PartA]
yx:1652 [binder, in UniMath.Foundations.PartA]
yy [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
yyy:113 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
yyy:121 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
yyy:127 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
yyy:136 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
yyy:145 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy_comp_nat_trans [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
yy_natural [lemma, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
yy':476 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy2:310 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy2:314 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy2:318 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:10 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
yy:100 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:1001 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:1014 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:1018 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
yy:102 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
yy:1026 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:1039 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:1039 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
yy:1044 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:1052 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:1061 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
yy:1062 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:1069 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:1083 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:1089 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
yy:1092 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:11 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
yy:11 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
yy:11 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
yy:11 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
yy:110 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:111 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
yy:111 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:1112 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
yy:116 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:117 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:1175 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
yy:1199 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
yy:12 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
yy:1224 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
yy:126 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:127 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:131 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
yy:136 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:137 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
yy:14 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
yy:143 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:146 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:149 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:15 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:1509 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
yy:1525 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
yy:153 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:154 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:154 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:1553 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
yy:1557 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
yy:1561 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
yy:158 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:159 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:159 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:161 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:162 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:168 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:168 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:17 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:17 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
yy:170 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:171 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
yy:176 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
yy:178 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:18 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
yy:182 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:183 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:184 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:189 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:189 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:19 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
yy:197 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:198 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:20 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
yy:20 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
yy:200 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:201 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
yy:205 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:207 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:210 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:211 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:211 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:216 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
yy:218 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:22 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
yy:22 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:221 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:222 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:222 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:227 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:23 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
yy:234 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:237 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:237 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:238 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:243 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:246 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:247 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:252 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:253 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:259 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
yy:259 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:259 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:26 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:260 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
yy:262 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
yy:263 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:265 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
yy:266 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:266 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:267 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
yy:269 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
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yy:273 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
yy:275 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:275 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
yy:278 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
yy:278 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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yy:281 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
yy:282 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:283 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:283 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
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yy:287 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:288 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
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yy:294 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:299 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:30 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:30 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
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yy:300 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
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yy:328 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
yy:328 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:346 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
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yy:373 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
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yy:394 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
yy:397 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:417 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
yy:42 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:426 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:43 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
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yy:444 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
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yy:467 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
yy:47 [binder, in UniMath.CategoryTheory.DisplayedCats.Projection]
yy:472 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:474 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
yy:480 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:486 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:495 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:504 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:543 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:55 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:56 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
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yy:676 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:681 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:69 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
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yy:71 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:85 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
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yy:97 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
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yy:988 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
yy:99 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
yy:999 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
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Y_bot:249 [binder, in UniMath.RealNumbers.NonnegativeReals]
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Y_open:152 [binder, in UniMath.RealNumbers.NonnegativeReals]
Y_bot:151 [binder, in UniMath.RealNumbers.NonnegativeReals]
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y₃:33 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]

Z

Z [definition, in UniMath.Induction.ImpredicativeInductiveSets]
Z [definition, in UniMath.Induction.M.Chains]
zariski_topology_and [lemma, in UniMath.AlgebraicGeometry.Spec]
zariski_topology_htrue [lemma, in UniMath.AlgebraicGeometry.Spec]
zariski_topology_union [lemma, in UniMath.AlgebraicGeometry.Spec]
zariski_topology [definition, in UniMath.AlgebraicGeometry.Spec]
ZA:570 [binder, in UniMath.CategoryTheory.categories.abgrs]
ZA:586 [binder, in UniMath.CategoryTheory.categories.abgrs]
ZA:601 [binder, in UniMath.CategoryTheory.categories.abgrs]
ZA:615 [binder, in UniMath.CategoryTheory.categories.abgrs]
ZA:630 [binder, in UniMath.CategoryTheory.categories.abgrs]
ZA:645 [binder, in UniMath.CategoryTheory.categories.abgrs]
ZermeloWellOrdering [lemma, in UniMath.Combinatorics.WellOrderedSets]
Zero [definition, in UniMath.CategoryTheory.limits.zero]
zero [definition, in UniMath.NumberSystems.Integers]
Zero [definition, in UniMath.CategoryTheory.limits.graphs.zero]
zero [library]
zero [library]
ZeroArrow [definition, in UniMath.CategoryTheory.limits.zero]
ZeroArrow [definition, in UniMath.CategoryTheory.limits.graphs.zero]
ZeroArrowEq [lemma, in UniMath.CategoryTheory.limits.zero]
ZeroArrowFrom [definition, in UniMath.CategoryTheory.limits.zero]
ZeroArrowFrom [definition, in UniMath.CategoryTheory.limits.graphs.zero]
ZeroArrowFromUnique [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
ZeroArrowFrom_opp [lemma, in UniMath.CategoryTheory.limits.Opp]
ZeroArrowTo [definition, in UniMath.CategoryTheory.limits.zero]
ZeroArrowTo [definition, in UniMath.CategoryTheory.limits.graphs.zero]
ZeroArrowToUnique [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
ZeroArrowTo_opp [lemma, in UniMath.CategoryTheory.limits.Opp]
ZeroArrowUnique [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
ZeroArrow_comp_right [lemma, in UniMath.CategoryTheory.limits.zero]
ZeroArrow_comp_left [lemma, in UniMath.CategoryTheory.limits.zero]
ZeroArrow_opp [lemma, in UniMath.CategoryTheory.limits.Opp]
ZeroComplex [definition, in UniMath.HomologicalAlgebra.Complexes]
zeroCriterion [lemma, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
zeroDivRig [definition, in UniMath.Algebra.DivisionRig]
ZeroEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.zero]
ZeroEndo_is_identity [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
ZeroIdMap [definition, in UniMath.CategoryTheory.AbelianToAdditive]
ZeroIdMap_isMonic [lemma, in UniMath.CategoryTheory.AbelianToAdditive]
ZeroIffInitialAndTerminal [lemma, in UniMath.CategoryTheory.limits.zero]
zeroincommringfrac [lemma, in UniMath.Algebra.Domains_and_Fields]
zeroLeft [lemma, in UniMath.CategoryTheory.PreAdditive]
ZeroMaps [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
ZeroMaps_opp_opp [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
ZeroMaps_opp [definition, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
zeroMap' [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
ZeroMorphism [definition, in UniMath.HomologicalAlgebra.Complexes]
ZeroMorphism_eq [lemma, in UniMath.HomologicalAlgebra.Complexes]
ZeroMorphism_comm [lemma, in UniMath.HomologicalAlgebra.Complexes]
zeroNNO [definition, in UniMath.CategoryTheory.NNO]
zeroNonnegativeRationals [definition, in UniMath.RealNumbers.NonnegativeRationals]
zeroNonnegativeRationals_correct [lemma, in UniMath.RealNumbers.NonnegativeRationals]
zeroNonnegativeReals [definition, in UniMath.RealNumbers.NonnegativeReals]
ZeroObject [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
ZeroObject [definition, in UniMath.CategoryTheory.limits.zero]
ZeroObject [definition, in UniMath.CategoryTheory.limits.graphs.zero]
ZeroObject_equals_TerminalObject [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
ZeroObject_equals_InitialObject [lemma, in UniMath.CategoryTheory.limits.graphs.zero]
zeroRight [lemma, in UniMath.CategoryTheory.PreAdditive]
ZerosArrowEq [lemma, in UniMath.CategoryTheory.limits.zero]
zero_eq_zero_opp [lemma, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
zero_opp [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
zero_to_initial [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
zero_to_terminal [definition, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
zero_lifts [definition, in UniMath.CategoryTheory.limits.zero]
Zero_Unique.H [variable, in UniMath.CategoryTheory.limits.zero]
Zero_Unique.C [variable, in UniMath.CategoryTheory.limits.zero]
Zero_Unique [section, in UniMath.CategoryTheory.limits.zero]
zero_module [definition, in UniMath.Algebra.Modules.Examples]
Zero_opp [definition, in UniMath.CategoryTheory.limits.Opp]
zero_term [definition, in UniMath.Algebra.Universal.Examples.Tests]
zero_oplist [definition, in UniMath.Algebra.Universal.Examples.Tests]
zero_one_oplist [definition, in UniMath.Algebra.Universal.Examples.Tests]
zero_coincides [section, in UniMath.CategoryTheory.limits.graphs.zero]
Zero_to_Terminal [definition, in UniMath.CategoryTheory.limits.graphs.zero]
Zero_to_Initial [definition, in UniMath.CategoryTheory.limits.graphs.zero]
zero_fld [definition, in UniMath.RealNumbers.Fields]
zero:369 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
zero:379 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
zero:388 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
zero:475 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
zero:482 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
zero:487 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
zero:492 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
zero:498 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
zero:504 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
zero:510 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Ze':11 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
Ze':13 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
Ze':9 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
Ze:10 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
Ze:12 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
ze:2420 [binder, in UniMath.Foundations.PartA]
ze:2431 [binder, in UniMath.Foundations.PartA]
Ze:25 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
Ze:28 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
Ze:30 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
Ze:31 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
Ze:8 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
ZFS [definition, in UniMath.Combinatorics.ZFstructures]
ZFstructures [library]
ZFS_elementof [definition, in UniMath.Combinatorics.ZFstructures]
ZFS_Branch [definition, in UniMath.Combinatorics.ZFstructures]
ZFS_Branch_is_ZFS [lemma, in UniMath.Combinatorics.ZFstructures]
ZFS_univalence [lemma, in UniMath.Combinatorics.ZFstructures]
ZFS_iso [definition, in UniMath.Combinatorics.ZFstructures]
ZGuidedHomotopy [definition, in UniMath.SyntheticHomotopyTheory.Circle]
zp:2010 [binder, in UniMath.Foundations.PartA]
zwh:40 [binder, in UniMath.CategoryTheory.CommaCategories]
zwi:50 [binder, in UniMath.CategoryTheory.CommaCategories]
zwi:57 [binder, in UniMath.CategoryTheory.CommaCategories]
zz:100 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
zz:1000 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
zz:101 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:1019 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
zz:1040 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
zz:1062 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
zz:1063 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:1090 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
zz:1113 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
zz:127 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:16 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:183 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:198 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
zz:199 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:208 [binder, in UniMath.CategoryTheory.DisplayedCats.Constructions]
zz:239 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:253 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:267 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:283 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:33 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
zz:34 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
zz:348 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
zz:354 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
zz:36 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
zz:374 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
zz:390 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
zz:395 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
zz:410 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
zz:418 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
zz:425 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
zz:43 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
zz:43 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:437 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:44 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
zz:445 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
zz:461 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
zz:481 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
zz:544 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zZ:563 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
zZ:577 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
zz:65 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
zz:70 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
zZ:731 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
zz:84 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:857 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:899 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:915 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
zz:98 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
z_iso_to_iso [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_conjug_weq [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_comp_left_weq [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_comp_left_isweq [lemma, in UniMath.CategoryTheory.Core.Isos]
z_iso_comp_right_weq [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_comp_right_isweq [lemma, in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_z_iso_inv [lemma, in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_of_z_iso_id [lemma, in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_of_z_iso_comp [lemma, in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_to_right [lemma, in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_to_left [lemma, in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_on_left [lemma, in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_on_right [lemma, in UniMath.CategoryTheory.Core.Isos]
z_iso_after_z_iso_inv [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_after_z_iso [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_from_is_z_iso [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_from_z_iso [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_eq_inv [lemma, in UniMath.CategoryTheory.Core.Isos]
z_iso_eq [lemma, in UniMath.CategoryTheory.Core.Isos]
z_iso_is_z_isomorphism2 [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_is_z_isomorphism1 [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_comp [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_inv [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_is_inverse_in_precat [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_mor [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso_mor [definition, in UniMath.CategoryTheory.Core.Isos]
z_iso [definition, in UniMath.CategoryTheory.Core.Isos]
z_nat_iso_from_z_iso [definition, in UniMath.CategoryTheory.FunctorCategory]
z_iso_from_z_nat_iso [definition, in UniMath.CategoryTheory.FunctorCategory]
z_iso_Zeros [definition, in UniMath.CategoryTheory.limits.zero]
z_iso_from_Equalizer_to_Equalizer [definition, in UniMath.CategoryTheory.limits.equalizers]
z_iso_from_Equalizer_to_Equalizer_inverses [lemma, in UniMath.CategoryTheory.limits.equalizers]
z_mod_p [library]
z'':298 [binder, in UniMath.MoreFoundations.PathsOver]
z'':308 [binder, in UniMath.MoreFoundations.PathsOver]
z'':331 [binder, in UniMath.MoreFoundations.PathsOver]
z'':341 [binder, in UniMath.MoreFoundations.PathsOver]
z'':642 [binder, in UniMath.MoreFoundations.PartA]
Z':100 [binder, in UniMath.CategoryTheory.limits.Opp]
Z':11 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
Z':110 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
Z':13 [binder, in UniMath.SubstitutionSystems.Signatures]
Z':15 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Z':16 [binder, in UniMath.SubstitutionSystems.ModulesFromSignatures]
Z':16 [binder, in UniMath.CategoryTheory.HorizontalComposition]
Z':17 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Z':1702 [binder, in UniMath.Foundations.PartA]
Z':18 [binder, in UniMath.SubstitutionSystems.Signatures]
Z':20 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Z':21 [binder, in UniMath.SubstitutionSystems.Signatures]
Z':22 [binder, in UniMath.CategoryTheory.HorizontalComposition]
Z':24 [binder, in UniMath.SubstitutionSystems.Signatures]
Z':240 [binder, in UniMath.CategoryTheory.limits.Opp]
Z':249 [binder, in UniMath.CategoryTheory.limits.Opp]
Z':273 [binder, in UniMath.CategoryTheory.limits.Opp]
Z':28 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
z':283 [binder, in UniMath.MoreFoundations.PathsOver]
z':290 [binder, in UniMath.MoreFoundations.PathsOver]
z':297 [binder, in UniMath.MoreFoundations.PathsOver]
Z':3 [binder, in UniMath.CategoryTheory.PointedFunctorsComposition]
z':307 [binder, in UniMath.MoreFoundations.PathsOver]
z':310 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
z':317 [binder, in UniMath.MoreFoundations.PathsOver]
z':32 [binder, in UniMath.MoreFoundations.PartA]
z':32 [binder, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
z':326 [binder, in UniMath.MoreFoundations.PartA]
z':330 [binder, in UniMath.MoreFoundations.PathsOver]
z':340 [binder, in UniMath.MoreFoundations.PathsOver]
z':348 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
z':350 [binder, in UniMath.MoreFoundations.PathsOver]
Z':39 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Z':40 [binder, in UniMath.SubstitutionSystems.Signatures]
Z':40 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
z':41 [binder, in UniMath.Combinatorics.WellFoundedRelations]
z':43 [binder, in UniMath.MoreFoundations.PartA]
Z':43 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Z':44 [binder, in UniMath.SubstitutionSystems.Signatures]
Z':48 [binder, in UniMath.CategoryTheory.limits.zero]
z':49 [binder, in UniMath.Combinatorics.WellFoundedRelations]
Z':5 [binder, in UniMath.CategoryTheory.PointedFunctorsComposition]
Z':50 [binder, in UniMath.CategoryTheory.limits.zero]
Z':52 [binder, in UniMath.CategoryTheory.limits.zero]
Z':54 [binder, in UniMath.CategoryTheory.limits.zero]
Z':54 [binder, in UniMath.CategoryTheory.limits.graphs.zero]
Z':56 [binder, in UniMath.CategoryTheory.limits.graphs.zero]
z':57 [binder, in UniMath.MoreFoundations.PartA]
z':57 [binder, in UniMath.Combinatorics.WellFoundedRelations]
z':606 [binder, in UniMath.Algebra.Monoids]
z':609 [binder, in UniMath.Algebra.Monoids]
z':611 [binder, in UniMath.Algebra.Monoids]
z':613 [binder, in UniMath.Algebra.Monoids]
z':615 [binder, in UniMath.Algebra.Monoids]
z':623 [binder, in UniMath.Algebra.Monoids]
z':623 [binder, in UniMath.MoreFoundations.PartA]
z':626 [binder, in UniMath.Algebra.Monoids]
z':628 [binder, in UniMath.Algebra.Monoids]
z':630 [binder, in UniMath.Algebra.Monoids]
z':632 [binder, in UniMath.Algebra.Monoids]
z':641 [binder, in UniMath.MoreFoundations.PartA]
z':648 [binder, in UniMath.MoreFoundations.PathsOver]
Z':67 [binder, in UniMath.CategoryTheory.limits.Opp]
Z':7 [binder, in UniMath.CategoryTheory.PointedFunctorsComposition]
Z':71 [binder, in UniMath.SubstitutionSystems.Signatures]
Z':76 [binder, in UniMath.CategoryTheory.limits.Opp]
Z':80 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
Z':84 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
z':86 [binder, in UniMath.MoreFoundations.PartA]
Z':92 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
z0:247 [binder, in UniMath.CategoryTheory.PseudoElements]
Z0:464 [binder, in UniMath.HomologicalAlgebra.Complexes]
Z0:475 [binder, in UniMath.HomologicalAlgebra.Complexes]
Z0:479 [binder, in UniMath.HomologicalAlgebra.Complexes]
z1':1009 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1':1051 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1':757 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1':799 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1':841 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1':883 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1':925 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1':967 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:1034 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:326 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:34 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
z1:345 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:370 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:389 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:408 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:427 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:446 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:465 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:484 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:503 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:521 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:541 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:740 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:782 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:824 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:866 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:908 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:950 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z1:992 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2_algebra [definition, in UniMath.Algebra.Universal.Examples.Nat]
z2':1010 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2':1052 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2':758 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2':800 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2':842 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2':884 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2':926 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2':968 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:1035 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:244 [binder, in UniMath.Foundations.Propositions]
z2:245 [binder, in UniMath.Foundations.Propositions]
z2:327 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:346 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:35 [binder, in UniMath.HomologicalAlgebra.KATriangulated]
z2:371 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:390 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:409 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:428 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:447 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:466 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:485 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:504 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:522 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:542 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:741 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:783 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:825 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:867 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:909 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:951 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z2:993 [binder, in UniMath.HomologicalAlgebra.Triangulated]
z:10 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
z:10 [binder, in UniMath.RealNumbers.Prelim]
Z:10 [binder, in UniMath.SubstitutionSystems.Lam]
Z:10 [binder, in UniMath.SubstitutionSystems.SumOfSignatures]
z:10 [binder, in UniMath.Tactics.Nat_Tactics]
Z:10 [binder, in UniMath.CategoryTheory.limits.graphs.zero]
z:10 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
z:10 [binder, in UniMath.CategoryTheory.AbelianPushoutPullback]
z:100 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
z:100 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
z:100 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:100 [binder, in UniMath.Bicategories.Core.Strictness]
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Z:80 [binder, in UniMath.CategoryTheory.limits.Opp]
z:80 [binder, in UniMath.CategoryTheory.limits.coequalizers]
z:80 [binder, in UniMath.Paradoxes.GirardsParadox]
z:80 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
z:801 [binder, in UniMath.MoreFoundations.PartA]
z:806 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
z:81 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
z:81 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
z:81 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
z:81 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:81 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:81 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
z:81 [binder, in UniMath.Algebra.ConstructiveStructures]
z:81 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
z:81 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
z:82 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
z:82 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:82 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:82 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
z:82 [binder, in UniMath.CategoryTheory.limits.cokernels]
z:82 [binder, in UniMath.CategoryTheory.PreAdditive]
Z:82 [binder, in UniMath.Algebra.GroupAction]
z:82 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
z:82 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
Z:827 [binder, in UniMath.Algebra.BinaryOperations]
z:83 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
z:83 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:83 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:83 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
z:83 [binder, in UniMath.CategoryTheory.limits.kernels]
Z:83 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
Z:83 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
z:83 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
z:83 [binder, in UniMath.CategoryTheory.limits.Opp]
z:83 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Z:83 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
z:83 [binder, in UniMath.Paradoxes.GirardsParadox]
z:83 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
Z:832 [binder, in UniMath.Algebra.BinaryOperations]
Z:835 [binder, in UniMath.MoreFoundations.PartA]
Z:84 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
z:84 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
z:84 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
z:84 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:84 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:84 [binder, in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Z:84 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
z:84 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
z:84 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
z:84 [binder, in UniMath.Paradoxes.GirardsParadox]
z:84 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
Z:845 [binder, in UniMath.MoreFoundations.PartA]
Z:849 [binder, in UniMath.Algebra.BinaryOperations]
Z:85 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
z:85 [binder, in UniMath.Algebra.DivisionRig]
z:85 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Z:85 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
z:85 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
z:85 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:85 [binder, in UniMath.Bicategories.Core.AdjointUnique]
Z:85 [binder, in UniMath.RealNumbers.Reals]
z:85 [binder, in UniMath.CategoryTheory.limits.equalizers]
z:85 [binder, in UniMath.MoreFoundations.PartA]
z:85 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
Z:85 [binder, in UniMath.CategoryTheory.limits.Opp]
z:85 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
z:85 [binder, in UniMath.CategoryTheory.limits.coequalizers]
z:85 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
z:852 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
z:854 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
Z:857 [binder, in UniMath.MoreFoundations.PartA]
z:86 [binder, in UniMath.CategoryTheory.LocalizingClass]
z:86 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
z:86 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:86 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:86 [binder, in UniMath.CategoryTheory.PreAdditive]
z:86 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
z:86 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Z:86 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
z:86 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
z:867 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
Z:868 [binder, in UniMath.Algebra.BinaryOperations]
Z:869 [binder, in UniMath.MoreFoundations.PartA]
z:87 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
z:87 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
z:87 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:87 [binder, in UniMath.Bicategories.Core.AdjointUnique]
Z:87 [binder, in UniMath.RealNumbers.Reals]
z:87 [binder, in UniMath.Algebra.Lattice]
z:87 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
z:87 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
z:87 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
z:875 [binder, in UniMath.MoreFoundations.PartA]
z:876 [binder, in UniMath.MoreFoundations.PartA]
z:879 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
Z:879 [binder, in UniMath.MoreFoundations.PartA]
z:88 [binder, in UniMath.Algebra.DivisionRig]
z:88 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
Z:88 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
z:88 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:88 [binder, in UniMath.Bicategories.Core.AdjointUnique]
Z:88 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
z:88 [binder, in UniMath.Combinatorics.WellOrderedSets]
z:88 [binder, in UniMath.CategoryTheory.limits.Opp]
z:88 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Z:88 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
z:88 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
z:89 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
z:89 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:89 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:89 [binder, in UniMath.CategoryTheory.limits.cokernels]
z:89 [binder, in UniMath.RealNumbers.Sets]
z:89 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
z:89 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
z:891 [binder, in UniMath.MoreFoundations.PartA]
z:892 [binder, in UniMath.MoreFoundations.PartA]
Z:895 [binder, in UniMath.MoreFoundations.PartA]
z:896 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
z:896 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
Z:9 [binder, in UniMath.CategoryTheory.categories.Type.Core]
Z:9 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
z:9 [binder, in UniMath.MoreFoundations.Tactics]
z:9 [binder, in UniMath.CategoryTheory.LocalizingClass]
z:9 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
z:9 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
z:9 [binder, in UniMath.MoreFoundations.Equivalences]
z:9 [binder, in UniMath.CategoryTheory.Monics]
z:9 [binder, in UniMath.CategoryTheory.LatticeObject]
z:9 [binder, in UniMath.Bicategories.Core.TransportLaws]
Z:9 [binder, in UniMath.Foundations.PartA]
z:90 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:90 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:90 [binder, in UniMath.CategoryTheory.limits.equalizers]
Z:90 [binder, in UniMath.CategoryTheory.limits.Opp]
z:90 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
z:90 [binder, in UniMath.CategoryTheory.limits.coequalizers]
z:90 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
Z:908 [binder, in UniMath.MoreFoundations.PartA]
z:91 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:91 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:91 [binder, in UniMath.RealNumbers.NonnegativeRationals]
Z:91 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
z:91 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
Z:91 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
z:91 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
z:912 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
Z:917 [binder, in UniMath.MoreFoundations.PartA]
z:92 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:92 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:92 [binder, in UniMath.CategoryTheory.PreAdditive]
z:92 [binder, in UniMath.RealNumbers.Sets]
z:92 [binder, in UniMath.Combinatorics.WellOrderedSets]
z:92 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
z:92 [binder, in UniMath.Bicategories.Core.TransportLaws]
z:92 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
Z:93 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
Z:93 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
z:93 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
z:93 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:93 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:93 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
z:93 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
z:93 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
z:930 [binder, in UniMath.MoreFoundations.PartA]
z:94 [binder, in UniMath.Bicategories.Core.FullyFaithful]
z:94 [binder, in UniMath.Algebra.DivisionRig]
z:94 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
z:94 [binder, in UniMath.CategoryTheory.LocalizingClass]
z:94 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:94 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:94 [binder, in UniMath.CategoryTheory.limits.kernels]
z:94 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
z:94 [binder, in UniMath.CategoryTheory.limits.Opp]
z:94 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
z:95 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:95 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:95 [binder, in UniMath.CategoryTheory.limits.equalizers]
z:95 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
z:95 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Z:95 [binder, in UniMath.Topology.Filters]
z:95 [binder, in UniMath.CategoryTheory.limits.coequalizers]
z:95 [binder, in UniMath.MoreFoundations.Subtypes]
z:95 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
Z:955 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
z:957 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Z:958 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
z:96 [binder, in UniMath.CategoryTheory.Abelian]
z:96 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
z:96 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:96 [binder, in UniMath.CategoryTheory.DisplayedCats.Core]
z:96 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:96 [binder, in UniMath.Algebra.Matrix]
z:96 [binder, in UniMath.Combinatorics.WellOrderedSets]
z:96 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
Z:96 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Z:96 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
z:96 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
Z:960 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Z:963 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
z:963 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Z:967 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
z:968 [binder, in UniMath.HomologicalAlgebra.MappingCone]
z:97 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
Z:97 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
z:97 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
z:97 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:97 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples]
z:97 [binder, in UniMath.Algebra.Matrix]
z:97 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
z:97 [binder, in UniMath.CategoryTheory.limits.cokernels]
Z:97 [binder, in UniMath.CategoryTheory.limits.Opp]
z:97 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
Z:970 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Z:973 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
z:974 [binder, in UniMath.HomologicalAlgebra.MappingCone]
z:979 [binder, in UniMath.HomologicalAlgebra.MappingCone]
z:98 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
z:98 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:98 [binder, in UniMath.Algebra.Matrix]
z:98 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
z:98 [binder, in UniMath.RealNumbers.NonnegativeRationals]
z:98 [binder, in UniMath.CategoryTheory.PreAdditive]
z:98 [binder, in UniMath.Bicategories.Colimits.Initial]
z:98 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
Z:983 [binder, in UniMath.Foundations.PartA]
z:985 [binder, in UniMath.HomologicalAlgebra.MappingCone]
Z:989 [binder, in UniMath.Foundations.PartA]
z:99 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
z:99 [binder, in UniMath.Bicategories.Core.FullyFaithful]
z:99 [binder, in UniMath.Combinatorics.ZFstructures]
z:99 [binder, in UniMath.Bicategories.Core.AdjointUnique]
z:99 [binder, in UniMath.Bicategories.Core.Strictness]
z:99 [binder, in UniMath.Algebra.Matrix]
z:99 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
z:99 [binder, in UniMath.Bicategories.Colimits.Initial]
z:99 [binder, in UniMath.MoreFoundations.Subtypes]
z:99 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
z:990 [binder, in UniMath.HomologicalAlgebra.MappingCone]
z:991 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
z:996 [binder, in UniMath.HomologicalAlgebra.MappingCone]
z₁:69 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
z₁:71 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
z₂:70 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
z₂:72 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]

_

_c_ [lemma, in UniMath.Combinatorics.StandardFiniteSets]

other

0 (abelian_precat) [notation, in UniMath.CategoryTheory.Abelian]
_ - _ (abgrcat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ - _ (abgrcat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ + _ (abgrcat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ + _ (abgrcat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ = _ (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ · _ (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ ∘ _ (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ - _ (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ - _ (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ + _ (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ + _ (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ --> _ (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ <-- _ (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
- _ (abgrcat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
- _ (abgrcat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
- _ (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
- _ (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
0 (abgrcat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
0 (abgrcat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
0 (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
0 (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
1 (abgrcat) [notation, in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
ι₁ (abgrcat) [notation, in UniMath.CategoryTheory.limits.BinDirectSums]
ι₂ (abgrcat) [notation, in UniMath.CategoryTheory.limits.BinDirectSums]
π₁ (abgrcat) [notation, in UniMath.CategoryTheory.limits.BinDirectSums]
π₂ (abgrcat) [notation, in UniMath.CategoryTheory.limits.BinDirectSums]
_ + _ (abgr_scope) [notation, in UniMath.Algebra.Modules.Core]
_ - _ (abgr) [notation, in UniMath.Algebra.Groups]
- _ (abgr) [notation, in UniMath.Algebra.Groups]
_ + _ (action_scope) [notation, in UniMath.SyntheticHomotopyTheory.Circle]
_ / _ (action_scope) [notation, in UniMath.Algebra.GroupAction]
_ * _ (action_scope) [notation, in UniMath.Algebra.GroupAction]
_ - _ (action_scope) [notation, in UniMath.SyntheticHomotopyTheory.AffineLine]
_ + _ (action_scope) [notation, in UniMath.SyntheticHomotopyTheory.AffineLine]
_ * _ (action_scope) [notation, in UniMath.SyntheticHomotopyTheory.AffineLine]
_ + _ (addoperation_scope) [notation, in UniMath.Algebra.BinaryOperations]
_ # _ (ap_scope) [notation, in UniMath.Algebra.Apartness]
_ ^-1 (bicategory_scope) [notation, in UniMath.Bicategories.Core.Bicat]
_ ;; _ (cat_deprecated) [notation, in UniMath.CategoryTheory.Core.Categories]
_ // _ (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
_ \\ _ (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
_ × _ (cat) [notation, in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
_ □ _ (cat) [notation, in UniMath.CategoryTheory.Core.Functors]
_ ∙ _ (cat) [notation, in UniMath.CategoryTheory.Core.Functors]
_ ⟶ _ (cat) [notation, in UniMath.CategoryTheory.Core.Functors]
_ ⟲⟲ _ (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
_ ⟹ _ (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
_ ⟹ _ (cat) [notation, in UniMath.CategoryTheory.Core.NaturalTransformations]
_ □ _ (Cat) [notation, in UniMath.CategoryTheory.FunctorCategory]
_ ^op (cat) [notation, in UniMath.CategoryTheory.opp_precat]
_ ^op (cat) [notation, in UniMath.CategoryTheory.opp_precat]
_ ^op (cat) [notation, in UniMath.CategoryTheory.opp_precat]
_ ◽ _ (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ⟳ _ (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ⟲ _ (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ⇐ _ (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ⇒ _ (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ▭ _ (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ◾ _ (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ^op (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ <-- _ (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ^op (cat) [notation, in UniMath.CategoryTheory.limits.Opp]
_ ⇏ _ (cat) [notation, in UniMath.CategoryTheory.Profunctors.Core]
_ ↛ _ (cat) [notation, in UniMath.CategoryTheory.Profunctors.Core]
_ ∘ _ (cat) [notation, in UniMath.CategoryTheory.Core.Categories]
_ · _ (cat) [notation, in UniMath.CategoryTheory.Core.Categories]
_ ⟦ _ , _ ⟧ (cat) [notation, in UniMath.CategoryTheory.Core.Categories]
_ <-- _ (cat) [notation, in UniMath.CategoryTheory.Core.Categories]
_ --> _ (cat) [notation, in UniMath.CategoryTheory.Core.Categories]
HSET (cat) [notation, in UniMath.CategoryTheory.categories.HSET.Core]
PreShv _ (cat) [notation, in UniMath.CategoryTheory.Presheaf]
PreShv _ (cat) [notation, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
SET (cat) [notation, in UniMath.CategoryTheory.categories.HSET.Core]
# _ (cat) [notation, in UniMath.CategoryTheory.Core.Functors]
1 (cat) [notation, in UniMath.CategoryTheory.Core.Categories]
[ _ , _ ] (cat) [notation, in UniMath.CategoryTheory.FunctorCategory]
[ _ , _ , _ ] (cat) [notation, in UniMath.CategoryTheory.FunctorCategory]
[ _ , _ , _ ] (cat) [notation, in UniMath.CategoryTheory.FunctorCategory]
[ _ , _ ] (cat) [notation, in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
∫ _ (cat) [notation, in UniMath.CategoryTheory.Elements]
∫ _ (cat) [notation, in UniMath.CategoryTheory.ElementsOp]
∫↓ _ (cat) [notation, in UniMath.CategoryTheory.Profunctors.Core]
_ * _ (CCDR_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
_ + _ (CCDR_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
1 (CCDR_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
0 (CCDR_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
_ ≠ _ (CCDR_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
_ * _ (CDR_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
_ + _ (CDR_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
1 (CDR_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
0 (CDR_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
_ ≠ _ (CDR_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
_ * _ (CF_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
_ - _ (CF_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
- _ (CF_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
_ + _ (CF_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
1 (CF_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
0 (CF_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
_ ≠ _ (CF_scope) [notation, in UniMath.Algebra.ConstructiveStructures]
ℤ¹ (circle) [notation, in UniMath.SyntheticHomotopyTheory.Circle2]
0 (cocont_functor_hset_scope) [notation, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
1 (cocont_functor_hset_scope) [notation, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
_ + _ (cocont_functor_hset_scope) [notation, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
_ * _ (cocont_functor_hset_scope) [notation, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Id (cocont_functor_hset_scope) [notation, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
' _ (cocont_functor_hset_scope) [notation, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
_ --> _ (DCPO) [notation, in UniMath.Algebra.Dcpo]
2 (Dcuts_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
1 (Dcuts_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
0 (Dcuts_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ > _ (Dcuts_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ < _ (Dcuts_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ >= _ (Dcuts_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ <= _ (Dcuts_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ ∈ _ (DC_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ ≠ _ (decidable_nat) [notation, in UniMath.MoreFoundations.DecidablePropositions]
_ =? _ (decidable_nat) [notation, in UniMath.MoreFoundations.DecidablePropositions]
_ > _ (decidable_nat) [notation, in UniMath.MoreFoundations.DecidablePropositions]
_ ≥ _ (decidable_nat) [notation, in UniMath.MoreFoundations.DecidablePropositions]
_ ≥ _ (decidable_nat) [notation, in UniMath.MoreFoundations.DecidablePropositions]
_ ≤ _ (decidable_nat) [notation, in UniMath.MoreFoundations.DecidablePropositions]
_ <= _ (decidable_nat) [notation, in UniMath.MoreFoundations.DecidablePropositions]
_ < _ (decidable_nat) [notation, in UniMath.MoreFoundations.DecidablePropositions]
¬ _ (decidable_logic) [notation, in UniMath.MoreFoundations.DecidablePropositions]
_ ∧ _ (decidable_logic) [notation, in UniMath.MoreFoundations.DecidablePropositions]
_ ∨ _ (decidable_logic) [notation, in UniMath.MoreFoundations.DecidablePropositions]
_ × _ (disp_cat_scope) [notation, in UniMath.CategoryTheory.DisplayedCats.Constructions]
_ / _ (dr_scope) [notation, in UniMath.Algebra.DivisionRig]
/ _ (dr_scope) [notation, in UniMath.Algebra.DivisionRig]
_ * _ (dr_scope) [notation, in UniMath.Algebra.DivisionRig]
_ + _ (dr_scope) [notation, in UniMath.Algebra.DivisionRig]
1 (dr_scope) [notation, in UniMath.Algebra.DivisionRig]
0 (dr_scope) [notation, in UniMath.Algebra.DivisionRig]
_ > _ (eo_scope) [notation, in UniMath.RealNumbers.Sets]
_ < _ (eo_scope) [notation, in UniMath.RealNumbers.Sets]
_ >= _ (eo_scope) [notation, in UniMath.RealNumbers.Sets]
_ <= _ (eo_scope) [notation, in UniMath.RealNumbers.Sets]
_ ^op (excat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ ⟶ _ (excat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ ∙ _ (excat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ ↠ _ (excat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ ↣ _ (excat) [notation, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
∑ _ .. _ , _ (finset) [notation, in UniMath.Combinatorics.FiniteSets]
_ > _ (foset) [notation, in UniMath.Combinatorics.OrderedSets]
_ < _ (foset) [notation, in UniMath.Combinatorics.OrderedSets]
_ >= _ (foset) [notation, in UniMath.Combinatorics.OrderedSets]
_ ≥ _ (foset) [notation, in UniMath.Combinatorics.OrderedSets]
_ <= _ (foset) [notation, in UniMath.Combinatorics.OrderedSets]
_ ≤ _ (foset) [notation, in UniMath.Combinatorics.OrderedSets]
_ ≠ _ (foset) [notation, in UniMath.Combinatorics.OrderedSets]
_ ≐ _ (foset) [notation, in UniMath.Combinatorics.OrderedSets]
∑ _ .. _ , _ (foset) [notation, in UniMath.Combinatorics.OrderedSets]
⟦ _ ⟧ (foset) [notation, in UniMath.Combinatorics.OrderedSets]
_ ∘ _ (functions) [notation, in UniMath.Foundations.PartA]
_ × _ (functor_scope) [notation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
#?' _ (hide_transport_scope) [notation, in UniMath.CategoryTheory.DisplayedCats.Core]
#? _ (hide_transport_scope) [notation, in UniMath.CategoryTheory.DisplayedCats.Core]
_ ↷ _ (hom_scope) [notation, in UniMath.Algebra.Universal.Algebras]
2 (hq_scope) [notation, in UniMath.RealNumbers.Prelim]
_ / _ (hq_scope) [notation, in UniMath.RealNumbers.Prelim]
/ _ (hq_scope) [notation, in UniMath.RealNumbers.Prelim]
_ > _ (hq_scope) [notation, in UniMath.RealNumbers.Prelim]
_ < _ (hq_scope) [notation, in UniMath.RealNumbers.Prelim]
_ >= _ (hq_scope) [notation, in UniMath.RealNumbers.Prelim]
_ <= _ (hq_scope) [notation, in UniMath.RealNumbers.Prelim]
_ * _ (hq_scope) [notation, in UniMath.NumberSystems.RationalNumbers]
_ - _ (hq_scope) [notation, in UniMath.NumberSystems.RationalNumbers]
- _ (hq_scope) [notation, in UniMath.NumberSystems.RationalNumbers]
1 (hq_scope) [notation, in UniMath.NumberSystems.RationalNumbers]
0 (hq_scope) [notation, in UniMath.NumberSystems.RationalNumbers]
_ + _ (hq_scope) [notation, in UniMath.NumberSystems.RationalNumbers]
_ ::: _ (hvec_scope) [notation, in UniMath.Algebra.Universal.HVectors]
[()] (hvec_scope) [notation, in UniMath.Algebra.Universal.HVectors]
[( _ ; .. ; _ )] (hvec_scope) [notation, in UniMath.Algebra.Universal.HVectors]
_ * _ (hz_scope) [notation, in UniMath.NumberSystems.Integers]
_ - _ (hz_scope) [notation, in UniMath.NumberSystems.Integers]
- _ (hz_scope) [notation, in UniMath.NumberSystems.Integers]
1 (hz_scope) [notation, in UniMath.NumberSystems.Integers]
0 (hz_scope) [notation, in UniMath.NumberSystems.Integers]
_ + _ (hz_scope) [notation, in UniMath.NumberSystems.Integers]
_ ++ _ (list_scope) [notation, in UniMath.Combinatorics.MoreLists]
_ :: _ (list_scope) [notation, in UniMath.Combinatorics.MoreLists]
[] (list_scope) [notation, in UniMath.Combinatorics.MoreLists]
[ _ ; .. ; _ ] (list_scope) [notation, in UniMath.Combinatorics.MoreLists]
_ ⇒ _ (logic) [notation, in UniMath.Foundations.Propositions]
_ != _ (logic) [notation, in UniMath.Foundations.Sets]
_ = _ (logic) [notation, in UniMath.Foundations.Sets]
_ ⇔ _ (logic) [notation, in UniMath.MoreFoundations.Notations]
_ ⇒ _ (logic) [notation, in UniMath.MoreFoundations.Notations]
¬ _ (logic) [notation, in UniMath.Foundations.Propositions]
∃! _ .. _ , _ (logic) [notation, in UniMath.MoreFoundations.Propositions]
R-mod( _ , _ ) (module_scope) [notation, in UniMath.Algebra.Modules.Core]
_ * _ (module_scope) [notation, in UniMath.Algebra.Modules.Core]
# _ (mor_disp_scope) [notation, in UniMath.CategoryTheory.DisplayedCats.Core]
_ ;; _ (mor_disp_scope) [notation, in UniMath.CategoryTheory.DisplayedCats.Core]
1 (multmonoid_scope) [notation, in UniMath.Algebra.Monoids]
_ * _ (multmonoid_scope) [notation, in UniMath.Algebra.Monoids]
_ * _ (multoperation_scope) [notation, in UniMath.Algebra.BinaryOperations]
_ / _ (nat_scope) [notation, in UniMath.Foundations.NaturalNumbers]
_ /+ _ (nat_scope) [notation, in UniMath.Foundations.NaturalNumbers]
_ ≥ _ (nat_scope) [notation, in UniMath.Foundations.NaturalNumbers]
_ >= _ (nat_scope) [notation, in UniMath.Foundations.NaturalNumbers]
_ ≤ _ (nat_scope) [notation, in UniMath.Foundations.NaturalNumbers]
_ <= _ (nat_scope) [notation, in UniMath.Foundations.NaturalNumbers]
_ < _ (nat_scope) [notation, in UniMath.Foundations.NaturalNumbers]
_ > _ (nat_scope) [notation, in UniMath.Foundations.NaturalNumbers]
_ ≠ _ (nat_scope) [notation, in UniMath.Foundations.NaturalNumbers]
_ ≠ _ (nat_scope) [notation, in UniMath.MoreFoundations.NegativePropositions]
1000 (nat_scope) [notation, in UniMath.Foundations.Preamble]
100 (nat_scope) [notation, in UniMath.Foundations.Preamble]
24 (nat_scope) [notation, in UniMath.Foundations.Preamble]
23 (nat_scope) [notation, in UniMath.Foundations.Preamble]
22 (nat_scope) [notation, in UniMath.Foundations.Preamble]
21 (nat_scope) [notation, in UniMath.Foundations.Preamble]
20 (nat_scope) [notation, in UniMath.Foundations.Preamble]
19 (nat_scope) [notation, in UniMath.Foundations.Preamble]
18 (nat_scope) [notation, in UniMath.Foundations.Preamble]
17 (nat_scope) [notation, in UniMath.Foundations.Preamble]
16 (nat_scope) [notation, in UniMath.Foundations.Preamble]
15 (nat_scope) [notation, in UniMath.Foundations.Preamble]
14 (nat_scope) [notation, in UniMath.Foundations.Preamble]
13 (nat_scope) [notation, in UniMath.Foundations.Preamble]
12 (nat_scope) [notation, in UniMath.Foundations.Preamble]
11 (nat_scope) [notation, in UniMath.Foundations.Preamble]
10 (nat_scope) [notation, in UniMath.Foundations.Preamble]
9 (nat_scope) [notation, in UniMath.Foundations.Preamble]
8 (nat_scope) [notation, in UniMath.Foundations.Preamble]
7 (nat_scope) [notation, in UniMath.Foundations.Preamble]
6 (nat_scope) [notation, in UniMath.Foundations.Preamble]
5 (nat_scope) [notation, in UniMath.Foundations.Preamble]
4 (nat_scope) [notation, in UniMath.Foundations.Preamble]
3 (nat_scope) [notation, in UniMath.Foundations.Preamble]
2 (nat_scope) [notation, in UniMath.Foundations.Preamble]
1 (nat_scope) [notation, in UniMath.Foundations.Preamble]
0 (nat_scope) [notation, in UniMath.Foundations.Preamble]
_ * _ (nat_scope) [notation, in UniMath.Foundations.Preamble]
_ - _ (nat_scope) [notation, in UniMath.Foundations.Preamble]
_ + _ (nat_scope) [notation, in UniMath.Foundations.Preamble]
_ / _ (NRat_scope) [notation, in UniMath.RealNumbers.NonnegativeRationals]
/ _ (NRat_scope) [notation, in UniMath.RealNumbers.NonnegativeRationals]
_ * _ (NRat_scope) [notation, in UniMath.RealNumbers.NonnegativeRationals]
_ - _ (NRat_scope) [notation, in UniMath.RealNumbers.NonnegativeRationals]
_ + _ (NRat_scope) [notation, in UniMath.RealNumbers.NonnegativeRationals]
2 (NRat_scope) [notation, in UniMath.RealNumbers.NonnegativeRationals]
1 (NRat_scope) [notation, in UniMath.RealNumbers.NonnegativeRationals]
0 (NRat_scope) [notation, in UniMath.RealNumbers.NonnegativeRationals]
_ > _ (NRat_scope) [notation, in UniMath.RealNumbers.NonnegativeRationals]
_ < _ (NRat_scope) [notation, in UniMath.RealNumbers.NonnegativeRationals]
_ >= _ (NRat_scope) [notation, in UniMath.RealNumbers.NonnegativeRationals]
_ <= _ (NRat_scope) [notation, in UniMath.RealNumbers.NonnegativeRationals]
_ / 2 (NR_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ - _ (NR_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ * _ (NR_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ + _ (NR_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
2 (NR_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
1 (NR_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
0 (NR_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ > _ (NR_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ < _ (NR_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ >= _ (NR_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ <= _ (NR_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ ≠ _ (NR_scope) [notation, in UniMath.RealNumbers.NonnegativeReals]
_ ∩ _ (open_scope) [notation, in UniMath.AlgebraicGeometry.Topology]
⋃ _ (open_scope) [notation, in UniMath.AlgebraicGeometry.Topology]
_ > _ (oset) [notation, in UniMath.Combinatorics.OrderedSets]
_ >= _ (oset) [notation, in UniMath.Combinatorics.OrderedSets]
_ ≥ _ (oset) [notation, in UniMath.Combinatorics.OrderedSets]
_ < _ (oset) [notation, in UniMath.Combinatorics.OrderedSets]
_ <= _ (oset) [notation, in UniMath.Combinatorics.OrderedSets]
_ ≤ _ (oset) [notation, in UniMath.Combinatorics.OrderedSets]
_ ≅ _ (oset) [notation, in UniMath.Combinatorics.OrderedSets]
_ ^-1 (pathsover) [notation, in UniMath.MoreFoundations.PathsOver]
_ ⟤ _ (pathsover) [notation, in UniMath.MoreFoundations.PathsOver]
_ ⟥ _ (pathsover) [notation, in UniMath.MoreFoundations.PathsOver]
_ * _ (pathsover) [notation, in UniMath.MoreFoundations.PathsOver]
Δ _ (pathsover) [notation, in UniMath.MoreFoundations.PathsOver]
∇ _ (pathsover) [notation, in UniMath.MoreFoundations.PathsOver]
_ < _ (poset) [notation, in UniMath.Foundations.Sets]
_ ≅ _ (poset) [notation, in UniMath.Foundations.Sets]
_ ≤ _ (poset) [notation, in UniMath.Foundations.Sets]
∑ _ .. _ , _ (prop) [notation, in UniMath.MoreFoundations.Notations]
_ ⁰ (rig_scope) [notation, in UniMath.Algebra.RigsAndRings]
1 (rig_scope) [notation, in UniMath.Algebra.RigsAndRings]
0 (rig_scope) [notation, in UniMath.Algebra.RigsAndRings]
_ * _ (rig_scope) [notation, in UniMath.Algebra.RigsAndRings]
_ + _ (rig_scope) [notation, in UniMath.Algebra.RigsAndRings]
_ # _ (ring_scope) [notation, in UniMath.PAdics.lemmas]
_ ⁰ (ring_scope) [notation, in UniMath.Algebra.RigsAndRings]
- _ (ring_scope) [notation, in UniMath.Algebra.RigsAndRings]
-1 (ring_scope) [notation, in UniMath.Algebra.RigsAndRings]
1 (ring_scope) [notation, in UniMath.Algebra.RigsAndRings]
0 (ring_scope) [notation, in UniMath.Algebra.RigsAndRings]
_ * _ (ring_scope) [notation, in UniMath.Algebra.RigsAndRings]
_ - _ (ring_scope) [notation, in UniMath.Algebra.RigsAndRings]
_ + _ (ring_scope) [notation, in UniMath.Algebra.RigsAndRings]
_ / _ (R_scope) [notation, in UniMath.RealNumbers.Reals]
/ _ (R_scope) [notation, in UniMath.RealNumbers.Reals]
_ * _ (R_scope) [notation, in UniMath.RealNumbers.Reals]
_ - _ (R_scope) [notation, in UniMath.RealNumbers.Reals]
- _ (R_scope) [notation, in UniMath.RealNumbers.Reals]
_ + _ (R_scope) [notation, in UniMath.RealNumbers.Reals]
2 (R_scope) [notation, in UniMath.RealNumbers.Reals]
1 (R_scope) [notation, in UniMath.RealNumbers.Reals]
0 (R_scope) [notation, in UniMath.RealNumbers.Reals]
_ >= _ (R_scope) [notation, in UniMath.RealNumbers.Reals]
_ <= _ (R_scope) [notation, in UniMath.RealNumbers.Reals]
_ > _ (R_scope) [notation, in UniMath.RealNumbers.Reals]
_ < _ (R_scope) [notation, in UniMath.RealNumbers.Reals]
_ ≠ _ (R_scope) [notation, in UniMath.RealNumbers.Reals]
_ × _ (set) [notation, in UniMath.Foundations.Sets]
∏ _ .. _ , _ (set) [notation, in UniMath.Foundations.Sets]
∑ _ .. _ , _ (set) [notation, in UniMath.Foundations.Sets]
_ ⋆⋆ (sorted_scope) [notation, in UniMath.Algebra.Universal.SortedTypes]
_ ⋆ (sorted_scope) [notation, in UniMath.Algebra.Universal.SortedTypes]
_ s∘ _ (sorted_scope) [notation, in UniMath.Algebra.Universal.SortedTypes]
_ ≠ _ (stn) [notation, in UniMath.Combinatorics.StandardFiniteSets]
● _ (stn) [notation, in UniMath.Combinatorics.StandardFiniteSets]
⟦ _ ⟧ (stn) [notation, in UniMath.Combinatorics.StandardFiniteSets]
∑ _ .. _ , _ (subset) [notation, in UniMath.Foundations.Sets]
_ p• _ (subsys) [notation, in UniMath.SubstitutionSystems.Notation]
_ ⊠ _ (subsys) [notation, in UniMath.SubstitutionSystems.Notation]
_ ⊗ _ (subsys) [notation, in UniMath.SubstitutionSystems.Notation]
_ •• _ (subsys) [notation, in UniMath.SubstitutionSystems.Notation]
_ ∘ _ (subsys) [notation, in UniMath.SubstitutionSystems.Notation]
_ ø _ (subsys) [notation, in UniMath.SubstitutionSystems.Notation]
_ ⋆ _ (subsys) [notation, in UniMath.SubstitutionSystems.Notation]
_ • _ (subsys) [notation, in UniMath.SubstitutionSystems.Notation]
U (subsys) [notation, in UniMath.SubstitutionSystems.Notation]
` _ (subsys) [notation, in UniMath.SubstitutionSystems.Notation]
ℓ (subsys) [notation, in UniMath.SubstitutionSystems.Notation]
_ ∪ _ (subtype) [notation, in UniMath.Algebra.FixedPointTheorems]
_ ∩ _ (subtype) [notation, in UniMath.Algebra.FixedPointTheorems]
_ - _ (subtype) [notation, in UniMath.MoreFoundations.Subtypes]
_ ≢ _ (subtype) [notation, in UniMath.MoreFoundations.Subtypes]
_ ≡ _ (subtype) [notation, in UniMath.MoreFoundations.Subtypes]
_ ⊊ _ (subtype) [notation, in UniMath.MoreFoundations.Subtypes]
_ ⊈ _ (subtype) [notation, in UniMath.MoreFoundations.Subtypes]
_ ⊆ _ (subtype) [notation, in UniMath.MoreFoundations.Subtypes]
_ ∉ _ (subtype) [notation, in UniMath.MoreFoundations.Subtypes]
_ ∈ _ (subtype) [notation, in UniMath.MoreFoundations.Subtypes]
⋂ _ (subtype) [notation, in UniMath.MoreFoundations.Subtypes]
⋃ _ (subtype) [notation, in UniMath.MoreFoundations.Subtypes]
_ ≠ _ (tap_scope) [notation, in UniMath.Algebra.Apartness]
_ ≼ _ (tosubset) [notation, in UniMath.Combinatorics.WellOrderedSets]
_ ≤ _ (tosubset) [notation, in UniMath.Combinatorics.WellOrderedSets]
⋃ _ (tosubset) [notation, in UniMath.Combinatorics.WellOrderedSets]
_ #' _ (transport) [notation, in UniMath.Foundations.PartA]
_ # _ (transport) [notation, in UniMath.Foundations.PartA]
_ * _ (twobinops_scope) [notation, in UniMath.Algebra.BinaryOperations]
_ + _ (twobinops_scope) [notation, in UniMath.Algebra.BinaryOperations]
_ ≅ _ (type_scope) [notation, in UniMath.MoreFoundations.Equivalences]
∃ _ .. _ , _ (type_scope) [notation, in UniMath.Foundations.Propositions]
_ ∨ _ (type_scope) [notation, in UniMath.Foundations.Propositions]
_ ∧ _ (type_scope) [notation, in UniMath.Foundations.Propositions]
∥ _ ∥ (type_scope) [notation, in UniMath.Foundations.Propositions]
∀ _ .. _ , _ (type_scope) [notation, in UniMath.Foundations.Propositions]
_ → _ (type_scope) [notation, in UniMath.Foundations.Init]
_ <- _ (type_scope) [notation, in UniMath.Foundations.Init]
_ -> _ (type_scope) [notation, in UniMath.Foundations.Init]
∏ _ .. _ , _ (type_scope) [notation, in UniMath.Foundations.Init]
∑ _ .. _ , _ (type_scope) [notation, in UniMath.Foundations.Preamble]
_ = _ (type_scope) [notation, in UniMath.Foundations.Preamble]
_ ╝ _ (type_scope) [notation, in UniMath.Foundations.PartA]
_ ≃ _ (type_scope) [notation, in UniMath.Foundations.PartA]
∃! _ .. _ , _ (type_scope) [notation, in UniMath.Foundations.PartA]
_ <-> _ (type_scope) [notation, in UniMath.Foundations.PartA]
_ != _ (type_scope) [notation, in UniMath.Foundations.PartA]
_ × _ (type_scope) [notation, in UniMath.Foundations.PartA]
_ s→ _ (type_scope) [notation, in UniMath.Algebra.Universal.SortedTypes]
[( _ ; .. ; _ )] (vec_scope) [notation, in UniMath.Combinatorics.Vectors]
_ ::: _ (vec_scope) [notation, in UniMath.Combinatorics.Vectors]
[()] (vec_scope) [notation, in UniMath.Combinatorics.Vectors]
_ ∘ _ (weq_scope) [notation, in UniMath.Foundations.PartA]
_ < _ (woset) [notation, in UniMath.Combinatorics.WellOrderedSets]
_ ≤ _ (woset) [notation, in UniMath.Combinatorics.WellOrderedSets]
_ ≺ _ (wosubset) [notation, in UniMath.Combinatorics.WellOrderedSets]
_ ≣ _ (wosubset) [notation, in UniMath.Combinatorics.WellOrderedSets]
_ ≼ _ (wosubset) [notation, in UniMath.Combinatorics.WellOrderedSets]
_ < _ (wosubset) [notation, in UniMath.Combinatorics.WellOrderedSets]
_ ≤ _ (wosubset) [notation, in UniMath.Combinatorics.WellOrderedSets]
⋃ _ (wosubset) [notation, in UniMath.Combinatorics.WellOrderedSets]
_ ^op [notation, in UniMath.SubstitutionSystems.GenMendlerIteration]
_ ∙ _ [notation, in UniMath.SubstitutionSystems.GenMendlerIteration]
_ ▻ _ [notation, in UniMath.Bicategories.Transformations.Examples.Whiskering]
_ ◅ _ [notation, in UniMath.Bicategories.Transformations.Examples.Whiskering]
_ ∈ _ [notation, in UniMath.Combinatorics.ZFstructures]
_ ⊏ _ [notation, in UniMath.Combinatorics.ZFstructures]
_ ↑ _ [notation, in UniMath.Combinatorics.ZFstructures]
_ ≅ _ [notation, in UniMath.Combinatorics.ZFstructures]
_ ≤ _ [notation, in UniMath.Combinatorics.ZFstructures]
_ c× _ [notation, in UniMath.Bicategories.BicategoryOfBicat]
_ ⋆ _ [notation, in UniMath.Bicategories.Core.Bicat]
_ ▹ _ [notation, in UniMath.Bicategories.Core.Bicat]
_ ◃ _ [notation, in UniMath.Bicategories.Core.Bicat]
_ • _ [notation, in UniMath.Bicategories.Core.Bicat]
_ <== _ [notation, in UniMath.Bicategories.Core.Bicat]
_ ==> _ [notation, in UniMath.Bicategories.Core.Bicat]
_ @' _ [notation, in UniMath.MoreFoundations.Equivalences]
_ ^-1 [notation, in UniMath.CategoryTheory.Core.Functors]
_ -->[ _ ] _ [notation, in UniMath.CategoryTheory.DisplayedCats.Core]
_ ⇒ _ [notation, in UniMath.Algebra.BinaryOperations]
_ ⇒ _ [notation, in UniMath.Folds.folds_pre_2_cat]
_ ## _ [notation, in UniMath.Folds.folds_pre_2_cat]
_ O _ [notation, in UniMath.CategoryTheory.precomp_fully_faithful]
_ ** _ [notation, in UniMath.Algebra.Matrix]
_ ^ _ [notation, in UniMath.Algebra.Matrix]
_ / _ ⟦ _ , _ ⟧ [notation, in UniMath.SubstitutionSystems.MonadsMultiSorted]
_ / _ [notation, in UniMath.SubstitutionSystems.MonadsMultiSorted]
_ / _ [notation, in UniMath.SubstitutionSystems.MonadsMultiSorted]
_ / _ [notation, in UniMath.SubstitutionSystems.MonadsMultiSorted]
_ [{ _ }] [notation, in UniMath.CategoryTheory.DisplayedCats.Constructions]
_ ⇒ _ [notation, in UniMath.Folds.folds_precat]
_ ⊠ _ [notation, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
_ ;hi; _ [notation, in UniMath.Bicategories.WkCatEnrichment.Notations]
_ ;h; _ [notation, in UniMath.Bicategories.WkCatEnrichment.Notations]
_ ;1; _ [notation, in UniMath.Bicategories.WkCatEnrichment.Notations]
_ ;v; _ [notation, in UniMath.Bicategories.WkCatEnrichment.Notations]
_ -2-> _ [notation, in UniMath.Bicategories.WkCatEnrichment.Notations]
_ -1-> _ [notation, in UniMath.Bicategories.WkCatEnrichment.Notations]
_ ⊠⊠ _ [notation, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
_ ⊠ _ [notation, in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
_ ^^-1 [notation, in UniMath.CategoryTheory.Equivalences.Core]
_ ⊗ _ [notation, in UniMath.CategoryTheory.PrecategoryBinProduct]
_ × _ [notation, in UniMath.CategoryTheory.PrecategoryBinProduct]
_ ⇒ _ [notation, in UniMath.Folds.folds_isomorphism]
_ ++ _ [notation, in UniMath.SubstitutionSystems.MLTT79]
_ :: _ [notation, in UniMath.SubstitutionSystems.MLTT79]
_ :: _ [notation, in UniMath.CategoryTheory.Inductives.Trees]
_ ++ _ [notation, in UniMath.Combinatorics.GraphPaths]
_ :: _ [notation, in UniMath.Combinatorics.GraphPaths]
_ ++ _ [notation, in UniMath.Combinatorics.Lists]
_ :: _ [notation, in UniMath.Combinatorics.Lists]
_ ;hi; _ [notation, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ ;h; _ [notation, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ ;1; _ [notation, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ ;v; _ [notation, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ -2-> _ [notation, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ -1-> _ [notation, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ c× _ [notation, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ • _ [notation, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
_ ⊗ _ [notation, in UniMath.CategoryTheory.Profunctors.Core]
_ □ _ [notation, in UniMath.Combinatorics.FiniteSequences]
_ ;;; _ [notation, in UniMath.CategoryTheory.Monads.LModules]
_ □ _ [notation, in UniMath.Algebra.IteratedBinaryOperations]
_ :: _ [notation, in UniMath.Algebra.IteratedBinaryOperations]
_ ,, _ [notation, in UniMath.Foundations.Preamble]
_ ⨿ _ [notation, in UniMath.Foundations.Preamble]
_ ~ _ [notation, in UniMath.Foundations.PartA]
_ @ _ [notation, in UniMath.Foundations.PartA]
_ :: _ [notation, in UniMath.Algebra.Free_Monoids_and_Groups]
_ / _ ⟦ _ , _ ⟧ [notation, in UniMath.SubstitutionSystems.MultiSorted]
_ / _ [notation, in UniMath.SubstitutionSystems.MultiSorted]
_ / _ [notation, in UniMath.SubstitutionSystems.MultiSorted]
_ / _ [notation, in UniMath.SubstitutionSystems.MultiSorted]
_ ⋆ _ [notation, in UniMath.CategoryTheory.Core.TwoCategories]
_ ▹ _ [notation, in UniMath.CategoryTheory.Core.TwoCategories]
_ ◃ _ [notation, in UniMath.CategoryTheory.Core.TwoCategories]
_ • _ [notation, in UniMath.CategoryTheory.Core.TwoCategories]
_ <== _ [notation, in UniMath.CategoryTheory.Core.TwoCategories]
_ ==> _ [notation, in UniMath.CategoryTheory.Core.TwoCategories]
_ ^^ [notation, in UniMath.Folds.from_precats_to_folds_and_back]
_ ^ [notation, in UniMath.Folds.from_precats_to_folds_and_back]
_ ⇒ _ [notation, in UniMath.Folds.from_precats_to_folds_and_back]
_ O _ [notation, in UniMath.CategoryTheory.precomp_ess_surj]
_ ^-i [notation, in UniMath.CategoryTheory.precomp_ess_surj]
_ ^-1 [notation, in UniMath.CategoryTheory.precomp_ess_surj]
_ #⊗ _ [notation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
_ ⊗ _ [notation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
_ ⊠ _ [notation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
_ ^op [notation, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
_ ∙ _ [notation, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
chain [notation, in UniMath.CategoryTheory.Chains.Chains]
chain [notation, in UniMath.CategoryTheory.Inductives.LambdaCalculus]
chain [notation, in UniMath.SubstitutionSystems.BindingSigToMonad]
chain [notation, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
cochain [notation, in UniMath.CategoryTheory.Chains.Cochains]
ct ( _ , _ , _ , _ ) [notation, in UniMath.Foundations.Sets]
hom _ [notation, in UniMath.CategoryTheory.yoneda]
HSET [notation, in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
HSET2 [notation, in UniMath.SubstitutionSystems.MLTT79]
id _ [notation, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
id _ [notation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
pr11 _ [notation, in UniMath.MoreFoundations.Notations]
pr111 _ [notation, in UniMath.MoreFoundations.Notations]
pr112 _ [notation, in UniMath.MoreFoundations.Notations]
pr12 _ [notation, in UniMath.MoreFoundations.Notations]
pr121 _ [notation, in UniMath.MoreFoundations.Notations]
pr122 _ [notation, in UniMath.MoreFoundations.Notations]
pr21 _ [notation, in UniMath.MoreFoundations.Notations]
pr211 _ [notation, in UniMath.MoreFoundations.Notations]
pr212 _ [notation, in UniMath.MoreFoundations.Notations]
pr22 _ [notation, in UniMath.MoreFoundations.Notations]
pr221 _ [notation, in UniMath.MoreFoundations.Notations]
pr222 _ [notation, in UniMath.MoreFoundations.Notations]
SET [notation, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
stnel ( _ , _ ) [notation, in UniMath.Combinatorics.StandardFiniteSets]
stnpr _ [notation, in UniMath.Combinatorics.StandardFiniteSets]
Yo [notation, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
! _ [notation, in UniMath.Foundations.PartA]
## [notation, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
## [notation, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
## [notation, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
## [notation, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
( _ #, _ ) [notation, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
( _ , _ ) [notation, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
( _ #, _ ) [notation, in UniMath.CategoryTheory.PrecategoryBinProduct]
( _ , _ ) [notation, in UniMath.CategoryTheory.PrecategoryBinProduct]
( _ #, _ ) [notation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
( _ , _ ) [notation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
0 [notation, in UniMath.SyntheticHomotopyTheory.Test]
0 [notation, in UniMath.SyntheticHomotopyTheory.Circle2]
1 [notation, in UniMath.SyntheticHomotopyTheory.Test]
1 [notation, in UniMath.SyntheticHomotopyTheory.Circle2]
[ _ , _ ] [notation, in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
[ _ , _ ] [notation, in UniMath.SubstitutionSystems.BindingSigToMonad]
[ _ , _ ] [notation, in UniMath.SubstitutionSystems.SignatureCategory]
[] [notation, in UniMath.SubstitutionSystems.MLTT79]
[] [notation, in UniMath.Combinatorics.GraphPaths]
[] [notation, in UniMath.Combinatorics.Lists]
[] [notation, in UniMath.Algebra.IteratedBinaryOperations]
[] [notation, in UniMath.Algebra.Free_Monoids_and_Groups]
¬ _ [notation, in UniMath.Foundations.PartA]
¬¬ _ [notation, in UniMath.Foundations.PartA]
λ _ .. _ , _ [notation, in UniMath.Foundations.Init]
↓ _ [notation, in UniMath.SubstitutionSystems.GenMendlerIteration]
↓ _ [notation, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
∁ [notation, in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
∅ [notation, in UniMath.Foundations.Preamble]
⦃ _ ⦄ [notation, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
ΓA:54 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
ΓA:57 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
ΓAπt:63 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
ΓAπt:67 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ':10 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
Γ':16 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
Γ':22 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
Γ1:105 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:131 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:133 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:135 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:138 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:143 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:148 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:151 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:154 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:157 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:161 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:165 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:171 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:7 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:104 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:132 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:134 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:136 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:139 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:144 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:149 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:152 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:155 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:158 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:16 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:162 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:166 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:172 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:22 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:29 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:40 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:8 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:153 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:156 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:159 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:163 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:167 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:173 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:61 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:78 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:90 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:101 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:107 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:11 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:110 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:113 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:116 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:12 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:121 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:126 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:15 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
Γ:177 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:180 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:21 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
Γ:34 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:36 [binder, in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:52 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ:55 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ:61 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ:65 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ:68 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ:78 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ:9 [binder, in UniMath.CategoryTheory.DisplayedCats.Codomain]
Σ [abbreviation, in UniMath.Algebra.Matrix]
Σ [abbreviation, in UniMath.Algebra.Matrix]
Φ:21 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Φ₁:36 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
Φ₂:37 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
Ω [definition, in UniMath.MoreFoundations.PartA]
Ω_PreShv_bounded_lattice [definition, in UniMath.CategoryTheory.Presheaf]
Ω_PreShv_top [definition, in UniMath.CategoryTheory.Presheaf]
Ω_PreShv_bottom [definition, in UniMath.CategoryTheory.Presheaf]
Ω_PreShv_lattice [definition, in UniMath.CategoryTheory.Presheaf]
Ω_PreShv_join [definition, in UniMath.CategoryTheory.Presheaf]
Ω_PreShv_meet [definition, in UniMath.CategoryTheory.Presheaf]
_ ⊗ _ (cat) [notation, in UniMath.CategoryTheory.Presheaf]
Ω_mor [definition, in UniMath.CategoryTheory.Presheaf]
Ω_PreShv [definition, in UniMath.CategoryTheory.Presheaf]
Ω_PreShv_data [definition, in UniMath.CategoryTheory.Presheaf]
Ω_PreShv [section, in UniMath.CategoryTheory.Presheaf]
α [definition, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
α [abbreviation, in UniMath.CategoryTheory.FunctorCoalgebras]
αd:13 [binder, in UniMath.Bicategories.Core.Adjunctions]
αd:14 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:17 [binder, in UniMath.Bicategories.Core.Adjunctions]
αd:21 [binder, in UniMath.Bicategories.Core.Adjunctions]
αd:22 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:28 [binder, in UniMath.Bicategories.Core.Adjunctions]
αd:30 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:355 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:358 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:368 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:372 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:40 [binder, in UniMath.Bicategories.Core.Adjunctions]
αd:44 [binder, in UniMath.Bicategories.Core.Adjunctions]
αd:56 [binder, in UniMath.Bicategories.Core.Adjunctions]
αd:6 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:9 [binder, in UniMath.Bicategories.Core.Adjunctions]
αe:107 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αe:115 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αe:123 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αe:367 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αe:48 [binder, in UniMath.Bicategories.Core.Adjunctions]
αe:52 [binder, in UniMath.Bicategories.Core.Adjunctions]
αe:60 [binder, in UniMath.Bicategories.Core.Adjunctions]
αe:64 [binder, in UniMath.Bicategories.Core.Adjunctions]
αe:68 [binder, in UniMath.Bicategories.Core.Adjunctions]
αe:72 [binder, in UniMath.Bicategories.Core.Adjunctions]
αe:99 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αf:102 [binder, in UniMath.Bicategories.Core.FullyFaithful]
αf:128 [binder, in UniMath.Bicategories.Core.FullyFaithful]
αf:137 [binder, in UniMath.Bicategories.Core.FullyFaithful]
αf:146 [binder, in UniMath.Bicategories.Core.FullyFaithful]
αf:197 [binder, in UniMath.Bicategories.Core.FullyFaithful]
αf:201 [binder, in UniMath.Bicategories.Core.FullyFaithful]
αinv_f_unique [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
αinv_f_commutes [lemma, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
αiso:164 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
αiso:9 [binder, in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
α_r_bind [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
α_pr2:49 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
α_pr1:48 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
α_D [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
α_C [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
α_invertible:122 [binder, in UniMath.Bicategories.Core.Adjunctions]
α_nat:76 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
α_A [definition, in UniMath.CategoryTheory.Monoidal.Actions]
α_A [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
α_functors_pointwise_is_z_iso [lemma, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
α_functors_inv [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
α_functors [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
α' [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
α' [definition, in UniMath.CategoryTheory.Monoidal.Actions]
α' [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α' [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
α' [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
α' [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
α' [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
α':144 [binder, in UniMath.CategoryTheory.Monads.KTriples]
α':164 [binder, in UniMath.CategoryTheory.Monads.KTriples]
α':171 [binder, in UniMath.CategoryTheory.Monads.KTriples]
α':227 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
α':236 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
α':28 [binder, in UniMath.CategoryTheory.PointedFunctors]
α':36 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α':41 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α':42 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':44 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':47 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':50 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':58 [binder, in UniMath.CategoryTheory.Monads.LModules]
α':60 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':64 [binder, in UniMath.CategoryTheory.Monads.LModules]
α':66 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':72 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':73 [binder, in UniMath.CategoryTheory.Monads.Monads]
α':77 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':79 [binder, in UniMath.CategoryTheory.Monads.Monads]
α'α_idFA [lemma, in UniMath.CategoryTheory.FunctorCoalgebras]
α1:39 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
α2:40 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
α:10 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
α:10 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
α:10 [binder, in UniMath.Bicategories.DisplayedBicats.Fibration]
α:10 [binder, in UniMath.Bicategories.Core.Examples.Final]
α:10 [binder, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
α:100 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
α:100 [binder, in UniMath.Bicategories.Core.TransportLaws]
α:101 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
α:101 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:102 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
α:102 [binder, in UniMath.Bicategories.Colimits.Products]
α:102 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
α:1025 [binder, in UniMath.Bicategories.Core.Bicat]
α:1028 [binder, in UniMath.Bicategories.Core.Bicat]
α:103 [binder, in UniMath.Bicategories.Core.FullyFaithful]
α:1048 [binder, in UniMath.Bicategories.Core.Bicat]
α:105 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:1051 [binder, in UniMath.Bicategories.Core.Bicat]
α:107 [binder, in UniMath.Bicategories.Colimits.Products]
α:108 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
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α:83 [binder, in UniMath.CategoryTheory.Monads.Monads]
α:83 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
α:83 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
α:834 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:84 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:841 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:85 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:85 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
α:856 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:86 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:86 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:87 [binder, in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:871 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:882 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:89 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:9 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
α:9 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
α:9 [binder, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
α:9 [binder, in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
α:90 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
α:901 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:91 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
α:91 [binder, in UniMath.Bicategories.Core.TransportLaws]
α:910 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:92 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:92 [binder, in UniMath.Induction.ImpredicativeInductiveSets]
α:92 [binder, in UniMath.Bicategories.Core.Univalence]
α:92 [binder, in UniMath.Bicategories.Colimits.Products]
α:93 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:93 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:93 [binder, in UniMath.Bicategories.Colimits.Final]
α:93 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
α:93 [binder, in UniMath.CategoryTheory.Monics]
α:94 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:940 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:95 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:950 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:955 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:956 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:957 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:96 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
α:96 [binder, in UniMath.CategoryTheory.Epis]
α:963 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:964 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:965 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:969 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:97 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:97 [binder, in UniMath.Bicategories.Colimits.Products]
α:97 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
α:973 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:977 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:981 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:982 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:986 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ααdata:39 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ααd:103 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:111 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:18 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:26 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:34 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:42 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:55 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:64 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:79 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααe:119 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααe:127 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αα'_idA [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
αα'_mor [definition, in UniMath.CategoryTheory.FunctorCoalgebras]
αα:10 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
αα:10 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
αα:107 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
αα:11 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
αα:11 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
αα:12 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
αα:130 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:149 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:1538 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα:1548 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα:155 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:164 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:165 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:184 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:192 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:195 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:202 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
αα:206 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:206 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:216 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
αα:217 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:228 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:228 [binder, in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
αα:245 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
αα:246 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
αα:254 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:27 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
αα:27 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
αα:27 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
αα:278 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:280 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:281 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
αα:29 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:290 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:303 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:316 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:32 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:321 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
αα:331 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
αα:347 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:363 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:384 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:40 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα:410 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:429 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:44 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
αα:444 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
αα:449 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:465 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:48 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
αα:485 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:498 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:50 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
αα:514 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:52 [binder, in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
αα:530 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:58 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
αα:60 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
αα:61 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
αα:64 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
αα:66 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα:73 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
αα:74 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:75 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:76 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:77 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:78 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:82 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα:87 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αα:88 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
αα:919 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα:95 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αα:96 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα₁:12 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα₁:1403 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα₁:21 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα₁:47 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
αα₂:1404 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα₂:28 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα₂:54 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
αβ:59 [binder, in UniMath.CategoryTheory.HorizontalComposition]
α₁ [definition, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
α₁:117 [binder, in UniMath.Bicategories.Core.FullyFaithful]
α₁:171 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α₁:18 [binder, in UniMath.Bicategories.Core.FullyFaithful]
α₁:185 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α₁:349 [binder, in UniMath.Bicategories.Colimits.Products]
α₁:8 [binder, in UniMath.Bicategories.Core.FullyFaithful]
α₁:97 [binder, in UniMath.Bicategories.Core.FullyFaithful]
α₂ [definition, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
α₂:118 [binder, in UniMath.Bicategories.Core.FullyFaithful]
α₂:172 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α₂:186 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α₂:19 [binder, in UniMath.Bicategories.Core.FullyFaithful]
α₂:351 [binder, in UniMath.Bicategories.Colimits.Products]
α₂:9 [binder, in UniMath.Bicategories.Core.FullyFaithful]
α₂:98 [binder, in UniMath.Bicategories.Core.FullyFaithful]
α₃:187 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β':24 [binder, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
β1:41 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
β2:42 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
β:100 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
β:103 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
β:103 [binder, in UniMath.Bicategories.Colimits.Products]
β:108 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
β:108 [binder, in UniMath.Bicategories.Colimits.Products]
β:11 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
β:111 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
β:111 [binder, in UniMath.Bicategories.Core.TransportLaws]
β:112 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
β:114 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
β:117 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
β:12 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:12 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
β:12 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
β:120 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
β:123 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:126 [binder, in UniMath.Bicategories.Colimits.Products]
β:128 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:132 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
β:133 [binder, in UniMath.SyntheticHomotopyTheory.Circle2]
β:136 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:137 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
β:1396 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:142 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
β:142 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:143 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
β:144 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:148 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
β:149 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
β:15 [binder, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
β:15 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:151 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:152 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
β:152 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:153 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
β:1534 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:1544 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:160 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
β:161 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
β:167 [binder, in UniMath.Bicategories.Core.Strictness]
β:169 [binder, in UniMath.Bicategories.Core.Strictness]
β:17 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:17 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
β:174 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
β:18 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
β:18 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
β:18 [binder, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
β:18 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
β:181 [binder, in UniMath.Bicategories.WkCatEnrichment.prebicategory]
β:183 [binder, in UniMath.Bicategories.Core.FullyFaithful]
β:184 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
β:184 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
β:19 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:197 [binder, in UniMath.Bicategories.Colimits.Products]
β:198 [binder, in UniMath.CategoryTheory.Monads.RelativeMonads]
β:20 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
β:20 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
β:20 [binder, in UniMath.SubstitutionSystems.SignatureCategory]
β:20 [binder, in UniMath.Bicategories.Core.Examples.StrictCats]
β:206 [binder, in UniMath.Bicategories.Colimits.Products]
β:217 [binder, in UniMath.Bicategories.Colimits.Products]
β:22 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:226 [binder, in UniMath.Bicategories.Colimits.Products]
β:23 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
β:23 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
β:23 [binder, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
β:235 [binder, in UniMath.Bicategories.Colimits.Products]
β:24 [binder, in UniMath.Bicategories.Colimits.Final]
β:244 [binder, in UniMath.Bicategories.Colimits.Products]
β:25 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:253 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
β:254 [binder, in UniMath.Bicategories.Colimits.Products]
β:264 [binder, in UniMath.Bicategories.Colimits.Products]
β:27 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:274 [binder, in UniMath.Bicategories.Colimits.Products]
β:279 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
β:28 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
β:284 [binder, in UniMath.Bicategories.Colimits.Products]
β:294 [binder, in UniMath.Bicategories.Colimits.Products]
β:297 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:299 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:31 [binder, in UniMath.Bicategories.Colimits.Initial]
β:33 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:34 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:341 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
β:346 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:348 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:370 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:372 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:376 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
β:38 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
β:39 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:41 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
β:41 [binder, in UniMath.Bicategories.Colimits.Products]
β:42 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
β:43 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:437 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
β:45 [binder, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
β:46 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:46 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:468 [binder, in UniMath.CategoryTheory.limits.pullbacks]
β:469 [binder, in UniMath.MoreFoundations.PathsOver]
β:47 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:476 [binder, in UniMath.CategoryTheory.limits.pullbacks]
β:485 [binder, in UniMath.CategoryTheory.limits.pullbacks]
β:49 [binder, in UniMath.Bicategories.Colimits.Products]
β:49 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:490 [binder, in UniMath.CategoryTheory.limits.pullbacks]
β:496 [binder, in UniMath.CategoryTheory.limits.pullbacks]
β:5 [binder, in UniMath.CategoryTheory.Monads.KTriplesEquiv]
β:501 [binder, in UniMath.CategoryTheory.limits.pullbacks]
β:507 [binder, in UniMath.CategoryTheory.limits.pullbacks]
β:512 [binder, in UniMath.CategoryTheory.limits.pullbacks]
β:54 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:55 [binder, in UniMath.Bicategories.Core.FullyFaithful]
β:55 [binder, in UniMath.Bicategories.Colimits.Products]
β:568 [binder, in UniMath.MoreFoundations.PathsOver]
β:58 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
β:588 [binder, in UniMath.MoreFoundations.PathsOver]
β:6 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
β:60 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:61 [binder, in UniMath.Bicategories.Colimits.Products]
β:63 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:66 [binder, in UniMath.Bicategories.Colimits.Products]
β:69 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
β:70 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
β:70 [binder, in UniMath.CategoryTheory.Monads.LModules]
β:71 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:71 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
β:76 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:78 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
β:79 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:8 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
β:81 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:82 [binder, in UniMath.CategoryTheory.Monads.KTriples]
β:84 [binder, in UniMath.CategoryTheory.Monads.Monads]
β:86 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
β:87 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:90 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:911 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:92 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
β:93 [binder, in UniMath.Bicategories.Colimits.Products]
β:94 [binder, in UniMath.Bicategories.Colimits.Final]
β:94 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
β:97 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
β:98 [binder, in UniMath.Bicategories.Colimits.Products]
ββ:12 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
ββ:1405 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:153 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ββ:1539 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:1549 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:255 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ββ:281 [binder, in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ββ:348 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ββ:385 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ββ:445 [binder, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ββ:45 [binder, in UniMath.Bicategories.DisplayedBicats.DispModification]
ββ:53 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:62 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
ββ:67 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:74 [binder, in UniMath.Bicategories.DisplayedBicats.DispBuilders]
ββ:83 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:920 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:97 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
β₁:173 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β₁:350 [binder, in UniMath.Bicategories.Colimits.Products]
β₂:174 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β₂:352 [binder, in UniMath.Bicategories.Colimits.Products]
γ [definition, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
γF:11 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
γG:12 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
γpr1:111 [binder, in UniMath.Bicategories.Colimits.Products]
γpr1:69 [binder, in UniMath.Bicategories.Colimits.Products]
γpr2:112 [binder, in UniMath.Bicategories.Colimits.Products]
γpr2:70 [binder, in UniMath.Bicategories.Colimits.Products]
γ:10 [binder, in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
γ:109 [binder, in UniMath.Bicategories.Colimits.Products]
γ:118 [binder, in UniMath.Bicategories.Colimits.Products]
γ:129 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:13 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
γ:133 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
γ:137 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:138 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
γ:143 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
γ:143 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
γ:145 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:150 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
γ:152 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
γ:152 [binder, in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
γ:153 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:270 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
γ:279 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
γ:287 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
γ:295 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
γ:304 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
γ:314 [binder, in UniMath.CategoryTheory.PrecategoryBinProduct]
γ:42 [binder, in UniMath.Bicategories.Colimits.Products]
γ:42 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
γ:45 [binder, in UniMath.CategoryTheory.whiskering]
γ:47 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:55 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:64 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:67 [binder, in UniMath.Bicategories.Colimits.Products]
γ:7 [binder, in UniMath.CategoryTheory.CATAsInstanceOfBicat]
γ:72 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:80 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:84 [binder, in UniMath.CategoryTheory.whiskering]
γ:88 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
γγ:154 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ [definition, in UniMath.SubstitutionSystems.SignatureExamples]
δpe_eq:105 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
δpr1:113 [binder, in UniMath.Bicategories.Colimits.Products]
δpr1:71 [binder, in UniMath.Bicategories.Colimits.Products]
δpr2:114 [binder, in UniMath.Bicategories.Colimits.Products]
δpr2:72 [binder, in UniMath.Bicategories.Colimits.Products]
δtr_eq:104 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
δtr:117 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
δ_law2_option [definition, in UniMath.SubstitutionSystems.SignatureExamples]
δ_law1_option [definition, in UniMath.SubstitutionSystems.SignatureExamples]
δ_option [definition, in UniMath.SubstitutionSystems.SignatureExamples]
δ_law2_genoption [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
δ_law1_genoption [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
δ_genoption [definition, in UniMath.SubstitutionSystems.SignatureExamples]
δ_genoption_mor [definition, in UniMath.SubstitutionSystems.SignatureExamples]
δ_comp_law2 [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
δ_comp_law1 [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
δ_comp [definition, in UniMath.SubstitutionSystems.SignatureExamples]
δ_comp_mor [definition, in UniMath.SubstitutionSystems.SignatureExamples]
δ_law2_nicer_implies_δ_law2 [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
δ_law2_implies_δ_law2_nicer [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
δ_law2_nicer [definition, in UniMath.SubstitutionSystems.SignatureExamples]
δ_law2 [definition, in UniMath.SubstitutionSystems.SignatureExamples]
δ_law1 [definition, in UniMath.SubstitutionSystems.SignatureExamples]
δ_target [definition, in UniMath.SubstitutionSystems.SignatureExamples]
δ_source [definition, in UniMath.SubstitutionSystems.SignatureExamples]
δ:10 [binder, in UniMath.CategoryTheory.DisplayedCats.Limits]
δ:101 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
δ:108 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:110 [binder, in UniMath.Bicategories.Colimits.Products]
δ:119 [binder, in UniMath.Bicategories.Colimits.Products]
δ:124 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:135 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:14 [binder, in UniMath.SubstitutionSystems.SignatureExamples]
δ:226 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:30 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:42 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
δ:42 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:43 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
δ:52 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:63 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:68 [binder, in UniMath.Bicategories.Colimits.Products]
δ:75 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:75 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
δ:77 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
δ:87 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:98 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
δ:99 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
δδ:34 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δδ₁:92 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δδ₂:93 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ε [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
ε [abbreviation, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
ε [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
εinv:101 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
εinv:112 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
εiso [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
εiso [abbreviation, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
ε_iso:114 [binder, in UniMath.Bicategories.Core.Adjunctions]
ε_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
ε_inv_disc_fib [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ε_disc_fib [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ε_inv [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε_ses_ff [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε_ses_ff_ax [lemma, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε_ses_ff_data [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε' [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
ε'ntiso [definition, in UniMath.CategoryTheory.Equivalences.Core]
ε'' [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
ε1 [definition, in UniMath.SyntheticHomotopyTheory.Circle2]
ε:100 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
ε:105 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
ε:110 [binder, in UniMath.Bicategories.Core.Adjunctions]
ε:115 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
ε:120 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε:125 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
ε:128 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε:129 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε:135 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
ε:138 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε:145 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
ε:158 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
ε:166 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
ε:176 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
ε:182 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
ε:187 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
ε:192 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
ε:193 [binder, in UniMath.Bicategories.Core.FullyFaithful]
ε:195 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε:22 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
ε:24 [binder, in UniMath.Bicategories.Core.Adjunctions]
ε:26 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
ε:27 [binder, in UniMath.CategoryTheory.Equivalences.Core]
ε:29 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
ε:5 [binder, in UniMath.CategoryTheory.Equivalences.Core]
ε:95 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
εε:45 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
εε:57 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
εε:68 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
εε:72 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
εε:83 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ε₁ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
ε₁ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
ε₁_natural [lemma, in UniMath.Bicategories.Core.AdjointUnique]
ε₁:133 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₁:143 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₁:18 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
ε₁:39 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₁:52 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₁:64 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₁:76 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₁:88 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₂ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
ε₂ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
ε₂:19 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
ε₂:44 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₂:57 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₂:69 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₂:81 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₂:93 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ζ [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ζ':17 [binder, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
ζ:16 [binder, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
ζ:68 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
η [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
η [definition, in UniMath.CategoryTheory.Monads.Monads]
η [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
η [abbreviation, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
η [abbreviation, in UniMath.SubstitutionSystems.SubstitutionSystems]
η [abbreviation, in UniMath.SubstitutionSystems.SubstitutionSystems]
η [abbreviation, in UniMath.SubstitutionSystems.SubstitutionSystems]
η [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
η [definition, in UniMath.CategoryTheory.Monads.KTriples]
ηf:122 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
ηf:133 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
ηg:121 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
ηg:132 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
ηinv:99 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
ηiso [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
ηiso [abbreviation, in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
ηmor [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ηobj [definition, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η_whisker_r_hcomp [lemma, in UniMath.Bicategories.Core.EquivToAdjequiv]
η_whisker_l_hcomp [lemma, in UniMath.Bicategories.Core.EquivToAdjequiv]
η_natural_help [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
η_natural [lemma, in UniMath.Bicategories.Core.EquivToAdjequiv]
η_relmonadmor_eq_from_relmonadmor_iso [definition, in UniMath.CategoryTheory.Monads.RelativeMonads]
η_bind [lemma, in UniMath.CategoryTheory.Monads.Monads]
η_iso:113 [binder, in UniMath.Bicategories.Core.Adjunctions]
η_2cell [definition, in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
η_bind_slice [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
η_slice_ok [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted]
η_slice [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted]
η_bind_fun [lemma, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
η_fun [definition, in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
η_disc_fib [definition, in UniMath.CategoryTheory.DisplayedCats.Fibrations]
η_inv [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η_ses_ff [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η_ses_ff_ax [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η_ses_ff_data [definition, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η_bind [definition, in UniMath.CategoryTheory.Monads.KTriples]
η':14 [binder, in UniMath.Bicategories.Core.AdjointUnique]
η':21 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
η':21 [binder, in UniMath.Bicategories.Core.AdjointUnique]
η':87 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:100 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
η:101 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:105 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
η:109 [binder, in UniMath.Bicategories.Core.Adjunctions]
η:11 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η:11 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
η:11 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
η:111 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:111 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
η:119 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
η:119 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η:12 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:127 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η:128 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η:13 [binder, in UniMath.Bicategories.Core.AdjointUnique]
η:13 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η:13 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:13 [binder, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
η:1308 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:1329 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:1350 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:137 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η:137 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
η:138 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
η:1381 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:14 [binder, in UniMath.Bicategories.Core.Examples.Final]
η:14 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:1417 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:145 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
η:145 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
η:148 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
η:15 [binder, in UniMath.Bicategories.Core.Examples.Final]
η:15 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:152 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
η:153 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
η:157 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:16 [binder, in UniMath.Bicategories.Core.Examples.Final]
η:16 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:160 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
η:164 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
η:165 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:167 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
η:17 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
η:17 [binder, in UniMath.Bicategories.Colimits.Pullback]
η:17 [binder, in UniMath.Bicategories.Core.Examples.Final]
η:17 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:17 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
η:17 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
η:170 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:175 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:18 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:181 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:186 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:186 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:19 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
η:19 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
η:190 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
η:191 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:191 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:192 [binder, in UniMath.Bicategories.Core.FullyFaithful]
η:194 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η:197 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:20 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
η:20 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
η:20 [binder, in UniMath.Bicategories.Core.AdjointUnique]
η:20 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
η:205 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
η:205 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:21 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
η:21 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η:21 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
η:213 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:22 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η:22 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
η:222 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
η:224 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η:23 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:23 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
η:23 [binder, in UniMath.Bicategories.Core.Adjunctions]
η:23 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
η:230 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η:24 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
η:25 [binder, in UniMath.Bicategories.PseudoFunctors.Biadjunction]
η:25 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
η:26 [binder, in UniMath.CategoryTheory.Equivalences.Core]
η:27 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
η:28 [binder, in UniMath.CategoryTheory.Adjunctions.Core]
η:29 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
η:29 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
η:29 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:29 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
η:308 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:31 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:319 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:32 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:33 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
η:33 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:332 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:34 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:35 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:36 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
η:36 [binder, in UniMath.Bicategories.Core.YonedaLemma]
η:37 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:374 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:38 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
η:39 [binder, in UniMath.Bicategories.Core.YonedaLemma]
η:393 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:4 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
η:4 [binder, in UniMath.CategoryTheory.Equivalences.Core]
η:40 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
η:409 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:41 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
η:41 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
η:41 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
η:42 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
η:420 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:435 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:44 [binder, in UniMath.Bicategories.Core.YonedaLemma]
η:45 [binder, in UniMath.Bicategories.Core.YonedaLemma]
η:45 [binder, in UniMath.Bicategories.Core.Univalence]
η:454 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:46 [binder, in UniMath.Bicategories.Core.YonedaLemma]
η:473 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:491 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:5 [binder, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
η:50 [binder, in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
η:50 [binder, in UniMath.Bicategories.Core.Examples.BicatOfCats]
η:506 [binder, in UniMath.Bicategories.Core.Bicat]
η:513 [binder, in UniMath.Bicategories.Core.Bicat]
η:52 [binder, in UniMath.Bicategories.Colimits.Pullback]
η:52 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
η:52 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
η:522 [binder, in UniMath.Bicategories.Core.Bicat]
η:528 [binder, in UniMath.Bicategories.Core.Bicat]
η:53 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:53 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
η:535 [binder, in UniMath.Bicategories.Core.Bicat]
η:542 [binder, in UniMath.Bicategories.Core.Bicat]
η:57 [binder, in UniMath.Bicategories.Colimits.Pullback]
η:58 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
η:59 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:59 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
η:598 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:601 [binder, in UniMath.Bicategories.Core.Bicat]
η:607 [binder, in UniMath.Bicategories.Core.Bicat]
η:609 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:61 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
η:61 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
η:614 [binder, in UniMath.Bicategories.Core.Bicat]
η:62 [binder, in UniMath.Bicategories.Colimits.Pullback]
η:620 [binder, in UniMath.Bicategories.Core.Bicat]
η:622 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:641 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:67 [binder, in UniMath.Bicategories.Colimits.Pullback]
η:68 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
η:685 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:69 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:7 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
η:704 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:72 [binder, in UniMath.Bicategories.Colimits.Pullback]
η:72 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
η:720 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:73 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
η:731 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:746 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:765 [binder, in UniMath.Bicategories.Core.Bicat]
η:765 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:784 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:79 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:80 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
η:802 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:82 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
η:85 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:85 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
η:85 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:89 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
η:9 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
η:928 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:93 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
η:95 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η:98 [binder, in UniMath.Bicategories.PseudoFunctors.Biequivalence]
ηη:1317 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:1338 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:1359 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:1386 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:144 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ηη:152 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ηη:174 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ηη:197 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ηη:212 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ηη:229 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ηη:24 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ηη:313 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:324 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:341 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:383 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:402 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:414 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:425 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:44 [binder, in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ηη:444 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:463 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:482 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:500 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:56 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ηη:58 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ηη:603 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:614 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:631 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:650 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:67 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ηη:694 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:71 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ηη:713 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:725 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:736 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:755 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:774 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:793 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:811 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:82 [binder, in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ηη:937 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη₁:101 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ηη₂:102 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ημ:54 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
ημ:87 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
ηφ:515 [binder, in UniMath.Bicategories.Core.Bicat]
η₁ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
η₁ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
η₁:10 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η₁:103 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₁:113 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₁:123 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₁:132 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:133 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₁:142 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:143 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₁:152 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₁:153 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η₁:16 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
η₁:25 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
η₁:27 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η₁:33 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
η₁:38 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:39 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η₁:45 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η₁:47 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₁:5 [binder, in UniMath.Bicategories.Core.YonedaLemma]
η₁:51 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:63 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:75 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:87 [binder, in UniMath.Bicategories.Colimits.Pullback]
η₁:87 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:93 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₁:94 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
η₁:97 [binder, in UniMath.Bicategories.Colimits.Pullback]
η₂ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
η₂ [abbreviation, in UniMath.Bicategories.Core.AdjointUnique]
η₂:104 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₂:114 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₂:124 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₂:134 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₂:14 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η₂:144 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₂:153 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₂:157 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
η₂:17 [binder, in UniMath.Bicategories.Core.BicategoryLaws]
η₂:26 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
η₂:28 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η₂:34 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
η₂:40 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η₂:43 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₂:46 [binder, in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η₂:48 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₂:56 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₂:6 [binder, in UniMath.Bicategories.Core.YonedaLemma]
η₂:68 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₂:80 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₂:88 [binder, in UniMath.Bicategories.Colimits.Pullback]
η₂:92 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₂:94 [binder, in UniMath.Bicategories.Core.Invertible_2cells]
η₂:95 [binder, in UniMath.Bicategories.DisplayedBicats.DispTransformation]
η₂:98 [binder, in UniMath.Bicategories.Colimits.Pullback]
θ [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
θ [definition, in UniMath.SubstitutionSystems.Signatures]
θ [definition, in UniMath.SubstitutionSystems.BinSumOfSignatures]
θ [definition, in UniMath.SubstitutionSystems.BinProductOfSignatures]
θ [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ [definition, in UniMath.SubstitutionSystems.SumOfSignatures]
θforTerms [definition, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
θiso [definition, in UniMath.Bicategories.Core.EquivToAdjequiv]
θwithlaws:54 [binder, in UniMath.SubstitutionSystems.Signatures]
θ_nat_2_pointwise [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_nat_2 [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_nat_1_pointwise [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_nat_1 [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_nat_1_pointfree [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int_nicer_implies_θ_Strength2_int_nicest [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int_nicest_implies_θ_Strength2_int_nicer [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int_nicest [definition, in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int_nicer_implies_θ_Strength2_int [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int_implies_θ_Strength2_int_nicer [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int_nicer [definition, in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_implies_θ_Strength2_int [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int_implies_θ_Strength2 [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int [definition, in UniMath.SubstitutionSystems.Signatures]
θ_Strength2 [definition, in UniMath.SubstitutionSystems.Signatures]
θ_Strength1_implies_θ_Strength1_int [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_Strength1_int_implies_θ_Strength1 [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_Strength1_int_implies_θ_Strength1_int_nicer [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_Strength1_int_nicer_implies_θ_Strength1_int [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_Strength1_int_nicer [definition, in UniMath.SubstitutionSystems.Signatures]
θ_Strength1_int [definition, in UniMath.SubstitutionSystems.Signatures]
θ_Strength1 [definition, in UniMath.SubstitutionSystems.Signatures]
θ_target_ok [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_target [definition, in UniMath.SubstitutionSystems.Signatures]
θ_source_ok [lemma, in UniMath.SubstitutionSystems.Signatures]
θ_source [definition, in UniMath.SubstitutionSystems.Signatures]
θ_ob [definition, in UniMath.SubstitutionSystems.BinSumOfSignatures]
θ_ob_fun [definition, in UniMath.SubstitutionSystems.BinSumOfSignatures]
θ_ob [definition, in UniMath.SubstitutionSystems.BinProductOfSignatures]
θ_ob_fun [definition, in UniMath.SubstitutionSystems.BinProductOfSignatures]
θ_nat_1_pw [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
θ_nat_2_pw [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
θ_nat_1_pw [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
θ_nat_2_pw [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
θ_map [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ_map_2 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ_map_1 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ_subset [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ_2 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ_1 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ_from_hetsubst [definition, in UniMath.SubstitutionSystems.SubstitutionSystems]
θ_ob [definition, in UniMath.SubstitutionSystems.SumOfSignatures]
θ_ob_fun [definition, in UniMath.SubstitutionSystems.SumOfSignatures]
θ_for_ab_strength_law2 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_ab_strength_law1 [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_ab_strength [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_ab_strength_ax [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_ab_strength_data [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_signature [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_signature_is_nat_trans [lemma, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_signature_nat_trans_data [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_postcomposition.GH [variable, in UniMath.SubstitutionSystems.SignatureExamples]
θ_for_postcomposition.G [variable, in UniMath.SubstitutionSystems.SignatureExamples]
θ_for_postcomposition.θ_strength2 [variable, in UniMath.SubstitutionSystems.SignatureExamples]
θ_for_postcomposition.θ_strength1 [variable, in UniMath.SubstitutionSystems.SignatureExamples]
θ_for_postcomposition.θ [variable, in UniMath.SubstitutionSystems.SignatureExamples]
θ_for_postcomposition.H [variable, in UniMath.SubstitutionSystems.SignatureExamples]
θ_for_postcomposition.S [variable, in UniMath.SubstitutionSystems.SignatureExamples]
EndC [notation, in UniMath.SubstitutionSystems.SignatureExamples]
Ptd [notation, in UniMath.SubstitutionSystems.SignatureExamples]
θ_for_postcomposition [section, in UniMath.SubstitutionSystems.SignatureExamples]
θ_const_const [definition, in UniMath.SubstitutionSystems.SignatureExamples]
θ_functor_identity [definition, in UniMath.SubstitutionSystems.SignatureExamples]
θ_from_δ_Signature [definition, in UniMath.SubstitutionSystems.SignatureExamples]
θ_precompG [definition, in UniMath.SubstitutionSystems.SignatureExamples]
θ_Strength2_int_from_δ [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
θ_Strength1_int_from_δ [lemma, in UniMath.SubstitutionSystems.SignatureExamples]
θ_from_δ [definition, in UniMath.SubstitutionSystems.SignatureExamples]
θ_from_δ_mor [definition, in UniMath.SubstitutionSystems.SignatureExamples]
θ_in_first_arg [definition, in UniMath.SubstitutionSystems.LiftingInitial]
θ' [definition, in UniMath.SubstitutionSystems.Signatures]
θ' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
θ'_strength_law2 [definition, in UniMath.SubstitutionSystems.Signatures]
θ'_strength_law1 [definition, in UniMath.SubstitutionSystems.Signatures]
θ'_Thm15 [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
θ'_Thm15 [definition, in UniMath.SubstitutionSystems.LiftingInitial]
θ:11 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
θ:12 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
θ:12 [binder, in UniMath.SubstitutionSystems.LiftingInitial]
θ:16 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
θ:22 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
θ:22 [binder, in UniMath.Bicategories.Colimits.Pullback]
θ:27 [binder, in UniMath.Bicategories.Colimits.Products]
θ:32 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
θ:34 [binder, in UniMath.Bicategories.Core.EquivToAdjequiv]
θ:37 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
θ:39 [binder, in UniMath.Bicategories.Colimits.Pullback]
θ:43 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
θ:48 [binder, in UniMath.SubstitutionSystems.Signatures]
θ:51 [binder, in UniMath.SubstitutionSystems.Signatures]
θ:53 [binder, in UniMath.SubstitutionSystems.Signatures]
θ:6 [binder, in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
θ:8 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems]
θ₁:40 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
θ₂:41 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
λ_D [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
λ_C [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
λ_A [definition, in UniMath.CategoryTheory.Monoidal.Actions]
λ_A [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
λ_functors_inv [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
λ_functors [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
λ' [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
λ' [definition, in UniMath.CategoryTheory.Monoidal.Actions]
λ' [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
λ' [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
λ' [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
λ' [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
λ':33 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
λ':35 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
λ':45 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
λ':56 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
λ':64 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
λ':70 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
μ [definition, in UniMath.CategoryTheory.Monads.Monads]
μ [definition, in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
μ [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
μ [definition, in UniMath.CategoryTheory.Monads.KTriples]
μDD_Initial:340 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
μF_Initial:11 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
μF_Initial:3 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
μL_A [definition, in UniMath.CategoryTheory.Inductives.Lists]
μ_UZ'Zinv [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
μ_3_μ_2_T_μ_2 [lemma, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_3_T_μ_2_μ_2 [lemma, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_3 [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_2_ptd [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_2_is_ptd_mor [lemma, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_2 [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_1_identity' [lemma, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_1_identity [lemma, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_1 [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_0_ptd [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_0 [definition, in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ:106 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
μ:13 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
μ:13 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
μ:15 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
μ:155 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:165 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:17 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
μ:171 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:176 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:182 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:20 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
μ:200 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:238 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:249 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:254 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:260 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:265 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:271 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:278 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:284 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:293 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:4 [binder, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
μ:53 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
μ:6 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
μ:8 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
μ:86 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
μη:55 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
μη:88 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
μμ:56 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
μμ:89 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
ν:211 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
ν:216 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
ν:229 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
ν:285 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
ν:294 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
ν:300 [binder, in UniMath.CategoryTheory.Core.NaturalTransformations]
π [definition, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
π [abbreviation, in UniMath.CategoryTheory.DisplayedCats.Limits]
π [definition, in UniMath.Algebra.GroupAction]
π':88 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
π:20 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
π:58 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
π:62 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
π:86 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
π₀ [definition, in UniMath.MoreFoundations.Sets]
π₀_universal_map_uniq [lemma, in UniMath.MoreFoundations.Sets]
π₀_universal_map_eqn [lemma, in UniMath.MoreFoundations.Sets]
π₀_universal_map [definition, in UniMath.MoreFoundations.Sets]
π₀_universal_property [definition, in UniMath.MoreFoundations.Sets]
π₀_map [definition, in UniMath.MoreFoundations.Sets]
π₁:115 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₁:120 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₁:125 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₁:130 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₁:135 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₁:149 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₁:15 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₁:163 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₁:8 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₁:9 [binder, in UniMath.Bicategories.Colimits.Products]
π₂:10 [binder, in UniMath.Bicategories.Colimits.Products]
π₂:116 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₂:121 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₂:126 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₂:131 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₂:136 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₂:150 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₂:16 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₂:164 [binder, in UniMath.Bicategories.Colimits.Pullback]
π₂:9 [binder, in UniMath.Bicategories.Colimits.Pullback]
ρ_D [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
ρ_C [definition, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
ρ_Thm15 [definition, in UniMath.SubstitutionSystems.LiftingInitial_alt]
ρ_A [definition, in UniMath.CategoryTheory.Monoidal.Actions]
ρ_A [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
ρ_functors_inv [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
ρ_functors [definition, in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
ρ_Thm15 [definition, in UniMath.SubstitutionSystems.LiftingInitial]
ρ' [definition, in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
ρ' [definition, in UniMath.CategoryTheory.Monoidal.Actions]
ρ' [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
ρ' [definition, in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
ρ' [definition, in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
ρ' [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
ρ':37 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
ρ':39 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
ρ':46 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
ρ':58 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
ρ':65 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
ρ':71 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
ρ:11 [binder, in UniMath.SubstitutionSystems.LiftingInitial_alt]
ρ:11 [binder, in UniMath.SubstitutionSystems.LiftingInitial]
ρ:35 [binder, in UniMath.CategoryTheory.ElementsOp]
ρ:57 [binder, in UniMath.CategoryTheory.ElementsOp]
ρ:59 [binder, in UniMath.CategoryTheory.ElementsOp]
ρ:65 [binder, in UniMath.Induction.W.Naturals]
ρ:66 [binder, in UniMath.CategoryTheory.ElementsOp]
ρ:72 [binder, in UniMath.CategoryTheory.ElementsOp]
σ [abbreviation, in UniMath.SubstitutionSystems.ModulesFromSignatures]
σ [abbreviation, in UniMath.CategoryTheory.Monads.LModules]
σ [abbreviation, in UniMath.CategoryTheory.Monads.LModules]
σ [abbreviation, in UniMath.CategoryTheory.Monads.LModules]
σ_from_τ_is_conjugate [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ_from_τ [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ_data_from_τ [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:1 [binder, in UniMath.Algebra.Universal.Equations]
σ:1 [binder, in UniMath.Algebra.Universal.VTerms]
σ:1 [binder, in UniMath.Algebra.Universal.Terms]
σ:1 [binder, in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
σ:1 [binder, in UniMath.Algebra.Universal.TermAlgebras]
σ:1 [binder, in UniMath.Algebra.Universal.EqAlgebras]
σ:1 [binder, in UniMath.CategoryTheory.categories.Universal_Algebra.EqAlgebras]
σ:1 [binder, in UniMath.Algebra.Universal.Algebras]
σ:1 [binder, in UniMath.Algebra.Universal.FreeAlgebras]
σ:10 [binder, in UniMath.Algebra.Universal.Equations]
σ:10 [binder, in UniMath.Algebra.Universal.Algebras]
σ:100 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:107 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:11 [binder, in UniMath.Algebra.Universal.EqAlgebras]
σ:11 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:113 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:114 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:12 [binder, in UniMath.Algebra.Universal.VTerms]
σ:12 [binder, in UniMath.Algebra.Universal.EqAlgebras]
σ:123 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:13 [binder, in UniMath.Algebra.Universal.Equations]
σ:130 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:131 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
σ:134 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:14 [binder, in UniMath.Algebra.Universal.EqAlgebras]
σ:14 [binder, in UniMath.Algebra.Universal.Algebras]
σ:142 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:144 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:150 [binder, in UniMath.Algebra.Universal.Terms]
σ:150 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:157 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:158 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:16 [binder, in UniMath.Algebra.Universal.Equations]
σ:167 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:17 [binder, in UniMath.Algebra.Universal.VTerms]
σ:17 [binder, in UniMath.Algebra.Universal.Algebras]
σ:17 [binder, in UniMath.Algebra.Universal.SortedTypes]
σ:170 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:174 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:18 [binder, in UniMath.Algebra.Universal.Equations]
σ:18 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:180 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:19 [binder, in UniMath.Algebra.Universal.VTerms]
σ:19 [binder, in UniMath.Algebra.Universal.Signatures]
σ:191 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:2 [binder, in UniMath.Algebra.Universal.Terms]
σ:2 [binder, in UniMath.Algebra.Universal.TermAlgebras]
σ:20 [binder, in UniMath.Algebra.Universal.Algebras]
σ:20 [binder, in UniMath.Algebra.Universal.SortedTypes]
σ:200 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:21 [binder, in UniMath.Algebra.Universal.Equations]
σ:21 [binder, in UniMath.Algebra.Universal.Signatures]
σ:212 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:223 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:226 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:23 [binder, in UniMath.Algebra.Universal.Equations]
σ:231 [binder, in UniMath.Algebra.Universal.Terms]
σ:232 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:24 [binder, in UniMath.Algebra.Universal.Equations]
σ:24 [binder, in UniMath.Algebra.Universal.Algebras]
σ:240 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:241 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:253 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:26 [binder, in UniMath.Algebra.Universal.VTerms]
σ:267 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:28 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:28 [binder, in UniMath.Algebra.Universal.Algebras]
σ:3 [binder, in UniMath.Algebra.Universal.VTerms]
σ:3 [binder, in UniMath.Algebra.Universal.Terms]
σ:3 [binder, in UniMath.Algebra.Universal.Signatures]
σ:3 [binder, in UniMath.Algebra.Universal.FreeAlgebras]
σ:34 [binder, in UniMath.Algebra.Universal.Algebras]
σ:341 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:36 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:38 [binder, in UniMath.Algebra.Universal.Algebras]
σ:4 [binder, in UniMath.Algebra.Universal.Equations]
σ:4 [binder, in UniMath.Algebra.Universal.Terms]
σ:4 [binder, in UniMath.Algebra.Universal.Signatures]
σ:4 [binder, in UniMath.Algebra.Universal.Algebras]
σ:43 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:43 [binder, in UniMath.Algebra.Universal.Algebras]
σ:47 [binder, in UniMath.Algebra.Universal.Algebras]
σ:5 [binder, in UniMath.Algebra.Universal.Terms]
σ:5 [binder, in UniMath.Algebra.Universal.Signatures]
σ:5 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:52 [binder, in UniMath.Algebra.Universal.Algebras]
σ:53 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:56 [binder, in UniMath.Algebra.Universal.Algebras]
σ:59 [binder, in UniMath.Algebra.Universal.Algebras]
σ:6 [binder, in UniMath.Algebra.Universal.VTerms]
σ:6 [binder, in UniMath.Algebra.Universal.Signatures]
σ:6 [binder, in UniMath.Algebra.Universal.EqAlgebras]
σ:6 [binder, in UniMath.Algebra.Universal.Algebras]
σ:61 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:61 [binder, in UniMath.Algebra.Universal.Algebras]
σ:63 [binder, in UniMath.Algebra.Universal.Algebras]
σ:66 [binder, in UniMath.Algebra.Universal.Terms]
σ:67 [binder, in UniMath.Combinatorics.ZFstructures]
σ:69 [binder, in UniMath.Algebra.Universal.Terms]
σ:69 [binder, in UniMath.Algebra.Universal.Algebras]
σ:7 [binder, in UniMath.Algebra.Universal.Equations]
σ:7 [binder, in UniMath.Algebra.Universal.VTerms]
σ:71 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:73 [binder, in UniMath.Algebra.Universal.Terms]
σ:75 [binder, in UniMath.Algebra.Universal.Terms]
σ:75 [binder, in UniMath.Algebra.Universal.Algebras]
σ:76 [binder, in UniMath.Algebra.Universal.Algebras]
σ:77 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:78 [binder, in UniMath.Algebra.Universal.Terms]
σ:78 [binder, in UniMath.Algebra.Universal.Algebras]
σ:8 [binder, in UniMath.Algebra.Universal.Signatures]
σ:8 [binder, in UniMath.Algebra.Universal.Algebras]
σ:80 [binder, in UniMath.Algebra.Universal.Terms]
σ:80 [binder, in UniMath.Algebra.Universal.Algebras]
σ:82 [binder, in UniMath.Algebra.Universal.Terms]
σ:84 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:9 [binder, in UniMath.Algebra.Universal.VTerms]
σ:9 [binder, in UniMath.Algebra.Universal.EqAlgebras]
σ:90 [binder, in UniMath.Bicategories.Modifications.Modification]
σ:96 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σσ:109 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:125 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:136 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:228 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:31 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:43 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
σσ:43 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:53 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:64 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:76 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:88 [binder, in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σ₁:125 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
σ₂:126 [binder, in UniMath.Bicategories.Transformations.PseudoTransformation]
τ [abbreviation, in UniMath.SubstitutionSystems.SubstitutionSystems]
τ [abbreviation, in UniMath.SubstitutionSystems.SubstitutionSystems]
τ [abbreviation, in UniMath.SubstitutionSystems.SubstitutionSystems]
τ_lmodule_mor [definition, in UniMath.SubstitutionSystems.ModulesFromSignatures]
τ_lmodule_laws [lemma, in UniMath.SubstitutionSystems.ModulesFromSignatures]
τ_LamE_algebra_on_Lam [lemma, in UniMath.SubstitutionSystems.Lam]
τ_part_of_alg_mor [lemma, in UniMath.SubstitutionSystems.SubstitutionSystems]
τ_from_σ_is_conjugate [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ_from_σ [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ_data_from_σ [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:101 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:108 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:114 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:115 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:12 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
τ:12 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:124 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:131 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:135 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:143 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:145 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:151 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:158 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:159 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:168 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:17 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
τ:171 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:172 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:175 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:181 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:186 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:19 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:192 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:199 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:201 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:21 [binder, in UniMath.Bicategories.Colimits.Pullback]
τ:213 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:213 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:224 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:233 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:242 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:26 [binder, in UniMath.Bicategories.Colimits.Products]
τ:29 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:342 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:35 [binder, in UniMath.CategoryTheory.GrothendieckTopos]
τ:37 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:38 [binder, in UniMath.Bicategories.Colimits.Pullback]
τ:44 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:54 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:6 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:62 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:72 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:78 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:85 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:91 [binder, in UniMath.Bicategories.Modifications.Modification]
τ:97 [binder, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ₁:38 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
τ₂:39 [binder, in UniMath.CategoryTheory.IsoCommaCategory]
υ:50 [binder, in UniMath.Bicategories.Colimits.Products]
υ:56 [binder, in UniMath.Bicategories.Colimits.Products]
υ₁:73 [binder, in UniMath.Bicategories.Colimits.Products]
υ₂pr1:75 [binder, in UniMath.Bicategories.Colimits.Products]
υ₂pr2:76 [binder, in UniMath.Bicategories.Colimits.Products]
υ₂:74 [binder, in UniMath.Bicategories.Colimits.Products]
υ₃:77 [binder, in UniMath.Bicategories.Colimits.Products]
φ_ψ_μF_eq [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration]
φ_mor:163 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
φ_map [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
φ_map_2 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
φ_map_1 [definition, in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
φ_adj_inv_natural_prepostcomp [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_inv_natural_postcomp [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_inv_natural_precomp [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_natural_prepostcomp [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_natural_postcomp [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_natural_precomp [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_inv_unit [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_identity [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_inv_after_φ_adj [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_after_φ_adj_inv [lemma, in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_inv [definition, in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj [definition, in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_h_x_equals_initial_arrow [lemma, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
φ_adj_h_x [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
φ_adj_traho_of_Hinze_Wu [definition, in UniMath.CategoryTheory.CategoricalRecursionSchemes]
φ':122 [binder, in UniMath.CategoryTheory.limits.kernels]
φ':123 [binder, in UniMath.CategoryTheory.limits.kernels]
φ':136 [binder, in UniMath.CategoryTheory.limits.cokernels]
φ':137 [binder, in UniMath.CategoryTheory.limits.cokernels]
φ':160 [binder, in UniMath.CategoryTheory.limits.equalizers]
φ':160 [binder, in UniMath.CategoryTheory.limits.coequalizers]
φ':161 [binder, in UniMath.CategoryTheory.limits.equalizers]
φ':161 [binder, in UniMath.CategoryTheory.limits.coequalizers]
φ1:103 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:108 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:112 [binder, in UniMath.CategoryTheory.limits.cokernels]
φ1:116 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:121 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:124 [binder, in UniMath.CategoryTheory.limits.equalizers]
φ1:124 [binder, in UniMath.CategoryTheory.limits.coequalizers]
φ1:133 [binder, in UniMath.CategoryTheory.limits.equalizers]
φ1:133 [binder, in UniMath.CategoryTheory.limits.coequalizers]
φ1:146 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:149 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:157 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:160 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:358 [binder, in UniMath.HomologicalAlgebra.Triangulated]
φ1:98 [binder, in UniMath.CategoryTheory.limits.kernels]
φ2:104 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:109 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:113 [binder, in UniMath.CategoryTheory.limits.cokernels]
φ2:117 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:122 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:125 [binder, in UniMath.CategoryTheory.limits.equalizers]
φ2:125 [binder, in UniMath.CategoryTheory.limits.coequalizers]
φ2:134 [binder, in UniMath.CategoryTheory.limits.equalizers]
φ2:134 [binder, in UniMath.CategoryTheory.limits.coequalizers]
φ2:147 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:150 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:158 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:161 [binder, in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:359 [binder, in UniMath.HomologicalAlgebra.Triangulated]
φ2:99 [binder, in UniMath.CategoryTheory.limits.kernels]
φ:100 [binder, in UniMath.Bicategories.Colimits.Products]
φ:105 [binder, in UniMath.CategoryTheory.limits.cokernels]
φ:105 [binder, in UniMath.Bicategories.Colimits.Products]
φ:107 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:110 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:115 [binder, in UniMath.CategoryTheory.limits.kernels]
φ:116 [binder, in UniMath.Bicategories.Colimits.Products]
φ:118 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
φ:12 [binder, in UniMath.CategoryTheory.limits.kernels]
φ:12 [binder, in UniMath.CategoryTheory.limits.cokernels]
φ:12 [binder, in UniMath.CategoryTheory.limits.equalizers]
φ:12 [binder, in UniMath.CategoryTheory.limits.coequalizers]
φ:120 [binder, in UniMath.CategoryTheory.limits.kernels]
φ:123 [binder, in UniMath.Bicategories.Colimits.Products]
φ:126 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
φ:129 [binder, in UniMath.CategoryTheory.limits.cokernels]
φ:13 [binder, in UniMath.Bicategories.Colimits.Products]
φ:130 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
φ:1309 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:133 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
φ:1330 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:134 [binder, in UniMath.CategoryTheory.limits.cokernels]
φ:1351 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:137 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
φ:14 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
φ:145 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
φ:146 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
φ:150 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
φ:152 [binder, in UniMath.CategoryTheory.limits.equalizers]
φ:152 [binder, in UniMath.CategoryTheory.limits.coequalizers]
φ:154 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
φ:158 [binder, in UniMath.CategoryTheory.limits.equalizers]
φ:158 [binder, in UniMath.CategoryTheory.limits.coequalizers]
φ:16 [binder, in UniMath.Bicategories.Colimits.Products]
φ:162 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
φ:169 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:170 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
φ:170 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:171 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:172 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:180 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
φ:19 [binder, in UniMath.Bicategories.Colimits.Products]
φ:196 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
φ:20 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:20 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
φ:207 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:208 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:209 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:210 [binder, in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:22 [binder, in UniMath.Bicategories.Colimits.Products]
φ:223 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
φ:226 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
φ:25 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:25 [binder, in UniMath.Bicategories.Colimits.Products]
φ:256 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
φ:28 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:296 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
φ:30 [binder, in UniMath.Bicategories.Colimits.Products]
φ:305 [binder, in UniMath.CategoryTheory.ExactCategories.ExactCategories]
φ:31 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:333 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:34 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:37 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:375 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:38 [binder, in UniMath.Bicategories.Colimits.Products]
φ:394 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:41 [binder, in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
φ:43 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:46 [binder, in UniMath.Bicategories.Colimits.Products]
φ:492 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:50 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:507 [binder, in UniMath.Bicategories.Core.Bicat]
φ:514 [binder, in UniMath.Bicategories.Core.Bicat]
φ:52 [binder, in UniMath.CategoryTheory.limits.equalizers]
φ:52 [binder, in UniMath.Bicategories.Colimits.Products]
φ:52 [binder, in UniMath.CategoryTheory.limits.coequalizers]
φ:53 [binder, in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
φ:540 [binder, in UniMath.CategoryTheory.RepresentableFunctors.Representation]
φ:55 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:58 [binder, in UniMath.Bicategories.Colimits.Products]
φ:60 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:62 [binder, in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
φ:623 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:63 [binder, in UniMath.Bicategories.Colimits.Products]
φ:64 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
φ:642 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:65 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:66 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
φ:686 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:70 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:705 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:73 [binder, in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
φ:73 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
φ:766 [binder, in UniMath.Bicategories.Core.Bicat]
φ:77 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:803 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:81 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:82 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
φ:84 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:90 [binder, in UniMath.Bicategories.Colimits.Products]
φ:91 [binder, in UniMath.CategoryTheory.limits.kernels]
φ:91 [binder, in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
φ:92 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:929 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:95 [binder, in UniMath.Bicategories.Colimits.Pullback]
φ:95 [binder, in UniMath.Bicategories.Colimits.Products]
φη:516 [binder, in UniMath.Bicategories.Core.Bicat]
φφ:1318 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:1339 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:1360 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:153 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
φφ:230 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
φφ:342 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:384 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:403 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:501 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:632 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:651 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:695 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:714 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:812 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:938 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ₁ [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
φ₁:132 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₁:141 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₁:149 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₁:157 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₁:165 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₁:63 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
φ₂ [abbreviation, in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
φ₂:133 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₂:142 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₂:150 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₂:158 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₂:166 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₂:64 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
χ [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
χ [definition, in UniMath.CategoryTheory.Monoidal.Actions]
χ' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
χ:18 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
χ:20 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
χ:22 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
χ:26 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
χ:29 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
χ:36 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
χ:86 [binder, in UniMath.Bicategories.Colimits.Pullback]
ψ [definition, in UniMath.SubstitutionSystems.ModulesFromSignatures]
ψ_from_comps [definition, in UniMath.SubstitutionSystems.GenMendlerIteration]
ψ_naturality [lemma, in UniMath.SubstitutionSystems.GenMendlerIteration]
ψ_target [definition, in UniMath.SubstitutionSystems.GenMendlerIteration]
ψ_source [definition, in UniMath.SubstitutionSystems.GenMendlerIteration]
ψ_mor:165 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
ψ_nt [lemma, in UniMath.SubstitutionSystems.ModulesFromSignatures]
ψ_pw [definition, in UniMath.SubstitutionSystems.ModulesFromSignatures]
ψ_from_comps [definition, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
ψ_target [definition, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
ψ_source [definition, in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
ψ':20 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
ψ:101 [binder, in UniMath.Bicategories.Colimits.Products]
ψ:106 [binder, in UniMath.Bicategories.Colimits.Products]
ψ:108 [binder, in UniMath.Bicategories.Colimits.Pullback]
ψ:111 [binder, in UniMath.Bicategories.Colimits.Pullback]
ψ:112 [binder, in UniMath.CategoryTheory.categories.abgrs]
ψ:117 [binder, in UniMath.Bicategories.Colimits.Products]
ψ:124 [binder, in UniMath.Bicategories.Colimits.Products]
ψ:151 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
ψ:164 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
ψ:17 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
ψ:171 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
ψ:181 [binder, in UniMath.CategoryTheory.Monads.RelativeModules]
ψ:216 [binder, in UniMath.CategoryTheory.categories.abgrs]
ψ:223 [binder, in UniMath.CategoryTheory.categories.abgrs]
ψ:23 [binder, in UniMath.CategoryTheory.limits.equalizers]
ψ:23 [binder, in UniMath.CategoryTheory.limits.coequalizers]
ψ:257 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ψ:29 [binder, in UniMath.CategoryTheory.limits.cokernels]
ψ:30 [binder, in UniMath.CategoryTheory.limits.kernels]
ψ:31 [binder, in UniMath.Bicategories.Colimits.Products]
ψ:334 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψ:354 [binder, in UniMath.CategoryTheory.categories.abgrs]
ψ:362 [binder, in UniMath.CategoryTheory.categories.abgrs]
ψ:39 [binder, in UniMath.Bicategories.Colimits.Products]
ψ:44 [binder, in UniMath.Bicategories.Colimits.Pullback]
ψ:44 [binder, in UniMath.CategoryTheory.limits.cokernels]
ψ:47 [binder, in UniMath.Bicategories.Colimits.Products]
ψ:498 [binder, in UniMath.CategoryTheory.categories.abgrs]
ψ:506 [binder, in UniMath.CategoryTheory.categories.abgrs]
ψ:51 [binder, in UniMath.Bicategories.Colimits.Pullback]
ψ:53 [binder, in UniMath.Bicategories.Colimits.Products]
ψ:54 [binder, in UniMath.CategoryTheory.limits.equalizers]
ψ:54 [binder, in UniMath.CategoryTheory.limits.coequalizers]
ψ:55 [binder, in UniMath.CategoryTheory.limits.equalizers]
ψ:55 [binder, in UniMath.CategoryTheory.limits.coequalizers]
ψ:56 [binder, in UniMath.Bicategories.Colimits.Pullback]
ψ:59 [binder, in UniMath.Bicategories.Colimits.Products]
ψ:61 [binder, in UniMath.Bicategories.Colimits.Pullback]
ψ:623 [binder, in UniMath.CategoryTheory.categories.abgrs]
ψ:624 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψ:638 [binder, in UniMath.CategoryTheory.categories.abgrs]
ψ:64 [binder, in UniMath.Bicategories.Colimits.Products]
ψ:643 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψ:66 [binder, in UniMath.Bicategories.Colimits.Pullback]
ψ:67 [binder, in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
ψ:7 [binder, in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
ψ:71 [binder, in UniMath.Bicategories.Colimits.Pullback]
ψ:78 [binder, in UniMath.Bicategories.Colimits.Pullback]
ψ:85 [binder, in UniMath.Bicategories.Colimits.Pullback]
ψ:91 [binder, in UniMath.Bicategories.Colimits.Products]
ψ:93 [binder, in UniMath.Bicategories.Colimits.Pullback]
ψ:930 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψ:96 [binder, in UniMath.Bicategories.Colimits.Pullback]
ψ:96 [binder, in UniMath.Bicategories.Colimits.Products]
ψψ:262 [binder, in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ψψ:343 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψψ:633 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψψ:652 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψψ:939 [binder, in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψ₁:134 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₁:143 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₁:151 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₁:159 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₁:167 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₂:135 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₂:144 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₂:152 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₂:160 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₂:168 [binder, in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ϕo [definition, in UniMath.Folds.folds_isomorphism]
ϕo_determined [lemma, in UniMath.Folds.folds_isomorphism]
ϕo_ϕ₁_ϕ₂ [lemma, in UniMath.Folds.folds_isomorphism]
ϕo_id [lemma, in UniMath.Folds.folds_isomorphism]
ϕ:47 [binder, in UniMath.CategoryTheory.categories.StandardCategories]
ϕ₁ [definition, in UniMath.Folds.folds_isomorphism]
ϕ₁_ϕ₂_are_inverse [lemma, in UniMath.Folds.folds_isomorphism]
ϕ₁_ϕ₂_id [lemma, in UniMath.Folds.folds_isomorphism]
ϕ₁_is_comp [lemma, in UniMath.Folds.folds_isomorphism]
ϕ₂ [definition, in UniMath.Folds.folds_isomorphism]
ϕ₂_determined [lemma, in UniMath.Folds.folds_isomorphism]
ϕ₂_ϕ₁_id [lemma, in UniMath.Folds.folds_isomorphism]
ϕ₂_is_comp [lemma, in UniMath.Folds.folds_isomorphism]
ϛ [definition, in UniMath.SubstitutionSystems.Signatures]
ϛ_rectangle_eq [definition, in UniMath.SubstitutionSystems.Signatures]
ϛ_pentagon_eq [definition, in UniMath.SubstitutionSystems.Signatures]
ϛ' [definition, in UniMath.SubstitutionSystems.Signatures]
ϛ' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:109 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:11 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:111 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:113 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:118 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:13 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:17 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:21 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:25 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:26 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:27 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:28 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:29 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:30 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:32 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:9 [binder, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϱ [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϱ [definition, in UniMath.CategoryTheory.Monoidal.Actions]
ϱ' [definition, in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϱ:21 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
ϱ:25 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
ϱ:35 [binder, in UniMath.CategoryTheory.Monoidal.Actions]
ϵ:12 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
ϵ:16 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
ϵ:19 [binder, in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
ℕ [abbreviation, in UniMath.SyntheticHomotopyTheory.Halfline]
ℕ [definition, in UniMath.MoreFoundations.Nat]
ℕ [abbreviation, in UniMath.Induction.W.Naturals]
ℤ [definition, in UniMath.NumberSystems.Integers]
ℤBiRecursionData [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤBiRecursion_transition_inv_reversed [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤBiRecursion_transition_inv [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤBiRecursion_inv_compute [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤBiRecursion_compute [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤBiRecursion_weq [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤRecursionData [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤRecursionData0 [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤRecursionUniq [lemma, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤRecursion_weq_compute [lemma, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤRecursion_weq [lemma, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤTorsorRecursion [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤTorsorRecursion_transition_inv [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤTorsorRecursion_transition [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤTorsorRecursion_inv_compute [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤTorsorRecursion_compute [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤTorsorRecursion_weq [definition, in UniMath.SyntheticHomotopyTheory.AffineLine]

---

Notation Index

A

0 (addmonoid_scope) [in UniMath.Algebra.Monoids]
_ + _ (addmonoid_scope) [in UniMath.Algebra.Monoids]
↓ _ [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
[] [in UniMath.CategoryTheory.Inductives.Lists]
_ :: _ [in UniMath.CategoryTheory.Inductives.Lists]
EndC [in UniMath.SubstitutionSystems.SignatureExamples]
Ptd [in UniMath.SubstitutionSystems.SignatureExamples]
_ ≤ _ [in UniMath.Combinatorics.WellFoundedRelations]
_ < _ [in UniMath.Combinatorics.WellFoundedRelations]
_ ∩ _ (subtype) [in UniMath.Algebra.FixedPointTheorems]
_ ∪ _ (subtype) [in UniMath.Algebra.FixedPointTheorems]
_ #⊙' _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ ⊙' _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ #⊙ _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ ⊙ _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ #⊙ _ [in UniMath.CategoryTheory.Monoidal.Actions]
_ ⊙ _ [in UniMath.CategoryTheory.Monoidal.Actions]
_ #⊗_A _ [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
_ ⊗_A _ [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
# _ (enriched) [in UniMath.CategoryTheory.Enriched.Enriched]
_ #⊗_A _ [in UniMath.CategoryTheory.Monoidal.Actions]
_ ⊗_A _ [in UniMath.CategoryTheory.Monoidal.Actions]
_ #⊗ _ (enriched) [in UniMath.CategoryTheory.Enriched.Enriched]
_ ⊗ _ (enriched) [in UniMath.CategoryTheory.Enriched.Enriched]
# _ (enriched) [in UniMath.CategoryTheory.Enriched.Enriched]
_ ⊗ _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ #⊗ _ [in UniMath.CategoryTheory.Monoidal.Actions]
_ ⊗ _ [in UniMath.CategoryTheory.Monoidal.Actions]
_ #⊗ _ [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
_ ⊗ _ [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]

B

_ / _ [in UniMath.CategoryTheory.slicecat]
ε [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
η [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
ε [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
η [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
_ <== _ [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
_ ==> _ [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
_ #⊗ _ [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
_ ⊗ _ [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
[C,C] [in UniMath.SubstitutionSystems.BindingSigToMonad]
PCD [in UniMath.SubstitutionSystems.BinProductOfSignatures]
CCD [in UniMath.SubstitutionSystems.BinSumOfSignatures]
_ #⊗ _ [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
_ ⊗ _ [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
ε [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
ηinv [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
_ #•W _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ #⊗V _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ •W _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
_ ⊗V _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]

C

_ × _ (cat) [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
_ #⊗ _ [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
_ ⊗ _ [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
_ ^op [in UniMath.SubstitutionSystems.LiftingInitial_alt]
⦃ _ ⦄ [in UniMath.SubstitutionSystems.LiftingInitial_alt]
Ptd [in UniMath.SubstitutionSystems.LiftingInitial_alt]
EndC [in UniMath.SubstitutionSystems.LiftingInitial_alt]
_ ^op [in UniMath.SubstitutionSystems.LiftingInitial]
⦃ _ ⦄ [in UniMath.SubstitutionSystems.LiftingInitial]
Ptd [in UniMath.SubstitutionSystems.LiftingInitial]
EndC [in UniMath.SubstitutionSystems.LiftingInitial]
_ + _ (set) [in UniMath.SubstitutionSystems.CCS_alt]
_ + _ (set) [in UniMath.SubstitutionSystems.CCS]
_ ⊗ _ [in UniMath.SubstitutionSystems.CCS_alt]
_ ⊕ _ [in UniMath.SubstitutionSystems.CCS_alt]
_ :: _ [in UniMath.SubstitutionSystems.CCS_alt]
_ ⊗ _ [in UniMath.SubstitutionSystems.CCS]
_ / _ [in UniMath.SubstitutionSystems.CCS]
_ :: _ [in UniMath.SubstitutionSystems.CCS]
Id [in UniMath.SubstitutionSystems.CCS_alt]
Id [in UniMath.SubstitutionSystems.CCS]
1 [in UniMath.SubstitutionSystems.CCS_alt]
[] [in UniMath.SubstitutionSystems.CCS_alt]
[] [in UniMath.SubstitutionSystems.CCS]
_ ==>[ _ ] _ [in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ / _ [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]

D

_ ⊗ _ [in UniMath.CategoryTheory.limits.bincoproducts]
_ ⊗ _ [in UniMath.CategoryTheory.limits.binproducts]
_ ⇏ _ (cat) [in UniMath.CategoryTheory.Profunctors.Core]
_ •• _ [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
_ ▹▹ _ [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
_ ◃◃ _ [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
_ •• _ [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
# _ (mor_disp_scope) [in UniMath.CategoryTheory.DisplayedCats.Core]
_ ;; _ (mor_disp_scope) [in UniMath.CategoryTheory.DisplayedCats.Core]
_ -->[ _ ] _ [in UniMath.CategoryTheory.DisplayedCats.Core]
_ ▹▹ _ [in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ◃◃ _ [in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ •• _ [in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ <==[ _ ] _ [in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ==>[ _ ] _ [in UniMath.Bicategories.DisplayedBicats.DispBicat]
( _ #, _ ) [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]

E

## [in UniMath.CategoryTheory.elems_slice_equiv]
_ / _ [in UniMath.CategoryTheory.elems_slice_equiv]

F

_ ⇒ _ [in UniMath.Induction.W.Fibered]
FF [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
GG [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
_ #⊗ _ [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
_ ⊗ _ [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
∁ [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
EndC [in UniMath.SubstitutionSystems.Signatures]
Ptd [in UniMath.SubstitutionSystems.Signatures]
⦃ _ ⦄ [in UniMath.SubstitutionSystems.SubstitutionSystems]
_ ⊕ _ [in UniMath.SubstitutionSystems.SubstitutionSystems]
EndC [in UniMath.SubstitutionSystems.SubstitutionSystems]
Ptd [in UniMath.SubstitutionSystems.SubstitutionSystems]
EndC [in UniMath.SubstitutionSystems.SubstitutionSystems]
ϕ∙ [in UniMath.Folds.folds_isomorphism]
id _ [in UniMath.Folds.folds_isomorphism]
_ □ _ [in UniMath.Folds.folds_isomorphism]
R-mod( _ , _ ) (module_scope) [in UniMath.Algebra.Modules.Quotient]
_ ⟶ _ (cat) [in UniMath.CategoryTheory.Core.Functors]
# _ (cat) [in UniMath.CategoryTheory.Core.Functors]
# _ (cat) [in UniMath.CategoryTheory.Core.Functors]
# _ (mor_disp_scope) [in UniMath.CategoryTheory.DisplayedCats.Core]
π [in UniMath.CategoryTheory.DisplayedCats.Examples]
[ _ , _ ] [in UniMath.CategoryTheory.Adjunctions.Examples]

G

L0 [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
0 [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
⟨ _ , _ ⟩ [in UniMath.SubstitutionSystems.GenMendlerIteration]
_ >= _ [in UniMath.RealNumbers.Sets]

H

_ •• _ [in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ==>[ _ ] _ [in UniMath.Bicategories.DisplayedBicats.DispBicat]
HSET (cat) [in UniMath.CategoryTheory.categories.HSET.Core]

I

EndC [in UniMath.SubstitutionSystems.ModulesFromSignatures]
EndC [in UniMath.SubstitutionSystems.ModulesFromSignatures]
p _ [in UniMath.SubstitutionSystems.ModulesFromSignatures]

L

_ + _ [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
_ * _ [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
HSET2 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
Id [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
'_' o option [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
' _ [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
EndC [in UniMath.SubstitutionSystems.Lam]
EndC [in UniMath.SubstitutionSystems.LamSignature]
Ptd [in UniMath.SubstitutionSystems.Lam]
⦃ _ ⦄ [in UniMath.SubstitutionSystems.Lam]
⦃ _ ⦄ [in UniMath.SubstitutionSystems.Lam]
EndHSET [in UniMath.SubstitutionSystems.LamHSET]
_ + _ (set) [in UniMath.SubstitutionSystems.STLC]
_ + _ (set) [in UniMath.SubstitutionSystems.STLC_alt]
_ ⊗ _ [in UniMath.SubstitutionSystems.STLC]
_ / _ [in UniMath.SubstitutionSystems.STLC]
_ :: _ [in UniMath.SubstitutionSystems.STLC]
_ ⊗ _ [in UniMath.SubstitutionSystems.STLC_alt]
_ ⊕ _ [in UniMath.SubstitutionSystems.STLC_alt]
_ ⇒ _ [in UniMath.SubstitutionSystems.STLC_alt]
_ :: _ [in UniMath.SubstitutionSystems.STLC_alt]
_ ⊛ _ [in UniMath.SubstitutionSystems.LamFromBindingSig]
_ ⊕ _ [in UniMath.SubstitutionSystems.LamFromBindingSig]
_ + 1 [in UniMath.SubstitutionSystems.LamFromBindingSig]
_ ⊗ _ [in UniMath.SubstitutionSystems.LamFromBindingSig]
_ + _ [in UniMath.SubstitutionSystems.LamFromBindingSig]
_ * _ [in UniMath.SubstitutionSystems.LamFromBindingSig]
_ :: _ [in UniMath.SubstitutionSystems.LamFromBindingSig]
HSET2 [in UniMath.SubstitutionSystems.LamFromBindingSig]
Id [in UniMath.SubstitutionSystems.STLC_alt]
Id [in UniMath.SubstitutionSystems.LamFromBindingSig]
'_' o option [in UniMath.SubstitutionSystems.LamFromBindingSig]
1 [in UniMath.SubstitutionSystems.STLC]
1 [in UniMath.SubstitutionSystems.STLC_alt]
1 [in UniMath.SubstitutionSystems.LamFromBindingSig]
1 [in UniMath.SubstitutionSystems.LamFromBindingSig]
[] [in UniMath.SubstitutionSystems.STLC]
[] [in UniMath.SubstitutionSystems.STLC_alt]
[] [in UniMath.SubstitutionSystems.LamFromBindingSig]
1 (cat) [in UniMath.CategoryTheory.LatticeObject]
_ ×× _ (cat) [in UniMath.CategoryTheory.LatticeObject]
_ ⊗ _ (cat) [in UniMath.CategoryTheory.LatticeObject]
μ (DCPO) [in UniMath.Algebra.Dcpo]
_ <= _ [in UniMath.RealNumbers.Sets]
_ ↓ _ [in UniMath.CategoryTheory.CommaCategories]
_ :: _ [in UniMath.Combinatorics.Lists]
A [in UniMath.CategoryTheory.Inductives.Lists]
[] [in UniMath.Combinatorics.Lists]
_ ^-1 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
ℓ1 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
ℓ2 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
## [in UniMath.Bicategories.Transformations.PseudoTransformation]

M

EndC [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Ptd [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
_ ⊗ _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
_ ** _ [in UniMath.Algebra.Matrix]
_ ^ _ [in UniMath.Algebra.Matrix]
_ ⊕ _ [in UniMath.SubstitutionSystems.MultiSorted_alt]
1 [in UniMath.SubstitutionSystems.MultiSorted_alt]
[0,0,0] [in UniMath.SubstitutionSystems.MLTT79]
[0,0,2] [in UniMath.SubstitutionSystems.MLTT79]
[0,0] [in UniMath.SubstitutionSystems.MLTT79]
[0,1,1] [in UniMath.SubstitutionSystems.MLTT79]
[0,1] [in UniMath.SubstitutionSystems.MLTT79]
[0,2] [in UniMath.SubstitutionSystems.MLTT79]
[0,3] [in UniMath.SubstitutionSystems.MLTT79]
[0] [in UniMath.SubstitutionSystems.MLTT79]
[1] [in UniMath.SubstitutionSystems.MLTT79]
_ ⊕ _ [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
1 [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
_ ⊕ _ [in UniMath.SubstitutionSystems.MonadsMultiSorted]
1 [in UniMath.CategoryTheory.Monads.Monads]
_ ⊕ _ [in UniMath.CategoryTheory.Monads.Monads]
T²∙T [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
T•T² [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
_ ⊕ _ [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
p _ [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
EndC [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Ptd [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
EndC [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
_ #⊗_D _ [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
_ ⊗_D _ [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
_ #⊗_C _ [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
_ ⊗_C _ [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
_ #⊗ _ [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
_ ⊗ _ [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]

N

_ + _ [in UniMath.CategoryTheory.FunctorAlgebras]
0 [in UniMath.CategoryTheory.FunctorAlgebras]
1 [in UniMath.CategoryTheory.FunctorAlgebras]
[ _ , _ ] [in UniMath.CategoryTheory.FunctorAlgebras]
[] [in UniMath.CategoryTheory.Inductives.Lists]
_ :: _ [in UniMath.CategoryTheory.Inductives.Lists]
_ ⟹ _ (cat) [in UniMath.CategoryTheory.Core.NaturalTransformations]
1 [in UniMath.CategoryTheory.NNO]
_ ⋆⋆ _ [in UniMath.Bicategories.Core.Bicat]
_ o _ [in UniMath.Bicategories.Core.Bicat]
_ ⋆ _ [in UniMath.Bicategories.Core.Bicat]
_ ▻ _ [in UniMath.Bicategories.Core.Bicat]
_ ◅ _ [in UniMath.Bicategories.Core.Bicat]
_ ▹ _ [in UniMath.Bicategories.Core.Bicat]
_ ◃ _ [in UniMath.Bicategories.Core.Bicat]
_ • _ [in UniMath.Bicategories.Core.Bicat]
_ <== _ [in UniMath.Bicategories.Core.Bicat]
_ ==> _ [in UniMath.Bicategories.Core.Bicat]
_ ▹▹ _ [in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ◃◃ _ [in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ •• _ [in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ <==[ _ ] _ [in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ==>[ _ ] _ [in UniMath.Bicategories.DisplayedBicats.DispBicat]
_ ⊗₂ _ [in UniMath.Bicategories.Colimits.Products]
_ ⊗₁ _ [in UniMath.Bicategories.Colimits.Products]
_ ⊗ _ [in UniMath.Bicategories.Colimits.Products]
id₁ [in UniMath.Bicategories.Core.Bicat]
id₂ [in UniMath.Bicategories.Core.Bicat]
## [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
## [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
π₁ [in UniMath.Bicategories.Colimits.Products]
π₂ [in UniMath.Bicategories.Colimits.Products]
⟨ _ , _ ⟩ [in UniMath.Bicategories.Colimits.Products]
⟪ _ , _ ⟫ [in UniMath.Bicategories.Colimits.Products]
_ # _ (transport) [in UniMath.Tactics.Utilities]
_ ** _ (type_scope) [in UniMath.Tactics.Utilities]
{ _ : _ & _ } (type_scope) [in UniMath.Tactics.Utilities]

O

_ < _ [in UniMath.Combinatorics.WellFoundedRelations]

P

_ ^-1 (pathsover) [in UniMath.MoreFoundations.PathsOver]
_ ⟤ _ (pathsover) [in UniMath.MoreFoundations.PathsOver]
_ ⟥ _ (pathsover) [in UniMath.MoreFoundations.PathsOver]
_ * _ (pathsover) [in UniMath.MoreFoundations.PathsOver]
Δ _ (pathsover) [in UniMath.MoreFoundations.PathsOver]
∇ _ (pathsover) [in UniMath.MoreFoundations.PathsOver]
_ + _ (set) [in UniMath.SubstitutionSystems.PCF_alt]
_ ++ _ [in UniMath.SubstitutionSystems.PCF_alt]
_ ⊗ _ [in UniMath.SubstitutionSystems.PCF_alt]
_ ⊕ _ [in UniMath.SubstitutionSystems.PCF_alt]
_ :: _ [in UniMath.SubstitutionSystems.PCF_alt]
Id [in UniMath.SubstitutionSystems.PCF_alt]
1 [in UniMath.SubstitutionSystems.PCF_alt]
[] [in UniMath.SubstitutionSystems.PCF_alt]
_ ⇔ _ (PL) [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
_ ⇒ _ (PL) [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
_ ∨ _ (PL) [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
_ ∧ _ (PL) [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
¬ (PL) [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
_ ⊗ _ [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
Ptd [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
# _ (abgrcat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ #⊗ _ [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
_ ⊗ _ [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
( _ #, _ ) [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
( _ , _ ) [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
_ ⊠ _ [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
G _ [in UniMath.CategoryTheory.precomp_ess_surj]
_ / _ [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
_ / _ [in UniMath.CategoryTheory.slicecat]
$$ _ [in UniMath.CategoryTheory.slicecat]
$ _ [in UniMath.CategoryTheory.slicecat]
% _ [in UniMath.CategoryTheory.slicecat]
_ ' [in UniMath.CategoryTheory.Monads.Derivative]
_ ∘ _ [in UniMath.CategoryTheory.Monads.LModules]

Q

R-mod( _ , _ ) (module_scope) [in UniMath.Algebra.Modules.Quotient]
_ / _ (module_scope) [in UniMath.Algebra.Modules.Quotient]
_ - _ [in UniMath.Algebra.Modules.Quotient]
_ + _ [in UniMath.Algebra.Modules.Quotient]
0 [in UniMath.Algebra.Modules.Quotient]
- _ [in UniMath.Algebra.Modules.Quotient]
_ - _ [in UniMath.Algebra.Modules.Quotient]
_ + _ [in UniMath.Algebra.Modules.Quotient]

R

_ ↓ _ [in UniMath.CategoryTheory.RightKanExtension]
φ-1 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
v [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
σ [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ-1 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
v [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
σ [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ-1 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
v [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
σ [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ-1 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
φ [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
v [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
σ [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]

S

# _ (mor_disp_scope) [in UniMath.CategoryTheory.DisplayedCats.Core]
_ ⊠⊠' _ [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
_ ⊠' _ [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
_ / _ [in UniMath.CategoryTheory.categories.HSET.Slice]
Ptd [in UniMath.SubstitutionSystems.SignatureCategory]
U [in UniMath.SubstitutionSystems.SignatureCategory]
EndC [in UniMath.SubstitutionSystems.ModulesFromSignatures]
Ptd [in UniMath.SubstitutionSystems.ModulesFromSignatures]
p _ [in UniMath.SubstitutionSystems.ModulesFromSignatures]
U [in UniMath.SubstitutionSystems.ModulesFromSignatures]
_ / _ [in UniMath.CategoryTheory.slicecat]
_ / _ [in UniMath.CategoryTheory.slicecat]
_ / _ [in UniMath.CategoryTheory.slicecat]
_ / _ [in UniMath.CategoryTheory.slicecat]
_ / _ [in UniMath.CategoryTheory.slicecat]
_ / _ [in UniMath.CategoryTheory.slicecat]
_ / _ [in UniMath.CategoryTheory.slicecat]
_ / _ [in UniMath.CategoryTheory.slicecat]
_ / _ [in UniMath.CategoryTheory.slicecat]
_ / _ [in UniMath.CategoryTheory.slicecat]
_ ∘ _ [in UniMath.Folds.folds_precat]
_ ⊗₂ _ [in UniMath.Bicategories.Colimits.Products]
_ ⊗₁ _ [in UniMath.Bicategories.Colimits.Products]
_ ⊗ _ [in UniMath.Bicategories.Colimits.Products]
π₁ [in UniMath.Bicategories.Colimits.Products]
π₂ [in UniMath.Bicategories.Colimits.Products]
⟨ _ , _ ⟩ [in UniMath.Bicategories.Colimits.Products]
⟪ _ , _ ⟫ [in UniMath.Bicategories.Colimits.Products]
_ #⊙' _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
_ ⊙' _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
_ #⊙ _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
_ ⊙ _ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
_ ≅ _ [in UniMath.MoreFoundations.StructureIdentity]
_ ×× _ (cat) [in UniMath.CategoryTheory.LatticeObject]
_ ⊗ _ (cat) [in UniMath.CategoryTheory.LatticeObject]
_ ×× _ (cat) [in UniMath.CategoryTheory.LatticeObject]
_ ⊗ _ (cat) [in UniMath.CategoryTheory.LatticeObject]
_ - _ [in UniMath.Algebra.Modules.Submodule]
_ + _ [in UniMath.Algebra.Modules.Submodule]
CCD [in UniMath.SubstitutionSystems.SumOfSignatures]

T

_ :: _ [in UniMath.Combinatorics.Tests]
[] [in UniMath.Combinatorics.Tests]
_ :: _ [in UniMath.Algebra.Tests]
[] [in UniMath.Algebra.Tests]
_ □ _ [in UniMath.NumberSystems.Tests]
_ x _ [in UniMath.CategoryTheory.limits.binproducts]

U

_ / _ [in UniMath.CategoryTheory.UnderCategories]
_ ⇒ _ [in UniMath.Induction.W.Uniqueness]
_ ⇒ _ [in UniMath.Induction.M.Uniqueness]
F* [in UniMath.Induction.W.Uniqueness]
F* [in UniMath.Induction.M.Uniqueness]

other

0 (abelian_precat) [in UniMath.CategoryTheory.Abelian]
_ - _ (abgrcat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ - _ (abgrcat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ + _ (abgrcat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ + _ (abgrcat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ = _ (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ · _ (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ ∘ _ (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ - _ (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ - _ (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ + _ (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ + _ (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ --> _ (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
_ <-- _ (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
- _ (abgrcat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
- _ (abgrcat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
- _ (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
- _ (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
0 (abgrcat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
0 (abgrcat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
0 (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
0 (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
1 (abgrcat) [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
ι₁ (abgrcat) [in UniMath.CategoryTheory.limits.BinDirectSums]
ι₂ (abgrcat) [in UniMath.CategoryTheory.limits.BinDirectSums]
π₁ (abgrcat) [in UniMath.CategoryTheory.limits.BinDirectSums]
π₂ (abgrcat) [in UniMath.CategoryTheory.limits.BinDirectSums]
_ + _ (abgr_scope) [in UniMath.Algebra.Modules.Core]
_ - _ (abgr) [in UniMath.Algebra.Groups]
- _ (abgr) [in UniMath.Algebra.Groups]
_ + _ (action_scope) [in UniMath.SyntheticHomotopyTheory.Circle]
_ / _ (action_scope) [in UniMath.Algebra.GroupAction]
_ * _ (action_scope) [in UniMath.Algebra.GroupAction]
_ - _ (action_scope) [in UniMath.SyntheticHomotopyTheory.AffineLine]
_ + _ (action_scope) [in UniMath.SyntheticHomotopyTheory.AffineLine]
_ * _ (action_scope) [in UniMath.SyntheticHomotopyTheory.AffineLine]
_ + _ (addoperation_scope) [in UniMath.Algebra.BinaryOperations]
_ # _ (ap_scope) [in UniMath.Algebra.Apartness]
_ ^-1 (bicategory_scope) [in UniMath.Bicategories.Core.Bicat]
_ ;; _ (cat_deprecated) [in UniMath.CategoryTheory.Core.Categories]
_ // _ (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
_ \\ _ (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
_ × _ (cat) [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
_ □ _ (cat) [in UniMath.CategoryTheory.Core.Functors]
_ ∙ _ (cat) [in UniMath.CategoryTheory.Core.Functors]
_ ⟶ _ (cat) [in UniMath.CategoryTheory.Core.Functors]
_ ⟲⟲ _ (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
_ ⟹ _ (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
_ ⟹ _ (cat) [in UniMath.CategoryTheory.Core.NaturalTransformations]
_ □ _ (Cat) [in UniMath.CategoryTheory.FunctorCategory]
_ ^op (cat) [in UniMath.CategoryTheory.opp_precat]
_ ^op (cat) [in UniMath.CategoryTheory.opp_precat]
_ ^op (cat) [in UniMath.CategoryTheory.opp_precat]
_ ◽ _ (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ⟳ _ (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ⟲ _ (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ⇐ _ (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ⇒ _ (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ▭ _ (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ◾ _ (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ^op (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ <-- _ (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
_ ^op (cat) [in UniMath.CategoryTheory.limits.Opp]
_ ⇏ _ (cat) [in UniMath.CategoryTheory.Profunctors.Core]
_ ↛ _ (cat) [in UniMath.CategoryTheory.Profunctors.Core]
_ ∘ _ (cat) [in UniMath.CategoryTheory.Core.Categories]
_ · _ (cat) [in UniMath.CategoryTheory.Core.Categories]
_ ⟦ _ , _ ⟧ (cat) [in UniMath.CategoryTheory.Core.Categories]
_ <-- _ (cat) [in UniMath.CategoryTheory.Core.Categories]
_ --> _ (cat) [in UniMath.CategoryTheory.Core.Categories]
HSET (cat) [in UniMath.CategoryTheory.categories.HSET.Core]
PreShv _ (cat) [in UniMath.CategoryTheory.Presheaf]
PreShv _ (cat) [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
SET (cat) [in UniMath.CategoryTheory.categories.HSET.Core]
# _ (cat) [in UniMath.CategoryTheory.Core.Functors]
1 (cat) [in UniMath.CategoryTheory.Core.Categories]
[ _ , _ ] (cat) [in UniMath.CategoryTheory.FunctorCategory]
[ _ , _ , _ ] (cat) [in UniMath.CategoryTheory.FunctorCategory]
[ _ , _ , _ ] (cat) [in UniMath.CategoryTheory.FunctorCategory]
[ _ , _ ] (cat) [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
∫ _ (cat) [in UniMath.CategoryTheory.Elements]
∫ _ (cat) [in UniMath.CategoryTheory.ElementsOp]
∫↓ _ (cat) [in UniMath.CategoryTheory.Profunctors.Core]
_ * _ (CCDR_scope) [in UniMath.Algebra.ConstructiveStructures]
_ + _ (CCDR_scope) [in UniMath.Algebra.ConstructiveStructures]
1 (CCDR_scope) [in UniMath.Algebra.ConstructiveStructures]
0 (CCDR_scope) [in UniMath.Algebra.ConstructiveStructures]
_ ≠ _ (CCDR_scope) [in UniMath.Algebra.ConstructiveStructures]
_ * _ (CDR_scope) [in UniMath.Algebra.ConstructiveStructures]
_ + _ (CDR_scope) [in UniMath.Algebra.ConstructiveStructures]
1 (CDR_scope) [in UniMath.Algebra.ConstructiveStructures]
0 (CDR_scope) [in UniMath.Algebra.ConstructiveStructures]
_ ≠ _ (CDR_scope) [in UniMath.Algebra.ConstructiveStructures]
_ * _ (CF_scope) [in UniMath.Algebra.ConstructiveStructures]
_ - _ (CF_scope) [in UniMath.Algebra.ConstructiveStructures]
- _ (CF_scope) [in UniMath.Algebra.ConstructiveStructures]
_ + _ (CF_scope) [in UniMath.Algebra.ConstructiveStructures]
1 (CF_scope) [in UniMath.Algebra.ConstructiveStructures]
0 (CF_scope) [in UniMath.Algebra.ConstructiveStructures]
_ ≠ _ (CF_scope) [in UniMath.Algebra.ConstructiveStructures]
ℤ¹ (circle) [in UniMath.SyntheticHomotopyTheory.Circle2]
0 (cocont_functor_hset_scope) [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
1 (cocont_functor_hset_scope) [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
_ + _ (cocont_functor_hset_scope) [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
_ * _ (cocont_functor_hset_scope) [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Id (cocont_functor_hset_scope) [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
' _ (cocont_functor_hset_scope) [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
_ --> _ (DCPO) [in UniMath.Algebra.Dcpo]
2 (Dcuts_scope) [in UniMath.RealNumbers.NonnegativeReals]
1 (Dcuts_scope) [in UniMath.RealNumbers.NonnegativeReals]
0 (Dcuts_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ > _ (Dcuts_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ < _ (Dcuts_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ >= _ (Dcuts_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ <= _ (Dcuts_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ ∈ _ (DC_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ ≠ _ (decidable_nat) [in UniMath.MoreFoundations.DecidablePropositions]
_ =? _ (decidable_nat) [in UniMath.MoreFoundations.DecidablePropositions]
_ > _ (decidable_nat) [in UniMath.MoreFoundations.DecidablePropositions]
_ ≥ _ (decidable_nat) [in UniMath.MoreFoundations.DecidablePropositions]
_ ≥ _ (decidable_nat) [in UniMath.MoreFoundations.DecidablePropositions]
_ ≤ _ (decidable_nat) [in UniMath.MoreFoundations.DecidablePropositions]
_ <= _ (decidable_nat) [in UniMath.MoreFoundations.DecidablePropositions]
_ < _ (decidable_nat) [in UniMath.MoreFoundations.DecidablePropositions]
¬ _ (decidable_logic) [in UniMath.MoreFoundations.DecidablePropositions]
_ ∧ _ (decidable_logic) [in UniMath.MoreFoundations.DecidablePropositions]
_ ∨ _ (decidable_logic) [in UniMath.MoreFoundations.DecidablePropositions]
_ × _ (disp_cat_scope) [in UniMath.CategoryTheory.DisplayedCats.Constructions]
_ / _ (dr_scope) [in UniMath.Algebra.DivisionRig]
/ _ (dr_scope) [in UniMath.Algebra.DivisionRig]
_ * _ (dr_scope) [in UniMath.Algebra.DivisionRig]
_ + _ (dr_scope) [in UniMath.Algebra.DivisionRig]
1 (dr_scope) [in UniMath.Algebra.DivisionRig]
0 (dr_scope) [in UniMath.Algebra.DivisionRig]
_ > _ (eo_scope) [in UniMath.RealNumbers.Sets]
_ < _ (eo_scope) [in UniMath.RealNumbers.Sets]
_ >= _ (eo_scope) [in UniMath.RealNumbers.Sets]
_ <= _ (eo_scope) [in UniMath.RealNumbers.Sets]
_ ^op (excat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ ⟶ _ (excat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ ∙ _ (excat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ ↠ _ (excat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
_ ↣ _ (excat) [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
∑ _ .. _ , _ (finset) [in UniMath.Combinatorics.FiniteSets]
_ > _ (foset) [in UniMath.Combinatorics.OrderedSets]
_ < _ (foset) [in UniMath.Combinatorics.OrderedSets]
_ >= _ (foset) [in UniMath.Combinatorics.OrderedSets]
_ ≥ _ (foset) [in UniMath.Combinatorics.OrderedSets]
_ <= _ (foset) [in UniMath.Combinatorics.OrderedSets]
_ ≤ _ (foset) [in UniMath.Combinatorics.OrderedSets]
_ ≠ _ (foset) [in UniMath.Combinatorics.OrderedSets]
_ ≐ _ (foset) [in UniMath.Combinatorics.OrderedSets]
∑ _ .. _ , _ (foset) [in UniMath.Combinatorics.OrderedSets]
⟦ _ ⟧ (foset) [in UniMath.Combinatorics.OrderedSets]
_ ∘ _ (functions) [in UniMath.Foundations.PartA]
_ × _ (functor_scope) [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
#?' _ (hide_transport_scope) [in UniMath.CategoryTheory.DisplayedCats.Core]
#? _ (hide_transport_scope) [in UniMath.CategoryTheory.DisplayedCats.Core]
_ ↷ _ (hom_scope) [in UniMath.Algebra.Universal.Algebras]
2 (hq_scope) [in UniMath.RealNumbers.Prelim]
_ / _ (hq_scope) [in UniMath.RealNumbers.Prelim]
/ _ (hq_scope) [in UniMath.RealNumbers.Prelim]
_ > _ (hq_scope) [in UniMath.RealNumbers.Prelim]
_ < _ (hq_scope) [in UniMath.RealNumbers.Prelim]
_ >= _ (hq_scope) [in UniMath.RealNumbers.Prelim]
_ <= _ (hq_scope) [in UniMath.RealNumbers.Prelim]
_ * _ (hq_scope) [in UniMath.NumberSystems.RationalNumbers]
_ - _ (hq_scope) [in UniMath.NumberSystems.RationalNumbers]
- _ (hq_scope) [in UniMath.NumberSystems.RationalNumbers]
1 (hq_scope) [in UniMath.NumberSystems.RationalNumbers]
0 (hq_scope) [in UniMath.NumberSystems.RationalNumbers]
_ + _ (hq_scope) [in UniMath.NumberSystems.RationalNumbers]
_ ::: _ (hvec_scope) [in UniMath.Algebra.Universal.HVectors]
[()] (hvec_scope) [in UniMath.Algebra.Universal.HVectors]
[( _ ; .. ; _ )] (hvec_scope) [in UniMath.Algebra.Universal.HVectors]
_ * _ (hz_scope) [in UniMath.NumberSystems.Integers]
_ - _ (hz_scope) [in UniMath.NumberSystems.Integers]
- _ (hz_scope) [in UniMath.NumberSystems.Integers]
1 (hz_scope) [in UniMath.NumberSystems.Integers]
0 (hz_scope) [in UniMath.NumberSystems.Integers]
_ + _ (hz_scope) [in UniMath.NumberSystems.Integers]
_ ++ _ (list_scope) [in UniMath.Combinatorics.MoreLists]
_ :: _ (list_scope) [in UniMath.Combinatorics.MoreLists]
[] (list_scope) [in UniMath.Combinatorics.MoreLists]
[ _ ; .. ; _ ] (list_scope) [in UniMath.Combinatorics.MoreLists]
_ ⇒ _ (logic) [in UniMath.Foundations.Propositions]
_ != _ (logic) [in UniMath.Foundations.Sets]
_ = _ (logic) [in UniMath.Foundations.Sets]
_ ⇔ _ (logic) [in UniMath.MoreFoundations.Notations]
_ ⇒ _ (logic) [in UniMath.MoreFoundations.Notations]
¬ _ (logic) [in UniMath.Foundations.Propositions]
∃! _ .. _ , _ (logic) [in UniMath.MoreFoundations.Propositions]
R-mod( _ , _ ) (module_scope) [in UniMath.Algebra.Modules.Core]
_ * _ (module_scope) [in UniMath.Algebra.Modules.Core]
# _ (mor_disp_scope) [in UniMath.CategoryTheory.DisplayedCats.Core]
_ ;; _ (mor_disp_scope) [in UniMath.CategoryTheory.DisplayedCats.Core]
1 (multmonoid_scope) [in UniMath.Algebra.Monoids]
_ * _ (multmonoid_scope) [in UniMath.Algebra.Monoids]
_ * _ (multoperation_scope) [in UniMath.Algebra.BinaryOperations]
_ / _ (nat_scope) [in UniMath.Foundations.NaturalNumbers]
_ /+ _ (nat_scope) [in UniMath.Foundations.NaturalNumbers]
_ ≥ _ (nat_scope) [in UniMath.Foundations.NaturalNumbers]
_ >= _ (nat_scope) [in UniMath.Foundations.NaturalNumbers]
_ ≤ _ (nat_scope) [in UniMath.Foundations.NaturalNumbers]
_ <= _ (nat_scope) [in UniMath.Foundations.NaturalNumbers]
_ < _ (nat_scope) [in UniMath.Foundations.NaturalNumbers]
_ > _ (nat_scope) [in UniMath.Foundations.NaturalNumbers]
_ ≠ _ (nat_scope) [in UniMath.Foundations.NaturalNumbers]
_ ≠ _ (nat_scope) [in UniMath.MoreFoundations.NegativePropositions]
1000 (nat_scope) [in UniMath.Foundations.Preamble]
100 (nat_scope) [in UniMath.Foundations.Preamble]
24 (nat_scope) [in UniMath.Foundations.Preamble]
23 (nat_scope) [in UniMath.Foundations.Preamble]
22 (nat_scope) [in UniMath.Foundations.Preamble]
21 (nat_scope) [in UniMath.Foundations.Preamble]
20 (nat_scope) [in UniMath.Foundations.Preamble]
19 (nat_scope) [in UniMath.Foundations.Preamble]
18 (nat_scope) [in UniMath.Foundations.Preamble]
17 (nat_scope) [in UniMath.Foundations.Preamble]
16 (nat_scope) [in UniMath.Foundations.Preamble]
15 (nat_scope) [in UniMath.Foundations.Preamble]
14 (nat_scope) [in UniMath.Foundations.Preamble]
13 (nat_scope) [in UniMath.Foundations.Preamble]
12 (nat_scope) [in UniMath.Foundations.Preamble]
11 (nat_scope) [in UniMath.Foundations.Preamble]
10 (nat_scope) [in UniMath.Foundations.Preamble]
9 (nat_scope) [in UniMath.Foundations.Preamble]
8 (nat_scope) [in UniMath.Foundations.Preamble]
7 (nat_scope) [in UniMath.Foundations.Preamble]
6 (nat_scope) [in UniMath.Foundations.Preamble]
5 (nat_scope) [in UniMath.Foundations.Preamble]
4 (nat_scope) [in UniMath.Foundations.Preamble]
3 (nat_scope) [in UniMath.Foundations.Preamble]
2 (nat_scope) [in UniMath.Foundations.Preamble]
1 (nat_scope) [in UniMath.Foundations.Preamble]
0 (nat_scope) [in UniMath.Foundations.Preamble]
_ * _ (nat_scope) [in UniMath.Foundations.Preamble]
_ - _ (nat_scope) [in UniMath.Foundations.Preamble]
_ + _ (nat_scope) [in UniMath.Foundations.Preamble]
_ / _ (NRat_scope) [in UniMath.RealNumbers.NonnegativeRationals]
/ _ (NRat_scope) [in UniMath.RealNumbers.NonnegativeRationals]
_ * _ (NRat_scope) [in UniMath.RealNumbers.NonnegativeRationals]
_ - _ (NRat_scope) [in UniMath.RealNumbers.NonnegativeRationals]
_ + _ (NRat_scope) [in UniMath.RealNumbers.NonnegativeRationals]
2 (NRat_scope) [in UniMath.RealNumbers.NonnegativeRationals]
1 (NRat_scope) [in UniMath.RealNumbers.NonnegativeRationals]
0 (NRat_scope) [in UniMath.RealNumbers.NonnegativeRationals]
_ > _ (NRat_scope) [in UniMath.RealNumbers.NonnegativeRationals]
_ < _ (NRat_scope) [in UniMath.RealNumbers.NonnegativeRationals]
_ >= _ (NRat_scope) [in UniMath.RealNumbers.NonnegativeRationals]
_ <= _ (NRat_scope) [in UniMath.RealNumbers.NonnegativeRationals]
_ / 2 (NR_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ - _ (NR_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ * _ (NR_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ + _ (NR_scope) [in UniMath.RealNumbers.NonnegativeReals]
2 (NR_scope) [in UniMath.RealNumbers.NonnegativeReals]
1 (NR_scope) [in UniMath.RealNumbers.NonnegativeReals]
0 (NR_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ > _ (NR_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ < _ (NR_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ >= _ (NR_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ <= _ (NR_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ ≠ _ (NR_scope) [in UniMath.RealNumbers.NonnegativeReals]
_ ∩ _ (open_scope) [in UniMath.AlgebraicGeometry.Topology]
⋃ _ (open_scope) [in UniMath.AlgebraicGeometry.Topology]
_ > _ (oset) [in UniMath.Combinatorics.OrderedSets]
_ >= _ (oset) [in UniMath.Combinatorics.OrderedSets]
_ ≥ _ (oset) [in UniMath.Combinatorics.OrderedSets]
_ < _ (oset) [in UniMath.Combinatorics.OrderedSets]
_ <= _ (oset) [in UniMath.Combinatorics.OrderedSets]
_ ≤ _ (oset) [in UniMath.Combinatorics.OrderedSets]
_ ≅ _ (oset) [in UniMath.Combinatorics.OrderedSets]
_ ^-1 (pathsover) [in UniMath.MoreFoundations.PathsOver]
_ ⟤ _ (pathsover) [in UniMath.MoreFoundations.PathsOver]
_ ⟥ _ (pathsover) [in UniMath.MoreFoundations.PathsOver]
_ * _ (pathsover) [in UniMath.MoreFoundations.PathsOver]
Δ _ (pathsover) [in UniMath.MoreFoundations.PathsOver]
∇ _ (pathsover) [in UniMath.MoreFoundations.PathsOver]
_ < _ (poset) [in UniMath.Foundations.Sets]
_ ≅ _ (poset) [in UniMath.Foundations.Sets]
_ ≤ _ (poset) [in UniMath.Foundations.Sets]
∑ _ .. _ , _ (prop) [in UniMath.MoreFoundations.Notations]
_ ⁰ (rig_scope) [in UniMath.Algebra.RigsAndRings]
1 (rig_scope) [in UniMath.Algebra.RigsAndRings]
0 (rig_scope) [in UniMath.Algebra.RigsAndRings]
_ * _ (rig_scope) [in UniMath.Algebra.RigsAndRings]
_ + _ (rig_scope) [in UniMath.Algebra.RigsAndRings]
_ # _ (ring_scope) [in UniMath.PAdics.lemmas]
_ ⁰ (ring_scope) [in UniMath.Algebra.RigsAndRings]
- _ (ring_scope) [in UniMath.Algebra.RigsAndRings]
-1 (ring_scope) [in UniMath.Algebra.RigsAndRings]
1 (ring_scope) [in UniMath.Algebra.RigsAndRings]
0 (ring_scope) [in UniMath.Algebra.RigsAndRings]
_ * _ (ring_scope) [in UniMath.Algebra.RigsAndRings]
_ - _ (ring_scope) [in UniMath.Algebra.RigsAndRings]
_ + _ (ring_scope) [in UniMath.Algebra.RigsAndRings]
_ / _ (R_scope) [in UniMath.RealNumbers.Reals]
/ _ (R_scope) [in UniMath.RealNumbers.Reals]
_ * _ (R_scope) [in UniMath.RealNumbers.Reals]
_ - _ (R_scope) [in UniMath.RealNumbers.Reals]
- _ (R_scope) [in UniMath.RealNumbers.Reals]
_ + _ (R_scope) [in UniMath.RealNumbers.Reals]
2 (R_scope) [in UniMath.RealNumbers.Reals]
1 (R_scope) [in UniMath.RealNumbers.Reals]
0 (R_scope) [in UniMath.RealNumbers.Reals]
_ >= _ (R_scope) [in UniMath.RealNumbers.Reals]
_ <= _ (R_scope) [in UniMath.RealNumbers.Reals]
_ > _ (R_scope) [in UniMath.RealNumbers.Reals]
_ < _ (R_scope) [in UniMath.RealNumbers.Reals]
_ ≠ _ (R_scope) [in UniMath.RealNumbers.Reals]
_ × _ (set) [in UniMath.Foundations.Sets]
∏ _ .. _ , _ (set) [in UniMath.Foundations.Sets]
∑ _ .. _ , _ (set) [in UniMath.Foundations.Sets]
_ ⋆⋆ (sorted_scope) [in UniMath.Algebra.Universal.SortedTypes]
_ ⋆ (sorted_scope) [in UniMath.Algebra.Universal.SortedTypes]
_ s∘ _ (sorted_scope) [in UniMath.Algebra.Universal.SortedTypes]
_ ≠ _ (stn) [in UniMath.Combinatorics.StandardFiniteSets]
● _ (stn) [in UniMath.Combinatorics.StandardFiniteSets]
⟦ _ ⟧ (stn) [in UniMath.Combinatorics.StandardFiniteSets]
∑ _ .. _ , _ (subset) [in UniMath.Foundations.Sets]
_ p• _ (subsys) [in UniMath.SubstitutionSystems.Notation]
_ ⊠ _ (subsys) [in UniMath.SubstitutionSystems.Notation]
_ ⊗ _ (subsys) [in UniMath.SubstitutionSystems.Notation]
_ •• _ (subsys) [in UniMath.SubstitutionSystems.Notation]
_ ∘ _ (subsys) [in UniMath.SubstitutionSystems.Notation]
_ ø _ (subsys) [in UniMath.SubstitutionSystems.Notation]
_ ⋆ _ (subsys) [in UniMath.SubstitutionSystems.Notation]
_ • _ (subsys) [in UniMath.SubstitutionSystems.Notation]
U (subsys) [in UniMath.SubstitutionSystems.Notation]
` _ (subsys) [in UniMath.SubstitutionSystems.Notation]
ℓ (subsys) [in UniMath.SubstitutionSystems.Notation]
_ ∪ _ (subtype) [in UniMath.Algebra.FixedPointTheorems]
_ ∩ _ (subtype) [in UniMath.Algebra.FixedPointTheorems]
_ - _ (subtype) [in UniMath.MoreFoundations.Subtypes]
_ ≢ _ (subtype) [in UniMath.MoreFoundations.Subtypes]
_ ≡ _ (subtype) [in UniMath.MoreFoundations.Subtypes]
_ ⊊ _ (subtype) [in UniMath.MoreFoundations.Subtypes]
_ ⊈ _ (subtype) [in UniMath.MoreFoundations.Subtypes]
_ ⊆ _ (subtype) [in UniMath.MoreFoundations.Subtypes]
_ ∉ _ (subtype) [in UniMath.MoreFoundations.Subtypes]
_ ∈ _ (subtype) [in UniMath.MoreFoundations.Subtypes]
⋂ _ (subtype) [in UniMath.MoreFoundations.Subtypes]
⋃ _ (subtype) [in UniMath.MoreFoundations.Subtypes]
_ ≠ _ (tap_scope) [in UniMath.Algebra.Apartness]
_ ≼ _ (tosubset) [in UniMath.Combinatorics.WellOrderedSets]
_ ≤ _ (tosubset) [in UniMath.Combinatorics.WellOrderedSets]
⋃ _ (tosubset) [in UniMath.Combinatorics.WellOrderedSets]
_ #' _ (transport) [in UniMath.Foundations.PartA]
_ # _ (transport) [in UniMath.Foundations.PartA]
_ * _ (twobinops_scope) [in UniMath.Algebra.BinaryOperations]
_ + _ (twobinops_scope) [in UniMath.Algebra.BinaryOperations]
_ ≅ _ (type_scope) [in UniMath.MoreFoundations.Equivalences]
∃ _ .. _ , _ (type_scope) [in UniMath.Foundations.Propositions]
_ ∨ _ (type_scope) [in UniMath.Foundations.Propositions]
_ ∧ _ (type_scope) [in UniMath.Foundations.Propositions]
∥ _ ∥ (type_scope) [in UniMath.Foundations.Propositions]
∀ _ .. _ , _ (type_scope) [in UniMath.Foundations.Propositions]
_ → _ (type_scope) [in UniMath.Foundations.Init]
_ <- _ (type_scope) [in UniMath.Foundations.Init]
_ -> _ (type_scope) [in UniMath.Foundations.Init]
∏ _ .. _ , _ (type_scope) [in UniMath.Foundations.Init]
∑ _ .. _ , _ (type_scope) [in UniMath.Foundations.Preamble]
_ = _ (type_scope) [in UniMath.Foundations.Preamble]
_ ╝ _ (type_scope) [in UniMath.Foundations.PartA]
_ ≃ _ (type_scope) [in UniMath.Foundations.PartA]
∃! _ .. _ , _ (type_scope) [in UniMath.Foundations.PartA]
_ <-> _ (type_scope) [in UniMath.Foundations.PartA]
_ != _ (type_scope) [in UniMath.Foundations.PartA]
_ × _ (type_scope) [in UniMath.Foundations.PartA]
_ s→ _ (type_scope) [in UniMath.Algebra.Universal.SortedTypes]
[( _ ; .. ; _ )] (vec_scope) [in UniMath.Combinatorics.Vectors]
_ ::: _ (vec_scope) [in UniMath.Combinatorics.Vectors]
[()] (vec_scope) [in UniMath.Combinatorics.Vectors]
_ ∘ _ (weq_scope) [in UniMath.Foundations.PartA]
_ < _ (woset) [in UniMath.Combinatorics.WellOrderedSets]
_ ≤ _ (woset) [in UniMath.Combinatorics.WellOrderedSets]
_ ≺ _ (wosubset) [in UniMath.Combinatorics.WellOrderedSets]
_ ≣ _ (wosubset) [in UniMath.Combinatorics.WellOrderedSets]
_ ≼ _ (wosubset) [in UniMath.Combinatorics.WellOrderedSets]
_ < _ (wosubset) [in UniMath.Combinatorics.WellOrderedSets]
_ ≤ _ (wosubset) [in UniMath.Combinatorics.WellOrderedSets]
⋃ _ (wosubset) [in UniMath.Combinatorics.WellOrderedSets]
_ ^op [in UniMath.SubstitutionSystems.GenMendlerIteration]
_ ∙ _ [in UniMath.SubstitutionSystems.GenMendlerIteration]
_ ▻ _ [in UniMath.Bicategories.Transformations.Examples.Whiskering]
_ ◅ _ [in UniMath.Bicategories.Transformations.Examples.Whiskering]
_ ∈ _ [in UniMath.Combinatorics.ZFstructures]
_ ⊏ _ [in UniMath.Combinatorics.ZFstructures]
_ ↑ _ [in UniMath.Combinatorics.ZFstructures]
_ ≅ _ [in UniMath.Combinatorics.ZFstructures]
_ ≤ _ [in UniMath.Combinatorics.ZFstructures]
_ c× _ [in UniMath.Bicategories.BicategoryOfBicat]
_ ⋆ _ [in UniMath.Bicategories.Core.Bicat]
_ ▹ _ [in UniMath.Bicategories.Core.Bicat]
_ ◃ _ [in UniMath.Bicategories.Core.Bicat]
_ • _ [in UniMath.Bicategories.Core.Bicat]
_ <== _ [in UniMath.Bicategories.Core.Bicat]
_ ==> _ [in UniMath.Bicategories.Core.Bicat]
_ @' _ [in UniMath.MoreFoundations.Equivalences]
_ ^-1 [in UniMath.CategoryTheory.Core.Functors]
_ -->[ _ ] _ [in UniMath.CategoryTheory.DisplayedCats.Core]
_ ⇒ _ [in UniMath.Algebra.BinaryOperations]
_ ⇒ _ [in UniMath.Folds.folds_pre_2_cat]
_ ## _ [in UniMath.Folds.folds_pre_2_cat]
_ O _ [in UniMath.CategoryTheory.precomp_fully_faithful]
_ ** _ [in UniMath.Algebra.Matrix]
_ ^ _ [in UniMath.Algebra.Matrix]
_ / _ ⟦ _ , _ ⟧ [in UniMath.SubstitutionSystems.MonadsMultiSorted]
_ / _ [in UniMath.SubstitutionSystems.MonadsMultiSorted]
_ / _ [in UniMath.SubstitutionSystems.MonadsMultiSorted]
_ / _ [in UniMath.SubstitutionSystems.MonadsMultiSorted]
_ [{ _ }] [in UniMath.CategoryTheory.DisplayedCats.Constructions]
_ ⇒ _ [in UniMath.Folds.folds_precat]
_ ⊠ _ [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
_ ;hi; _ [in UniMath.Bicategories.WkCatEnrichment.Notations]
_ ;h; _ [in UniMath.Bicategories.WkCatEnrichment.Notations]
_ ;1; _ [in UniMath.Bicategories.WkCatEnrichment.Notations]
_ ;v; _ [in UniMath.Bicategories.WkCatEnrichment.Notations]
_ -2-> _ [in UniMath.Bicategories.WkCatEnrichment.Notations]
_ -1-> _ [in UniMath.Bicategories.WkCatEnrichment.Notations]
_ ⊠⊠ _ [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
_ ⊠ _ [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
_ ^^-1 [in UniMath.CategoryTheory.Equivalences.Core]
_ ⊗ _ [in UniMath.CategoryTheory.PrecategoryBinProduct]
_ × _ [in UniMath.CategoryTheory.PrecategoryBinProduct]
_ ⇒ _ [in UniMath.Folds.folds_isomorphism]
_ ++ _ [in UniMath.SubstitutionSystems.MLTT79]
_ :: _ [in UniMath.SubstitutionSystems.MLTT79]
_ :: _ [in UniMath.CategoryTheory.Inductives.Trees]
_ ++ _ [in UniMath.Combinatorics.GraphPaths]
_ :: _ [in UniMath.Combinatorics.GraphPaths]
_ ++ _ [in UniMath.Combinatorics.Lists]
_ :: _ [in UniMath.Combinatorics.Lists]
_ ;hi; _ [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ ;h; _ [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ ;1; _ [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ ;v; _ [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ -2-> _ [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ -1-> _ [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ c× _ [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
_ • _ [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
_ ⊗ _ [in UniMath.CategoryTheory.Profunctors.Core]
_ □ _ [in UniMath.Combinatorics.FiniteSequences]
_ ;;; _ [in UniMath.CategoryTheory.Monads.LModules]
_ □ _ [in UniMath.Algebra.IteratedBinaryOperations]
_ :: _ [in UniMath.Algebra.IteratedBinaryOperations]
_ ,, _ [in UniMath.Foundations.Preamble]
_ ⨿ _ [in UniMath.Foundations.Preamble]
_ ~ _ [in UniMath.Foundations.PartA]
_ @ _ [in UniMath.Foundations.PartA]
_ :: _ [in UniMath.Algebra.Free_Monoids_and_Groups]
_ / _ ⟦ _ , _ ⟧ [in UniMath.SubstitutionSystems.MultiSorted]
_ / _ [in UniMath.SubstitutionSystems.MultiSorted]
_ / _ [in UniMath.SubstitutionSystems.MultiSorted]
_ / _ [in UniMath.SubstitutionSystems.MultiSorted]
_ ⋆ _ [in UniMath.CategoryTheory.Core.TwoCategories]
_ ▹ _ [in UniMath.CategoryTheory.Core.TwoCategories]
_ ◃ _ [in UniMath.CategoryTheory.Core.TwoCategories]
_ • _ [in UniMath.CategoryTheory.Core.TwoCategories]
_ <== _ [in UniMath.CategoryTheory.Core.TwoCategories]
_ ==> _ [in UniMath.CategoryTheory.Core.TwoCategories]
_ ^^ [in UniMath.Folds.from_precats_to_folds_and_back]
_ ^ [in UniMath.Folds.from_precats_to_folds_and_back]
_ ⇒ _ [in UniMath.Folds.from_precats_to_folds_and_back]
_ O _ [in UniMath.CategoryTheory.precomp_ess_surj]
_ ^-i [in UniMath.CategoryTheory.precomp_ess_surj]
_ ^-1 [in UniMath.CategoryTheory.precomp_ess_surj]
_ #⊗ _ [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
_ ⊗ _ [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
_ ⊠ _ [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
_ ^op [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
_ ∙ _ [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
chain [in UniMath.CategoryTheory.Chains.Chains]
chain [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
chain [in UniMath.SubstitutionSystems.BindingSigToMonad]
chain [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
cochain [in UniMath.CategoryTheory.Chains.Cochains]
ct ( _ , _ , _ , _ ) [in UniMath.Foundations.Sets]
hom _ [in UniMath.CategoryTheory.yoneda]
HSET [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
HSET2 [in UniMath.SubstitutionSystems.MLTT79]
id _ [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
id _ [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
pr11 _ [in UniMath.MoreFoundations.Notations]
pr111 _ [in UniMath.MoreFoundations.Notations]
pr112 _ [in UniMath.MoreFoundations.Notations]
pr12 _ [in UniMath.MoreFoundations.Notations]
pr121 _ [in UniMath.MoreFoundations.Notations]
pr122 _ [in UniMath.MoreFoundations.Notations]
pr21 _ [in UniMath.MoreFoundations.Notations]
pr211 _ [in UniMath.MoreFoundations.Notations]
pr212 _ [in UniMath.MoreFoundations.Notations]
pr22 _ [in UniMath.MoreFoundations.Notations]
pr221 _ [in UniMath.MoreFoundations.Notations]
pr222 _ [in UniMath.MoreFoundations.Notations]
SET [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
stnel ( _ , _ ) [in UniMath.Combinatorics.StandardFiniteSets]
stnpr _ [in UniMath.Combinatorics.StandardFiniteSets]
Yo [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
! _ [in UniMath.Foundations.PartA]
## [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
## [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
## [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
## [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
( _ #, _ ) [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
( _ , _ ) [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
( _ #, _ ) [in UniMath.CategoryTheory.PrecategoryBinProduct]
( _ , _ ) [in UniMath.CategoryTheory.PrecategoryBinProduct]
( _ #, _ ) [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
( _ , _ ) [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
0 [in UniMath.SyntheticHomotopyTheory.Test]
0 [in UniMath.SyntheticHomotopyTheory.Circle2]
1 [in UniMath.SyntheticHomotopyTheory.Test]
1 [in UniMath.SyntheticHomotopyTheory.Circle2]
[ _ , _ ] [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
[ _ , _ ] [in UniMath.SubstitutionSystems.BindingSigToMonad]
[ _ , _ ] [in UniMath.SubstitutionSystems.SignatureCategory]
[] [in UniMath.SubstitutionSystems.MLTT79]
[] [in UniMath.Combinatorics.GraphPaths]
[] [in UniMath.Combinatorics.Lists]
[] [in UniMath.Algebra.IteratedBinaryOperations]
[] [in UniMath.Algebra.Free_Monoids_and_Groups]
¬ _ [in UniMath.Foundations.PartA]
¬¬ _ [in UniMath.Foundations.PartA]
λ _ .. _ , _ [in UniMath.Foundations.Init]
↓ _ [in UniMath.SubstitutionSystems.GenMendlerIteration]
↓ _ [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
∁ [in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
∅ [in UniMath.Foundations.Preamble]
⦃ _ ⦄ [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
_ ⊗ _ (cat) [in UniMath.CategoryTheory.Presheaf]
EndC [in UniMath.SubstitutionSystems.SignatureExamples]
Ptd [in UniMath.SubstitutionSystems.SignatureExamples]

---

Binder Index

A

AA':1175 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AA':1194 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AA':1203 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
aa':604 [in UniMath.Algebra.Monoids]
aa':621 [in UniMath.Algebra.Monoids]
aa:10 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
aa:100 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:101 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:1015 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:103 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
aa:103 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
AA:103 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:1036 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1055 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:108 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:1083 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
AA:109 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:110 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:1106 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:111 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:113 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
aa:1134 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1148 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
AA:115 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:116 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:1166 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:117 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:1190 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:120 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
aa:1215 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1235 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:124 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:124 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:1254 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:127 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
aa:127 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
aa:1272 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:129 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
aa:1291 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:131 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:135 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:136 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
aa:137 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:138 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
aa:138 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:139 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Aa:14 [in UniMath.CategoryTheory.Chains.Adamek]
AA:142 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:1424 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:143 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:1436 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1440 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1449 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1458 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:1469 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:147 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
aa:148 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
aa:1481 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:149 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:1495 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
aa:15 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:15 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
aa:150 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:155 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:155 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
aa:158 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
aa:160 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
aa:161 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:164 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
aa:165 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
aa:165 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:167 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
AA:169 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:171 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
aa:173 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
AA:175 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:176 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
aa:177 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
aa:177 [in UniMath.MoreFoundations.PartA]
aa:180 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
aa:181 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
AA:185 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
aa:19 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
aa:19 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
aa:19 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
aa:191 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
AA:194 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
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bb:394 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:40 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:400 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:408 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
bb:44 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:50 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:50 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:50 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:527 [in UniMath.CategoryTheory.DisplayedCats.Core]
bb:53 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:56 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:60 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:61 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:62 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:62 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:63 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:67 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:69 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:7 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb:73 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:76 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:77 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:78 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:79 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:8 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:80 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
BB:82 [in UniMath.HomologicalAlgebra.TranslationFunctors]
bb:83 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:85 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:86 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:88 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bb:9 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
bb:9 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb:90 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:93 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
bb:93 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb:97 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
bb:997 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb₁:1398 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb₁:252 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₁:377 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₁:397 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₁:406 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₁:44 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₁:63 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₁:76 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₁:89 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₁:912 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb₂:1399 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb₂:253 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₂:378 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₂:398 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₂:407 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₂:45 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₂:64 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₂:77 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₂:90 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₂:913 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
bb₃:379 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
bb₃:46 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
bb₃:914 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
BCC:12 [in UniMath.SubstitutionSystems.BindingSigToMonad]
BCC:143 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BCC:150 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BCC:16 [in UniMath.SubstitutionSystems.BindingSigToMonad]
BCC:171 [in UniMath.CategoryTheory.limits.Opp]
BCC:19 [in UniMath.SubstitutionSystems.BindingSigToMonad]
BCC:23 [in UniMath.SubstitutionSystems.BindingSigToMonad]
BCC:9 [in UniMath.SubstitutionSystems.BindingSigToMonad]
bcpC:103 [in UniMath.CategoryTheory.Monads.Derivative]
bc1:691 [in UniMath.MoreFoundations.PartA]
bc1:705 [in UniMath.MoreFoundations.PartA]
bc2:692 [in UniMath.MoreFoundations.PartA]
bc2:706 [in UniMath.MoreFoundations.PartA]
bc:11 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BC:1146 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BC:1153 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BC:1186 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BC:1213 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BC:124 [in UniMath.CategoryTheory.Monads.Monads]
BC:1246 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BC:125 [in UniMath.CategoryTheory.FunctorAlgebras]
bc:140 [in UniMath.MoreFoundations.Propositions]
bc:142 [in UniMath.MoreFoundations.Propositions]
BC:164 [in UniMath.CategoryTheory.slicecat]
BC:168 [in UniMath.CategoryTheory.slicecat]
BC:173 [in UniMath.CategoryTheory.limits.Opp]
bc:231 [in UniMath.CategoryTheory.limits.bincoproducts]
BC:246 [in UniMath.CategoryTheory.limits.binproducts]
BC:250 [in UniMath.CategoryTheory.limits.binproducts]
BC:346 [in UniMath.CategoryTheory.limits.Opp]
bc:510 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bc:61 [in UniMath.SyntheticHomotopyTheory.Test]
BC:688 [in UniMath.MoreFoundations.PartA]
BC:702 [in UniMath.MoreFoundations.PartA]
BC:8 [in UniMath.CategoryTheory.CategoriesWithBinOps]
bc:89 [in UniMath.CategoryTheory.FunctorAlgebras]
BD:1221 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
BD:1232 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:368 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:377 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:386 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:395 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:404 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:521 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:532 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:542 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
bd:551 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
beta:102 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
beta:149 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
beta:18 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
beta:203 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
beta:31 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
beta:32 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
beta:35 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
beta:45 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
beta:78 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
beta:96 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
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bg:29 [in UniMath.CategoryTheory.slicecat]
bg:33 [in UniMath.CategoryTheory.slicecat]
bg:37 [in UniMath.CategoryTheory.slicecat]
bg:41 [in UniMath.CategoryTheory.slicecat]
bg:45 [in UniMath.CategoryTheory.slicecat]
bg:49 [in UniMath.CategoryTheory.slicecat]
bg:53 [in UniMath.CategoryTheory.slicecat]
bg:71 [in UniMath.CategoryTheory.slicecat]
bg:90 [in UniMath.CategoryTheory.slicecat]
BinCoprods:259 [in UniMath.CategoryTheory.limits.pushouts]
BinCoprod:142 [in UniMath.CategoryTheory.Abelian]
BinCoprod:151 [in UniMath.CategoryTheory.Abelian]
BinCoprod:160 [in UniMath.CategoryTheory.Abelian]
BinCoprod:167 [in UniMath.CategoryTheory.Abelian]
BinCoprod:239 [in UniMath.CategoryTheory.limits.pushouts]
BinCoprod:246 [in UniMath.CategoryTheory.limits.pushouts]
BinCoprod:257 [in UniMath.CategoryTheory.limits.pushouts]
bind_bind:35 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bind_unit:25 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bind:23 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bind:7 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
BinProds:319 [in UniMath.CategoryTheory.limits.BinDirectSums]
BinProds:321 [in UniMath.CategoryTheory.limits.pullbacks]
BinProd:108 [in UniMath.CategoryTheory.Abelian]
BinProd:117 [in UniMath.CategoryTheory.Abelian]
BinProd:124 [in UniMath.CategoryTheory.Abelian]
BinProd:13 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:17 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:21 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:23 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:25 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:27 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:3 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:301 [in UniMath.CategoryTheory.limits.pullbacks]
BinProd:308 [in UniMath.CategoryTheory.limits.pullbacks]
BinProd:319 [in UniMath.CategoryTheory.limits.pullbacks]
BinProd:32 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:39 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:41 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:43 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:45 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:5 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:50 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:57 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:59 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:61 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:63 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:65 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:67 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:7 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:9 [in UniMath.CategoryTheory.AbelianToAdditive]
BinProd:99 [in UniMath.CategoryTheory.Abelian]
bl:50 [in UniMath.Algebra.Lattice]
bl:57 [in UniMath.CategoryTheory.LatticeObject]
bot_mor_M:107 [in UniMath.CategoryTheory.LatticeObject]
bot:40 [in UniMath.Algebra.Lattice]
bot:44 [in UniMath.Algebra.Lattice]
bot:47 [in UniMath.CategoryTheory.LatticeObject]
bot:48 [in UniMath.Algebra.Lattice]
bot:51 [in UniMath.CategoryTheory.LatticeObject]
bot:55 [in UniMath.CategoryTheory.LatticeObject]
bound:177 [in UniMath.PAdics.fps]
BPC:142 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BPC:149 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BPC:165 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BPC:168 [in UniMath.CategoryTheory.limits.Opp]
BPC:2 [in UniMath.CategoryTheory.LatticeObject]
BPC:22 [in UniMath.SubstitutionSystems.BindingSigToMonad]
BPC:26 [in UniMath.SubstitutionSystems.BindingSigToMonad]
BPC:34 [in UniMath.CategoryTheory.Subcategory.Limits]
BPC:63 [in UniMath.CategoryTheory.slicecat]
BPC:64 [in UniMath.CategoryTheory.slicecat]
BPC:64 [in UniMath.CategoryTheory.LatticeObject]
BPC:65 [in UniMath.CategoryTheory.slicecat]
BPC:66 [in UniMath.CategoryTheory.slicecat]
BPC:68 [in UniMath.CategoryTheory.LatticeObject]
BPC:73 [in UniMath.CategoryTheory.LatticeObject]
BPC:9 [in UniMath.CategoryTheory.Subcategory.Limits]
BPC:96 [in UniMath.CategoryTheory.LatticeObject]
Bprop:4 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
bp1:83 [in UniMath.CategoryTheory.AbelianToAdditive]
bp2:84 [in UniMath.CategoryTheory.AbelianToAdditive]
BP:157 [in UniMath.CategoryTheory.slicecat]
BP:172 [in UniMath.CategoryTheory.limits.Opp]
BP:175 [in UniMath.CategoryTheory.limits.binproducts]
BP:205 [in UniMath.CategoryTheory.limits.binproducts]
BP:213 [in UniMath.CategoryTheory.limits.binproducts]
BP:223 [in UniMath.CategoryTheory.limits.binproducts]
BP:228 [in UniMath.CategoryTheory.limits.binproducts]
BP:256 [in UniMath.CategoryTheory.limits.bincoproducts]
BP:291 [in UniMath.CategoryTheory.limits.bincoproducts]
bp:297 [in UniMath.CategoryTheory.PrecategoryBinProduct]
BP:299 [in UniMath.CategoryTheory.limits.bincoproducts]
BP:309 [in UniMath.CategoryTheory.limits.bincoproducts]
BP:314 [in UniMath.CategoryTheory.limits.bincoproducts]
BP:345 [in UniMath.CategoryTheory.limits.Opp]
braid:2 [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
BS:23 [in UniMath.CategoryTheory.Additive]
BS:27 [in UniMath.CategoryTheory.Additive]
BS:55 [in UniMath.Combinatorics.WellOrderedSets]
BS:63 [in UniMath.Combinatorics.WellOrderedSets]
BT:56 [in UniMath.Combinatorics.WellOrderedSets]
BT:64 [in UniMath.Combinatorics.WellOrderedSets]
BZ:13 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
BZ:151 [in UniMath.CategoryTheory.slicecat]
BZ:32 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
BZ:52 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
B_is_univalent_2_1:67 [in UniMath.Bicategories.Core.YonedaLemma]
B_is_univalent_2_1:145 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
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B':977 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
B':98 [in UniMath.Algebra.FixedPointTheorems]
B':994 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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b0:1331 [in UniMath.Algebra.BinaryOperations]
b0:1344 [in UniMath.Algebra.BinaryOperations]
b0:1346 [in UniMath.Algebra.BinaryOperations]
b0:1355 [in UniMath.Algebra.BinaryOperations]
b0:1357 [in UniMath.Algebra.BinaryOperations]
b0:1370 [in UniMath.Algebra.BinaryOperations]
b0:1372 [in UniMath.Algebra.BinaryOperations]
b0:142 [in UniMath.CategoryTheory.FunctorCategory]
B0:15 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
b0:458 [in UniMath.CategoryTheory.Monads.RelativeMonads]
b0:459 [in UniMath.CategoryTheory.Monads.RelativeMonads]
b0:460 [in UniMath.CategoryTheory.Monads.RelativeMonads]
b0:461 [in UniMath.CategoryTheory.Monads.RelativeMonads]
B0:6 [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
B0:90 [in UniMath.CategoryTheory.catiso]
B1:11 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
B1:116 [in UniMath.CategoryTheory.catiso]
b1:128 [in UniMath.SyntheticHomotopyTheory.Circle2]
B1:130 [in UniMath.CategoryTheory.catiso]
b1:130 [in UniMath.CategoryTheory.categories.abgrs]
B1:135 [in UniMath.HomologicalAlgebra.Complexes]
b1:136 [in UniMath.CategoryTheory.categories.abgrs]
b1:142 [in UniMath.CategoryTheory.categories.abgrs]
B1:142 [in UniMath.HomologicalAlgebra.Complexes]
b1:148 [in UniMath.CategoryTheory.categories.abgrs]
B1:149 [in UniMath.HomologicalAlgebra.Complexes]
b1:154 [in UniMath.CategoryTheory.categories.abgrs]
B1:156 [in UniMath.HomologicalAlgebra.Complexes]
B1:16 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
b1:178 [in UniMath.CategoryTheory.categories.abgrs]
b1:189 [in UniMath.CategoryTheory.categories.abgrs]
B1:204 [in UniMath.MoreFoundations.PartA]
B1:216 [in UniMath.CategoryTheory.limits.BinDirectSums]
b1:216 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
B1:224 [in UniMath.CategoryTheory.limits.BinDirectSums]
B1:232 [in UniMath.CategoryTheory.limits.BinDirectSums]
B1:240 [in UniMath.CategoryTheory.limits.BinDirectSums]
B1:248 [in UniMath.CategoryTheory.limits.BinDirectSums]
B1:256 [in UniMath.CategoryTheory.limits.BinDirectSums]
B1:268 [in UniMath.CategoryTheory.limits.BinDirectSums]
b1:357 [in UniMath.MoreFoundations.PathsOver]
b1:368 [in UniMath.MoreFoundations.PathsOver]
b1:378 [in UniMath.MoreFoundations.PathsOver]
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b₂:258 [in UniMath.Bicategories.Colimits.Products]
b₂:261 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₂:262 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
B₂:267 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
b₂:268 [in UniMath.Bicategories.Colimits.Products]
b₂:278 [in UniMath.Bicategories.Colimits.Products]
B₂:28 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
B₂:287 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
b₂:288 [in UniMath.Bicategories.Colimits.Products]
B₂:29 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
b₂:3 [in UniMath.Bicategories.Colimits.Pullback]
B₂:3 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
B₂:3 [in UniMath.Bicategories.DisplayedBicats.DispModification]
B₂:3 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
b₂:3 [in UniMath.Bicategories.Colimits.Products]
b₂:303 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:305 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:317 [in UniMath.Bicategories.Colimits.Products]
b₂:327 [in UniMath.Bicategories.Colimits.Products]
b₂:336 [in UniMath.Bicategories.Colimits.Products]
B₂:34 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
b₂:342 [in UniMath.Bicategories.Colimits.Products]
B₂:36 [in UniMath.Bicategories.DisplayedBicats.DispModification]
b₂:369 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
b₂:38 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
B₂:389 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
b₂:395 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
B₂:40 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
b₂:402 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
B₂:415 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
B₂:47 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
B₂:5 [in UniMath.Bicategories.Modifications.Examples.Unitality]
B₂:5 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
b₂:56 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:59 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₂:6 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
b₂:61 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
b₂:66 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₂:7 [in UniMath.Bicategories.Core.Examples.Image]
b₂:72 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
b₂:72 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:76 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:8 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
B₂:80 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
b₂:84 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:85 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
b₂:88 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₂:9 [in UniMath.Bicategories.Transformations.Examples.Unitality]
B₂:90 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
b₂:904 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
b₂:92 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₂:926 [in UniMath.MoreFoundations.PartA]
b₂:96 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:101 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:109 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:117 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₃:12 [in UniMath.Bicategories.Transformations.Examples.Whiskering]
B₃:133 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
b₃:159 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₃:163 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
b₃:164 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:179 [in UniMath.Bicategories.Colimits.Pullback]
b₃:200 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:207 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:262 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₃:263 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
B₃:288 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
B₃:3 [in UniMath.Bicategories.Transformations.Examples.Whiskering]
B₃:3 [in UniMath.Bicategories.Transformations.Examples.Associativity]
B₃:3 [in UniMath.Bicategories.Modifications.Examples.Associativity]
b₃:318 [in UniMath.Bicategories.Colimits.Products]
b₃:328 [in UniMath.Bicategories.Colimits.Products]
b₃:370 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
b₃:39 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
b₃:4 [in UniMath.Bicategories.Colimits.Pullback]
B₃:416 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
b₃:67 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₃:905 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
b₄:102 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₄:110 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₄:201 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
b₄:208 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
B₄:264 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
B₄:4 [in UniMath.Bicategories.Transformations.Examples.Associativity]
B₄:4 [in UniMath.Bicategories.Modifications.Examples.Associativity]

C

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cAB:105 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:294 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:297 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:300 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:305 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:312 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:316 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:86 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cAB:90 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cax:58 [in UniMath.CategoryTheory.Enriched.Enriched]
ca:520 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ca:531 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ca:9 [in UniMath.CategoryTheory.limits.graphs.binproducts]
cb:10 [in UniMath.CategoryTheory.limits.graphs.binproducts]
cb:511 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CB:71 [in UniMath.Bicategories.Core.YonedaLemma]
ccab:103 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CCab:104 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCab:106 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
ccab:107 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CCab:115 [in UniMath.CategoryTheory.limits.bincoproducts]
CCab:115 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCab:126 [in UniMath.CategoryTheory.limits.bincoproducts]
CCab:214 [in UniMath.CategoryTheory.limits.bincoproducts]
CCAB:37 [in UniMath.CategoryTheory.categories.HSET.Colimits]
CCab:55 [in UniMath.CategoryTheory.limits.coproducts]
CCab:62 [in UniMath.CategoryTheory.limits.coproducts]
CCab:71 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCab:76 [in UniMath.CategoryTheory.limits.bincoproducts]
CCab:79 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCab:80 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCab:83 [in UniMath.CategoryTheory.limits.coproducts]
CCab:84 [in UniMath.CategoryTheory.limits.bincoproducts]
CCab:87 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
ccab:88 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CCab:88 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCab:92 [in UniMath.CategoryTheory.limits.bincoproducts]
ccab:92 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CCab:93 [in UniMath.CategoryTheory.limits.coproducts]
CCab:95 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCab:96 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
Ccat:289 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
CCcd:107 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCcd:118 [in UniMath.CategoryTheory.limits.bincoproducts]
CCcd:215 [in UniMath.CategoryTheory.limits.bincoproducts]
CCcd:57 [in UniMath.CategoryTheory.limits.coproducts]
CCcd:64 [in UniMath.CategoryTheory.limits.coproducts]
CCcd:74 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCcd:79 [in UniMath.CategoryTheory.limits.bincoproducts]
CCcd:82 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCcd:83 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCcd:85 [in UniMath.CategoryTheory.limits.coproducts]
CCcd:87 [in UniMath.CategoryTheory.limits.bincoproducts]
CCcd:90 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCcd:91 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CCcd:95 [in UniMath.CategoryTheory.limits.bincoproducts]
CCcd:98 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CCcd:99 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
ccF:530 [in UniMath.CategoryTheory.limits.graphs.limits]
ccGy:16 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccGy:18 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccGy:23 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccG:135 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
ccG:361 [in UniMath.CategoryTheory.limits.graphs.colimits]
ccG:364 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccHcL:82 [in UniMath.CategoryTheory.Inductives.Lists]
ccHcL:83 [in UniMath.CategoryTheory.Inductives.Lists]
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ccK:314 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccK:321 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccLM:318 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccL:177 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccL:296 [in UniMath.CategoryTheory.limits.graphs.limits]
ccL:389 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccL:390 [in UniMath.CategoryTheory.limits.graphs.colimits]
ccL:396 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CC':116 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CC':1177 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CC':126 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC':132 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC':134 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC':143 [in UniMath.CategoryTheory.limits.bincoproducts]
CC':147 [in UniMath.CategoryTheory.limits.bincoproducts]
CC':151 [in UniMath.CategoryTheory.limits.bincoproducts]
CC':207 [in UniMath.CategoryTheory.limits.cats.limits]
CC':231 [in UniMath.CategoryTheory.limits.graphs.limits]
CC':303 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc':514 [in UniMath.CategoryTheory.DisplayedCats.Core]
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cc0:360 [in UniMath.CategoryTheory.limits.graphs.limits]
cc0:38 [in UniMath.CategoryTheory.limits.cats.limits]
cc0:47 [in UniMath.CategoryTheory.limits.graphs.limits]
cc0:75 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc0:86 [in UniMath.CategoryTheory.limits.cats.limits]
cc0:91 [in UniMath.CategoryTheory.limits.graphs.limits]
CC1:134 [in UniMath.CategoryTheory.limits.cats.limits]
CC1:139 [in UniMath.CategoryTheory.limits.graphs.limits]
CC1:146 [in UniMath.CategoryTheory.limits.cats.limits]
CC1:151 [in UniMath.CategoryTheory.limits.graphs.limits]
CC1:159 [in UniMath.CategoryTheory.limits.cats.limits]
CC1:164 [in UniMath.CategoryTheory.limits.graphs.limits]
CC1:176 [in UniMath.CategoryTheory.limits.cats.limits]
CC1:179 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC1:181 [in UniMath.CategoryTheory.limits.graphs.limits]
CC1:191 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC1:204 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC1:221 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc1:38 [in UniMath.CategoryTheory.limits.graphs.limits]
CC1:435 [in UniMath.CategoryTheory.limits.graphs.limits]
CC1:446 [in UniMath.CategoryTheory.limits.graphs.limits]
CC1:458 [in UniMath.CategoryTheory.limits.graphs.limits]
CC1:474 [in UniMath.CategoryTheory.limits.graphs.limits]
cc1:58 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc1:66 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC2:135 [in UniMath.CategoryTheory.limits.cats.limits]
CC2:140 [in UniMath.CategoryTheory.limits.graphs.limits]
CC2:147 [in UniMath.CategoryTheory.limits.cats.limits]
CC2:152 [in UniMath.CategoryTheory.limits.graphs.limits]
CC2:160 [in UniMath.CategoryTheory.limits.cats.limits]
CC2:165 [in UniMath.CategoryTheory.limits.graphs.limits]
CC2:177 [in UniMath.CategoryTheory.limits.cats.limits]
CC2:180 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC2:182 [in UniMath.CategoryTheory.limits.graphs.limits]
CC2:192 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC2:205 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC2:222 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc2:40 [in UniMath.CategoryTheory.limits.graphs.limits]
CC2:436 [in UniMath.CategoryTheory.limits.graphs.limits]
CC2:447 [in UniMath.CategoryTheory.limits.graphs.limits]
CC2:459 [in UniMath.CategoryTheory.limits.graphs.limits]
CC2:475 [in UniMath.CategoryTheory.limits.graphs.limits]
cc2:59 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc2:68 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc:10 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:100 [in UniMath.CategoryTheory.limits.cats.limits]
CC:101 [in UniMath.CategoryTheory.limits.coproducts]
CC:101 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc:101 [in UniMath.CategoryTheory.limits.graphs.limits]
cc:102 [in UniMath.CategoryTheory.limits.cats.limits]
cc:1027 [in UniMath.Foundations.Sets]
cc:103 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cc:104 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
CC:105 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC:105 [in UniMath.CategoryTheory.limits.graphs.limits]
CC:107 [in UniMath.CategoryTheory.limits.cats.limits]
cc:107 [in UniMath.CategoryTheory.limits.graphs.limits]
cc:109 [in UniMath.CategoryTheory.limits.cats.limits]
CC:110 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC:112 [in UniMath.CategoryTheory.limits.graphs.limits]
cc:1136 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
cc:114 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:114 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc:114 [in UniMath.CategoryTheory.limits.graphs.limits]
CC:115 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
cc:1150 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
cc:116 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc:1168 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
cc:117 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
CC:117 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
cc:117 [in UniMath.CategoryTheory.limits.cats.limits]
cc:118 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cc:119 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cc:1192 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
CC:12 [in UniMath.CategoryTheory.DisplayedCats.Limits]
cc:1217 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
cc:122 [in UniMath.CategoryTheory.limits.graphs.limits]
cc:123 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cc:1237 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
cc:125 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
CC:125 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
cc:1256 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
CC:126 [in UniMath.CategoryTheory.limits.cats.limits]
cc:127 [in UniMath.CategoryTheory.slicecat]
CC:127 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC:127 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
cc:1274 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
cc:128 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cc:1293 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
cc:13 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cc:130 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:131 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC:131 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC:131 [in UniMath.CategoryTheory.limits.graphs.limits]
cc:133 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC:133 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CC:134 [in UniMath.CategoryTheory.limits.bincoproducts]
CC:134 [in UniMath.CategoryTheory.slicecat]
cc:136 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
CC:137 [in UniMath.CategoryTheory.slicecat]
cc:137 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
CC:137 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc:139 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc:14 [in UniMath.CategoryTheory.Chains.Chains]
cc:142 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
CC:142 [in UniMath.CategoryTheory.limits.bincoproducts]
cc:143 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CC:144 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC:146 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
CC:146 [in UniMath.CategoryTheory.limits.bincoproducts]
cc:146 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc:15 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:150 [in UniMath.CategoryTheory.limits.bincoproducts]
cc:152 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
CC:154 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
cc:154 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC:161 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
CC:163 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc:167 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
cc:168 [in UniMath.CategoryTheory.limits.cats.limits]
cc:17 [in UniMath.CategoryTheory.categories.HSET.Colimits]
CC:170 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc:173 [in UniMath.CategoryTheory.limits.graphs.limits]
cc:178 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
cc:182 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
cc:1840 [in UniMath.Foundations.PartA]
cc:1842 [in UniMath.Foundations.PartA]
cc:185 [in UniMath.CategoryTheory.limits.cats.limits]
CC:19 [in UniMath.CategoryTheory.limits.coproducts]
CC:190 [in UniMath.CategoryTheory.limits.cats.limits]
cc:190 [in UniMath.CategoryTheory.limits.graphs.limits]
cc:192 [in UniMath.CategoryTheory.limits.cats.limits]
cc:193 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
CC:195 [in UniMath.CategoryTheory.limits.graphs.limits]
cc:197 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cc:197 [in UniMath.CategoryTheory.limits.graphs.limits]
CC:199 [in UniMath.CategoryTheory.limits.cats.limits]
cc:20 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cc:202 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CC:204 [in UniMath.CategoryTheory.limits.graphs.limits]
CC:206 [in UniMath.CategoryTheory.limits.cats.limits]
cc:208 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
CC:21 [in UniMath.CategoryTheory.limits.coproducts]
CC:211 [in UniMath.CategoryTheory.limits.graphs.limits]
cc:213 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC:217 [in UniMath.CategoryTheory.limits.graphs.limits]
cc:221 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
CC:224 [in UniMath.CategoryTheory.limits.graphs.limits]
cc:227 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
CC:23 [in UniMath.CategoryTheory.categories.HSET.Colimits]
cc:230 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC:230 [in UniMath.CategoryTheory.limits.graphs.limits]
CC:235 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc:237 [in UniMath.CategoryTheory.limits.graphs.colimits]
CC:237 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
CC:24 [in UniMath.CategoryTheory.limits.coproducts]
cc:24 [in UniMath.CategoryTheory.limits.cats.limits]
cc:242 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
CC:244 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc:248 [in UniMath.CategoryTheory.limits.cats.limits]
cc:25 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cc:251 [in UniMath.CategoryTheory.limits.cats.limits]
cc:252 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc:257 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
CC:26 [in UniMath.CategoryTheory.limits.coproducts]
CC:26 [in UniMath.CategoryTheory.limits.bincoproducts]
cc:261 [in UniMath.CategoryTheory.limits.graphs.colimits]
cc:262 [in UniMath.CategoryTheory.limits.graphs.limits]
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Comm:889 [in UniMath.HomologicalAlgebra.MappingCone]
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CP:2 [in UniMath.SubstitutionSystems.SubstitutionSystems]
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CP:2 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
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CP:44 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:47 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
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CP:61 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:69 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
CP:81 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
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C:1 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:1 [in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
C:1 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:1 [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
C:1 [in UniMath.CategoryTheory.ElementsOp]
C:1 [in UniMath.CategoryTheory.Monads.Monads]
C:1 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
C:1 [in UniMath.CategoryTheory.DisplayedCats.Projection]
C:1 [in UniMath.CategoryTheory.Monoidal.EndofunctorsMonoidal]
C:1 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:1 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
C:1 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
C:1 [in UniMath.CategoryTheory.limits.graphs.terminal]
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C:1 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
C:1 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
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C:1 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:1 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
C:1 [in UniMath.CategoryTheory.yoneda]
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C:1 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
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C:1 [in UniMath.CategoryTheory.limits.pushouts]
C:1 [in UniMath.Bicategories.WkCatEnrichment.bicategory]
C:1 [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
C:1 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:1 [in UniMath.CategoryTheory.Monads.MonadAlgebras]
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C:1 [in UniMath.CategoryTheory.CategoriesWithBinOps]
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C:1 [in UniMath.SubstitutionSystems.Lam]
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C:1 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
C:1 [in UniMath.CategoryTheory.Chains.Adamek]
C:1 [in UniMath.CategoryTheory.Monads.Kleisli]
C:1 [in UniMath.CategoryTheory.limits.graphs.initial]
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C:1 [in UniMath.CategoryTheory.NNO]
C:1 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
C:1 [in UniMath.Bicategories.Discreteness]
C:1 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C:1 [in UniMath.CategoryTheory.Adjunctions.Restriction]
C:1 [in UniMath.CategoryTheory.Subcategory.Reflective]
C:1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
C:1 [in UniMath.SubstitutionSystems.SignatureExamples]
C:1 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
C:1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
C:1 [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
C:1 [in UniMath.CategoryTheory.Monads.Derivative]
C:1 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
C:1 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
C:1 [in UniMath.CategoryTheory.Core.TransportMorphisms]
C:1 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:1 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:1 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
C:1 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:1 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
C:1 [in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
C:1 [in UniMath.CategoryTheory.limits.pullbacks]
C:1 [in UniMath.CategoryTheory.limits.graphs.zero]
C:1 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:1 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
C:1 [in UniMath.CategoryTheory.Profunctors.Core]
C:1 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
C:1 [in UniMath.CategoryTheory.Adjunctions.Examples]
C:1 [in UniMath.Bicategories.Core.TransportLaws]
C:1 [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
C:1 [in UniMath.CategoryTheory.exponentials]
C:1 [in UniMath.CategoryTheory.limits.coequalizers]
C:1 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
C:1 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
C:1 [in UniMath.CategoryTheory.PointedFunctors]
C:1 [in UniMath.CategoryTheory.FunctorCoalgebras]
C:1 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
C:1 [in UniMath.CategoryTheory.ArrowCategory]
C:1 [in UniMath.Bicategories.Core.Unitors]
C:1 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
C:1 [in UniMath.Bicategories.Colimits.Initial]
C:1 [in UniMath.CategoryTheory.RightKanExtension]
C:1 [in UniMath.Bicategories.Core.Examples.StrictCats]
C:1 [in UniMath.CategoryTheory.Core.TwoCategories]
C:1 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
C:1 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
C:1 [in UniMath.SubstitutionSystems.LiftingInitial]
C:1 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
C:1 [in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
C:1 [in UniMath.CategoryTheory.Monads.KTriples]
C:1 [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
C:1 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
C:1 [in UniMath.CategoryTheory.limits.terminal]
C:1 [in UniMath.CategoryTheory.Morphisms]
C:1 [in UniMath.CategoryTheory.limits.graphs.limits]
C:1 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
C:10 [in UniMath.CategoryTheory.Presheaf]
C:10 [in UniMath.CategoryTheory.Abelian]
C:10 [in UniMath.Combinatorics.ZFstructures]
C:10 [in UniMath.CategoryTheory.yoneda]
C:10 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
C:10 [in UniMath.CategoryTheory.ProductCategory]
c:10 [in UniMath.PAdics.frac]
c:10 [in UniMath.Bicategories.Core.Strictness]
C:10 [in UniMath.CategoryTheory.covyoneda]
C:10 [in UniMath.CategoryTheory.EpiFacts]
C:10 [in UniMath.CategoryTheory.FunctorCategory]
C:10 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:10 [in UniMath.CategoryTheory.SubobjectClassifier]
C:10 [in UniMath.CategoryTheory.SetValuedFunctors]
C:10 [in UniMath.CategoryTheory.Core.Setcategories]
C:10 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:10 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
c:10 [in UniMath.CategoryTheory.HorizontalComposition]
C:10 [in UniMath.CategoryTheory.Groupoids]
c:10 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:10 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
c:10 [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
C:10 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
C:10 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
C:10 [in UniMath.CategoryTheory.Profunctors.Core]
C:10 [in UniMath.Bicategories.Core.TransportLaws]
c:10 [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
C:10 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
C:10 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
C:10 [in UniMath.Bicategories.Core.Examples.StrictCats]
C:10 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
c:10 [in UniMath.CategoryTheory.precomp_ess_surj]
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C:10 [in UniMath.CategoryTheory.limits.graphs.limits]
C:100 [in UniMath.CategoryTheory.whiskering]
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C:100 [in UniMath.Induction.M.ComputationalM]
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c:100 [in UniMath.CategoryTheory.limits.graphs.binproducts]
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C:100 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C:100 [in UniMath.CategoryTheory.Monads.KTriples]
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C:1007 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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C:101 [in UniMath.Bicategories.Core.EquivToAdjequiv]
C:101 [in UniMath.CategoryTheory.Monads.RelativeMonads]
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c:101 [in UniMath.Folds.folds_pre_2_cat]
c:101 [in UniMath.Induction.M.ComputationalM]
C:101 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
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C:101 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
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C:101 [in UniMath.HomologicalAlgebra.CohomologyComplex]
c:101 [in UniMath.CategoryTheory.limits.cats.limits]
C:101 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
C:101 [in UniMath.CategoryTheory.Monads.Derivative]
C:101 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:101 [in UniMath.CategoryTheory.Core.Categories]
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C:1015 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:1017 [in UniMath.CategoryTheory.DisplayedCats.Core]
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C:102 [in UniMath.CategoryTheory.categories.abgrs]
C:102 [in UniMath.CategoryTheory.Core.Functors]
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C:102 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:102 [in UniMath.CategoryTheory.Core.Univalence]
C:102 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:102 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C:102 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:102 [in UniMath.CategoryTheory.limits.graphs.limits]
c:1023 [in UniMath.Algebra.RigsAndRings]
C:1029 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:103 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
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C:103 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
c:103 [in UniMath.CategoryTheory.AbelianToAdditive]
C:103 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
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C:103 [in UniMath.CategoryTheory.Core.TransportMorphisms]
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C:104 [in UniMath.Algebra.FixedPointTheorems]
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c:104 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C:104 [in UniMath.CategoryTheory.HorizontalComposition]
C:104 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:104 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
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c:104 [in UniMath.CategoryTheory.limits.binproducts]
c:105 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:105 [in UniMath.CategoryTheory.Monads.Monads]
C:105 [in UniMath.CategoryTheory.Core.Functors]
C:105 [in UniMath.CategoryTheory.whiskering]
c:105 [in UniMath.CategoryTheory.PseudoElements]
C:105 [in UniMath.Induction.M.ComputationalM]
C:105 [in UniMath.CategoryTheory.opp_precat]
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C:105 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:105 [in UniMath.CategoryTheory.limits.cats.limits]
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c:105 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
c:105 [in UniMath.CategoryTheory.Monads.KTriples]
C:106 [in UniMath.CategoryTheory.Monads.Monads]
C:106 [in UniMath.Bicategories.Core.Bicat]
C:106 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
C:106 [in UniMath.CategoryTheory.DisplayedCats.Examples]
c:106 [in UniMath.Induction.M.ComputationalM]
C:106 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:106 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:106 [in UniMath.CategoryTheory.Monads.LModules]
C:106 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
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C:107 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:107 [in UniMath.CategoryTheory.Subcategory.Full]
C:107 [in UniMath.Bicategories.Transformations.PseudoTransformation]
C:107 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:107 [in UniMath.CategoryTheory.FunctorCategory]
c:107 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
C:107 [in UniMath.CategoryTheory.opp_precat]
C:107 [in UniMath.Bicategories.Core.Invertible_2cells]
C:107 [in UniMath.CategoryTheory.HorizontalComposition]
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C:107 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:1074 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:108 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:108 [in UniMath.CategoryTheory.categories.abgrs]
C:108 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
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C:108 [in UniMath.CategoryTheory.Core.Univalence]
C:108 [in UniMath.HomologicalAlgebra.Complexes]
C:108 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:108 [in UniMath.CategoryTheory.Monads.KTriples]
C:1085 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:1089 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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c:109 [in UniMath.CategoryTheory.limits.bincoproducts]
C:109 [in UniMath.Folds.folds_pre_2_cat]
c:109 [in UniMath.CategoryTheory.AbelianToAdditive]
C:109 [in UniMath.Induction.M.ComputationalM]
C:109 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
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c:109 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
c:109 [in UniMath.CategoryTheory.Core.TwoCategories]
C:109 [in UniMath.CategoryTheory.limits.graphs.limits]
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C:1094 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:1096 [in UniMath.Algebra.BinaryOperations]
C:1099 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:1099 [in UniMath.Foundations.Sets]
c:11 [in UniMath.CategoryTheory.GrothendieckTopos]
c:11 [in UniMath.CategoryTheory.Monads.RelativeMonads]
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C:11 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:11 [in UniMath.CategoryTheory.Monads.Monads]
C:11 [in UniMath.MoreFoundations.WeakEquivalences]
C:11 [in UniMath.CategoryTheory.Subcategory.Full]
C:11 [in UniMath.Bicategories.Core.Bicat]
C:11 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
c:11 [in UniMath.CategoryTheory.yoneda]
C:11 [in UniMath.CategoryTheory.limits.initial]
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c:11 [in UniMath.CategoryTheory.Core.Isos]
C:11 [in UniMath.CategoryTheory.Chains.Chains]
C:11 [in UniMath.CategoryTheory.Monads.KleisliCategory]
c:11 [in UniMath.CategoryTheory.opp_precat]
C:11 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:11 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:11 [in UniMath.Bicategories.Core.Invertible_2cells]
C:11 [in UniMath.CategoryTheory.Core.Setcategories]
C:11 [in UniMath.Bicategories.BicatOfBicategory]
C:11 [in UniMath.Bicategories.Core.Univalence]
C:11 [in UniMath.CategoryTheory.HorizontalComposition]
c:11 [in UniMath.CategoryTheory.limits.graphs.binproducts]
C:11 [in UniMath.CategoryTheory.Groupoids]
c:11 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:11 [in UniMath.CategoryTheory.limits.cats.limits]
C:11 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:11 [in UniMath.Bicategories.Discreteness]
C:11 [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
C:11 [in UniMath.Induction.M.Chains]
c:11 [in UniMath.CategoryTheory.Monads.LModules]
C:11 [in UniMath.CategoryTheory.Adjunctions.Examples]
c:11 [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
C:11 [in UniMath.CategoryTheory.Core.Categories]
c:11 [in UniMath.CategoryTheory.limits.binproducts]
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c:110 [in UniMath.CategoryTheory.limits.coproducts]
C:110 [in UniMath.Folds.folds_pre_2_cat]
c:110 [in UniMath.Induction.M.ComputationalM]
C:110 [in UniMath.CategoryTheory.Core.Isos]
C:110 [in UniMath.CategoryTheory.HorizontalComposition]
C:110 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C:110 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
c:110 [in UniMath.CategoryTheory.Monads.Derivative]
C:110 [in UniMath.HomologicalAlgebra.Complexes]
C:110 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:110 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:1100 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:1101 [in UniMath.Algebra.BinaryOperations]
c:1105 [in UniMath.Algebra.BinaryOperations]
C:1106 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:1107 [in UniMath.Foundations.Sets]
C:111 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
C:111 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:111 [in UniMath.CategoryTheory.Monads.Monads]
c:111 [in UniMath.MoreFoundations.Equivalences]
C:111 [in UniMath.Folds.folds_pre_2_cat]
c:111 [in UniMath.CategoryTheory.PseudoElements]
c:111 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c:111 [in UniMath.CategoryTheory.limits.graphs.binproducts]
C:111 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:111 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:111 [in UniMath.CategoryTheory.limits.products]
C:111 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:111 [in UniMath.HomologicalAlgebra.Complexes]
c:111 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:111 [in UniMath.CategoryTheory.Monads.LModules]
C:1111 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:1112 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:1112 [in UniMath.Foundations.PartA]
C:1116 [in UniMath.CategoryTheory.DisplayedCats.Core]
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c:1383 [in UniMath.Algebra.BinaryOperations]
c:1386 [in UniMath.Algebra.BinaryOperations]
c:1389 [in UniMath.Algebra.BinaryOperations]
C:139 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
c:139 [in UniMath.CategoryTheory.PseudoElements]
C:139 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c:139 [in UniMath.CategoryTheory.limits.BinDirectSums]
C:139 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:139 [in UniMath.CategoryTheory.Core.Univalence]
C:139 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:139 [in UniMath.CategoryTheory.Monads.LModules]
c:1392 [in UniMath.Algebra.BinaryOperations]
C:1395 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:1395 [in UniMath.Algebra.BinaryOperations]
c:1398 [in UniMath.Algebra.BinaryOperations]
C:14 [in UniMath.CategoryTheory.Abelian]
c:14 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:14 [in UniMath.CategoryTheory.ElementsOp]
C:14 [in UniMath.CategoryTheory.DisplayedCats.Projection]
c:14 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
c:14 [in UniMath.RealNumbers.NonnegativeReals]
C:14 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
C:14 [in UniMath.MoreFoundations.DecidablePropositions]
C:14 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:14 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
C:14 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
c:14 [in UniMath.Folds.folds_pre_2_cat]
C:14 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:14 [in UniMath.CategoryTheory.CategoryEquality]
C:14 [in UniMath.CategoryTheory.FunctorCategory]
C:14 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c:14 [in UniMath.Bicategories.Core.Invertible_2cells]
C:14 [in UniMath.Folds.folds_precat]
C:14 [in UniMath.CategoryTheory.Core.Setcategories]
C:14 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:14 [in UniMath.Bicategories.BicatOfBicategory]
C:14 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
c:14 [in UniMath.Bicategories.DisplayedBicats.Fibration]
c:14 [in UniMath.CategoryTheory.Subobjects]
C:14 [in UniMath.CategoryTheory.Monads.Kleisli]
C:14 [in UniMath.CategoryTheory.Core.Univalence]
C:14 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
C:14 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:14 [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
C:14 [in UniMath.HomologicalAlgebra.Complexes]
C:14 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:14 [in UniMath.CategoryTheory.Adjunctions.Examples]
c:14 [in UniMath.CategoryTheory.RightKanExtension]
c:14 [in UniMath.Folds.from_precats_to_folds_and_back]
C:140 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:140 [in UniMath.CategoryTheory.limits.coproducts]
C:140 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:140 [in UniMath.CategoryTheory.Core.Isos]
C:140 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:140 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
C:140 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:140 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:140 [in UniMath.CategoryTheory.Monads.KTriples]
C:1401 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:1401 [in UniMath.Algebra.BinaryOperations]
C:1407 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:141 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:141 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:141 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:141 [in UniMath.Folds.folds_pre_2_cat]
c:141 [in UniMath.CategoryTheory.PseudoElements]
c:141 [in UniMath.PAdics.lemmas]
c:141 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
C:141 [in UniMath.CategoryTheory.limits.products]
C:141 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:141 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:141 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
C:141 [in UniMath.CategoryTheory.Morphisms]
C:1413 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:142 [in UniMath.CategoryTheory.catiso]
C:142 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:142 [in UniMath.Bicategories.Core.Bicat]
C:142 [in UniMath.CategoryTheory.whiskering]
C:142 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
c:142 [in UniMath.CategoryTheory.opp_precat]
C:142 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:142 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
c:142 [in UniMath.CategoryTheory.limits.Opp]
C:1424 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:143 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:143 [in UniMath.CategoryTheory.Core.Functors]
C:143 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
c:143 [in UniMath.CategoryTheory.Core.Isos]
C:143 [in UniMath.CategoryTheory.FunctorCategory]
c:143 [in UniMath.CategoryTheory.opp_precat]
C:143 [in UniMath.CategoryTheory.limits.cats.limits]
c:143 [in UniMath.CategoryTheory.Core.Univalence]
C:143 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:143 [in UniMath.CategoryTheory.Monads.LModules]
C:1433 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:1436 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:1437 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
C:144 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
C:144 [in UniMath.Bicategories.Transformations.PseudoTransformation]
c:144 [in UniMath.CategoryTheory.limits.graphs.pushouts]
c:144 [in UniMath.CategoryTheory.PseudoElements]
C:144 [in UniMath.CategoryTheory.opp_precat]
C:144 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:144 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:144 [in UniMath.CategoryTheory.limits.products]
C:144 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
C:144 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:144 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:144 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:144 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
C:144 [in UniMath.CategoryTheory.Morphisms]
c:1444 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:1447 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:145 [in UniMath.RealNumbers.Reals]
c:145 [in UniMath.CategoryTheory.limits.BinDirectSums]
c:145 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
c:145 [in UniMath.CategoryTheory.limits.graphs.colimits]
c:145 [in UniMath.CategoryTheory.Monads.LModules]
C:145 [in UniMath.CategoryTheory.Monads.KTriples]
c:146 [in UniMath.CategoryTheory.whiskering]
C:146 [in UniMath.Folds.folds_pre_2_cat]
c:146 [in UniMath.CategoryTheory.PseudoElements]
C:146 [in UniMath.CategoryTheory.Core.Isos]
C:146 [in UniMath.CategoryTheory.Adjunctions.Core]
c:146 [in UniMath.Algebra.RigsAndRings]
c:146 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:146 [in UniMath.CategoryTheory.Core.Univalence]
C:146 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
c:147 [in UniMath.CategoryTheory.limits.coproducts]
C:147 [in UniMath.CategoryTheory.opp_precat]
C:147 [in UniMath.Bicategories.Core.Invertible_2cells]
c:147 [in UniMath.CategoryTheory.Core.Univalence]
c:147 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:147 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
c:147 [in UniMath.Foundations.PartA]
C:147 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
C:147 [in UniMath.CategoryTheory.Monads.KTriples]
C:147 [in UniMath.CategoryTheory.Morphisms]
C:147 [in UniMath.CategoryTheory.limits.graphs.limits]
C:148 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:148 [in UniMath.Bicategories.Transformations.PseudoTransformation]
C:148 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
c:148 [in UniMath.CategoryTheory.limits.pushouts]
C:148 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:148 [in UniMath.RealNumbers.Reals]
C:148 [in UniMath.CategoryTheory.Core.Isos]
C:148 [in UniMath.CategoryTheory.opp_precat]
c:148 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:148 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c:148 [in UniMath.CategoryTheory.limits.Opp]
C:148 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:148 [in UniMath.CategoryTheory.limits.pullbacks]
C:149 [in UniMath.CategoryTheory.Core.Functors]
C:149 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
c:149 [in UniMath.CategoryTheory.PseudoElements]
C:149 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c:149 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
C:149 [in UniMath.CategoryTheory.Monads.KTriples]
C:15 [in UniMath.Bicategories.Core.EquivToAdjequiv]
c:15 [in UniMath.CategoryTheory.GrothendieckTopos]
c:15 [in UniMath.SubstitutionSystems.BinSumOfSignatures]
C:15 [in UniMath.CategoryTheory.Elements]
c:15 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:15 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:15 [in UniMath.CategoryTheory.Monads.Monads]
C:15 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
C:15 [in UniMath.CategoryTheory.category_binops]
c:15 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
C:15 [in UniMath.Bicategories.Transformations.PseudoTransformation]
c:15 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C:15 [in UniMath.MoreFoundations.DecidablePropositions]
C:15 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
C:15 [in UniMath.CategoryTheory.limits.initial]
c:15 [in UniMath.Folds.folds_pre_2_cat]
c:15 [in UniMath.PAdics.frac]
c:15 [in UniMath.CategoryTheory.PseudoElements]
C:15 [in UniMath.CategoryTheory.Monads.KleisliCategory]
c:15 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c:15 [in UniMath.CategoryTheory.coslicecat]
C:15 [in UniMath.Folds.folds_precat]
C:15 [in UniMath.CategoryTheory.Core.Setcategories]
c:15 [in UniMath.CategoryTheory.slicecat]
c:15 [in UniMath.CategoryTheory.Subobjects]
C:15 [in UniMath.CategoryTheory.Groupoids]
C:15 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:15 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:15 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:15 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
C:15 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:15 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
C:15 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
C:15 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
c:15 [in UniMath.CategoryTheory.RightKanExtension]
C:15 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
c:15 [in UniMath.CategoryTheory.Morphisms]
c:150 [in UniMath.CategoryTheory.ExactCategories.Tests]
C:150 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:150 [in UniMath.Folds.folds_pre_2_cat]
C:150 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C:150 [in UniMath.CategoryTheory.opp_precat]
C:150 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:150 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
c:150 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
C:151 [in UniMath.CategoryTheory.whiskering]
c:151 [in UniMath.CategoryTheory.limits.graphs.pushouts]
C:151 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:151 [in UniMath.CategoryTheory.opp_precat]
c:151 [in UniMath.CategoryTheory.limits.BinDirectSums]
C:151 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c:151 [in UniMath.CategoryTheory.Core.TransportMorphisms]
C:151 [in UniMath.CategoryTheory.Monads.LModules]
C:151 [in UniMath.CategoryTheory.Monads.KTriples]
c:152 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:152 [in UniMath.CategoryTheory.PseudoElements]
C:152 [in UniMath.CategoryTheory.Core.Isos]
C:152 [in UniMath.CategoryTheory.opp_precat]
C:152 [in UniMath.HomologicalAlgebra.CohomologyComplex]
c:152 [in UniMath.Algebra.RigsAndRings]
C:152 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
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C:152 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:152 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:153 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:153 [in UniMath.CategoryTheory.FunctorCategory]
C:153 [in UniMath.CategoryTheory.opp_precat]
C:153 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
c:153 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:153 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:153 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
C:153 [in UniMath.CategoryTheory.Monads.KTriples]
c:154 [in UniMath.CategoryTheory.opp_precat]
C:154 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:154 [in UniMath.CategoryTheory.limits.products]
c:154 [in UniMath.CategoryTheory.limits.Opp]
C:154 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
C:154 [in UniMath.HomologicalAlgebra.TranslationFunctors]
C:154 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
C:155 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:155 [in UniMath.CategoryTheory.Core.Functors]
C:155 [in UniMath.CategoryTheory.whiskering]
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C:155 [in UniMath.CategoryTheory.opp_precat]
C:155 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C:155 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:155 [in UniMath.CategoryTheory.Adjunctions.Core]
c:155 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:155 [in UniMath.CategoryTheory.Core.TransportMorphisms]
c:155 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:155 [in UniMath.CategoryTheory.Monads.LModules]
C:156 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:156 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:156 [in UniMath.CategoryTheory.Monads.Monads]
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C:156 [in UniMath.CategoryTheory.DisplayedCats.Core]
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C:156 [in UniMath.Bicategories.Core.Invertible_2cells]
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c:156 [in UniMath.Algebra.RigsAndRings]
C:156 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:156 [in UniMath.CategoryTheory.limits.products]
C:156 [in UniMath.CategoryTheory.limits.cats.limits]
C:156 [in UniMath.CategoryTheory.Core.Univalence]
C:156 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
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C:156 [in UniMath.CategoryTheory.Monads.KTriples]
c:157 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:157 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
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C:157 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
c:157 [in UniMath.CategoryTheory.PseudoElements]
C:157 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:157 [in UniMath.CategoryTheory.opp_precat]
c:157 [in UniMath.CategoryTheory.limits.BinDirectSums]
c:157 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:157 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:157 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:1574 [in UniMath.Foundations.Sets]
c:158 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:158 [in UniMath.Bicategories.Transformations.PseudoTransformation]
C:158 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
c:158 [in UniMath.Folds.folds_pre_2_cat]
C:158 [in UniMath.CategoryTheory.FunctorCategory]
c:158 [in UniMath.CategoryTheory.Core.TransportMorphisms]
c:158 [in UniMath.CategoryTheory.limits.binproducts]
c:159 [in UniMath.CategoryTheory.ExactCategories.Tests]
C:159 [in UniMath.CategoryTheory.whiskering]
C:159 [in UniMath.Folds.folds_pre_2_cat]
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C:159 [in UniMath.HomologicalAlgebra.Triangulated]
C:159 [in UniMath.CategoryTheory.Monads.KTriples]
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C:16 [in UniMath.CategoryTheory.Presheaf]
C:16 [in UniMath.CategoryTheory.ElementsOp]
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C:16 [in UniMath.CategoryTheory.Subcategory.Full]
C:16 [in UniMath.MoreFoundations.DecidablePropositions]
C:16 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:16 [in UniMath.CategoryTheory.yoneda]
C:16 [in UniMath.CategoryTheory.Core.Functors]
C:16 [in UniMath.CategoryTheory.whiskering]
C:16 [in UniMath.Folds.folds_pre_2_cat]
C:16 [in UniMath.CategoryTheory.CategoryEquality]
C:16 [in UniMath.CategoryTheory.Core.Isos]
c:16 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
C:16 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:16 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:16 [in UniMath.CategoryTheory.categories.HSET.Colimits]
C:16 [in UniMath.CategoryTheory.Enriched.Enriched]
C:16 [in UniMath.Bicategories.Core.Univalence]
c:16 [in UniMath.CategoryTheory.Chains.Cochains]
C:16 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
C:16 [in UniMath.CategoryTheory.Subcategory.Core]
C:16 [in UniMath.CategoryTheory.Groupoids]
C:16 [in UniMath.CategoryTheory.Monads.Kleisli]
C:16 [in UniMath.CategoryTheory.Core.Univalence]
C:16 [in UniMath.HomologicalAlgebra.Complexes]
C:16 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:16 [in UniMath.CategoryTheory.limits.graphs.zero]
C:16 [in UniMath.CategoryTheory.Monads.LModules]
C:16 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
c:16 [in UniMath.CategoryTheory.RightKanExtension]
C:16 [in UniMath.CategoryTheory.limits.graphs.limits]
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C:160 [in UniMath.CategoryTheory.Core.Isos]
c:160 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
C:160 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:160 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
C:160 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:160 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:160 [in UniMath.CategoryTheory.limits.pullbacks]
C:160 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:160 [in UniMath.HomologicalAlgebra.MappingCone]
C:160 [in UniMath.CategoryTheory.limits.graphs.limits]
c:161 [in UniMath.CategoryTheory.catiso]
C:161 [in UniMath.CategoryTheory.Core.Functors]
C:161 [in UniMath.CategoryTheory.opp_precat]
C:161 [in UniMath.Bicategories.Core.Invertible_2cells]
c:161 [in UniMath.CategoryTheory.Core.Univalence]
c:161 [in UniMath.CategoryTheory.Core.Categories]
C:162 [in UniMath.CategoryTheory.Monads.Monads]
C:162 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
c:162 [in UniMath.CategoryTheory.PseudoElements]
C:162 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:162 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:162 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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C:163 [in UniMath.CategoryTheory.slicecat]
c:163 [in UniMath.CategoryTheory.limits.BinDirectSums]
C:163 [in UniMath.HomologicalAlgebra.CohomologyComplex]
c:163 [in UniMath.CategoryTheory.limits.products]
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C:163 [in UniMath.HomologicalAlgebra.MappingCone]
C:163 [in UniMath.CategoryTheory.limits.binproducts]
C:164 [in UniMath.CategoryTheory.Monads.Monads]
C:164 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
c:164 [in UniMath.Bicategories.Core.Bicat]
C:164 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:164 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:164 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
C:164 [in UniMath.CategoryTheory.FunctorCategory]
C:164 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c:164 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:164 [in UniMath.HomologicalAlgebra.Triangulated]
c:164 [in UniMath.CategoryTheory.Core.Univalence]
c:164 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:164 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:165 [in UniMath.CategoryTheory.limits.kernels]
C:165 [in UniMath.HomologicalAlgebra.CohomologyComplex]
c:165 [in UniMath.CategoryTheory.Core.Univalence]
c:165 [in UniMath.CategoryTheory.Core.TwoCategories]
C:165 [in UniMath.CategoryTheory.limits.binproducts]
C:166 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:166 [in UniMath.CategoryTheory.Monads.Monads]
C:166 [in UniMath.Bicategories.Transformations.PseudoTransformation]
C:166 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
c:166 [in UniMath.Folds.folds_pre_2_cat]
c:166 [in UniMath.CategoryTheory.PseudoElements]
c:166 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:166 [in UniMath.Bicategories.Core.Invertible_2cells]
C:166 [in UniMath.CategoryTheory.slicecat]
c:166 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:166 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:166 [in UniMath.CategoryTheory.limits.Opp]
C:166 [in UniMath.CategoryTheory.Monads.KTriples]
C:167 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:167 [in UniMath.CategoryTheory.limits.coproducts]
c:167 [in UniMath.Folds.folds_pre_2_cat]
C:167 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:167 [in UniMath.CategoryTheory.Core.Isos]
C:167 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:167 [in UniMath.CategoryTheory.Core.Univalence]
C:167 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:167 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:168 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:168 [in UniMath.CategoryTheory.Monads.Monads]
C:168 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
C:168 [in UniMath.Folds.folds_pre_2_cat]
C:168 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:168 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:168 [in UniMath.CategoryTheory.Adjunctions.Core]
c:169 [in UniMath.Bicategories.Core.Bicat]
c:169 [in UniMath.CategoryTheory.Core.Isos]
C:169 [in UniMath.HomologicalAlgebra.Triangulated]
c:169 [in UniMath.CategoryTheory.limits.Opp]
c:169 [in UniMath.CategoryTheory.Core.TransportMorphisms]
c:169 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:169 [in UniMath.CategoryTheory.Core.Categories]
C:17 [in UniMath.CategoryTheory.ExactCategories.Tests]
C:17 [in UniMath.CategoryTheory.categories.Type.Core]
c:17 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:17 [in UniMath.Bicategories.BicategoryOfBicat]
c:17 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:17 [in UniMath.CategoryTheory.Monads.Monads]
C:17 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
c:17 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
c:17 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C:17 [in UniMath.MoreFoundations.DecidablePropositions]
C:17 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
c:17 [in UniMath.CategoryTheory.yoneda]
C:17 [in UniMath.CategoryTheory.covyoneda]
c:17 [in UniMath.CategoryTheory.EpiFacts]
C:17 [in UniMath.CategoryTheory.Monads.KleisliCategory]
C:17 [in UniMath.CategoryTheory.FunctorCategory]
C:17 [in UniMath.Folds.folds_precat]
C:17 [in UniMath.CategoryTheory.Chains.Cochains]
C:17 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:17 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
C:17 [in UniMath.CategoryTheory.Core.Univalence]
C:17 [in UniMath.CategoryTheory.Subcategory.Limits]
C:17 [in UniMath.Bicategories.Discreteness]
C:17 [in UniMath.CategoryTheory.Monads.Derivative]
C:17 [in UniMath.CategoryTheory.Profunctors.Core]
C:17 [in UniMath.Folds.from_precats_to_folds_and_back]
c:17 [in UniMath.CategoryTheory.Core.Categories]
C:170 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:170 [in UniMath.CategoryTheory.Monads.Monads]
c:170 [in UniMath.RealNumbers.NonnegativeReals]
c:170 [in UniMath.CategoryTheory.limits.pushouts]
c:170 [in UniMath.CategoryTheory.limits.BinDirectSums]
C:170 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:170 [in UniMath.HomologicalAlgebra.CohomologyComplex]
c:170 [in UniMath.CategoryTheory.Adjunctions.Core]
C:170 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:170 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:171 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
c:171 [in UniMath.MoreFoundations.Equivalences]
c:171 [in UniMath.CategoryTheory.PseudoElements]
C:171 [in UniMath.CategoryTheory.FunctorCategory]
C:171 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:171 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
c:171 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:171 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:171 [in UniMath.CategoryTheory.limits.pullbacks]
C:172 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:172 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:172 [in UniMath.CategoryTheory.Monads.Monads]
c:172 [in UniMath.RealNumbers.NonnegativeReals]
c:172 [in UniMath.CategoryTheory.limits.graphs.pushouts]
C:172 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:172 [in UniMath.CategoryTheory.Core.NaturalTransformations]
c:172 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:172 [in UniMath.CategoryTheory.Core.Univalence]
c:173 [in UniMath.Bicategories.Core.FullyFaithful]
C:173 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:173 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:173 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
c:173 [in UniMath.Folds.folds_pre_2_cat]
C:173 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c:173 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:173 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:173 [in UniMath.CategoryTheory.limits.cats.limits]
c:173 [in UniMath.CategoryTheory.Core.TransportMorphisms]
c:173 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:173 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C:173 [in UniMath.CategoryTheory.Monads.KTriples]
C:174 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:174 [in UniMath.CategoryTheory.Monads.Monads]
c:174 [in UniMath.Bicategories.Core.Bicat]
C:174 [in UniMath.CategoryTheory.categories.abgrs]
c:174 [in UniMath.Folds.folds_pre_2_cat]
C:174 [in UniMath.CategoryTheory.limits.cokernels]
c:174 [in UniMath.CategoryTheory.limits.BinDirectSums]
c:174 [in UniMath.Bicategories.Core.Univalence]
c:174 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:174 [in UniMath.CategoryTheory.limits.products]
c:174 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
C:174 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
c:174 [in UniMath.CategoryTheory.Core.TwoCategories]
C:174 [in UniMath.CategoryTheory.Monads.KTriples]
c:175 [in UniMath.Folds.folds_pre_2_cat]
C:175 [in UniMath.CategoryTheory.Core.Isos]
c:175 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
c:175 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:175 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
c:175 [in UniMath.CategoryTheory.Core.Univalence]
C:175 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:175 [in UniMath.CategoryTheory.Monads.KTriples]
C:176 [in UniMath.CategoryTheory.catiso]
C:176 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:176 [in UniMath.CategoryTheory.Monads.Monads]
c:176 [in UniMath.PAdics.z_mod_p]
c:176 [in UniMath.Folds.folds_pre_2_cat]
c:176 [in UniMath.CategoryTheory.PseudoElements]
c:176 [in UniMath.PAdics.lemmas]
C:176 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:176 [in UniMath.CategoryTheory.Core.Univalence]
C:176 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:176 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:176 [in UniMath.CategoryTheory.Monads.KTriples]
c:177 [in UniMath.Folds.folds_pre_2_cat]
C:177 [in UniMath.CategoryTheory.FunctorCategory]
C:177 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:177 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:177 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:177 [in UniMath.CategoryTheory.Core.TransportMorphisms]
c:177 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
c:177 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C:177 [in UniMath.CategoryTheory.Monads.KTriples]
C:177 [in UniMath.CategoryTheory.Core.Categories]
C:177 [in UniMath.CategoryTheory.limits.graphs.limits]
C:178 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:178 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:178 [in UniMath.CategoryTheory.Monads.Monads]
c:178 [in UniMath.Folds.folds_pre_2_cat]
C:178 [in UniMath.CategoryTheory.Core.NaturalTransformations]
c:178 [in UniMath.CategoryTheory.Core.Isos]
C:178 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:178 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c:178 [in UniMath.CategoryTheory.ShortExactSequences]
c:178 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:178 [in UniMath.CategoryTheory.Monads.KTriples]
C:179 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:179 [in UniMath.CategoryTheory.Core.Functors]
c:179 [in UniMath.Folds.folds_pre_2_cat]
C:179 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:179 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:179 [in UniMath.CategoryTheory.Monads.KTriples]
C:179 [in UniMath.CategoryTheory.Core.Categories]
C:18 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
C:18 [in UniMath.Bicategories.Core.UnivalenceOp]
c:18 [in UniMath.CategoryTheory.categories.Type.Core]
C:18 [in UniMath.CategoryTheory.Presheaf]
c:18 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:18 [in UniMath.CategoryTheory.Abelian]
C:18 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:18 [in UniMath.CategoryTheory.ElementsOp]
C:18 [in UniMath.CategoryTheory.Monads.Monads]
C:18 [in UniMath.CategoryTheory.Subcategory.Full]
C:18 [in UniMath.MoreFoundations.DecidablePropositions]
C:18 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:18 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
C:18 [in UniMath.CategoryTheory.limits.initial]
c:18 [in UniMath.CategoryTheory.limits.graphs.pushouts]
c:18 [in UniMath.CategoryTheory.limits.pushouts]
c:18 [in UniMath.CategoryTheory.covyoneda]
C:18 [in UniMath.CategoryTheory.Chains.Chains]
C:18 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:18 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
c:18 [in UniMath.CategoryTheory.coslicecat]
C:18 [in UniMath.Bicategories.PseudoFunctors.Representable]
c:18 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:18 [in UniMath.CategoryTheory.slicecat]
c:18 [in UniMath.CategoryTheory.Chains.Cochains]
C:18 [in UniMath.CategoryTheory.HorizontalComposition]
C:18 [in UniMath.CategoryTheory.Subcategory.Core]
c:18 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:18 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:18 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
C:18 [in UniMath.CategoryTheory.Core.Univalence]
c:18 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
c:18 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
c:18 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:18 [in UniMath.CategoryTheory.limits.graphs.zero]
C:18 [in UniMath.CategoryTheory.Monads.LModules]
C:18 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
C:180 [in UniMath.CategoryTheory.Monads.Monads]
c:180 [in UniMath.PAdics.z_mod_p]
c:180 [in UniMath.Folds.folds_pre_2_cat]
c:180 [in UniMath.CategoryTheory.limits.BinDirectSums]
c:180 [in UniMath.Bicategories.Core.Univalence]
c:180 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:180 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:181 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:181 [in UniMath.CategoryTheory.limits.pushouts]
c:181 [in UniMath.Folds.folds_pre_2_cat]
c:181 [in UniMath.CategoryTheory.limits.products]
c:181 [in UniMath.CategoryTheory.Core.TransportMorphisms]
C:181 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:181 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
C:181 [in UniMath.CategoryTheory.Core.TwoCategories]
C:182 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:182 [in UniMath.CategoryTheory.Monads.Monads]
C:182 [in UniMath.Bicategories.Transformations.PseudoTransformation]
c:182 [in UniMath.Folds.folds_pre_2_cat]
C:182 [in UniMath.CategoryTheory.Core.Isos]
c:182 [in UniMath.PAdics.lemmas]
C:182 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:182 [in UniMath.CategoryTheory.Core.TwoCategories]
c:182 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C:182 [in UniMath.CategoryTheory.Monads.KTriples]
c:1828 [in UniMath.Foundations.PartA]
c:183 [in UniMath.Bicategories.Core.Bicat]
c:183 [in UniMath.CategoryTheory.limits.graphs.pushouts]
c:183 [in UniMath.Folds.folds_pre_2_cat]
c:183 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:183 [in UniMath.CategoryTheory.FunctorCategory]
C:183 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:183 [in UniMath.CategoryTheory.Core.TwoCategories]
C:183 [in UniMath.CategoryTheory.Core.Categories]
c:183 [in UniMath.CategoryTheory.limits.binproducts]
C:184 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:184 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:184 [in UniMath.CategoryTheory.Monads.Monads]
c:184 [in UniMath.Folds.folds_pre_2_cat]
C:184 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:184 [in UniMath.CategoryTheory.slicecat]
C:184 [in UniMath.CategoryTheory.Core.TwoCategories]
c:184 [in UniMath.CategoryTheory.limits.binproducts]
C:185 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:185 [in UniMath.CategoryTheory.categories.abgrs]
C:185 [in UniMath.CategoryTheory.Core.Functors]
C:185 [in UniMath.Folds.folds_pre_2_cat]
C:185 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
C:185 [in UniMath.CategoryTheory.Adjunctions.Core]
C:185 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:185 [in UniMath.CategoryTheory.limits.pullbacks]
C:186 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:186 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
c:186 [in UniMath.CategoryTheory.Core.Isos]
C:186 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:186 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:187 [in UniMath.CategoryTheory.Monads.Monads]
C:187 [in UniMath.Bicategories.Transformations.PseudoTransformation]
C:187 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C:187 [in UniMath.CategoryTheory.slicecat]
c:187 [in UniMath.CategoryTheory.Adjunctions.Core]
C:187 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:187 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
c:187 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C:187 [in UniMath.CategoryTheory.Core.Categories]
c:187 [in UniMath.CategoryTheory.limits.binproducts]
C:188 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:188 [in UniMath.CategoryTheory.Core.Functors]
c:188 [in UniMath.CategoryTheory.limits.pushouts]
C:188 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:188 [in UniMath.CategoryTheory.Core.Isos]
C:188 [in UniMath.CategoryTheory.FunctorCategory]
c:188 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
C:188 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:188 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:188 [in UniMath.CategoryTheory.limits.cats.limits]
C:188 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:188 [in UniMath.CategoryTheory.limits.binproducts]
C:189 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:189 [in UniMath.Algebra.Domains_and_Fields]
C:189 [in UniMath.CategoryTheory.slicecat]
c:189 [in UniMath.CategoryTheory.limits.BinDirectSums]
c:189 [in UniMath.CategoryTheory.ShortExactSequences]
C:189 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
c:189 [in UniMath.CategoryTheory.limits.binproducts]
c:19 [in UniMath.CategoryTheory.Presheaf]
c:19 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
C:19 [in UniMath.Bicategories.Transformations.PseudoTransformation]
C:19 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
C:19 [in UniMath.MoreFoundations.DecidablePropositions]
C:19 [in UniMath.Induction.M.ComputationalM]
c:19 [in UniMath.CategoryTheory.Chains.Chains]
C:19 [in UniMath.CategoryTheory.FunctorCategory]
c:19 [in UniMath.CategoryTheory.opp_precat]
C:19 [in UniMath.CategoryTheory.SubobjectClassifier]
C:19 [in UniMath.Bicategories.Core.Univalence]
C:19 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:19 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
c:19 [in UniMath.CategoryTheory.Subobjects]
C:19 [in UniMath.CategoryTheory.Core.Univalence]
C:19 [in UniMath.CategoryTheory.Core.TransportMorphisms]
c:19 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:19 [in UniMath.CategoryTheory.limits.pullbacks]
c:19 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
C:19 [in UniMath.Bicategories.Core.TransportLaws]
c:19 [in UniMath.CategoryTheory.RightKanExtension]
c:19 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
C:19 [in UniMath.CategoryTheory.Core.Categories]
c:19 [in UniMath.CategoryTheory.limits.graphs.limits]
C:190 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:190 [in UniMath.CategoryTheory.Monads.Monads]
c:190 [in UniMath.CategoryTheory.limits.graphs.pushouts]
C:190 [in UniMath.Folds.folds_pre_2_cat]
C:190 [in UniMath.CategoryTheory.Core.NaturalTransformations]
c:190 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:190 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:190 [in UniMath.CategoryTheory.Core.Categories]
c:190 [in UniMath.CategoryTheory.limits.binproducts]
C:191 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:191 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:191 [in UniMath.CategoryTheory.FunctorCategory]
c:191 [in UniMath.CategoryTheory.slicecat]
c:191 [in UniMath.CategoryTheory.limits.cats.limits]
c:191 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:191 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
c:192 [in UniMath.CategoryTheory.Core.Isos]
C:192 [in UniMath.CategoryTheory.limits.graphs.limits]
C:193 [in UniMath.CategoryTheory.Core.Isos]
c:193 [in UniMath.Algebra.Domains_and_Fields]
C:194 [in UniMath.CategoryTheory.ExactCategories.Tests]
C:194 [in UniMath.CategoryTheory.categories.abgrs]
C:194 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
c:194 [in UniMath.CategoryTheory.slicecat]
c:194 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:194 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:194 [in UniMath.CategoryTheory.limits.binproducts]
C:195 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:195 [in UniMath.CategoryTheory.Monads.Monads]
C:195 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
C:195 [in UniMath.CategoryTheory.Core.Functors]
c:195 [in UniMath.CategoryTheory.limits.pushouts]
C:195 [in UniMath.Folds.folds_pre_2_cat]
C:195 [in UniMath.CategoryTheory.FunctorCategory]
c:195 [in UniMath.CategoryTheory.limits.BinDirectSums]
C:195 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:195 [in UniMath.CategoryTheory.Core.Categories]
C:196 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:196 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c:196 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
C:196 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:196 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:196 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
c:196 [in UniMath.CategoryTheory.limits.graphs.limits]
c:197 [in UniMath.CategoryTheory.limits.graphs.pushouts]
c:197 [in UniMath.CategoryTheory.Core.Isos]
c:197 [in UniMath.CategoryTheory.slicecat]
C:197 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:197 [in UniMath.CategoryTheory.limits.cats.limits]
c:197 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:198 [in UniMath.CategoryTheory.Core.Functors]
c:198 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:198 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:198 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
c:198 [in UniMath.CategoryTheory.Core.Categories]
C:199 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:199 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:199 [in UniMath.CategoryTheory.FunctorCategory]
c:199 [in UniMath.CategoryTheory.ShortExactSequences]
c:2 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
c:2 [in UniMath.CategoryTheory.GrothendieckTopos]
C:2 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
C:2 [in UniMath.CategoryTheory.Abelian]
c:2 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:2 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c:2 [in UniMath.CategoryTheory.limits.graphs.terminal]
C:2 [in UniMath.CategoryTheory.ProductCategory]
C:2 [in UniMath.CategoryTheory.rezk_completion]
C:2 [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
c:2 [in UniMath.CategoryTheory.Quotobjects]
c:2 [in UniMath.CategoryTheory.PseudoElements]
c:2 [in UniMath.CategoryTheory.covyoneda]
C:2 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
C:2 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:2 [in UniMath.CategoryTheory.Core.Setcategories]
C:2 [in UniMath.CategoryTheory.Enriched.Enriched]
c:2 [in UniMath.CategoryTheory.Subobjects]
C:2 [in UniMath.SubstitutionSystems.SumOfSignatures]
C:2 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:2 [in UniMath.CategoryTheory.Monads.Kleisli]
C:2 [in UniMath.CategoryTheory.limits.cats.limits]
C:2 [in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
c:2 [in UniMath.CategoryTheory.limits.graphs.zero]
C:2 [in UniMath.HomologicalAlgebra.TranslationFunctors]
C:2 [in UniMath.CategoryTheory.CommaCategories]
c:2 [in UniMath.CategoryTheory.limits.binproducts]
c:20 [in UniMath.CategoryTheory.GrothendieckTopos]
C:20 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
C:20 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:20 [in UniMath.CategoryTheory.Monads.Monads]
C:20 [in UniMath.CategoryTheory.Subcategory.Full]
C:20 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
C:20 [in UniMath.MoreFoundations.DecidablePropositions]
C:20 [in UniMath.CategoryTheory.yoneda]
c:20 [in UniMath.Folds.folds_pre_2_cat]
C:20 [in UniMath.CategoryTheory.Core.NaturalTransformations]
c:20 [in UniMath.Induction.M.ComputationalM]
C:20 [in UniMath.CategoryTheory.Core.Isos]
C:20 [in UniMath.CategoryTheory.Monads.KleisliCategory]
C:20 [in UniMath.CategoryTheory.DisplayedCats.Limits]
c:20 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
C:20 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:20 [in UniMath.Bicategories.Core.Invertible_2cells]
c:20 [in UniMath.CategoryTheory.SetValuedFunctors]
c:20 [in UniMath.Folds.folds_precat]
C:20 [in UniMath.Bicategories.Core.Univalence]
c:20 [in UniMath.CategoryTheory.Subobjects]
C:20 [in UniMath.CategoryTheory.Subcategory.Core]
C:20 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:20 [in UniMath.CategoryTheory.Monads.Kleisli]
C:20 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:20 [in UniMath.CategoryTheory.limits.graphs.zero]
C:20 [in UniMath.CategoryTheory.Monads.LModules]
C:20 [in UniMath.CategoryTheory.Adjunctions.Examples]
C:20 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
C:20 [in UniMath.CategoryTheory.CommaCategories]
c:20 [in UniMath.CategoryTheory.Monads.KTriples]
C:20 [in UniMath.CategoryTheory.Core.Categories]
c:20 [in UniMath.CategoryTheory.limits.binproducts]
C:200 [in UniMath.CategoryTheory.Monads.Monads]
C:200 [in UniMath.CategoryTheory.categories.abgrs]
C:200 [in UniMath.Folds.folds_pre_2_cat]
c:200 [in UniMath.CategoryTheory.slicecat]
C:200 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:200 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:200 [in UniMath.CategoryTheory.limits.pullbacks]
C:200 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
c:201 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
C:201 [in UniMath.Folds.folds_pre_2_cat]
c:201 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:201 [in UniMath.CategoryTheory.Core.Isos]
c:201 [in UniMath.CategoryTheory.limits.BinDirectSums]
C:201 [in UniMath.CategoryTheory.Adjunctions.Core]
C:201 [in UniMath.CategoryTheory.limits.graphs.limits]
C:202 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:202 [in UniMath.Bicategories.Core.Bicat]
c:202 [in UniMath.CategoryTheory.limits.pushouts]
c:202 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:202 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:202 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:203 [in UniMath.CategoryTheory.Core.NaturalTransformations]
c:203 [in UniMath.CategoryTheory.Core.Isos]
C:203 [in UniMath.CategoryTheory.FunctorCategory]
c:203 [in UniMath.CategoryTheory.slicecat]
C:203 [in UniMath.CategoryTheory.Core.Categories]
C:204 [in UniMath.CategoryTheory.ExactCategories.Tests]
c:204 [in UniMath.CategoryTheory.limits.graphs.pushouts]
C:204 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:204 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:204 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:204 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c:204 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:204 [in UniMath.CategoryTheory.limits.cats.limits]
C:204 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:204 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:204 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C:205 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:205 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:205 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:206 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:206 [in UniMath.CategoryTheory.categories.abgrs]
C:206 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c:206 [in UniMath.CategoryTheory.slicecat]
c:206 [in UniMath.Bicategories.Core.Univalence]
C:206 [in UniMath.HomologicalAlgebra.MappingCone]
c:206 [in UniMath.CategoryTheory.Core.TwoCategories]
c:206 [in UniMath.CategoryTheory.Core.Categories]
C:207 [in UniMath.CategoryTheory.Core.Functors]
C:207 [in UniMath.Folds.folds_pre_2_cat]
C:207 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:207 [in UniMath.CategoryTheory.Core.Isos]
c:207 [in UniMath.Bicategories.Core.Invertible_2cells]
c:207 [in UniMath.CategoryTheory.limits.BinDirectSums]
c:207 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:207 [in UniMath.CategoryTheory.ShortExactSequences]
C:207 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:207 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:207 [in UniMath.CategoryTheory.limits.pullbacks]
C:207 [in UniMath.HomologicalAlgebra.MappingCone]
C:208 [in UniMath.CategoryTheory.limits.equalizers]
C:208 [in UniMath.CategoryTheory.Adjunctions.Core]
C:208 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:208 [in UniMath.CategoryTheory.limits.cats.limits]
C:208 [in UniMath.CategoryTheory.limits.graphs.limits]
c:209 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:209 [in UniMath.CategoryTheory.limits.pushouts]
c:209 [in UniMath.CategoryTheory.Core.Isos]
c:209 [in UniMath.CategoryTheory.limits.equalizers]
c:209 [in UniMath.CategoryTheory.slicecat]
c:209 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C:21 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
c:21 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:21 [in UniMath.CategoryTheory.Abelian]
c:21 [in UniMath.Bicategories.BicategoryOfBicat]
C:21 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
C:21 [in UniMath.CategoryTheory.DisplayedCats.Projection]
c:21 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:21 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
c:21 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
C:21 [in UniMath.MoreFoundations.DecidablePropositions]
c:21 [in UniMath.CategoryTheory.yoneda]
c:21 [in UniMath.CategoryTheory.PseudoElements]
C:21 [in UniMath.CategoryTheory.CategoryEquality]
C:21 [in UniMath.CategoryTheory.covyoneda]
C:21 [in UniMath.CategoryTheory.FunctorCategory]
C:21 [in UniMath.Folds.folds_precat]
C:21 [in UniMath.Bicategories.BicatOfBicategory]
C:21 [in UniMath.Bicategories.Core.Univalence]
C:21 [in UniMath.CategoryTheory.Chains.Cochains]
c:21 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:21 [in UniMath.CategoryTheory.Subobjects]
C:21 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:21 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:21 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:21 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
C:21 [in UniMath.CategoryTheory.limits.cats.limits]
c:21 [in UniMath.CategoryTheory.Subcategory.Limits]
C:21 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
C:21 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:21 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
C:21 [in UniMath.CategoryTheory.Monads.Derivative]
c:21 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
C:21 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
c:21 [in UniMath.Folds.from_precats_to_folds_and_back]
c:21 [in UniMath.CategoryTheory.Core.Categories]
C:210 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:210 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
C:210 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:210 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:211 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:211 [in UniMath.Bicategories.Core.Bicat]
C:211 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:211 [in UniMath.Bicategories.Core.AdjointUnique]
c:211 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:211 [in UniMath.CategoryTheory.Core.TwoCategories]
C:212 [in UniMath.CategoryTheory.categories.abgrs]
C:212 [in UniMath.CategoryTheory.Core.Functors]
c:212 [in UniMath.Folds.folds_pre_2_cat]
C:212 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
C:212 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:212 [in UniMath.CategoryTheory.Core.Isos]
c:212 [in UniMath.CategoryTheory.FunctorCategory]
c:212 [in UniMath.CategoryTheory.slicecat]
c:212 [in UniMath.CategoryTheory.limits.BinDirectSums]
C:212 [in UniMath.CategoryTheory.limits.cats.limits]
C:213 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:213 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
C:213 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:213 [in UniMath.CategoryTheory.Core.Categories]
c:214 [in UniMath.Bicategories.Core.Univalence]
c:214 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:214 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:214 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:214 [in UniMath.CategoryTheory.limits.graphs.limits]
C:215 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
c:215 [in UniMath.Bicategories.Core.Invertible_2cells]
c:215 [in UniMath.CategoryTheory.slicecat]
C:215 [in UniMath.CategoryTheory.limits.cats.limits]
C:216 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:216 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:216 [in UniMath.CategoryTheory.FunctorCategory]
C:216 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C:216 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:216 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
c:216 [in UniMath.CategoryTheory.Core.TwoCategories]
C:217 [in UniMath.CategoryTheory.Core.Functors]
C:217 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:217 [in UniMath.CategoryTheory.Core.Isos]
C:217 [in UniMath.CategoryTheory.limits.cats.limits]
C:217 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:218 [in UniMath.Bicategories.Core.AdjointUnique]
c:218 [in UniMath.CategoryTheory.slicecat]
C:218 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:218 [in UniMath.CategoryTheory.limits.cats.limits]
C:218 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:218 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:218 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:218 [in UniMath.CategoryTheory.limits.pullbacks]
C:219 [in UniMath.CategoryTheory.categories.abgrs]
c:219 [in UniMath.CategoryTheory.limits.pushouts]
c:219 [in UniMath.Folds.folds_pre_2_cat]
C:219 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
C:219 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:219 [in UniMath.CategoryTheory.Core.Categories]
c:22 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:22 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:22 [in UniMath.CategoryTheory.Monads.Monads]
C:22 [in UniMath.CategoryTheory.category_binops]
C:22 [in UniMath.CategoryTheory.Subcategory.Full]
C:22 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
C:22 [in UniMath.MoreFoundations.DecidablePropositions]
C:22 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:22 [in UniMath.CategoryTheory.yoneda]
C:22 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
C:22 [in UniMath.CategoryTheory.ProductCategory]
C:22 [in UniMath.CategoryTheory.Core.Functors]
c:22 [in UniMath.PAdics.frac]
c:22 [in UniMath.CategoryTheory.covyoneda]
c:22 [in UniMath.CategoryTheory.EpiFacts]
C:22 [in UniMath.CategoryTheory.Monads.KleisliCategory]
C:22 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C:22 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:22 [in UniMath.Bicategories.Core.Univalence]
C:22 [in UniMath.Bicategories.DisplayedBicats.Fibration]
c:22 [in UniMath.CategoryTheory.limits.graphs.binproducts]
c:22 [in UniMath.CategoryTheory.Subobjects]
C:22 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
C:22 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
C:22 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
c:22 [in UniMath.CategoryTheory.Monads.LModules]
c:22 [in UniMath.CategoryTheory.PointedFunctors]
c:22 [in UniMath.CategoryTheory.CommaCategories]
c:22 [in UniMath.Combinatorics.VectorsTests]
C:22 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
C:22 [in UniMath.CategoryTheory.Core.Categories]
c:22 [in UniMath.CategoryTheory.limits.binproducts]
C:220 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:220 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:220 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
c:220 [in UniMath.Bicategories.Core.Bicat]
C:220 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
c:220 [in UniMath.CategoryTheory.limits.BinDirectSums]
c:220 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
c:220 [in UniMath.CategoryTheory.limits.cats.limits]
c:221 [in UniMath.Bicategories.Core.Univalence]
c:221 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:221 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:221 [in UniMath.CategoryTheory.limits.graphs.limits]
C:222 [in UniMath.CategoryTheory.Core.Functors]
c:222 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:222 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
c:222 [in UniMath.CategoryTheory.slicecat]
c:222 [in UniMath.CategoryTheory.limits.cats.limits]
C:222 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:223 [in UniMath.CategoryTheory.Core.Functors]
C:223 [in UniMath.Bicategories.Core.Strictness]
C:223 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:224 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:224 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:224 [in UniMath.CategoryTheory.Core.Isos]
C:224 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
c:224 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:225 [in UniMath.Bicategories.Core.AdjointUnique]
C:225 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c:225 [in UniMath.CategoryTheory.slicecat]
c:225 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:225 [in UniMath.CategoryTheory.limits.pullbacks]
c:225 [in UniMath.CategoryTheory.Core.TwoCategories]
C:226 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:226 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
c:226 [in UniMath.CategoryTheory.slicecat]
c:226 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:226 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
C:227 [in UniMath.CategoryTheory.Core.Functors]
c:227 [in UniMath.CategoryTheory.limits.pushouts]
C:227 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
C:227 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:227 [in UniMath.CategoryTheory.limits.cats.limits]
C:227 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:227 [in UniMath.CategoryTheory.limits.graphs.limits]
c:228 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:228 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
c:228 [in UniMath.CategoryTheory.limits.graphs.pushouts]
C:228 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:228 [in UniMath.Folds.folds_pre_2_cat]
C:228 [in UniMath.CategoryTheory.FunctorCategory]
C:228 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c:228 [in UniMath.CategoryTheory.slicecat]
c:228 [in UniMath.CategoryTheory.limits.BinDirectSums]
C:228 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:228 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:229 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:229 [in UniMath.Bicategories.Core.Bicat]
c:229 [in UniMath.CategoryTheory.limits.bincoproducts]
C:229 [in UniMath.Bicategories.Core.AdjointUnique]
C:229 [in UniMath.Bicategories.Core.Strictness]
C:229 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
C:229 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:229 [in UniMath.Induction.M.Chains]
c:23 [in UniMath.CategoryTheory.Elements]
C:23 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
C:23 [in UniMath.MoreFoundations.DecidablePropositions]
C:23 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
c:23 [in UniMath.CategoryTheory.yoneda]
C:23 [in UniMath.CategoryTheory.limits.initial]
C:23 [in UniMath.Folds.folds_pre_2_cat]
c:23 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
c:23 [in UniMath.Bicategories.Core.Invertible_2cells]
C:23 [in UniMath.Bicategories.PseudoFunctors.Representable]
c:23 [in UniMath.CategoryTheory.slicecat]
C:23 [in UniMath.Bicategories.Core.Univalence]
c:23 [in UniMath.CategoryTheory.limits.products]
c:23 [in UniMath.CategoryTheory.limits.cats.limits]
C:23 [in UniMath.CategoryTheory.Subcategory.Limits]
c:23 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:23 [in UniMath.CategoryTheory.limits.graphs.zero]
C:23 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
C:23 [in UniMath.CategoryTheory.Monads.LModules]
C:23 [in UniMath.CategoryTheory.Adjunctions.Examples]
c:23 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
c:23 [in UniMath.Bicategories.Core.Unitors]
c:23 [in UniMath.CategoryTheory.DisplayedCats.SIP]
C:23 [in UniMath.CategoryTheory.limits.graphs.limits]
C:230 [in UniMath.CategoryTheory.Core.Functors]
c:230 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:230 [in UniMath.CategoryTheory.Core.Isos]
C:230 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:230 [in UniMath.CategoryTheory.limits.binproducts]
C:231 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:231 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:231 [in UniMath.CategoryTheory.Core.Categories]
c:231 [in UniMath.CategoryTheory.limits.binproducts]
C:232 [in UniMath.CategoryTheory.limits.bincoproducts]
C:232 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:232 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:232 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:232 [in UniMath.CategoryTheory.limits.pullbacks]
C:232 [in UniMath.CategoryTheory.limits.graphs.limits]
C:233 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c:233 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:234 [in UniMath.CategoryTheory.limits.bincoproducts]
C:234 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:234 [in UniMath.CategoryTheory.FunctorCategory]
c:234 [in UniMath.CategoryTheory.Core.TwoCategories]
c:234 [in UniMath.CategoryTheory.Core.Categories]
c:235 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:235 [in UniMath.CategoryTheory.Core.Functors]
C:235 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
c:235 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:235 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
c:235 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
C:235 [in UniMath.CategoryTheory.limits.graphs.limits]
c:236 [in UniMath.CategoryTheory.limits.graphs.pushouts]
C:236 [in UniMath.CategoryTheory.limits.bincoproducts]
C:236 [in UniMath.CategoryTheory.Core.Isos]
c:236 [in UniMath.CategoryTheory.limits.BinDirectSums]
c:236 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:237 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:237 [in UniMath.Bicategories.Core.Strictness]
C:237 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:238 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:238 [in UniMath.CategoryTheory.Core.Functors]
C:238 [in UniMath.CategoryTheory.limits.bincoproducts]
C:238 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C:238 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:238 [in UniMath.CategoryTheory.Core.Categories]
C:239 [in UniMath.CategoryTheory.Core.Functors]
c:239 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:239 [in UniMath.HomologicalAlgebra.CohomologyComplex]
c:239 [in UniMath.CategoryTheory.limits.pullbacks]
C:239 [in UniMath.CategoryTheory.limits.graphs.limits]
C:24 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
C:24 [in UniMath.Bicategories.Core.UnivalenceOp]
C:24 [in UniMath.CategoryTheory.Abelian]
C:24 [in UniMath.CategoryTheory.Monads.Monads]
c:24 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
C:24 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
C:24 [in UniMath.MoreFoundations.DecidablePropositions]
C:24 [in UniMath.CategoryTheory.yoneda]
C:24 [in UniMath.Folds.folds_pre_2_cat]
C:24 [in UniMath.CategoryTheory.Core.Isos]
C:24 [in UniMath.CategoryTheory.Chains.Chains]
C:24 [in UniMath.CategoryTheory.Monads.KleisliCategory]
C:24 [in UniMath.CategoryTheory.FunctorAlgebras]
C:24 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
c:24 [in UniMath.Bicategories.BicatOfBicategory]
C:24 [in UniMath.CategoryTheory.categories.HSET.Colimits]
c:24 [in UniMath.CategoryTheory.HorizontalComposition]
c:24 [in UniMath.Bicategories.DisplayedBicats.Fibration]
C:24 [in UniMath.CategoryTheory.Subcategory.Core]
C:24 [in UniMath.CategoryTheory.Groupoids]
c:24 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:24 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:24 [in UniMath.CategoryTheory.Monads.Kleisli]
C:24 [in UniMath.CategoryTheory.Core.Univalence]
c:24 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:24 [in UniMath.Bicategories.Discreteness]
C:24 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
c:24 [in UniMath.CategoryTheory.RightKanExtension]
c:24 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
c:24 [in UniMath.CategoryTheory.limits.binproducts]
C:240 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:240 [in UniMath.CategoryTheory.limits.bincoproducts]
C:240 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:240 [in UniMath.CategoryTheory.FunctorCategory]
c:240 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:241 [in UniMath.Algebra.Archimedean]
C:241 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:241 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:241 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
c:241 [in UniMath.CategoryTheory.Core.Categories]
c:242 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:242 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:242 [in UniMath.CategoryTheory.Core.Isos]
c:242 [in UniMath.CategoryTheory.limits.graphs.limits]
C:243 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:243 [in UniMath.Algebra.Archimedean]
C:243 [in UniMath.CategoryTheory.slicecat]
c:243 [in UniMath.CategoryTheory.PreAdditive]
c:244 [in UniMath.CategoryTheory.limits.BinDirectSums]
C:244 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
c:244 [in UniMath.CategoryTheory.limits.graphs.limits]
C:244 [in UniMath.CategoryTheory.limits.binproducts]
C:245 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:245 [in UniMath.CategoryTheory.Core.Functors]
C:245 [in UniMath.CategoryTheory.Core.NaturalTransformations]
c:245 [in UniMath.CategoryTheory.Core.Isos]
C:245 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C:245 [in UniMath.CategoryTheory.Core.Categories]
C:246 [in UniMath.CategoryTheory.limits.bincoproducts]
C:246 [in UniMath.Bicategories.Core.Strictness]
C:246 [in UniMath.CategoryTheory.FunctorCategory]
C:246 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:246 [in UniMath.CategoryTheory.limits.graphs.limits]
C:247 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:247 [in UniMath.CategoryTheory.limits.graphs.pushouts]
C:247 [in UniMath.Bicategories.Core.Strictness]
C:247 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:248 [in UniMath.Bicategories.Core.AdjointUnique]
C:248 [in UniMath.Bicategories.Core.Strictness]
c:248 [in UniMath.CategoryTheory.PreAdditive]
C:248 [in UniMath.CategoryTheory.limits.graphs.colimits]
c:248 [in UniMath.Induction.M.Chains]
c:248 [in UniMath.CategoryTheory.limits.graphs.limits]
C:248 [in UniMath.CategoryTheory.limits.binproducts]
c:249 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:249 [in UniMath.CategoryTheory.categories.abgrs]
C:249 [in UniMath.Bicategories.Core.Strictness]
c:249 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:249 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:249 [in UniMath.CategoryTheory.Core.Categories]
C:25 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:25 [in UniMath.CategoryTheory.Subcategory.Full]
C:25 [in UniMath.Bicategories.Transformations.PseudoTransformation]
c:25 [in UniMath.CategoryTheory.yoneda]
C:25 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
C:25 [in UniMath.CategoryTheory.ProductCategory]
C:25 [in UniMath.CategoryTheory.Core.Functors]
C:25 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
C:25 [in UniMath.CategoryTheory.whiskering]
c:25 [in UniMath.PAdics.frac]
C:25 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:25 [in UniMath.CategoryTheory.covyoneda]
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C:25 [in UniMath.CategoryTheory.Monads.Derivative]
c:25 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
c:25 [in UniMath.CategoryTheory.Monads.LModules]
c:25 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
c:25 [in UniMath.CategoryTheory.RightKanExtension]
C:25 [in UniMath.CategoryTheory.Core.TwoCategories]
C:25 [in UniMath.Folds.from_precats_to_folds_and_back]
c:25 [in UniMath.CategoryTheory.Core.Categories]
c:250 [in UniMath.Bicategories.Core.Bicat]
C:250 [in UniMath.Bicategories.Core.Strictness]
C:250 [in UniMath.CategoryTheory.Core.NaturalTransformations]
c:250 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
C:251 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:251 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:251 [in UniMath.SyntheticHomotopyTheory.Circle]
C:251 [in UniMath.CategoryTheory.Core.Functors]
c:251 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:251 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:251 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:251 [in UniMath.CategoryTheory.limits.graphs.limits]
C:252 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:252 [in UniMath.CategoryTheory.Core.Isos]
c:252 [in UniMath.CategoryTheory.limits.BinDirectSums]
C:252 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:252 [in UniMath.MoreFoundations.PartA]
c:252 [in UniMath.Induction.M.Chains]
c:253 [in UniMath.CategoryTheory.Core.Isos]
C:253 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c:253 [in UniMath.CategoryTheory.Core.TwoCategories]
C:253 [in UniMath.CategoryTheory.Core.Categories]
C:254 [in UniMath.CategoryTheory.Core.Isos]
C:254 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:254 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:254 [in UniMath.Induction.M.Chains]
C:254 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:255 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:256 [in UniMath.CategoryTheory.limits.graphs.pushouts]
C:256 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:256 [in UniMath.Bicategories.Core.Strictness]
C:256 [in UniMath.CategoryTheory.Core.NaturalTransformations]
c:256 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:257 [in UniMath.Bicategories.Core.Bicat]
c:257 [in UniMath.Algebra.BinaryOperations]
C:257 [in UniMath.Bicategories.Core.Strictness]
C:257 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:257 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:257 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:257 [in UniMath.CategoryTheory.limits.cats.limits]
C:257 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:258 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:258 [in UniMath.CategoryTheory.Core.Functors]
C:258 [in UniMath.Bicategories.Core.Strictness]
C:258 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:258 [in UniMath.Induction.M.Chains]
C:259 [in UniMath.Bicategories.Core.Strictness]
C:259 [in UniMath.CategoryTheory.Core.Isos]
C:26 [in UniMath.Bicategories.Core.UnivalenceOp]
C:26 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:26 [in UniMath.CategoryTheory.ElementsOp]
C:26 [in UniMath.CategoryTheory.Monads.Monads]
c:26 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
c:26 [in UniMath.CategoryTheory.limits.graphs.terminal]
C:26 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
c:26 [in UniMath.MoreFoundations.DecidablePropositions]
C:26 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
C:26 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
C:26 [in UniMath.CategoryTheory.limits.initial]
C:26 [in UniMath.Folds.folds_pre_2_cat]
C:26 [in UniMath.CategoryTheory.covyoneda]
C:26 [in UniMath.CategoryTheory.Monads.KleisliCategory]
c:26 [in UniMath.CategoryTheory.opp_precat]
C:26 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:26 [in UniMath.CategoryTheory.slicecat]
C:26 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:26 [in UniMath.NumberSystems.Integers]
C:26 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:26 [in UniMath.CategoryTheory.limits.products]
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C:26 [in UniMath.CategoryTheory.Monads.Kleisli]
c:26 [in UniMath.NumberSystems.RationalNumbers]
C:26 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
C:26 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:26 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:26 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
c:26 [in UniMath.CategoryTheory.limits.graphs.zero]
c:26 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
C:26 [in UniMath.CategoryTheory.Monads.LModules]
C:26 [in UniMath.CategoryTheory.Adjunctions.Examples]
C:26 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
c:26 [in UniMath.CategoryTheory.RightKanExtension]
C:26 [in UniMath.CategoryTheory.Core.TwoCategories]
C:26 [in UniMath.Folds.from_precats_to_folds_and_back]
c:26 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
C:26 [in UniMath.CategoryTheory.Core.Categories]
c:26 [in UniMath.CategoryTheory.limits.graphs.limits]
C:260 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c:260 [in UniMath.CategoryTheory.limits.BinDirectSums]
c:260 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:260 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:260 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:260 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:261 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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C:261 [in UniMath.CategoryTheory.limits.pushouts]
C:261 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:261 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:261 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
C:262 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:262 [in UniMath.CategoryTheory.limits.cats.limits]
C:262 [in UniMath.MoreFoundations.PartA]
c:262 [in UniMath.CategoryTheory.Core.TwoCategories]
C:263 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:263 [in UniMath.CategoryTheory.Core.Functors]
c:263 [in UniMath.CategoryTheory.Core.Isos]
C:263 [in UniMath.CategoryTheory.Adjunctions.Core]
c:263 [in UniMath.Combinatorics.StandardFiniteSets]
c:263 [in UniMath.Induction.M.Chains]
C:264 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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C:264 [in UniMath.CategoryTheory.Core.Isos]
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C:265 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:265 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:265 [in UniMath.Algebra.RigsAndRings]
C:265 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:265 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
C:265 [in UniMath.MoreFoundations.PartA]
C:265 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:266 [in UniMath.CategoryTheory.Monads.RelativeMonads]
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C:266 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
C:266 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:267 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:267 [in UniMath.CategoryTheory.Core.NaturalTransformations]
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c:267 [in UniMath.Induction.M.Chains]
C:268 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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C:268 [in UniMath.HomologicalAlgebra.CohomologyComplex]
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C:268 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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c:269 [in UniMath.CategoryTheory.Core.Functors]
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C:27 [in UniMath.Bicategories.Core.EquivToAdjequiv]
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C:27 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
C:27 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
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C:27 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
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C:27 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
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C:27 [in UniMath.CategoryTheory.Monads.Kleisli]
C:27 [in UniMath.CategoryTheory.limits.cats.limits]
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C:27 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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C:270 [in UniMath.HomologicalAlgebra.CohomologyComplex]
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C:271 [in UniMath.HomologicalAlgebra.CohomologyComplex]
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C:274 [in UniMath.HomologicalAlgebra.CohomologyComplex]
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C:274 [in UniMath.CategoryTheory.limits.graphs.colimits]
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C:275 [in UniMath.CategoryTheory.limits.graphs.limits]
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C:278 [in UniMath.CategoryTheory.Core.TwoCategories]
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C:279 [in UniMath.CategoryTheory.Core.Functors]
C:279 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:279 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:279 [in UniMath.CategoryTheory.limits.graphs.limits]
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C:28 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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C:28 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
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C:28 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:28 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
C:28 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:28 [in UniMath.CategoryTheory.Subcategory.Core]
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C:28 [in UniMath.CategoryTheory.Subcategory.Limits]
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C:28 [in UniMath.CategoryTheory.CommaCategories]
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C:280 [in UniMath.CategoryTheory.Adjunctions.Core]
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C:280 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:280 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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C:281 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
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C:281 [in UniMath.CategoryTheory.limits.graphs.limits]
C:282 [in UniMath.Bicategories.Core.Bicat]
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C:282 [in UniMath.CategoryTheory.PrecategoryBinProduct]
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C:283 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
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C:284 [in UniMath.Bicategories.Core.Bicat]
C:284 [in UniMath.CategoryTheory.Core.Isos]
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C:285 [in UniMath.Bicategories.Core.Bicat]
C:285 [in UniMath.Algebra.FixedPointTheorems]
C:285 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
c:285 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:285 [in UniMath.CategoryTheory.Core.TwoCategories]
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C:286 [in UniMath.CategoryTheory.Core.Functors]
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C:286 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:286 [in UniMath.CategoryTheory.Core.TwoCategories]
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C:287 [in UniMath.Algebra.FixedPointTheorems]
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C:287 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:287 [in UniMath.CategoryTheory.Adjunctions.Core]
C:287 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:287 [in UniMath.HomologicalAlgebra.Complexes]
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C:288 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:288 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:288 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
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C:289 [in UniMath.Algebra.FixedPointTheorems]
C:289 [in UniMath.CategoryTheory.Core.Isos]
C:289 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
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C:289 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:29 [in UniMath.CategoryTheory.ExactCategories.Tests]
c:29 [in UniMath.Bicategories.BicategoryOfBicat]
C:29 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:29 [in UniMath.CategoryTheory.Monads.Monads]
C:29 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
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C:29 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
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C:29 [in UniMath.Bicategories.Core.Invertible_2cells]
c:29 [in UniMath.CategoryTheory.Enriched.Enriched]
c:29 [in UniMath.CategoryTheory.Subobjects]
C:29 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
c:29 [in UniMath.CategoryTheory.limits.graphs.initial]
c:29 [in UniMath.CategoryTheory.limits.cats.limits]
C:29 [in UniMath.Bicategories.Discreteness]
c:29 [in UniMath.SubstitutionSystems.SignatureExamples]
C:29 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
C:29 [in UniMath.CategoryTheory.Monads.Derivative]
c:29 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:29 [in UniMath.CategoryTheory.limits.graphs.zero]
C:29 [in UniMath.CategoryTheory.Adjunctions.Examples]
C:29 [in UniMath.CategoryTheory.FunctorCoalgebras]
c:29 [in UniMath.CategoryTheory.Core.Categories]
C:29 [in UniMath.CategoryTheory.limits.graphs.limits]
C:290 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:290 [in UniMath.CategoryTheory.Core.Functors]
C:290 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:291 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
C:291 [in UniMath.CategoryTheory.PreAdditive]
C:291 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:291 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:291 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:293 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:293 [in UniMath.CategoryTheory.limits.graphs.colimits]
c:294 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:294 [in UniMath.PAdics.z_mod_p]
c:294 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:294 [in UniMath.HomologicalAlgebra.Complexes]
C:295 [in UniMath.CategoryTheory.limits.pushouts]
C:295 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:295 [in UniMath.CategoryTheory.Core.Isos]
C:295 [in UniMath.HomologicalAlgebra.CohomologyComplex]
c:295 [in UniMath.CategoryTheory.limits.Opp]
C:295 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:296 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:296 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:297 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:297 [in UniMath.CategoryTheory.Core.Functors]
C:297 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:297 [in UniMath.CategoryTheory.Adjunctions.Core]
C:297 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:298 [in UniMath.Algebra.FixedPointTheorems]
c:298 [in UniMath.CategoryTheory.limits.pushouts]
C:298 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:298 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:298 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:299 [in UniMath.Algebra.FixedPointTheorems]
C:299 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:299 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:299 [in UniMath.CategoryTheory.limits.graphs.colimits]
c:3 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
c:3 [in UniMath.CategoryTheory.GrothendieckTopos]
C:3 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
c:3 [in UniMath.CategoryTheory.Elements]
c:3 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:3 [in UniMath.CategoryTheory.ElementsOp]
C:3 [in UniMath.CategoryTheory.Monads.Monads]
C:3 [in UniMath.CategoryTheory.DisplayedCats.Projection]
c:3 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
c:3 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C:3 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
C:3 [in UniMath.SubstitutionSystems.ModulesFromSignatures]
C:3 [in UniMath.CategoryTheory.whiskering]
c:3 [in UniMath.CategoryTheory.Quotobjects]
C:3 [in UniMath.CategoryTheory.Chains.Chains]
c:3 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:3 [in UniMath.Bicategories.WkCatEnrichment.Cat]
C:3 [in UniMath.CategoryTheory.Chains.Cochains]
c:3 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:3 [in UniMath.Bicategories.DisplayedBicats.Fibration]
c:3 [in UniMath.CategoryTheory.Subobjects]
C:3 [in UniMath.CategoryTheory.Subcategory.Limits]
C:3 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C:3 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
C:3 [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
C:3 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
C:3 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
c:3 [in UniMath.CategoryTheory.limits.graphs.zero]
C:3 [in UniMath.CategoryTheory.Profunctors.Core]
C:3 [in UniMath.Bicategories.Core.Examples.StrictCats]
C:30 [in UniMath.Bicategories.Core.UnivalenceOp]
c:30 [in UniMath.CategoryTheory.Presheaf]
c:30 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:30 [in UniMath.CategoryTheory.Abelian]
c:30 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:30 [in UniMath.CategoryTheory.DisplayedCats.Projection]
C:30 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
C:30 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:30 [in UniMath.CategoryTheory.ProductCategory]
C:30 [in UniMath.CategoryTheory.Core.Functors]
C:30 [in UniMath.CategoryTheory.limits.initial]
C:30 [in UniMath.CategoryTheory.Monads.MonadAlgebras]
C:30 [in UniMath.Folds.folds_pre_2_cat]
C:30 [in UniMath.CategoryTheory.Chains.Chains]
C:30 [in UniMath.CategoryTheory.Monads.KleisliCategory]
c:30 [in UniMath.Bicategories.WkCatEnrichment.Cat]
C:30 [in UniMath.Bicategories.Core.Univalence]
c:30 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:30 [in UniMath.CategoryTheory.limits.graphs.binproducts]
c:30 [in UniMath.CategoryTheory.Subobjects]
c:30 [in UniMath.NumberSystems.Integers]
C:30 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:30 [in UniMath.CategoryTheory.limits.products]
c:30 [in UniMath.CategoryTheory.limits.graphs.initial]
C:30 [in UniMath.CategoryTheory.limits.graphs.colimits]
c:30 [in UniMath.NumberSystems.RationalNumbers]
C:30 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
C:30 [in UniMath.Folds.from_precats_to_folds_and_back]
c:30 [in UniMath.CategoryTheory.limits.binproducts]
C:300 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:300 [in UniMath.CategoryTheory.Core.Isos]
C:300 [in UniMath.HomologicalAlgebra.Complexes]
c:301 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:301 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:301 [in UniMath.CategoryTheory.PreAdditive]
c:301 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:301 [in UniMath.PAdics.padics]
C:301 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:301 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:302 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:302 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:302 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:304 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:304 [in UniMath.CategoryTheory.Core.Functors]
C:304 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:305 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:305 [in UniMath.CategoryTheory.Core.Isos]
C:305 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:305 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:305 [in UniMath.CategoryTheory.limits.Opp]
C:306 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:307 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:307 [in UniMath.Bicategories.Core.Bicat]
C:307 [in UniMath.CategoryTheory.categories.abgrs]
C:307 [in UniMath.CategoryTheory.Adjunctions.Core]
C:307 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:307 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:307 [in UniMath.HomologicalAlgebra.Complexes]
C:307 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:307 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
c:308 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:308 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
c:308 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:309 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:309 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:309 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:309 [in UniMath.CategoryTheory.limits.graphs.limits]
c:31 [in UniMath.CategoryTheory.Presheaf]
C:31 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
C:31 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:31 [in UniMath.CategoryTheory.Monads.Monads]
C:31 [in UniMath.CategoryTheory.Subcategory.Full]
C:31 [in UniMath.Induction.ImpredicativeInductiveSets]
C:31 [in UniMath.CategoryTheory.yoneda]
c:31 [in UniMath.PAdics.frac]
C:31 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:31 [in UniMath.CategoryTheory.CategoryEquality]
C:31 [in UniMath.CategoryTheory.opp_precat]
C:31 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:31 [in UniMath.CategoryTheory.categories.HSET.Colimits]
C:31 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
c:31 [in UniMath.CategoryTheory.Subobjects]
C:31 [in UniMath.CategoryTheory.Subcategory.Core]
C:31 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:31 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:31 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:31 [in UniMath.CategoryTheory.limits.graphs.initial]
C:31 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
C:31 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
C:31 [in UniMath.CategoryTheory.Monads.LModules]
C:31 [in UniMath.Bicategories.Core.Unitors]
C:31 [in UniMath.CategoryTheory.Core.TwoCategories]
C:310 [in UniMath.CategoryTheory.Core.Isos]
C:311 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:311 [in UniMath.CategoryTheory.Core.Functors]
c:311 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:311 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:311 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:311 [in UniMath.HomologicalAlgebra.Complexes]
c:312 [in UniMath.Bicategories.Core.Bicat]
C:312 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:312 [in UniMath.CategoryTheory.PreAdditive]
C:312 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:312 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:313 [in UniMath.CategoryTheory.Core.Isos]
C:313 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:314 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:314 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:314 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:315 [in UniMath.CategoryTheory.limits.pushouts]
c:315 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:315 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:315 [in UniMath.CategoryTheory.limits.Opp]
C:316 [in UniMath.Algebra.FixedPointTheorems]
C:316 [in UniMath.CategoryTheory.limits.bincoproducts]
C:316 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:316 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:316 [in UniMath.CategoryTheory.limits.graphs.colimits]
c:317 [in UniMath.Bicategories.Core.Bicat]
C:317 [in UniMath.CategoryTheory.Core.Functors]
C:317 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:317 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
C:318 [in UniMath.Algebra.FixedPointTheorems]
C:318 [in UniMath.CategoryTheory.Core.Isos]
C:318 [in UniMath.CategoryTheory.PreAdditive]
c:318 [in UniMath.PAdics.padics]
C:318 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:318 [in UniMath.CategoryTheory.limits.graphs.colimits]
c:319 [in UniMath.CategoryTheory.Core.Isos]
c:32 [in UniMath.CategoryTheory.GrothendieckTopos]
c:32 [in UniMath.CategoryTheory.Presheaf]
c:32 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:32 [in UniMath.CategoryTheory.Monads.Monads]
C:32 [in UniMath.CategoryTheory.DisplayedCats.Projection]
C:32 [in UniMath.MoreFoundations.WeakEquivalences]
c:32 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:32 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
C:32 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:32 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
c:32 [in UniMath.CategoryTheory.yoneda]
C:32 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
C:32 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
c:32 [in UniMath.CategoryTheory.limits.coproducts]
c:32 [in UniMath.CategoryTheory.PseudoElements]
C:32 [in UniMath.CategoryTheory.Monads.KleisliCategory]
C:32 [in UniMath.CategoryTheory.opp_precat]
C:32 [in UniMath.Folds.folds_precat]
c:32 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
c:32 [in UniMath.CategoryTheory.categories.HSET.Limits]
c:32 [in UniMath.CategoryTheory.Subobjects]
C:32 [in UniMath.CategoryTheory.limits.graphs.initial]
C:32 [in UniMath.CategoryTheory.Subcategory.Limits]
C:32 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
C:32 [in UniMath.CategoryTheory.Adjunctions.Examples]
C:32 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
c:32 [in UniMath.CategoryTheory.RightKanExtension]
c:32 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
c:32 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
C:32 [in UniMath.CategoryTheory.Core.Categories]
c:32 [in UniMath.CategoryTheory.limits.graphs.limits]
C:320 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:320 [in UniMath.Algebra.FixedPointTheorems]
C:320 [in UniMath.CategoryTheory.Core.Isos]
C:320 [in UniMath.HomologicalAlgebra.CohomologyComplex]
c:320 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:320 [in UniMath.HomologicalAlgebra.Complexes]
c:321 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:321 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:321 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:321 [in UniMath.CategoryTheory.limits.Opp]
C:322 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:322 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:322 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:322 [in UniMath.CategoryTheory.limits.bincoproducts]
C:322 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:323 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:323 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:323 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:323 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:323 [in UniMath.CategoryTheory.limits.pullbacks]
c:323 [in UniMath.Foundations.PartA]
c:324 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:324 [in UniMath.CategoryTheory.Core.Functors]
c:324 [in UniMath.CategoryTheory.limits.pushouts]
c:324 [in UniMath.CategoryTheory.limits.bincoproducts]
C:324 [in UniMath.CategoryTheory.Core.Isos]
C:324 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:324 [in UniMath.Topology.Filters]
C:325 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:326 [in UniMath.Bicategories.Core.Bicat]
c:326 [in UniMath.CategoryTheory.limits.bincoproducts]
c:326 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:327 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:327 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:327 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:327 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:327 [in UniMath.CategoryTheory.limits.Opp]
c:327 [in UniMath.CategoryTheory.limits.pullbacks]
C:328 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:328 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:329 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:329 [in UniMath.CategoryTheory.PreAdditive]
c:329 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:329 [in UniMath.HomologicalAlgebra.Complexes]
C:33 [in UniMath.Bicategories.Core.UnivalenceOp]
c:33 [in UniMath.CategoryTheory.Presheaf]
c:33 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:33 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
C:33 [in UniMath.Bicategories.Transformations.PseudoTransformation]
C:33 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
C:33 [in UniMath.CategoryTheory.limits.initial]
C:33 [in UniMath.CategoryTheory.whiskering]
C:33 [in UniMath.Folds.folds_pre_2_cat]
C:33 [in UniMath.CategoryTheory.Core.Isos]
C:33 [in UniMath.CategoryTheory.opp_precat]
C:33 [in UniMath.Folds.folds_precat]
C:33 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
C:33 [in UniMath.Bicategories.DisplayedBicats.Fibration]
c:33 [in UniMath.CategoryTheory.Subobjects]
C:33 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:33 [in UniMath.CategoryTheory.limits.products]
C:33 [in UniMath.CategoryTheory.Core.Univalence]
C:33 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
c:33 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:33 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
c:33 [in UniMath.CategoryTheory.limits.graphs.zero]
c:33 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
C:33 [in UniMath.CategoryTheory.FunctorCoalgebras]
c:33 [in UniMath.CategoryTheory.limits.binproducts]
c:330 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:330 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:330 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:330 [in UniMath.CategoryTheory.Adjunctions.Core]
c:330 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:330 [in UniMath.CategoryTheory.limits.graphs.limits]
C:331 [in UniMath.CategoryTheory.Core.Functors]
C:331 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:331 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:331 [in UniMath.Foundations.PartA]
C:332 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
C:332 [in UniMath.CategoryTheory.Core.Isos]
C:332 [in UniMath.CategoryTheory.limits.graphs.limits]
C:333 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:333 [in UniMath.Algebra.FixedPointTheorems]
C:333 [in UniMath.CategoryTheory.PreAdditive]
c:333 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:333 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:334 [in UniMath.Algebra.FixedPointTheorems]
c:334 [in UniMath.CategoryTheory.Core.Functors]
c:334 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:335 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:335 [in UniMath.CategoryTheory.limits.graphs.limits]
C:336 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:336 [in UniMath.CategoryTheory.Core.Isos]
c:336 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:336 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:336 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:336 [in UniMath.HomologicalAlgebra.Complexes]
C:337 [in UniMath.CategoryTheory.Core.Functors]
C:337 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:337 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:337 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:338 [in UniMath.CategoryTheory.Adjunctions.Core]
c:338 [in UniMath.Combinatorics.StandardFiniteSets]
c:338 [in UniMath.CategoryTheory.limits.graphs.limits]
C:339 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:339 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
c:339 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:339 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:339 [in UniMath.CategoryTheory.limits.Opp]
C:339 [in UniMath.Topology.Filters]
c:34 [in UniMath.CategoryTheory.Monads.RelativeModules]
c:34 [in UniMath.Bicategories.BicategoryOfBicat]
c:34 [in UniMath.CategoryTheory.Monads.Monads]
C:34 [in UniMath.CategoryTheory.DisplayedCats.Projection]
C:34 [in UniMath.CategoryTheory.Subcategory.Full]
C:34 [in UniMath.CategoryTheory.Core.Functors]
C:34 [in UniMath.CategoryTheory.CategoryEquality]
C:34 [in UniMath.CategoryTheory.Monads.KleisliCategory]
C:34 [in UniMath.CategoryTheory.FunctorAlgebras]
c:34 [in UniMath.CategoryTheory.opp_precat]
C:34 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
c:34 [in UniMath.CategoryTheory.categories.HSET.Limits]
C:34 [in UniMath.CategoryTheory.HorizontalComposition]
c:34 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
c:34 [in UniMath.Bicategories.Core.Unitors]
C:34 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
c:34 [in UniMath.Folds.from_precats_to_folds_and_back]
C:34 [in UniMath.CategoryTheory.limits.terminal]
C:34 [in UniMath.CategoryTheory.limits.graphs.limits]
C:340 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:340 [in UniMath.CategoryTheory.Core.Functors]
C:340 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:341 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:341 [in UniMath.Combinatorics.StandardFiniteSets]
C:341 [in UniMath.HomologicalAlgebra.Complexes]
c:342 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:342 [in UniMath.CategoryTheory.categories.abgrs]
C:342 [in UniMath.CategoryTheory.Core.Isos]
C:342 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:342 [in UniMath.CategoryTheory.limits.Opp]
C:343 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:343 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:344 [in UniMath.CategoryTheory.Core.Functors]
c:344 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:344 [in UniMath.CategoryTheory.PreAdditive]
C:345 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
c:345 [in UniMath.Bicategories.Core.Bicat]
C:345 [in UniMath.HomologicalAlgebra.Complexes]
C:346 [in UniMath.CategoryTheory.Core.Isos]
c:347 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
C:347 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:347 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:347 [in UniMath.CategoryTheory.limits.Opp]
c:347 [in UniMath.CategoryTheory.limits.graphs.limits]
C:348 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:348 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:348 [in UniMath.Topology.Filters]
C:349 [in UniMath.CategoryTheory.categories.abgrs]
C:349 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:35 [in UniMath.CategoryTheory.ExactCategories.Tests]
c:35 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:35 [in UniMath.CategoryTheory.Monads.Monads]
C:35 [in UniMath.CategoryTheory.yoneda]
C:35 [in UniMath.CategoryTheory.Chains.Chains]
C:35 [in UniMath.CategoryTheory.opp_precat]
c:35 [in UniMath.Algebra.Domains_and_Fields]
C:35 [in UniMath.Bicategories.Core.Univalence]
C:35 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
C:35 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c:35 [in UniMath.CategoryTheory.Subcategory.Core]
C:35 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:35 [in UniMath.CategoryTheory.limits.cats.limits]
C:35 [in UniMath.Bicategories.Discreteness]
C:35 [in UniMath.CategoryTheory.Adjunctions.Examples]
C:35 [in UniMath.Bicategories.Core.TransportLaws]
C:35 [in UniMath.CategoryTheory.FunctorCoalgebras]
C:35 [in UniMath.CategoryTheory.Core.TwoCategories]
c:350 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:350 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:350 [in UniMath.CategoryTheory.Core.Functors]
C:350 [in UniMath.CategoryTheory.Core.Isos]
c:350 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:350 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:350 [in UniMath.HomologicalAlgebra.Complexes]
C:351 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:351 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:351 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:352 [in UniMath.CategoryTheory.limits.BinDirectSums]
c:352 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:352 [in UniMath.CategoryTheory.limits.graphs.limits]
c:353 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:354 [in UniMath.Bicategories.Core.Bicat]
C:354 [in UniMath.CategoryTheory.Core.Isos]
C:354 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:355 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:356 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:356 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
C:356 [in UniMath.CategoryTheory.Adjunctions.Core]
c:357 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
C:357 [in UniMath.CategoryTheory.categories.abgrs]
C:357 [in UniMath.CategoryTheory.Core.Functors]
C:357 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:357 [in UniMath.CategoryTheory.PreAdditive]
C:357 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:357 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:358 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:358 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:358 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
C:358 [in UniMath.CategoryTheory.Core.Isos]
c:358 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
C:359 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
C:359 [in UniMath.HomologicalAlgebra.CohomologyComplex]
c:36 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
C:36 [in UniMath.CategoryTheory.DisplayedCats.Projection]
c:36 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
c:36 [in UniMath.Bicategories.Core.Bicat]
C:36 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
c:36 [in UniMath.CategoryTheory.yoneda]
C:36 [in UniMath.CategoryTheory.limits.initial]
C:36 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
C:36 [in UniMath.CategoryTheory.Monads.MonadAlgebras]
c:36 [in UniMath.CategoryTheory.PseudoElements]
C:36 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:36 [in UniMath.CategoryTheory.Monads.KleisliCategory]
C:36 [in UniMath.CategoryTheory.FunctorAlgebras]
C:36 [in UniMath.CategoryTheory.FunctorCategory]
c:36 [in UniMath.Folds.folds_precat]
c:36 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
c:36 [in UniMath.CategoryTheory.Groupoids]
C:36 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:36 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:36 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:36 [in UniMath.CategoryTheory.Monads.LModules]
c:36 [in UniMath.CategoryTheory.RightKanExtension]
c:36 [in UniMath.CategoryTheory.limits.binproducts]
C:360 [in UniMath.Algebra.FixedPointTheorems]
C:360 [in UniMath.CategoryTheory.Adjunctions.Core]
C:360 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:361 [in UniMath.CategoryTheory.Core.Isos]
C:363 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:363 [in UniMath.Bicategories.Core.Bicat]
c:363 [in UniMath.CategoryTheory.Core.Functors]
c:363 [in UniMath.Combinatorics.StandardFiniteSets]
C:363 [in UniMath.HomologicalAlgebra.Complexes]
c:364 [in UniMath.CategoryTheory.Core.Functors]
C:364 [in UniMath.CategoryTheory.Core.Isos]
C:365 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:365 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:365 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:365 [in UniMath.CategoryTheory.Core.Functors]
C:365 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:365 [in UniMath.CategoryTheory.PreAdditive]
C:365 [in UniMath.CategoryTheory.limits.pullbacks]
c:365 [in UniMath.CategoryTheory.limits.graphs.limits]
C:366 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:366 [in UniMath.CategoryTheory.limits.graphs.colimits]
c:366 [in UniMath.Combinatorics.StandardFiniteSets]
c:367 [in UniMath.CategoryTheory.Core.Isos]
c:367 [in UniMath.CategoryTheory.Adjunctions.Core]
c:369 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
C:369 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:37 [in UniMath.SubstitutionSystems.Signatures]
c:37 [in UniMath.CategoryTheory.Presheaf]
C:37 [in UniMath.CategoryTheory.Abelian]
C:37 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:37 [in UniMath.CategoryTheory.Subcategory.Full]
C:37 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
C:37 [in UniMath.Induction.M.ComputationalM]
C:37 [in UniMath.CategoryTheory.Core.Isos]
C:37 [in UniMath.CategoryTheory.opp_precat]
C:37 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
c:37 [in UniMath.CategoryTheory.limits.graphs.binproducts]
C:37 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:37 [in UniMath.Bicategories.Discreteness]
C:37 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C:37 [in UniMath.SubstitutionSystems.SignatureExamples]
C:37 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
C:37 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
C:37 [in UniMath.CategoryTheory.Core.TransportMorphisms]
c:37 [in UniMath.CategoryTheory.limits.graphs.zero]
C:37 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
C:37 [in UniMath.SubstitutionSystems.SignatureCategory]
C:37 [in UniMath.CategoryTheory.FunctorCoalgebras]
C:37 [in UniMath.Bicategories.Core.Unitors]
c:37 [in UniMath.Bicategories.Core.Examples.StrictCats]
C:370 [in UniMath.CategoryTheory.Core.Functors]
C:370 [in UniMath.CategoryTheory.PreAdditive]
C:371 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:371 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
C:371 [in UniMath.Combinatorics.WellOrderedSets]
C:371 [in UniMath.HomologicalAlgebra.CohomologyComplex]
c:371 [in UniMath.NumberSystems.RationalNumbers]
C:372 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:372 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:372 [in UniMath.Bicategories.Core.Bicat]
C:372 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:372 [in UniMath.CategoryTheory.Core.Isos]
c:372 [in UniMath.Combinatorics.WellOrderedSets]
c:372 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:373 [in UniMath.HomologicalAlgebra.CohomologyComplex]
c:374 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:374 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
c:374 [in UniMath.CategoryTheory.Adjunctions.Core]
C:375 [in UniMath.CategoryTheory.Core.Functors]
C:376 [in UniMath.CategoryTheory.Core.Isos]
c:376 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:376 [in UniMath.NumberSystems.RationalNumbers]
c:377 [in UniMath.Foundations.NaturalNumbers]
C:378 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:378 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:378 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:379 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:379 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:379 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
c:379 [in UniMath.CategoryTheory.limits.pullbacks]
c:38 [in UniMath.CategoryTheory.Presheaf]
c:38 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:38 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
C:38 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
C:38 [in UniMath.Induction.ImpredicativeInductiveSets]
C:38 [in UniMath.Topology.Prelim]
c:38 [in UniMath.Induction.M.ComputationalM]
C:38 [in UniMath.CategoryTheory.Monads.KleisliCategory]
C:38 [in UniMath.CategoryTheory.FunctorAlgebras]
C:38 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c:38 [in UniMath.CategoryTheory.limits.zero]
C:38 [in UniMath.CategoryTheory.categories.HSET.Colimits]
C:38 [in UniMath.CategoryTheory.categories.HSET.Limits]
C:38 [in UniMath.CategoryTheory.Subcategory.Core]
C:38 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:38 [in UniMath.CategoryTheory.Core.Univalence]
C:38 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
C:38 [in UniMath.Bicategories.Discreteness]
C:38 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
C:38 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
C:38 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
C:38 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
C:380 [in UniMath.CategoryTheory.Core.Functors]
C:380 [in UniMath.CategoryTheory.Core.Isos]
C:380 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:381 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:381 [in UniMath.Foundations.NaturalNumbers]
C:382 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
C:383 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:383 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:383 [in UniMath.CategoryTheory.categories.abgrs]
C:383 [in UniMath.CategoryTheory.Core.Functors]
C:383 [in UniMath.Combinatorics.WellOrderedSets]
C:383 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:383 [in UniMath.CategoryTheory.limits.graphs.colimits]
c:384 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:384 [in UniMath.Combinatorics.WellOrderedSets]
C:384 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:385 [in UniMath.CategoryTheory.Monads.RelativeMonads]
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C:385 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
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C:386 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:387 [in UniMath.Combinatorics.WellOrderedSets]
C:387 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
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C:388 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:389 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:389 [in UniMath.CategoryTheory.Core.Isos]
C:39 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
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C:39 [in UniMath.CategoryTheory.yoneda]
C:39 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
c:39 [in UniMath.CategoryTheory.Core.Functors]
C:39 [in UniMath.CategoryTheory.limits.initial]
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C:39 [in UniMath.CategoryTheory.CategoryEquality]
c:39 [in UniMath.CategoryTheory.opp_precat]
C:39 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
C:39 [in UniMath.Bicategories.Core.Invertible_2cells]
C:39 [in UniMath.CategoryTheory.SubobjectClassifier]
C:39 [in UniMath.Bicategories.Core.Univalence]
C:39 [in UniMath.CategoryTheory.HorizontalComposition]
C:39 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:39 [in UniMath.CategoryTheory.Groupoids]
C:39 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
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C:39 [in UniMath.Bicategories.Discreteness]
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C:39 [in UniMath.CategoryTheory.FunctorCoalgebras]
C:39 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
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C:390 [in UniMath.CategoryTheory.Core.Functors]
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C:395 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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C:396 [in UniMath.CategoryTheory.Core.Functors]
C:397 [in UniMath.CategoryTheory.categories.abgrs]
C:398 [in UniMath.CategoryTheory.Core.Isos]
C:399 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:399 [in UniMath.CategoryTheory.Core.Functors]
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c:4 [in UniMath.CategoryTheory.GrothendieckTopos]
c:4 [in UniMath.CategoryTheory.Elements]
C:4 [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
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C:4 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:4 [in UniMath.Bicategories.Core.Bicat]
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C:4 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
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C:4 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:4 [in UniMath.CategoryTheory.limits.initial]
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c:4 [in UniMath.CategoryTheory.limits.pushouts]
C:4 [in UniMath.CategoryTheory.rezk_completion]
C:4 [in UniMath.Bicategories.WkCatEnrichment.bicategory]
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C:4 [in UniMath.Folds.folds_pre_2_cat]
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C:4 [in UniMath.CategoryTheory.CategoryEquality]
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C:4 [in UniMath.Folds.folds_precat]
C:4 [in UniMath.CategoryTheory.Core.Setcategories]
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C:4 [in UniMath.CategoryTheory.Monads.Kleisli]
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C:4 [in UniMath.CategoryTheory.Core.Univalence]
C:4 [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
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C:4 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
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C:4 [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
C:4 [in UniMath.CategoryTheory.Adjunctions.Examples]
C:4 [in UniMath.HomologicalAlgebra.TranslationFunctors]
c:4 [in UniMath.CategoryTheory.CommaCategories]
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C:4 [in UniMath.Bicategories.Colimits.Initial]
C:4 [in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
C:4 [in UniMath.CategoryTheory.Core.Categories]
c:4 [in UniMath.CategoryTheory.limits.graphs.limits]
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C:40 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:40 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
C:40 [in UniMath.CategoryTheory.Subcategory.Full]
C:40 [in UniMath.CategoryTheory.yoneda]
C:40 [in UniMath.CategoryTheory.Monads.MonadAlgebras]
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C:40 [in UniMath.CategoryTheory.Monads.KleisliCategory]
C:40 [in UniMath.CategoryTheory.FunctorAlgebras]
c:40 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
C:40 [in UniMath.Bicategories.BicatOfBicategory]
c:40 [in UniMath.CategoryTheory.limits.graphs.binproducts]
C:40 [in UniMath.CategoryTheory.Equivalences.Core]
C:40 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:40 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
C:40 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
C:40 [in UniMath.CategoryTheory.Monads.LModules]
C:40 [in UniMath.Induction.M.Limits]
c:40 [in UniMath.Bicategories.Core.Unitors]
C:40 [in UniMath.Folds.from_precats_to_folds_and_back]
C:400 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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c:401 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:401 [in UniMath.CategoryTheory.limits.graphs.limits]
C:403 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:403 [in UniMath.CategoryTheory.PreAdditive]
C:404 [in UniMath.Algebra.FixedPointTheorems]
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C:405 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:406 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:406 [in UniMath.CategoryTheory.Core.Functors]
C:406 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
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c:407 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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C:407 [in UniMath.CategoryTheory.Core.Isos]
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c:409 [in UniMath.CategoryTheory.PreAdditive]
c:41 [in UniMath.CategoryTheory.Presheaf]
C:41 [in UniMath.CategoryTheory.Monads.Monads]
C:41 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
C:41 [in UniMath.CategoryTheory.DisplayedCats.Projection]
C:41 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
C:41 [in UniMath.CategoryTheory.yoneda]
C:41 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
C:41 [in UniMath.CategoryTheory.whiskering]
C:41 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:41 [in UniMath.CategoryTheory.EpiFacts]
C:41 [in UniMath.CategoryTheory.Core.Isos]
C:41 [in UniMath.CategoryTheory.opp_precat]
c:41 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
C:41 [in UniMath.Bicategories.BicatOfBicategory]
C:41 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:41 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C:41 [in UniMath.CategoryTheory.Subcategory.Core]
C:41 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:41 [in UniMath.Bicategories.Discreteness]
C:41 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
C:41 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
C:41 [in UniMath.HomologicalAlgebra.TranslationFunctors]
C:41 [in UniMath.Bicategories.Core.TransportLaws]
C:41 [in UniMath.CategoryTheory.FunctorCoalgebras]
c:41 [in UniMath.CategoryTheory.Core.Categories]
C:411 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:411 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:412 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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c:412 [in UniMath.CategoryTheory.Core.Functors]
c:412 [in UniMath.CategoryTheory.limits.graphs.limits]
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c:415 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:415 [in UniMath.CategoryTheory.Core.Isos]
C:416 [in UniMath.CategoryTheory.Core.Functors]
C:419 [in UniMath.Bicategories.Core.Bicat]
c:419 [in UniMath.RealNumbers.NonnegativeReals]
C:419 [in UniMath.CategoryTheory.categories.abgrs]
c:419 [in UniMath.CategoryTheory.limits.graphs.limits]
c:42 [in UniMath.CategoryTheory.Presheaf]
C:42 [in UniMath.CategoryTheory.yoneda]
C:42 [in UniMath.CategoryTheory.Core.Functors]
C:42 [in UniMath.CategoryTheory.Monads.KleisliCategory]
C:42 [in UniMath.CategoryTheory.FunctorAlgebras]
c:42 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
c:42 [in UniMath.Folds.folds_precat]
C:42 [in UniMath.CategoryTheory.HorizontalComposition]
c:42 [in UniMath.CategoryTheory.Subobjects]
c:42 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:42 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
C:42 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C:42 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
C:42 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
C:42 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
c:42 [in UniMath.CategoryTheory.UnderCategories]
C:42 [in UniMath.CategoryTheory.Monads.KTriples]
c:42 [in UniMath.CategoryTheory.limits.binproducts]
c:420 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:420 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:420 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:420 [in UniMath.CategoryTheory.limits.pullbacks]
C:422 [in UniMath.CategoryTheory.Core.Functors]
c:422 [in UniMath.CategoryTheory.PreAdditive]
c:423 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:424 [in UniMath.Bicategories.Core.Bicat]
C:424 [in UniMath.CategoryTheory.Core.Isos]
C:425 [in UniMath.Bicategories.Core.Bicat]
C:425 [in UniMath.CategoryTheory.Core.Functors]
C:426 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:427 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:427 [in UniMath.Algebra.Domains_and_Fields]
C:428 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:429 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:429 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:429 [in UniMath.CategoryTheory.limits.pullbacks]
c:429 [in UniMath.CategoryTheory.limits.graphs.limits]
C:43 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
C:43 [in UniMath.CategoryTheory.Abelian]
C:43 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:43 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:43 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
c:43 [in UniMath.CategoryTheory.yoneda]
C:43 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
c:43 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
c:43 [in UniMath.CategoryTheory.limits.graphs.pushouts]
C:43 [in UniMath.Induction.M.ComputationalM]
c:43 [in UniMath.CategoryTheory.opp_precat]
c:43 [in UniMath.CategoryTheory.limits.zero]
c:43 [in UniMath.Bicategories.WkCatEnrichment.Cat]
c:43 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:43 [in UniMath.CategoryTheory.limits.graphs.binproducts]
C:43 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:43 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:43 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:43 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
C:43 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:43 [in UniMath.Bicategories.Discreteness]
C:43 [in UniMath.SubstitutionSystems.SignatureExamples]
C:43 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
c:43 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
C:43 [in UniMath.HomologicalAlgebra.TranslationFunctors]
C:43 [in UniMath.Induction.M.Limits]
C:43 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
C:43 [in UniMath.CategoryTheory.Core.TwoCategories]
C:43 [in UniMath.CategoryTheory.limits.graphs.limits]
C:430 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:430 [in UniMath.CategoryTheory.Core.Isos]
C:432 [in UniMath.CategoryTheory.Core.Functors]
c:433 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:433 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:435 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:435 [in UniMath.CategoryTheory.categories.abgrs]
C:435 [in UniMath.CategoryTheory.Core.Functors]
c:436 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:436 [in UniMath.CategoryTheory.Core.Isos]
C:438 [in UniMath.CategoryTheory.Core.Functors]
c:44 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:44 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:44 [in UniMath.Induction.ImpredicativeInductiveSets]
c:44 [in UniMath.CategoryTheory.PseudoElements]
c:44 [in UniMath.Induction.M.ComputationalM]
C:44 [in UniMath.CategoryTheory.Monads.KleisliCategory]
C:44 [in UniMath.CategoryTheory.FunctorCategory]
C:44 [in UniMath.CategoryTheory.Equivalences.Core]
C:44 [in UniMath.CategoryTheory.limits.cats.limits]
c:44 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
C:44 [in UniMath.CategoryTheory.Core.TransportMorphisms]
c:44 [in UniMath.CategoryTheory.limits.graphs.zero]
C:44 [in UniMath.CategoryTheory.Monads.LModules]
C:44 [in UniMath.HomologicalAlgebra.TranslationFunctors]
C:44 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
C:44 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
c:44 [in UniMath.Folds.from_precats_to_folds_and_back]
C:440 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:440 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:441 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:441 [in UniMath.RealNumbers.NonnegativeReals]
C:441 [in UniMath.CategoryTheory.Core.Functors]
C:441 [in UniMath.CategoryTheory.Core.Isos]
C:442 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:443 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:443 [in UniMath.RealNumbers.NonnegativeReals]
c:444 [in UniMath.RealNumbers.NonnegativeReals]
C:444 [in UniMath.CategoryTheory.Core.Functors]
C:444 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:445 [in UniMath.CategoryTheory.Core.Isos]
C:447 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:447 [in UniMath.CategoryTheory.Core.Functors]
C:448 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:448 [in UniMath.CategoryTheory.Core.Isos]
c:448 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
C:448 [in UniMath.CategoryTheory.limits.pullbacks]
c:45 [in UniMath.Bicategories.Core.FullyFaithful]
C:45 [in UniMath.CategoryTheory.Subcategory.Full]
C:45 [in UniMath.MoreFoundations.DecidablePropositions]
C:45 [in UniMath.CategoryTheory.Core.Functors]
c:45 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
C:45 [in UniMath.CategoryTheory.limits.initial]
c:45 [in UniMath.CategoryTheory.limits.bincoproducts]
c:45 [in UniMath.Algebra.Archimedean]
C:45 [in UniMath.CategoryTheory.Core.Isos]
C:45 [in UniMath.CategoryTheory.HorizontalComposition]
C:45 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:45 [in UniMath.CategoryTheory.Groupoids]
c:45 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:45 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:45 [in UniMath.Bicategories.Discreteness]
c:45 [in UniMath.Combinatorics.Lists]
c:45 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:45 [in UniMath.Combinatorics.WellFoundedRelations]
c:45 [in UniMath.Bicategories.Core.Examples.StrictCats]
c:45 [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
c:450 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:450 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:450 [in UniMath.CategoryTheory.categories.abgrs]
C:450 [in UniMath.CategoryTheory.Core.Isos]
C:451 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:451 [in UniMath.CategoryTheory.limits.pullbacks]
C:452 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:452 [in UniMath.CategoryTheory.Core.Isos]
C:453 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:454 [in UniMath.CategoryTheory.Core.Functors]
c:456 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:456 [in UniMath.CategoryTheory.Core.Isos]
c:457 [in UniMath.CategoryTheory.limits.pullbacks]
C:458 [in UniMath.CategoryTheory.categories.abgrs]
c:459 [in UniMath.CategoryTheory.limits.pullbacks]
c:46 [in UniMath.SubstitutionSystems.Signatures]
c:46 [in UniMath.CategoryTheory.Presheaf]
c:46 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:46 [in UniMath.CategoryTheory.Monads.Monads]
c:46 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
C:46 [in UniMath.CategoryTheory.yoneda]
c:46 [in UniMath.CategoryTheory.limits.pushouts]
c:46 [in UniMath.PAdics.frac]
c:46 [in UniMath.CategoryTheory.Chains.Chains]
C:46 [in UniMath.CategoryTheory.FunctorAlgebras]
C:46 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
C:46 [in UniMath.CategoryTheory.Subcategory.Core]
c:46 [in UniMath.CategoryTheory.Core.Univalence]
C:46 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
c:46 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:46 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
c:46 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
C:46 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
C:46 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:46 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
C:46 [in UniMath.HomologicalAlgebra.TranslationFunctors]
C:46 [in UniMath.Induction.M.Limits]
c:46 [in UniMath.CategoryTheory.Core.TwoCategories]
C:460 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:460 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:460 [in UniMath.CategoryTheory.Core.Isos]
C:461 [in UniMath.CategoryTheory.Core.Functors]
C:462 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:463 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:463 [in UniMath.Algebra.RigsAndRings]
C:464 [in UniMath.CategoryTheory.Core.Isos]
C:466 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:467 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:467 [in UniMath.CategoryTheory.categories.abgrs]
c:467 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:468 [in UniMath.CategoryTheory.PreAdditive]
c:468 [in UniMath.Algebra.RigsAndRings]
C:469 [in UniMath.CategoryTheory.Core.Isos]
c:47 [in UniMath.CategoryTheory.Presheaf]
c:47 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:47 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
C:47 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
c:47 [in UniMath.CategoryTheory.yoneda]
C:47 [in UniMath.CategoryTheory.whiskering]
c:47 [in UniMath.CategoryTheory.PseudoElements]
C:47 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:47 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:47 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:47 [in UniMath.CategoryTheory.Core.Univalence]
C:47 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
c:47 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
c:47 [in UniMath.CategoryTheory.limits.pullbacks]
C:47 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
C:47 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
c:470 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:470 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:472 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:472 [in UniMath.CategoryTheory.PreAdditive]
C:473 [in UniMath.CategoryTheory.Core.Isos]
C:474 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:475 [in UniMath.CategoryTheory.categories.abgrs]
C:475 [in UniMath.CategoryTheory.Core.Functors]
c:476 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:476 [in UniMath.CategoryTheory.PreAdditive]
c:476 [in UniMath.Algebra.RigsAndRings]
C:477 [in UniMath.CategoryTheory.Core.Isos]
c:479 [in UniMath.CategoryTheory.Core.Functors]
C:48 [in UniMath.CategoryTheory.Presheaf]
C:48 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:48 [in UniMath.Bicategories.Core.Bicat]
C:48 [in UniMath.CategoryTheory.categories.StandardCategories]
C:48 [in UniMath.MoreFoundations.DecidablePropositions]
C:48 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
c:48 [in UniMath.CategoryTheory.limits.graphs.pushouts]
C:48 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
c:48 [in UniMath.Bicategories.Core.Strictness]
c:48 [in UniMath.CategoryTheory.CategoryEquality]
c:48 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
C:48 [in UniMath.CategoryTheory.opp_precat]
c:48 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:48 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:48 [in UniMath.CategoryTheory.Core.Univalence]
C:48 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
c:48 [in UniMath.CategoryTheory.UnderCategories]
c:48 [in UniMath.CategoryTheory.Core.Categories]
c:48 [in UniMath.CategoryTheory.limits.graphs.limits]
c:48 [in UniMath.CategoryTheory.limits.binproducts]
c:480 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:480 [in UniMath.CategoryTheory.Core.Functors]
C:480 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:480 [in UniMath.CategoryTheory.Core.Isos]
c:480 [in UniMath.CategoryTheory.PreAdditive]
C:481 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:481 [in UniMath.Algebra.RigsAndRings]
c:482 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:483 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:484 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:484 [in UniMath.CategoryTheory.Core.Functors]
C:485 [in UniMath.CategoryTheory.Core.Isos]
c:486 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:486 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:486 [in UniMath.CategoryTheory.categories.abgrs]
c:486 [in UniMath.Algebra.Domains_and_Fields]
c:486 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
C:487 [in UniMath.CategoryTheory.Core.Functors]
c:487 [in UniMath.CategoryTheory.PreAdditive]
c:488 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:488 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:488 [in UniMath.CategoryTheory.Core.Isos]
c:488 [in UniMath.Algebra.Domains_and_Fields]
c:488 [in UniMath.CategoryTheory.limits.graphs.limits]
C:49 [in UniMath.CategoryTheory.Subcategory.Full]
C:49 [in UniMath.Bicategories.Transformations.PseudoTransformation]
C:49 [in UniMath.CategoryTheory.Core.Functors]
c:49 [in UniMath.PAdics.frac]
C:49 [in UniMath.Induction.M.ComputationalM]
C:49 [in UniMath.CategoryTheory.Core.Isos]
C:49 [in UniMath.CategoryTheory.Chains.Chains]
C:49 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:49 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
c:49 [in UniMath.Folds.folds_precat]
C:49 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c:49 [in UniMath.CategoryTheory.limits.graphs.binproducts]
c:49 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
c:49 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:49 [in UniMath.CategoryTheory.limits.cats.limits]
C:49 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:49 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
c:49 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:49 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:49 [in UniMath.CategoryTheory.limits.graphs.zero]
C:49 [in UniMath.CategoryTheory.Monads.LModules]
C:49 [in UniMath.Bicategories.Core.TransportLaws]
c:490 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:490 [in UniMath.Algebra.Domains_and_Fields]
c:490 [in UniMath.CategoryTheory.PreAdditive]
C:491 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:492 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:492 [in UniMath.Algebra.Domains_and_Fields]
c:493 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:493 [in UniMath.CategoryTheory.categories.abgrs]
C:493 [in UniMath.CategoryTheory.Core.Isos]
c:493 [in UniMath.CategoryTheory.PreAdditive]
c:495 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:495 [in UniMath.Bicategories.Core.Bicat]
C:496 [in UniMath.Bicategories.Core.Bicat]
c:496 [in UniMath.CategoryTheory.Core.Isos]
c:496 [in UniMath.CategoryTheory.PreAdditive]
C:497 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:498 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:498 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:499 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:5 [in UniMath.CategoryTheory.ExactCategories.Tests]
c:5 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:5 [in UniMath.Combinatorics.ZFstructures]
C:5 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
C:5 [in UniMath.Bicategories.Core.Examples.Initial]
C:5 [in UniMath.CategoryTheory.Monads.Monads]
C:5 [in UniMath.CategoryTheory.DisplayedCats.Projection]
c:5 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
c:5 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:5 [in UniMath.Bicategories.Transformations.PseudoTransformation]
C:5 [in UniMath.Bicategories.Core.Bicat]
c:5 [in UniMath.CategoryTheory.yoneda]
C:5 [in UniMath.SubstitutionSystems.ModulesFromSignatures]
C:5 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
C:5 [in UniMath.Bicategories.WkCatEnrichment.bicategory]
C:5 [in UniMath.Folds.folds_pre_2_cat]
c:5 [in UniMath.CategoryTheory.covyoneda]
c:5 [in UniMath.SubstitutionSystems.PCF_alt]
c:5 [in UniMath.CategoryTheory.Core.Isos]
C:5 [in UniMath.CategoryTheory.FunctorCategory]
C:5 [in UniMath.CategoryTheory.opp_precat]
C:5 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
C:5 [in UniMath.Folds.folds_precat]
C:5 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
C:5 [in UniMath.HomologicalAlgebra.CohomologyComplex]
c:5 [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
C:5 [in UniMath.CategoryTheory.Groupoids]
C:5 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:5 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:5 [in UniMath.Bicategories.Core.Examples.Final]
C:5 [in UniMath.Bicategories.Discreteness]
C:5 [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
C:5 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:5 [in UniMath.CategoryTheory.limits.pullbacks]
C:5 [in UniMath.CategoryTheory.Monads.LModules]
C:5 [in UniMath.HomologicalAlgebra.TranslationFunctors]
c:5 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
C:5 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
C:5 [in UniMath.CategoryTheory.categories.HSET.Structures]
C:5 [in UniMath.CategoryTheory.Core.Categories]
C:50 [in UniMath.CategoryTheory.Abelian]
C:50 [in UniMath.CategoryTheory.Monads.Monads]
C:50 [in UniMath.CategoryTheory.DisplayedCats.Projection]
C:50 [in UniMath.MoreFoundations.WeakEquivalences]
C:50 [in UniMath.MoreFoundations.DecidablePropositions]
c:50 [in UniMath.Induction.M.ComputationalM]
C:50 [in UniMath.CategoryTheory.HorizontalComposition]
C:50 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:50 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
C:50 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
C:50 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
c:50 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:50 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
C:50 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
C:50 [in UniMath.Folds.from_precats_to_folds_and_back]
c:500 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:500 [in UniMath.CategoryTheory.Core.Isos]
C:501 [in UniMath.Bicategories.Core.Bicat]
C:501 [in UniMath.CategoryTheory.categories.abgrs]
c:502 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:503 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:503 [in UniMath.CategoryTheory.Core.Isos]
c:504 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:504 [in UniMath.CategoryTheory.PreAdditive]
C:505 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:505 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:506 [in UniMath.Algebra.RigsAndRings]
C:508 [in UniMath.Bicategories.Core.Bicat]
C:508 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:509 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:509 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:509 [in UniMath.CategoryTheory.Core.Functors]
c:509 [in UniMath.CategoryTheory.PreAdditive]
C:51 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
c:51 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:51 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:51 [in UniMath.Induction.ImpredicativeInductiveSets]
c:51 [in UniMath.CategoryTheory.limits.bincoproducts]
c:51 [in UniMath.Folds.folds_pre_2_cat]
c:51 [in UniMath.CategoryTheory.PseudoElements]
C:51 [in UniMath.CategoryTheory.CategoryEquality]
C:51 [in UniMath.CategoryTheory.FunctorCategory]
C:51 [in UniMath.Bicategories.Core.Invertible_2cells]
c:51 [in UniMath.CategoryTheory.limits.products]
c:51 [in UniMath.CategoryTheory.limits.cats.limits]
C:51 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C:51 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
C:51 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:51 [in UniMath.CategoryTheory.Monads.LModules]
C:51 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
C:51 [in UniMath.CategoryTheory.Core.TwoCategories]
c:51 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
C:51 [in UniMath.CategoryTheory.Monads.KTriples]
C:51 [in UniMath.CategoryTheory.limits.graphs.limits]
c:510 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:511 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:511 [in UniMath.Algebra.Domains_and_Fields]
C:512 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:513 [in UniMath.Algebra.Domains_and_Fields]
c:513 [in UniMath.Algebra.RigsAndRings]
C:513 [in UniMath.CategoryTheory.limits.pullbacks]
C:515 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:515 [in UniMath.CategoryTheory.PreAdditive]
c:517 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:517 [in UniMath.Bicategories.Core.Bicat]
C:517 [in UniMath.CategoryTheory.Core.Functors]
c:518 [in UniMath.CategoryTheory.PreAdditive]
c:518 [in UniMath.Algebra.RigsAndRings]
c:518 [in UniMath.CategoryTheory.limits.pullbacks]
C:519 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:519 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:519 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:52 [in UniMath.CategoryTheory.Presheaf]
C:52 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:52 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
C:52 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
C:52 [in UniMath.CategoryTheory.yoneda]
C:52 [in UniMath.CategoryTheory.Core.Functors]
c:52 [in UniMath.PAdics.frac]
c:52 [in UniMath.CategoryTheory.Chains.Chains]
C:52 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:52 [in UniMath.CategoryTheory.Subcategory.Core]
c:52 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:52 [in UniMath.Bicategories.Discreteness]
C:52 [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
C:52 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
C:52 [in UniMath.CategoryTheory.Profunctors.Core]
C:520 [in UniMath.CategoryTheory.limits.graphs.limits]
c:522 [in UniMath.Algebra.RigsAndRings]
C:523 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:523 [in UniMath.Bicategories.Core.Bicat]
c:523 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:524 [in UniMath.CategoryTheory.Core.Functors]
c:525 [in UniMath.CategoryTheory.PreAdditive]
C:526 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:526 [in UniMath.CategoryTheory.Core.Functors]
C:526 [in UniMath.CategoryTheory.limits.graphs.limits]
c:527 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:528 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:528 [in UniMath.CategoryTheory.PreAdditive]
C:529 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:529 [in UniMath.CategoryTheory.limits.pullbacks]
c:53 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:53 [in UniMath.CategoryTheory.Abelian]
C:53 [in UniMath.CategoryTheory.Subcategory.Full]
c:53 [in UniMath.CategoryTheory.yoneda]
C:53 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
C:53 [in UniMath.CategoryTheory.CategoryEquality]
C:53 [in UniMath.CategoryTheory.Core.Isos]
c:53 [in UniMath.Algebra.Domains_and_Fields]
c:53 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
C:53 [in UniMath.CategoryTheory.HorizontalComposition]
C:53 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
C:53 [in UniMath.CategoryTheory.Monads.Derivative]
c:53 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
C:53 [in UniMath.CategoryTheory.Monads.LModules]
c:53 [in UniMath.Folds.from_precats_to_folds_and_back]
C:53 [in UniMath.CategoryTheory.Core.Categories]
C:530 [in UniMath.Bicategories.Core.Bicat]
C:530 [in UniMath.CategoryTheory.Core.Functors]
C:531 [in UniMath.CategoryTheory.Core.Isos]
C:532 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:532 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:532 [in UniMath.Foundations.PartA]
C:532 [in UniMath.CategoryTheory.limits.graphs.limits]
c:533 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:533 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:534 [in UniMath.CategoryTheory.Core.Isos]
c:534 [in UniMath.CategoryTheory.PreAdditive]
C:536 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:536 [in UniMath.CategoryTheory.Core.Functors]
c:537 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:537 [in UniMath.Bicategories.Core.Bicat]
C:537 [in UniMath.CategoryTheory.Core.Isos]
C:538 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:538 [in UniMath.CategoryTheory.limits.pullbacks]
c:539 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:54 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
C:54 [in UniMath.CategoryTheory.Monads.Monads]
c:54 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:54 [in UniMath.Bicategories.Core.Bicat]
C:54 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
c:54 [in UniMath.CategoryTheory.limits.pushouts]
C:54 [in UniMath.Induction.M.ComputationalM]
c:54 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
C:54 [in UniMath.CategoryTheory.opp_precat]
c:54 [in UniMath.CategoryTheory.Enriched.Enriched]
C:54 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:54 [in UniMath.CategoryTheory.Subcategory.Core]
C:54 [in UniMath.CategoryTheory.Groupoids]
C:54 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:54 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:54 [in UniMath.CategoryTheory.Core.TransportMorphisms]
C:54 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:54 [in UniMath.CategoryTheory.UnderCategories]
c:54 [in UniMath.CategoryTheory.Core.TwoCategories]
c:54 [in UniMath.CategoryTheory.limits.binproducts]
c:541 [in UniMath.CategoryTheory.PreAdditive]
C:542 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:542 [in UniMath.CategoryTheory.Core.Isos]
c:542 [in UniMath.CategoryTheory.limits.pullbacks]
C:542 [in UniMath.Foundations.PartA]
C:544 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:544 [in UniMath.Bicategories.Core.Bicat]
C:546 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:546 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:547 [in UniMath.CategoryTheory.Core.Isos]
c:548 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:548 [in UniMath.Bicategories.Core.Bicat]
c:548 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:548 [in UniMath.CategoryTheory.PreAdditive]
c:55 [in UniMath.CategoryTheory.Presheaf]
c:55 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:55 [in UniMath.CategoryTheory.DisplayedCats.Projection]
C:55 [in UniMath.Bicategories.Transformations.PseudoTransformation]
C:55 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
C:55 [in UniMath.CategoryTheory.whiskering]
C:55 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:55 [in UniMath.PAdics.frac]
C:55 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:55 [in UniMath.CategoryTheory.CategoryEquality]
c:55 [in UniMath.Induction.M.ComputationalM]
C:55 [in UniMath.CategoryTheory.Chains.Chains]
c:55 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C:55 [in UniMath.CategoryTheory.opp_precat]
c:55 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
c:55 [in UniMath.CategoryTheory.limits.graphs.binproducts]
C:55 [in UniMath.CategoryTheory.Groupoids]
C:55 [in UniMath.CategoryTheory.limits.cats.limits]
C:55 [in UniMath.CategoryTheory.Core.Univalence]
C:55 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C:55 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
C:55 [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
c:55 [in UniMath.CategoryTheory.limits.pullbacks]
C:550 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:550 [in UniMath.CategoryTheory.Core.Isos]
C:551 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:552 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:553 [in UniMath.CategoryTheory.Core.Isos]
C:553 [in UniMath.Foundations.PartA]
C:554 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:554 [in UniMath.Bicategories.Core.Bicat]
c:554 [in UniMath.CategoryTheory.PreAdditive]
C:555 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:555 [in UniMath.CategoryTheory.Core.Isos]
C:556 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:558 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:559 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:559 [in UniMath.Bicategories.Core.Bicat]
C:559 [in UniMath.Foundations.PartD]
C:559 [in UniMath.CategoryTheory.Core.Isos]
C:56 [in UniMath.CategoryTheory.Monads.RelativeMonads]
c:56 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:56 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:56 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
c:56 [in UniMath.CategoryTheory.limits.coproducts]
C:56 [in UniMath.CategoryTheory.Core.Functors]
C:56 [in UniMath.CategoryTheory.opp_precat]
c:56 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
c:56 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:56 [in UniMath.CategoryTheory.HorizontalComposition]
c:56 [in UniMath.CategoryTheory.Monads.Derivative]
C:56 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
C:56 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
C:56 [in UniMath.CategoryTheory.Monads.KTriples]
C:56 [in UniMath.CategoryTheory.limits.graphs.limits]
C:560 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:562 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:562 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:562 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:563 [in UniMath.CategoryTheory.Core.Isos]
c:563 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:564 [in UniMath.CategoryTheory.limits.pullbacks]
C:566 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:567 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:568 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:569 [in UniMath.CategoryTheory.LocalizingClass]
C:569 [in UniMath.Bicategories.Core.Bicat]
c:57 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
C:57 [in UniMath.CategoryTheory.Subcategory.Full]
c:57 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C:57 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
C:57 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
C:57 [in UniMath.CategoryTheory.CategoryEquality]
C:57 [in UniMath.CategoryTheory.opp_precat]
C:57 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:57 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
c:57 [in UniMath.Algebra.Groups]
c:57 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
c:57 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
c:57 [in UniMath.CategoryTheory.Monads.Derivative]
C:57 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:57 [in UniMath.CategoryTheory.UnderCategories]
C:57 [in UniMath.Folds.from_precats_to_folds_and_back]
c:57 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
C:570 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:571 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:571 [in UniMath.CategoryTheory.Core.Isos]
C:572 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:572 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:574 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:575 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:575 [in UniMath.CategoryTheory.Core.Isos]
C:576 [in UniMath.CategoryTheory.Core.Isos]
C:579 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:579 [in UniMath.Bicategories.Core.Bicat]
C:58 [in UniMath.CategoryTheory.Abelian]
C:58 [in UniMath.CategoryTheory.DisplayedCats.Projection]
C:58 [in UniMath.Bicategories.Core.Bicat]
C:58 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
c:58 [in UniMath.RealNumbers.DedekindCuts]
C:58 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
c:58 [in UniMath.CategoryTheory.limits.graphs.pushouts]
C:58 [in UniMath.Folds.folds_pre_2_cat]
c:58 [in UniMath.CategoryTheory.PseudoElements]
C:58 [in UniMath.CategoryTheory.Core.Isos]
C:58 [in UniMath.CategoryTheory.Chains.Chains]
C:58 [in UniMath.CategoryTheory.FunctorCategory]
C:58 [in UniMath.Folds.folds_precat]
c:58 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
c:58 [in UniMath.CategoryTheory.Monads.Derivative]
C:58 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:58 [in UniMath.Bicategories.Core.TransportLaws]
C:580 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:580 [in UniMath.CategoryTheory.Core.Isos]
C:582 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:585 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:586 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:587 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:587 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:588 [in UniMath.CategoryTheory.Core.Isos]
C:589 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:589 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:59 [in UniMath.CategoryTheory.ExactCategories.Tests]
c:59 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:59 [in UniMath.CategoryTheory.Monads.Monads]
C:59 [in UniMath.Bicategories.Core.Bicat]
c:59 [in UniMath.MoreFoundations.Sets]
C:59 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:59 [in UniMath.CategoryTheory.yoneda]
c:59 [in UniMath.CategoryTheory.limits.pushouts]
C:59 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:59 [in UniMath.CategoryTheory.CategoryEquality]
C:59 [in UniMath.Induction.M.ComputationalM]
C:59 [in UniMath.CategoryTheory.opp_precat]
C:59 [in UniMath.Bicategories.Core.Invertible_2cells]
C:59 [in UniMath.CategoryTheory.Groupoids]
C:59 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:59 [in UniMath.CategoryTheory.limits.cats.limits]
C:59 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C:59 [in UniMath.CategoryTheory.Monads.LModules]
C:59 [in UniMath.CategoryTheory.Core.TwoCategories]
c:59 [in UniMath.CategoryTheory.limits.graphs.limits]
C:592 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:592 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:592 [in UniMath.CategoryTheory.Core.Isos]
C:593 [in UniMath.CategoryTheory.Core.Isos]
C:595 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:596 [in UniMath.Bicategories.Core.Bicat]
C:597 [in UniMath.CategoryTheory.Core.Isos]
C:598 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:599 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
c:6 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:6 [in UniMath.CategoryTheory.Abelian]
C:6 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:6 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
c:6 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
C:6 [in UniMath.CategoryTheory.Subcategory.Full]
C:6 [in UniMath.Bicategories.Core.Bicat]
C:6 [in UniMath.CategoryTheory.Core.Functors]
C:6 [in UniMath.CategoryTheory.limits.initial]
C:6 [in UniMath.CategoryTheory.rezk_completion]
C:6 [in UniMath.Folds.folds_pre_2_cat]
C:6 [in UniMath.CategoryTheory.CategoriesWithBinOps]
C:6 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:6 [in UniMath.Induction.M.ComputationalM]
C:6 [in UniMath.CategoryTheory.EpiFacts]
c:6 [in UniMath.CategoryTheory.Chains.Chains]
C:6 [in UniMath.CategoryTheory.Monads.KleisliCategory]
C:6 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:6 [in UniMath.Folds.folds_precat]
C:6 [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
C:6 [in UniMath.CategoryTheory.Groupoids]
C:6 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
C:6 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
C:6 [in UniMath.CategoryTheory.Monads.Kleisli]
C:6 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
C:6 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:6 [in UniMath.CategoryTheory.Adjunctions.Restriction]
C:6 [in UniMath.CategoryTheory.Subcategory.Reflective]
C:6 [in UniMath.CategoryTheory.Adjunctions.Examples]
c:6 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
C:6 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
c:6 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
C:6 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
C:6 [in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
C:6 [in UniMath.CategoryTheory.Core.Categories]
c:60 [in UniMath.CategoryTheory.ExactCategories.Tests]
c:60 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
c:60 [in UniMath.CategoryTheory.yoneda]
c:60 [in UniMath.CategoryTheory.Core.Functors]
c:60 [in UniMath.Induction.M.ComputationalM]
C:60 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:60 [in UniMath.Folds.folds_precat]
C:60 [in UniMath.CategoryTheory.HorizontalComposition]
C:60 [in UniMath.CategoryTheory.Subcategory.Core]
c:60 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:60 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:60 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:60 [in UniMath.CategoryTheory.limits.pullbacks]
c:60 [in UniMath.CategoryTheory.elems_slice_equiv]
C:60 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:60 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
c:60 [in UniMath.CategoryTheory.UnderCategories]
c:60 [in UniMath.Folds.from_precats_to_folds_and_back]
c:601 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:601 [in UniMath.CategoryTheory.Core.Isos]
C:602 [in UniMath.Bicategories.Core.Bicat]
C:603 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:603 [in UniMath.CategoryTheory.Core.Isos]
C:605 [in UniMath.CategoryTheory.Core.Isos]
C:607 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:607 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:609 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:609 [in UniMath.Bicategories.Core.Bicat]
C:609 [in UniMath.CategoryTheory.Core.Isos]
C:61 [in UniMath.CategoryTheory.Abelian]
C:61 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:61 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:61 [in UniMath.CategoryTheory.DisplayedCats.Projection]
C:61 [in UniMath.CategoryTheory.Subcategory.Full]
C:61 [in UniMath.Bicategories.Core.Bicat]
C:61 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
C:61 [in UniMath.Folds.folds_precat]
C:61 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
c:61 [in UniMath.SubstitutionSystems.SubstitutionSystems]
c:61 [in UniMath.CategoryTheory.limits.graphs.binproducts]
c:61 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:61 [in UniMath.CategoryTheory.limits.products]
C:61 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
c:61 [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
C:61 [in UniMath.CategoryTheory.Monads.KTriples]
c:610 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:611 [in UniMath.CategoryTheory.Core.Isos]
c:611 [in UniMath.Combinatorics.StandardFiniteSets]
C:613 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:613 [in UniMath.CategoryTheory.Core.Isos]
C:615 [in UniMath.Bicategories.Core.Bicat]
c:615 [in UniMath.CategoryTheory.Core.Isos]
C:616 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:617 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:617 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:617 [in UniMath.CategoryTheory.Core.Isos]
c:618 [in UniMath.CategoryTheory.Core.Isos]
C:62 [in UniMath.CategoryTheory.ExactCategories.Tests]
c:62 [in UniMath.CategoryTheory.Presheaf]
C:62 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:62 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
c:62 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
C:62 [in UniMath.Bicategories.Core.Bicat]
C:62 [in UniMath.CategoryTheory.Core.Isos]
c:62 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c:62 [in UniMath.Algebra.Groups]
c:62 [in UniMath.SubstitutionSystems.SubstitutionSystems]
C:62 [in UniMath.CategoryTheory.Subcategory.Core]
C:62 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:62 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C:62 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
C:62 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
C:62 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
c:62 [in UniMath.CategoryTheory.Core.TwoCategories]
c:62 [in UniMath.CategoryTheory.Core.Categories]
C:62 [in UniMath.CategoryTheory.limits.graphs.limits]
C:621 [in UniMath.Bicategories.Core.Bicat]
C:622 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:622 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:623 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:624 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:624 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:625 [in UniMath.Bicategories.Core.Bicat]
C:626 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:628 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:629 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:629 [in UniMath.CategoryTheory.Core.Isos]
c:63 [in UniMath.CategoryTheory.ExactCategories.Tests]
C:63 [in UniMath.CategoryTheory.DisplayedCats.Projection]
C:63 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:63 [in UniMath.CategoryTheory.yoneda]
c:63 [in UniMath.CategoryTheory.limits.coproducts]
c:63 [in UniMath.CategoryTheory.limits.graphs.pushouts]
c:63 [in UniMath.CategoryTheory.limits.bincoproducts]
c:63 [in UniMath.Bicategories.Core.Strictness]
C:63 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:63 [in UniMath.CategoryTheory.opp_precat]
C:63 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
C:63 [in UniMath.CategoryTheory.Groupoids]
C:63 [in UniMath.CategoryTheory.limits.cats.limits]
C:63 [in UniMath.CategoryTheory.LatticeObject]
C:63 [in UniMath.CategoryTheory.Core.Univalence]
C:63 [in UniMath.CategoryTheory.limits.graphs.zero]
c:63 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
c:63 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
c:63 [in UniMath.CategoryTheory.limits.binproducts]
C:630 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:630 [in UniMath.CategoryTheory.DisplayedCats.Core]
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C:632 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:633 [in UniMath.Bicategories.Core.Bicat]
C:634 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:634 [in UniMath.Foundations.NaturalNumbers]
C:636 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:637 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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c:64 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:64 [in UniMath.CategoryTheory.Monads.Monads]
c:64 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C:64 [in UniMath.Algebra.FixedPointTheorems]
c:64 [in UniMath.CategoryTheory.yoneda]
C:64 [in UniMath.CategoryTheory.whiskering]
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C:64 [in UniMath.CategoryTheory.DisplayedCats.Core]
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C:64 [in UniMath.CategoryTheory.Subcategory.Core]
C:64 [in UniMath.CategoryTheory.Groupoids]
C:64 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
c:64 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
C:64 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
c:64 [in UniMath.CategoryTheory.limits.graphs.zero]
c:64 [in UniMath.Induction.M.Limits]
C:64 [in UniMath.Folds.from_precats_to_folds_and_back]
C:640 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:642 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:643 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:644 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:646 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:648 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:65 [in UniMath.CategoryTheory.ExactCategories.Tests]
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C:65 [in UniMath.CategoryTheory.Subcategory.Full]
C:65 [in UniMath.Bicategories.Transformations.PseudoTransformation]
C:65 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
c:65 [in UniMath.CategoryTheory.PseudoElements]
C:65 [in UniMath.Induction.M.ComputationalM]
C:65 [in UniMath.CategoryTheory.FunctorCategory]
C:65 [in UniMath.Bicategories.Core.Invertible_2cells]
C:65 [in UniMath.CategoryTheory.Groupoids]
C:65 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
c:65 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:65 [in UniMath.CategoryTheory.limits.pullbacks]
c:65 [in UniMath.CategoryTheory.limits.graphs.zero]
C:65 [in UniMath.CategoryTheory.Monads.LModules]
c:65 [in UniMath.Induction.M.Limits]
C:650 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:652 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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C:655 [in UniMath.Foundations.PartA]
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C:66 [in UniMath.SubstitutionSystems.Signatures]
C:66 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:66 [in UniMath.CategoryTheory.Monads.Monads]
C:66 [in UniMath.CategoryTheory.DisplayedCats.Projection]
C:66 [in UniMath.Bicategories.Core.Bicat]
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C:66 [in UniMath.CategoryTheory.DisplayedCats.Core]
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C:66 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
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C:66 [in UniMath.CategoryTheory.Subcategory.Core]
C:66 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:66 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
c:66 [in UniMath.Induction.M.Limits]
C:66 [in UniMath.CategoryTheory.Monads.KTriples]
C:66 [in UniMath.CategoryTheory.limits.graphs.limits]
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C:67 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:67 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:67 [in UniMath.CategoryTheory.yoneda]
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C:67 [in UniMath.CategoryTheory.opp_precat]
C:67 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
C:67 [in UniMath.CategoryTheory.slicecat]
C:67 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:67 [in UniMath.CategoryTheory.limits.graphs.binproducts]
C:67 [in UniMath.CategoryTheory.Groupoids]
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C:67 [in UniMath.CategoryTheory.LatticeObject]
C:67 [in UniMath.CategoryTheory.Core.TransportMorphisms]
C:67 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:67 [in UniMath.Bicategories.Core.TransportLaws]
c:67 [in UniMath.Induction.M.Limits]
C:67 [in UniMath.CategoryTheory.Core.Categories]
C:673 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:675 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:678 [in UniMath.CategoryTheory.DisplayedCats.Core]
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C:68 [in UniMath.CategoryTheory.Core.Isos]
C:68 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
C:68 [in UniMath.CategoryTheory.Subcategory.Core]
C:68 [in UniMath.CategoryTheory.Groupoids]
C:68 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:68 [in UniMath.CategoryTheory.limits.cats.limits]
C:68 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C:68 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
C:68 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
c:68 [in UniMath.Induction.M.Limits]
C:68 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
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C:685 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:685 [in UniMath.MoreFoundations.PartA]
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C:69 [in UniMath.CategoryTheory.DisplayedCats.Projection]
c:69 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
C:69 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
c:69 [in UniMath.CategoryTheory.limits.coproducts]
C:69 [in UniMath.Folds.folds_pre_2_cat]
c:69 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
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C:69 [in UniMath.CategoryTheory.HorizontalComposition]
C:69 [in UniMath.CategoryTheory.Groupoids]
C:69 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c:69 [in UniMath.CategoryTheory.limits.products]
c:69 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
C:69 [in UniMath.CategoryTheory.Core.TwoCategories]
C:69 [in UniMath.SyntheticHomotopyTheory.Circle2]
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C:7 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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C:7 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
C:7 [in UniMath.CategoryTheory.yoneda]
C:7 [in UniMath.SubstitutionSystems.ModulesFromSignatures]
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C:7 [in UniMath.Bicategories.Core.AdjointUnique]
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C:7 [in UniMath.CategoryTheory.Core.Isos]
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C:7 [in UniMath.CategoryTheory.FunctorCategory]
C:7 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
C:7 [in UniMath.HomologicalAlgebra.CohomologyComplex]
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C:7 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:7 [in UniMath.CategoryTheory.Subcategory.Limits]
C:7 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
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C:7 [in UniMath.CategoryTheory.Monads.LModules]
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C:7 [in UniMath.CategoryTheory.RightKanExtension]
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C:70 [in UniMath.Bicategories.Core.Bicat]
C:70 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:70 [in UniMath.Induction.ImpredicativeInductiveSets]
C:70 [in UniMath.CategoryTheory.yoneda]
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C:70 [in UniMath.CategoryTheory.Core.NaturalTransformations]
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C:72 [in UniMath.CategoryTheory.LatticeObject]
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C:73 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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C:73 [in UniMath.CategoryTheory.Core.Isos]
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C:73 [in UniMath.Bicategories.Core.Invertible_2cells]
C:73 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C:73 [in UniMath.Combinatorics.Lists]
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c:734 [in UniMath.CategoryTheory.DisplayedCats.Core]
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C:74 [in UniMath.CategoryTheory.Groupoids]
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C:74 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
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C:743 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:746 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:749 [in UniMath.Foundations.Sets]
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C:75 [in UniMath.CategoryTheory.yoneda]
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C:75 [in UniMath.CategoryTheory.opp_precat]
C:75 [in UniMath.Bicategories.Core.Univalence]
C:75 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
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C:75 [in UniMath.CategoryTheory.limits.cats.limits]
C:75 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
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C:75 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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C:75 [in UniMath.CategoryTheory.limits.graphs.limits]
C:750 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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C:76 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
C:76 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
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C:76 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
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C:76 [in UniMath.CategoryTheory.Monads.LModules]
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C:76 [in UniMath.CategoryTheory.Core.Categories]
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C:764 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:766 [in UniMath.CategoryTheory.DisplayedCats.Core]
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C:769 [in UniMath.CategoryTheory.DisplayedCats.Core]
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C:77 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
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C:78 [in UniMath.CategoryTheory.HorizontalComposition]
C:78 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
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C:78 [in UniMath.CategoryTheory.Core.Univalence]
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C:78 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
C:78 [in UniMath.CategoryTheory.Epis]
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C:781 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:783 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:787 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:788 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:79 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
c:79 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:79 [in UniMath.CategoryTheory.DisplayedCats.Examples]
c:79 [in UniMath.CategoryTheory.PseudoElements]
C:79 [in UniMath.CategoryTheory.opp_precat]
C:79 [in UniMath.Bicategories.Core.Invertible_2cells]
C:79 [in UniMath.Bicategories.Colimits.Final]
C:79 [in UniMath.Bicategories.Core.Univalence]
C:79 [in UniMath.CategoryTheory.Groupoids]
C:79 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:79 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:79 [in UniMath.CategoryTheory.Core.TransportMorphisms]
c:79 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
C:79 [in UniMath.CategoryTheory.Monads.LModules]
C:79 [in UniMath.CategoryTheory.Core.TwoCategories]
C:79 [in UniMath.Folds.from_precats_to_folds_and_back]
C:79 [in UniMath.CategoryTheory.limits.graphs.limits]
c:79 [in UniMath.CategoryTheory.limits.binproducts]
C:793 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:794 [in UniMath.Bicategories.Core.Bicat]
c:797 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
C:798 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:8 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
C:8 [in UniMath.CategoryTheory.categories.HSET.Core]
C:8 [in UniMath.CategoryTheory.Abelian]
c:8 [in UniMath.Bicategories.BicategoryOfBicat]
c:8 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:8 [in UniMath.CategoryTheory.categories.abgrs]
C:8 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
c:8 [in UniMath.CategoryTheory.yoneda]
C:8 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
C:8 [in UniMath.CategoryTheory.ProductCategory]
C:8 [in UniMath.CategoryTheory.limits.initial]
C:8 [in UniMath.CategoryTheory.whiskering]
C:8 [in UniMath.CategoryTheory.rezk_completion]
c:8 [in UniMath.CategoryTheory.Quotobjects]
C:8 [in UniMath.CategoryTheory.CategoryEquality]
C:8 [in UniMath.CategoryTheory.covyoneda]
C:8 [in UniMath.Induction.M.ComputationalM]
c:8 [in UniMath.CategoryTheory.Chains.Chains]
c:8 [in UniMath.CategoryTheory.opp_precat]
C:8 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:8 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
C:8 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:8 [in UniMath.CategoryTheory.limits.graphs.binproducts]
C:8 [in UniMath.SubstitutionSystems.BindingSigToMonad]
c:8 [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
C:8 [in UniMath.CategoryTheory.Monads.Kleisli]
C:8 [in UniMath.CategoryTheory.Core.Univalence]
C:8 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:8 [in UniMath.CategoryTheory.limits.graphs.zero]
c:8 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
c:8 [in UniMath.CategoryTheory.PointedFunctors]
C:8 [in UniMath.CategoryTheory.ArrowCategory]
C:8 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
c:8 [in UniMath.Folds.from_precats_to_folds_and_back]
C:8 [in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
C:8 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
c:80 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:80 [in UniMath.CategoryTheory.Monads.Monads]
C:80 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
C:80 [in UniMath.CategoryTheory.yoneda]
c:80 [in UniMath.CategoryTheory.Core.Functors]
C:80 [in UniMath.CategoryTheory.whiskering]
c:80 [in UniMath.CategoryTheory.limits.graphs.pushouts]
c:80 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
C:80 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:80 [in UniMath.CategoryTheory.Subcategory.Core]
C:80 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:80 [in UniMath.CategoryTheory.Monads.LModules]
C:800 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:803 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:805 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:805 [in UniMath.Algebra.BinaryOperations]
c:805 [in UniMath.Foundations.Sets]
C:806 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:807 [in UniMath.Bicategories.Core.Bicat]
C:809 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:81 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
C:81 [in UniMath.Bicategories.Transformations.PseudoTransformation]
C:81 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
C:81 [in UniMath.CategoryTheory.DisplayedCats.Examples]
C:81 [in UniMath.Induction.M.ComputationalM]
C:81 [in UniMath.CategoryTheory.Core.Isos]
c:81 [in UniMath.PAdics.lemmas]
C:81 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
c:81 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
c:81 [in UniMath.CategoryTheory.limits.products]
C:81 [in UniMath.CategoryTheory.Monads.LModules]
C:81 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
c:81 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
C:810 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:813 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:814 [in UniMath.Bicategories.Core.Bicat]
C:816 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:82 [in UniMath.Bicategories.Core.EquivToAdjequiv]
C:82 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:82 [in UniMath.Bicategories.Core.Bicat]
C:82 [in UniMath.CategoryTheory.categories.abgrs]
C:82 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
c:82 [in UniMath.CategoryTheory.yoneda]
c:82 [in UniMath.CategoryTheory.Core.Functors]
c:82 [in UniMath.CategoryTheory.limits.pushouts]
c:82 [in UniMath.Induction.M.ComputationalM]
C:82 [in UniMath.CategoryTheory.opp_precat]
C:82 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c:82 [in UniMath.Folds.folds_precat]
C:82 [in UniMath.Bicategories.Core.Univalence]
C:82 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C:82 [in UniMath.CategoryTheory.Subcategory.Core]
c:82 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
c:82 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
c:82 [in UniMath.CategoryTheory.Epis]
c:821 [in UniMath.Bicategories.Core.Bicat]
C:823 [in UniMath.MoreFoundations.PartA]
C:825 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:826 [in UniMath.Bicategories.Core.Bicat]
C:829 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:83 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:83 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:83 [in UniMath.CategoryTheory.yoneda]
c:83 [in UniMath.CategoryTheory.Core.Functors]
C:83 [in UniMath.CategoryTheory.DisplayedCats.Examples]
C:83 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:83 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:83 [in UniMath.CategoryTheory.limits.cats.limits]
C:83 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:83 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:83 [in UniMath.CategoryTheory.limits.pullbacks]
C:83 [in UniMath.CategoryTheory.Monads.KTriples]
c:83 [in UniMath.CategoryTheory.limits.graphs.limits]
c:83 [in UniMath.CategoryTheory.limits.binproducts]
c:832 [in UniMath.Foundations.Sets]
C:833 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:834 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:839 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:839 [in UniMath.Bicategories.Core.Bicat]
c:839 [in UniMath.Foundations.Sets]
c:84 [in UniMath.CategoryTheory.limits.coproducts]
C:84 [in UniMath.CategoryTheory.Core.Functors]
c:84 [in UniMath.CategoryTheory.Core.Isos]
c:84 [in UniMath.CategoryTheory.opp_precat]
C:84 [in UniMath.CategoryTheory.slicecat]
c:84 [in UniMath.CategoryTheory.limits.graphs.binproducts]
C:84 [in UniMath.CategoryTheory.Subcategory.Core]
C:84 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
c:84 [in UniMath.CategoryTheory.Monics]
C:84 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:84 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:84 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
c:84 [in UniMath.MoreFoundations.NegativePropositions]
C:84 [in UniMath.CategoryTheory.Monads.LModules]
c:84 [in UniMath.CategoryTheory.Epis]
c:844 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
C:845 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:845 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:848 [in UniMath.Bicategories.Core.Bicat]
C:85 [in UniMath.CategoryTheory.Monads.Monads]
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C:85 [in UniMath.CategoryTheory.yoneda]
c:85 [in UniMath.CategoryTheory.limits.bincoproducts]
C:85 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:85 [in UniMath.Folds.folds_pre_2_cat]
c:85 [in UniMath.CategoryTheory.DisplayedCats.Examples]
c:85 [in UniMath.CategoryTheory.PseudoElements]
C:85 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:85 [in UniMath.CategoryTheory.FunctorCategory]
C:85 [in UniMath.CategoryTheory.opp_precat]
c:85 [in UniMath.PAdics.lemmas]
c:85 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
c:85 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
c:85 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
C:85 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
C:85 [in UniMath.CategoryTheory.Core.TwoCategories]
C:851 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:856 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:857 [in UniMath.Bicategories.Core.Bicat]
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c:86 [in UniMath.CategoryTheory.categories.abgrs]
C:86 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
c:86 [in UniMath.CategoryTheory.yoneda]
c:86 [in UniMath.CategoryTheory.limits.graphs.pushouts]
C:86 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:86 [in UniMath.Induction.M.ComputationalM]
c:86 [in UniMath.CategoryTheory.Monics]
c:86 [in UniMath.Folds.folds_isomorphism]
C:86 [in UniMath.CategoryTheory.Core.Univalence]
C:86 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:86 [in UniMath.CategoryTheory.Core.TwoCategories]
C:863 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:866 [in UniMath.Bicategories.Core.Bicat]
C:869 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:87 [in UniMath.Bicategories.Core.Strictness]
c:87 [in UniMath.Induction.M.ComputationalM]
C:87 [in UniMath.Bicategories.Core.Invertible_2cells]
c:87 [in UniMath.Folds.folds_precat]
C:87 [in UniMath.CategoryTheory.HorizontalComposition]
c:87 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:87 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:87 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:87 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:87 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:87 [in UniMath.Bicategories.Core.TransportLaws]
C:87 [in UniMath.Bicategories.Colimits.Initial]
C:87 [in UniMath.CategoryTheory.Core.TwoCategories]
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C:87 [in UniMath.CategoryTheory.limits.graphs.limits]
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C:875 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:88 [in UniMath.CategoryTheory.Monads.RelativeModules]
C:88 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
C:88 [in UniMath.CategoryTheory.yoneda]
C:88 [in UniMath.CategoryTheory.whiskering]
c:88 [in UniMath.CategoryTheory.limits.pushouts]
C:88 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:88 [in UniMath.CategoryTheory.FunctorAlgebras]
c:88 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
C:88 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C:88 [in UniMath.CategoryTheory.Subcategory.Core]
C:88 [in UniMath.CategoryTheory.limits.cats.limits]
C:88 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
c:88 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
C:88 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
C:88 [in UniMath.CategoryTheory.Monads.KTriples]
c:88 [in UniMath.CategoryTheory.limits.binproducts]
C:881 [in UniMath.CategoryTheory.DisplayedCats.Core]
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C:889 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:89 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
c:89 [in UniMath.CategoryTheory.Monads.RelativeMonads]
C:89 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:89 [in UniMath.CategoryTheory.categories.abgrs]
c:89 [in UniMath.CategoryTheory.yoneda]
C:89 [in UniMath.CategoryTheory.Core.Isos]
C:89 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:89 [in UniMath.CategoryTheory.Monics]
c:89 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
c:89 [in UniMath.CategoryTheory.limits.pullbacks]
c:89 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
C:892 [in UniMath.Bicategories.Core.Bicat]
C:895 [in UniMath.Bicategories.Core.Bicat]
C:898 [in UniMath.Bicategories.Core.Bicat]
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C:9 [in UniMath.Bicategories.Core.UnivalenceOp]
c:9 [in UniMath.CategoryTheory.GrothendieckTopos]
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c:9 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:9 [in UniMath.CategoryTheory.Monads.Monads]
C:9 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
c:9 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
c:9 [in UniMath.PAdics.z_mod_p]
C:9 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
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C:9 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
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c:9 [in UniMath.Induction.M.ComputationalM]
C:9 [in UniMath.CategoryTheory.Monads.KleisliCategory]
C:9 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:9 [in UniMath.Folds.folds_precat]
C:9 [in UniMath.CategoryTheory.Core.Setcategories]
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C:9 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:9 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:9 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
C:9 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
C:9 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C:9 [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
C:9 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
C:9 [in UniMath.CategoryTheory.Core.TransportMorphisms]
c:9 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
C:9 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
C:9 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
c:9 [in UniMath.SubstitutionSystems.SignatureCategory]
C:9 [in UniMath.CategoryTheory.Monads.LModules]
C:9 [in UniMath.CategoryTheory.Adjunctions.Examples]
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C:9 [in UniMath.CategoryTheory.ArrowCategory]
C:9 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
C:9 [in UniMath.Bicategories.Core.Examples.StrictCats]
c:9 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
C:90 [in UniMath.Bicategories.Core.EquivToAdjequiv]
C:90 [in UniMath.CategoryTheory.Monads.Monads]
C:90 [in UniMath.Bicategories.Core.Bicat]
C:90 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
c:90 [in UniMath.CategoryTheory.PseudoElements]
c:90 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C:90 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c:90 [in UniMath.CategoryTheory.limits.products]
C:90 [in UniMath.CategoryTheory.Core.Univalence]
C:90 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:90 [in UniMath.CategoryTheory.Core.TransportMorphisms]
C:90 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
C:90 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
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C:905 [in UniMath.CategoryTheory.DisplayedCats.Core]
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C:91 [in UniMath.CategoryTheory.yoneda]
C:91 [in UniMath.Induction.M.ComputationalM]
C:91 [in UniMath.CategoryTheory.FunctorCategory]
C:91 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
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C:91 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
C:91 [in UniMath.CategoryTheory.Epis]
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C:92 [in UniMath.CategoryTheory.Monads.Monads]
C:92 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
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C:92 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:92 [in UniMath.CategoryTheory.Core.NaturalTransformations]
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c:92 [in UniMath.CategoryTheory.Core.Isos]
c:92 [in UniMath.CategoryTheory.FunctorAlgebras]
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C:92 [in UniMath.CategoryTheory.Subcategory.Core]
C:92 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:92 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:92 [in UniMath.CategoryTheory.limits.cats.limits]
C:92 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:92 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
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C:92 [in UniMath.HomologicalAlgebra.MappingCone]
C:92 [in UniMath.CategoryTheory.Monads.KTriples]
C:92 [in UniMath.CategoryTheory.limits.graphs.limits]
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C:921 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:921 [in UniMath.CategoryTheory.DisplayedCats.Core]
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C:93 [in UniMath.CategoryTheory.Monads.Monads]
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C:93 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
C:93 [in UniMath.CategoryTheory.Core.Functors]
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c:93 [in UniMath.CategoryTheory.FunctorAlgebras]
C:93 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c:93 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:93 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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C:932 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
C:934 [in UniMath.CategoryTheory.DisplayedCats.Core]
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C:938 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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C:94 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
C:94 [in UniMath.CategoryTheory.Monads.Monads]
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C:94 [in UniMath.Folds.folds_pre_2_cat]
C:94 [in UniMath.CategoryTheory.opp_precat]
C:94 [in UniMath.CategoryTheory.Subcategory.Core]
C:94 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
C:94 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:94 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:94 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
C:94 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
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C:944 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:944 [in UniMath.Bicategories.Core.Bicat]
C:944 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:944 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
c:946 [in UniMath.Algebra.RigsAndRings]
C:95 [in UniMath.CategoryTheory.Monads.Monads]
C:95 [in UniMath.Folds.folds_pre_2_cat]
C:95 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
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C:95 [in UniMath.Induction.M.ComputationalM]
C:95 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:95 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:95 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:95 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
c:95 [in UniMath.CategoryTheory.limits.cats.limits]
C:95 [in UniMath.CategoryTheory.LatticeObject]
c:95 [in UniMath.CategoryTheory.limits.pullbacks]
C:95 [in UniMath.HomologicalAlgebra.MappingCone]
c:95 [in UniMath.CategoryTheory.Core.Categories]
C:950 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
c:953 [in UniMath.Algebra.RigsAndRings]
C:954 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:96 [in UniMath.Bicategories.Core.EquivToAdjequiv]
C:96 [in UniMath.CategoryTheory.Monads.Monads]
C:96 [in UniMath.CategoryTheory.categories.abgrs]
C:96 [in UniMath.Folds.folds_pre_2_cat]
c:96 [in UniMath.Bicategories.Core.Strictness]
C:96 [in UniMath.CategoryTheory.Core.NaturalTransformations]
c:96 [in UniMath.Induction.M.ComputationalM]
C:96 [in UniMath.CategoryTheory.Core.Isos]
c:96 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
c:96 [in UniMath.PAdics.lemmas]
C:96 [in UniMath.CategoryTheory.Monics]
c:96 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:96 [in UniMath.CategoryTheory.Core.Univalence]
c:96 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
c:96 [in UniMath.CategoryTheory.Core.TransportMorphisms]
C:96 [in UniMath.CategoryTheory.limits.graphs.limits]
c:96 [in UniMath.CategoryTheory.limits.binproducts]
c:960 [in UniMath.Algebra.RigsAndRings]
C:961 [in UniMath.Bicategories.Core.Bicat]
C:964 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:964 [in UniMath.Algebra.RigsAndRings]
C:966 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:968 [in UniMath.Algebra.RigsAndRings]
C:97 [in UniMath.Bicategories.Transformations.PseudoTransformation]
C:97 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
c:97 [in UniMath.CategoryTheory.AbelianToAdditive]
c:97 [in UniMath.CategoryTheory.FunctorAlgebras]
c:97 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C:97 [in UniMath.CategoryTheory.opp_precat]
C:97 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C:97 [in UniMath.Bicategories.Core.Invertible_2cells]
c:97 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
c:97 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C:97 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
c:97 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
c:97 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
c:97 [in UniMath.Bicategories.Core.TransportLaws]
c:97 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
c:97 [in UniMath.CategoryTheory.Monads.KTriples]
c:972 [in UniMath.Algebra.RigsAndRings]
c:974 [in UniMath.Bicategories.Core.Bicat]
c:975 [in UniMath.Algebra.RigsAndRings]
c:978 [in UniMath.Algebra.RigsAndRings]
c:979 [in UniMath.Bicategories.Core.Bicat]
C:979 [in UniMath.CategoryTheory.DisplayedCats.Core]
C:98 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
c:98 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
C:98 [in UniMath.Bicategories.Core.Bicat]
C:98 [in UniMath.CategoryTheory.Core.Functors]
C:98 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
c:98 [in UniMath.Folds.folds_precat]
C:98 [in UniMath.CategoryTheory.slicecat]
C:98 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C:98 [in UniMath.CategoryTheory.HorizontalComposition]
C:98 [in UniMath.HomologicalAlgebra.CohomologyComplex]
C:98 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
C:98 [in UniMath.CategoryTheory.limits.cats.limits]
C:98 [in UniMath.CategoryTheory.limits.graphs.colimits]
C:98 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
C:98 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
C:98 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
c:981 [in UniMath.Algebra.RigsAndRings]
c:984 [in UniMath.Bicategories.Core.Bicat]
C:987 [in UniMath.Bicategories.Core.Bicat]
c:987 [in UniMath.Algebra.RigsAndRings]
c:99 [in UniMath.CategoryTheory.Monads.RelativeModules]
c:99 [in UniMath.CategoryTheory.PseudoElements]
C:99 [in UniMath.CategoryTheory.Core.NaturalTransformations]
c:99 [in UniMath.CategoryTheory.Core.Isos]
C:99 [in UniMath.CategoryTheory.FunctorCategory]
C:99 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c:99 [in UniMath.CategoryTheory.limits.products]
C:99 [in UniMath.CategoryTheory.Monads.LModules]
c:991 [in UniMath.Algebra.RigsAndRings]
C:992 [in UniMath.CategoryTheory.DisplayedCats.Core]
c:994 [in UniMath.Bicategories.Core.Bicat]
c:995 [in UniMath.Algebra.RigsAndRings]
c:998 [in UniMath.Bicategories.Core.Bicat]
c:999 [in UniMath.Algebra.RigsAndRings]
c₁':182 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c₁':191 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c₁':198 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C₁:1 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₁:1 [in UniMath.CategoryTheory.IsoCommaCategory]
c₁:10 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₁:103 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:104 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C₁:105 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
C₁:107 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:111 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:116 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₁:120 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₁:1264 [in UniMath.CategoryTheory.DisplayedCats.Core]
C₁:1282 [in UniMath.CategoryTheory.DisplayedCats.Core]
c₁:129 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₁:13 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₁:13 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
c₁:138 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₁:140 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₁:146 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₁:148 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₁:154 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₁:156 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₁:157 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:160 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c₁:162 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₁:165 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:166 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c₁:168 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:173 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C₁:175 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:18 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
c₁:180 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:180 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c₁:181 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C₁:183 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:189 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c₁:19 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
c₁:190 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C₁:191 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₁:191 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c₁:197 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c₁:2 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
c₁:20 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
c₁:200 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:205 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:209 [in UniMath.Bicategories.Colimits.Pullback]
c₁:210 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:212 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₁:213 [in UniMath.Bicategories.Core.FullyFaithful]
C₁:214 [in UniMath.Bicategories.Colimits.Pullback]
C₁:217 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:217 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c₁:220 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:222 [in UniMath.Bicategories.Core.FullyFaithful]
C₁:222 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₁:227 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₁:230 [in UniMath.Bicategories.Core.FullyFaithful]
c₁:230 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:232 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c₁:235 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:237 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₁:238 [in UniMath.Bicategories.Core.FullyFaithful]
c₁:241 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:242 [in UniMath.Bicategories.Core.FullyFaithful]
C₁:242 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₁:246 [in UniMath.Bicategories.Core.FullyFaithful]
C₁:247 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c₁:249 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c₁:257 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₁:28 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₁:29 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
c₁:297 [in UniMath.Bicategories.Colimits.Products]
c₁:3 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
c₁:304 [in UniMath.Bicategories.Colimits.Products]
C₁:305 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C₁:31 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₁:35 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₁:351 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₁:365 [in UniMath.Bicategories.Colimits.Products]
C₁:367 [in UniMath.Bicategories.Colimits.Products]
C₁:39 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₁:39 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₁:39 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₁:43 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
C₁:431 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C₁:451 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C₁:46 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:47 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
c₁:48 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
c₁:5 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₁:50 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
C₁:51 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:64 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₁:79 [in UniMath.Bicategories.Core.FullyFaithful]
C₁:79 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₁:83 [in UniMath.Bicategories.Core.FullyFaithful]
C₁:87 [in UniMath.Bicategories.Core.FullyFaithful]
C₁:90 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₁:929 [in UniMath.MoreFoundations.PartA]
C₁:95 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
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c₂':193 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c₂':200 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C₂:104 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:105 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
C₂:106 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
C₂:108 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:11 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₂:112 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:117 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:1265 [in UniMath.CategoryTheory.DisplayedCats.Core]
C₂:1283 [in UniMath.CategoryTheory.DisplayedCats.Core]
c₂:130 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
c₂:139 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₂:14 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:14 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
C₂:141 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:147 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₂:149 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:155 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₂:157 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:158 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:161 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c₂:163 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
C₂:166 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:167 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c₂:169 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:174 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C₂:176 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:181 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:181 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
c₂:183 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C₂:184 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:19 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₂:190 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
C₂:192 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:192 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c₂:192 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
c₂:199 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
C₂:2 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₂:2 [in UniMath.CategoryTheory.IsoCommaCategory]
c₂:20 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
c₂:201 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:206 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:21 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
C₂:210 [in UniMath.Bicategories.Colimits.Pullback]
c₂:211 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:213 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₂:214 [in UniMath.Bicategories.Core.FullyFaithful]
C₂:215 [in UniMath.Bicategories.Colimits.Pullback]
C₂:218 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:218 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c₂:221 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:223 [in UniMath.Bicategories.Core.FullyFaithful]
C₂:223 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₂:228 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₂:231 [in UniMath.Bicategories.Core.FullyFaithful]
c₂:231 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:233 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c₂:236 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:238 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₂:239 [in UniMath.Bicategories.Core.FullyFaithful]
c₂:242 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:243 [in UniMath.Bicategories.Core.FullyFaithful]
C₂:243 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₂:247 [in UniMath.Bicategories.Core.FullyFaithful]
C₂:248 [in UniMath.CategoryTheory.PrecategoryBinProduct]
c₂:250 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
c₂:258 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
C₂:29 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:298 [in UniMath.Bicategories.Colimits.Products]
c₂:3 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
c₂:30 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
c₂:305 [in UniMath.Bicategories.Colimits.Products]
C₂:306 [in UniMath.CategoryTheory.Core.NaturalTransformations]
C₂:32 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₂:352 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₂:36 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₂:366 [in UniMath.Bicategories.Colimits.Products]
C₂:368 [in UniMath.Bicategories.Colimits.Products]
c₂:4 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
C₂:40 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:40 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₂:40 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₂:432 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C₂:44 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
C₂:452 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
C₂:47 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:48 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
c₂:49 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₂:51 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
C₂:52 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₂:6 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₂:65 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:80 [in UniMath.Bicategories.Core.FullyFaithful]
C₂:80 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₂:84 [in UniMath.Bicategories.Core.FullyFaithful]
C₂:88 [in UniMath.Bicategories.Core.FullyFaithful]
C₂:91 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₂:96 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:118 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:1266 [in UniMath.CategoryTheory.DisplayedCats.Core]
C₃:1284 [in UniMath.CategoryTheory.DisplayedCats.Core]
C₃:142 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:150 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:158 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:167 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:177 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:185 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:193 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:207 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
c₃:21 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₃:211 [in UniMath.Bicategories.Colimits.Pullback]
C₃:214 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:215 [in UniMath.Bicategories.Core.FullyFaithful]
C₃:216 [in UniMath.Bicategories.Colimits.Pullback]
C₃:219 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
C₃:219 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:224 [in UniMath.Bicategories.Core.FullyFaithful]
C₃:224 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:229 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:232 [in UniMath.Bicategories.Core.FullyFaithful]
C₃:234 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:239 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:244 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:249 [in UniMath.CategoryTheory.PrecategoryBinProduct]
C₃:3 [in UniMath.CategoryTheory.IsoCommaCategory]
c₃:31 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
C₃:41 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
C₃:49 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]

D

Data:2 [in UniMath.MoreFoundations.StructureIdentity]
data:23 [in UniMath.CategoryTheory.Profunctors.Core]
data:35 [in UniMath.CategoryTheory.Profunctors.Core]
dax:238 [in UniMath.Algebra.RigsAndRings]
dax:319 [in UniMath.Algebra.RigsAndRings]
dax:35 [in UniMath.Algebra.RigsAndRings]
dax:735 [in UniMath.Algebra.RigsAndRings]
DA:111 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DA:133 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
da:139 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DA:83 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DA:89 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
da₁:118 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
da₁:96 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
da₂:119 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
da₂:97 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DB:112 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DB:134 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db:141 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db:522 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
db:533 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DB:84 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DB:90 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db₁:104 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db₁:126 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db₁:145 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db₂:105 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db₂:127 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
db₂:146 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DC:113 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DC:135 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DC:45 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DC:85 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DC:91 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DD':239 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
dd:1137 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
dd:1151 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
dd:1169 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
dd:1193 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
dd:1218 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
dd:138 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
dd:153 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
dd:168 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
dd:179 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
dd:183 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DD:238 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
DD:339 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
DD:46 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
dd:516 [in UniMath.CategoryTheory.DisplayedCats.Core]
DD:720 [in UniMath.CategoryTheory.DisplayedCats.Core]
dec:12 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
dec:18 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
dec:5 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
dec:50 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
delta:162 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
depths:208 [in UniMath.Algebra.Universal.Terms]
deref:189 [in UniMath.CategoryTheory.Core.NaturalTransformations]
deref:195 [in UniMath.CategoryTheory.Core.NaturalTransformations]
DE:47 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
df:82 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
df:93 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
dg:83 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
dg:94 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
DH:16 [in UniMath.CategoryTheory.rezk_completion]
disc:18 [in UniMath.Bicategories.Discreteness]
disc:30 [in UniMath.Bicategories.Discreteness]
disc:36 [in UniMath.Bicategories.Discreteness]
disc:40 [in UniMath.Bicategories.Discreteness]
disc:42 [in UniMath.Bicategories.Discreteness]
disc:44 [in UniMath.Bicategories.Discreteness]
disc:46 [in UniMath.Bicategories.Discreteness]
disc:53 [in UniMath.Bicategories.Discreteness]
disc:66 [in UniMath.CategoryTheory.Groupoids]
disc:71 [in UniMath.CategoryTheory.Groupoids]
disp_psfunctor_comp:68 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_id:57 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_id:26 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_comp:39 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
disp_psfunctor_id:28 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
disp_tensor:207 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DL:15 [in UniMath.SubstitutionSystems.SignatureExamples]
DL:16 [in UniMath.SubstitutionSystems.SignatureExamples]
DL:17 [in UniMath.SubstitutionSystems.SignatureExamples]
dnx:89 [in UniMath.Foundations.PartA]
dnx:93 [in UniMath.Foundations.PartA]
dny:90 [in UniMath.Foundations.PartA]
dny:94 [in UniMath.Foundations.PartA]
dom:119 [in UniMath.Topology.Filters]
dom:127 [in UniMath.Topology.Filters]
dom:130 [in UniMath.Topology.Filters]
dom:140 [in UniMath.Topology.Filters]
dom:151 [in UniMath.Topology.Filters]
dom:155 [in UniMath.Topology.Filters]
dom:215 [in UniMath.Topology.Topology]
dom:248 [in UniMath.Topology.Topology]
dom:315 [in UniMath.Topology.Topology]
Dset:70 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
Dset:83 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
ds_issum:46 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_isprod:45 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_id:44 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_in:43 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_pr:42 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_isprod:31 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_id:27 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_in:24 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
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DS1':22 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS1':30 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS1':6 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS10:265 [in UniMath.HomologicalAlgebra.MappingCone]
DS10:289 [in UniMath.HomologicalAlgebra.MappingCone]
DS10:602 [in UniMath.HomologicalAlgebra.MappingCone]
DS10:746 [in UniMath.HomologicalAlgebra.MappingCone]
DS11:603 [in UniMath.HomologicalAlgebra.MappingCone]
DS11:747 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:12 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:15 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS1:171 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS1:18 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:23 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS1:235 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:24 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:241 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:260 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:284 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:30 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:31 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS1:36 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:38 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS1:42 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:49 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:55 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:593 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:6 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:61 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:67 [in UniMath.HomologicalAlgebra.MappingCone]
DS1:7 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS1:737 [in UniMath.HomologicalAlgebra.MappingCone]
DS2':16 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS2':24 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS2':32 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS2':8 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS2:13 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:17 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS2:172 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS2:19 [in UniMath.HomologicalAlgebra.MappingCone]
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DS2:242 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:25 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS2:25 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:261 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:285 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:31 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:33 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS2:37 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:39 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS2:43 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:50 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:56 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:594 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:62 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:68 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:7 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:738 [in UniMath.HomologicalAlgebra.MappingCone]
DS2:9 [in UniMath.HomologicalAlgebra.MappingCylinder]
DS3:262 [in UniMath.HomologicalAlgebra.MappingCone]
DS3:286 [in UniMath.HomologicalAlgebra.MappingCone]
DS3:44 [in UniMath.HomologicalAlgebra.MappingCone]
DS3:595 [in UniMath.HomologicalAlgebra.MappingCone]
DS3:69 [in UniMath.HomologicalAlgebra.MappingCone]
DS3:739 [in UniMath.HomologicalAlgebra.MappingCone]
DS4:263 [in UniMath.HomologicalAlgebra.MappingCone]
DS4:287 [in UniMath.HomologicalAlgebra.MappingCone]
DS4:596 [in UniMath.HomologicalAlgebra.MappingCone]
DS4:740 [in UniMath.HomologicalAlgebra.MappingCone]
DS5:597 [in UniMath.HomologicalAlgebra.MappingCone]
DS5:741 [in UniMath.HomologicalAlgebra.MappingCone]
DS6:598 [in UniMath.HomologicalAlgebra.MappingCone]
DS6:742 [in UniMath.HomologicalAlgebra.MappingCone]
DS7:599 [in UniMath.HomologicalAlgebra.MappingCone]
DS7:743 [in UniMath.HomologicalAlgebra.MappingCone]
DS8:600 [in UniMath.HomologicalAlgebra.MappingCone]
DS8:744 [in UniMath.HomologicalAlgebra.MappingCone]
DS9:264 [in UniMath.HomologicalAlgebra.MappingCone]
DS9:288 [in UniMath.HomologicalAlgebra.MappingCone]
DS9:601 [in UniMath.HomologicalAlgebra.MappingCone]
DS9:745 [in UniMath.HomologicalAlgebra.MappingCone]
DS:104 [in UniMath.CategoryTheory.AdditiveFunctors]
DS:110 [in UniMath.CategoryTheory.AdditiveFunctors]
DS:123 [in UniMath.CategoryTheory.Additive]
DS:129 [in UniMath.CategoryTheory.Additive]
DS:130 [in UniMath.CategoryTheory.AdditiveFunctors]
DS:135 [in UniMath.CategoryTheory.Additive]
DS:139 [in UniMath.CategoryTheory.AdditiveFunctors]
DS:141 [in UniMath.CategoryTheory.Additive]
DS:147 [in UniMath.CategoryTheory.Additive]
DS:153 [in UniMath.CategoryTheory.Additive]
DS:176 [in UniMath.CategoryTheory.limits.BinDirectSums]
DS:182 [in UniMath.CategoryTheory.limits.BinDirectSums]
ds:20 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
DS:22 [in UniMath.CategoryTheory.AbelianPushoutPullback]
DS:25 [in UniMath.CategoryTheory.AbelianPushoutPullback]
DS:38 [in UniMath.CategoryTheory.CategoryEquality]
ds:41 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
DS:59 [in UniMath.CategoryTheory.AbelianPushoutPullback]
DS:62 [in UniMath.CategoryTheory.AbelianPushoutPullback]
DS:77 [in UniMath.CategoryTheory.AdditiveFunctors]
DS:86 [in UniMath.CategoryTheory.AdditiveFunctors]
DS:92 [in UniMath.CategoryTheory.AdditiveFunctors]
DS:98 [in UniMath.CategoryTheory.AdditiveFunctors]
DTM:21 [in UniMath.HomologicalAlgebra.Triangulated]
dv:57 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
dv:61 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
dv:80 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
dv:88 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
dw:480 [in UniMath.Combinatorics.StandardFiniteSets]
dw:58 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
dw:62 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
dw:81 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
dw:89 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
dX:103 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
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dX:80 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
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dY:104 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
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D_cat:600 [in UniMath.CategoryTheory.DisplayedCats.Core]
D_cat:591 [in UniMath.CategoryTheory.DisplayedCats.Core]
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D2:97 [in UniMath.HomologicalAlgebra.Triangulated]
D3:104 [in UniMath.HomologicalAlgebra.Triangulated]
d3:155 [in UniMath.CategoryTheory.PseudoElements]
D3:32 [in UniMath.HomologicalAlgebra.Triangulated]
D3:37 [in UniMath.HomologicalAlgebra.Triangulated]
D3:42 [in UniMath.HomologicalAlgebra.Triangulated]
d3:44 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
d3:66 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
D3:68 [in UniMath.HomologicalAlgebra.Triangulated]
d3:88 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
D:1 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:10 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
d:10 [in UniMath.PAdics.z_mod_p]
D:10 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
d:10 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
d:10 [in UniMath.CategoryTheory.limits.graphs.equalizers]
d:10 [in UniMath.CategoryTheory.Enriched.Enriched]
d:10 [in UniMath.Bicategories.WkCatEnrichment.Cat]
D:10 [in UniMath.HomologicalAlgebra.Triangulated]
D:10 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
d:10 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d:10 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
D:100 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
d:100 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
d:100 [in UniMath.CategoryTheory.PseudoElements]
d:100 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:100 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d:1003 [in UniMath.Bicategories.Core.Bicat]
d:1007 [in UniMath.Bicategories.Core.Bicat]
D:1008 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:101 [in UniMath.CategoryTheory.limits.graphs.binproducts]
D:101 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:101 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
d:1011 [in UniMath.Bicategories.Core.Bicat]
d:1015 [in UniMath.Bicategories.Core.Bicat]
D:102 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:102 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
D:102 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:102 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:102 [in UniMath.Algebra.Dcpo]
D:1020 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:103 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
d:103 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:103 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:103 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:103 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:1032 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:104 [in UniMath.CategoryTheory.Monads.RelativeModules]
d:104 [in UniMath.CategoryTheory.AbelianToAdditive]
d:104 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
d:104 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:104 [in UniMath.CategoryTheory.Monads.Derivative]
d:104 [in UniMath.CategoryTheory.limits.graphs.limits]
D:105 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:105 [in UniMath.Algebra.Dcpo]
d:105 [in UniMath.CategoryTheory.limits.binproducts]
D:106 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
d:106 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:106 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
d:106 [in UniMath.CategoryTheory.PseudoElements]
D:106 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:106 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d:106 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
D:107 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:107 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:107 [in UniMath.Algebra.Dcpo]
D:107 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
D:1077 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:108 [in UniMath.Bicategories.Transformations.PseudoTransformation]
D:108 [in UniMath.CategoryTheory.opp_precat]
d:108 [in UniMath.Algebra.Dcpo]
D:1088 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:109 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:109 [in UniMath.Algebra.Dcpo]
D:1097 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:11 [in UniMath.CategoryTheory.Abelian]
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D:11 [in UniMath.CategoryTheory.EpiFacts]
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D:11 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:11 [in UniMath.HomologicalAlgebra.Triangulated]
D:11 [in UniMath.CategoryTheory.Profunctors.Core]
D:11 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
d:11 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
D:110 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
D:110 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
d:110 [in UniMath.CategoryTheory.AbelianToAdditive]
D:110 [in UniMath.HomologicalAlgebra.Triangulated]
D:110 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
d:110 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
D:1103 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:1109 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:111 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:111 [in UniMath.Algebra.Dcpo]
d:111 [in UniMath.CategoryTheory.limits.graphs.limits]
D:112 [in UniMath.CategoryTheory.Monads.RelativeModules]
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D:112 [in UniMath.HomologicalAlgebra.Triangulated]
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D:1122 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:1126 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:113 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
D:113 [in UniMath.HomologicalAlgebra.Triangulated]
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D:113 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
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d:113 [in UniMath.CategoryTheory.limits.binproducts]
d:1130 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:1133 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:114 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D:114 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:1144 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:1149 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:115 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:1158 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:1159 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:116 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
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D:1169 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:117 [in UniMath.CategoryTheory.Monads.RelativeMonads]
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D:117 [in UniMath.CategoryTheory.Core.NaturalTransformations]
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D:118 [in UniMath.Bicategories.Transformations.PseudoTransformation]
D:118 [in UniMath.CategoryTheory.HorizontalComposition]
D:118 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
D:1181 [in UniMath.CategoryTheory.DisplayedCats.Core]
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D:119 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:1197 [in UniMath.CategoryTheory.DisplayedCats.Core]
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D:12 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
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D:12 [in UniMath.CategoryTheory.HorizontalComposition]
D:12 [in UniMath.Bicategories.DisplayedBicats.Fibration]
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D:12 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:12 [in UniMath.CategoryTheory.Adjunctions.Examples]
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D:120 [in UniMath.Algebra.Dcpo]
D:120 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d:120 [in UniMath.CategoryTheory.limits.graphs.limits]
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d:121 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
D:121 [in UniMath.Bicategories.Transformations.PseudoTransformation]
d:121 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
d:121 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:121 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
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D:1211 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:1219 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:122 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:122 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:1220 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:1229 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:123 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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D:123 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
D:123 [in UniMath.CategoryTheory.HorizontalComposition]
D:123 [in UniMath.Algebra.RigsAndRings]
d:123 [in UniMath.CategoryTheory.limits.Opp]
D:1231 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:124 [in UniMath.CategoryTheory.limits.coproducts]
d:124 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:124 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:124 [in UniMath.Algebra.Dcpo]
d:124 [in UniMath.CategoryTheory.limits.binproducts]
D:1245 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:125 [in UniMath.CategoryTheory.FunctorCategory]
d:125 [in UniMath.CategoryTheory.slicecat]
d:125 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
D:1257 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:126 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:126 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
d:126 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:126 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:126 [in UniMath.Algebra.Dcpo]
d:127 [in UniMath.CategoryTheory.limits.pushouts]
d:128 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
d:129 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:129 [in UniMath.CategoryTheory.limits.coproducts]
d:129 [in UniMath.CategoryTheory.slicecat]
D:129 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:13 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:13 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
D:13 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
D:13 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:13 [in UniMath.Induction.M.Limits]
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D:130 [in UniMath.CategoryTheory.FunctorCategory]
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d:131 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
D:131 [in UniMath.Algebra.Dcpo]
D:1313 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:132 [in UniMath.CategoryTheory.Monads.RelativeMonads]
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D:133 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:133 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:134 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:134 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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D:135 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
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D:136 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:136 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:136 [in UniMath.Algebra.Dcpo]
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D:137 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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D:139 [in UniMath.CategoryTheory.Monads.RelativeModules]
D:139 [in UniMath.CategoryTheory.DisplayedCats.Core]
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D:14 [in UniMath.CategoryTheory.DisplayedCats.Limits]
D:14 [in UniMath.CategoryTheory.Chains.Cochains]
D:14 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:14 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
D:14 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
d:140 [in UniMath.CategoryTheory.PseudoElements]
D:140 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
D:140 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:141 [in UniMath.CategoryTheory.DisplayedCats.Core]
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D:141 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:141 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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d:141 [in UniMath.CategoryTheory.limits.pullbacks]
D:1418 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:142 [in UniMath.CategoryTheory.Monads.RelativeMonads]
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D:142 [in UniMath.Algebra.Dcpo]
D:1428 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:1429 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:143 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
d:143 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:1430 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:1431 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:1432 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:1434 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:1438 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:1446 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:145 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:145 [in UniMath.Bicategories.Transformations.PseudoTransformation]
D:145 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:145 [in UniMath.CategoryTheory.limits.products]
D:145 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:145 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:145 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
D:1452 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:146 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
D:146 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:1463 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:147 [in UniMath.Algebra.RigsAndRings]
D:147 [in UniMath.Algebra.Dcpo]
D:1475 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
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D:148 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
D:148 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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d:149 [in UniMath.CategoryTheory.limits.pushouts]
D:149 [in UniMath.CategoryTheory.DisplayedCats.Core]
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D:149 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:149 [in UniMath.CategoryTheory.limits.pullbacks]
D:1491 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:15 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:15 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
D:15 [in UniMath.CategoryTheory.rezk_completion]
d:15 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
D:15 [in UniMath.CategoryTheory.CategoryEquality]
D:15 [in UniMath.CategoryTheory.FunctorCategory]
D:15 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
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d:15 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:15 [in UniMath.CategoryTheory.Adjunctions.Examples]
D:150 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
d:150 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:150 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
D:1501 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:1505 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
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D:152 [in UniMath.CategoryTheory.Core.NaturalTransformations]
d:152 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:152 [in UniMath.Algebra.Dcpo]
D:153 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
d:153 [in UniMath.Algebra.RigsAndRings]
D:153 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:153 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:154 [in UniMath.CategoryTheory.FunctorCategory]
D:155 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:155 [in UniMath.CategoryTheory.limits.Opp]
D:155 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
D:155 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
D:156 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
D:157 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:157 [in UniMath.CategoryTheory.limits.bincoproducts]
D:157 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:157 [in UniMath.Algebra.RigsAndRings]
D:157 [in UniMath.Algebra.Dcpo]
d:157 [in UniMath.CategoryTheory.Core.TwoCategories]
D:158 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
D:158 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:158 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:159 [in UniMath.Bicategories.Transformations.PseudoTransformation]
D:159 [in UniMath.CategoryTheory.FunctorCategory]
d:159 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:16 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
d:16 [in UniMath.CategoryTheory.Monads.RelativeModules]
D:16 [in UniMath.CategoryTheory.category_binops]
D:16 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D:16 [in UniMath.Bicategories.Transformations.PseudoTransformation]
D:16 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
D:16 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:16 [in UniMath.CategoryTheory.Subcategory.Limits]
d:16 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
D:16 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
d:160 [in UniMath.CategoryTheory.ExactCategories.Tests]
D:160 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
d:161 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
D:161 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
d:161 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
d:161 [in UniMath.CategoryTheory.limits.pullbacks]
D:162 [in UniMath.CategoryTheory.AdditiveFunctors]
d:162 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:162 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d:162 [in UniMath.CategoryTheory.Core.Categories]
D:163 [in UniMath.CategoryTheory.LocalizingClass]
D:163 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
d:163 [in UniMath.CategoryTheory.PseudoElements]
D:163 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:163 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:163 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:163 [in UniMath.Algebra.Dcpo]
d:164 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
D:164 [in UniMath.Algebra.Dcpo]
D:165 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
D:165 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:165 [in UniMath.CategoryTheory.FunctorCategory]
D:166 [in UniMath.Algebra.Dcpo]
d:166 [in UniMath.CategoryTheory.Core.TwoCategories]
D:166 [in UniMath.CategoryTheory.limits.binproducts]
D:167 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:167 [in UniMath.Bicategories.Transformations.PseudoTransformation]
d:167 [in UniMath.CategoryTheory.PseudoElements]
d:167 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:167 [in UniMath.CategoryTheory.Adjunctions.Core]
d:167 [in UniMath.CategoryTheory.limits.Opp]
D:167 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:168 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:168 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:168 [in UniMath.Algebra.Dcpo]
D:169 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
D:169 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:169 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:17 [in UniMath.PAdics.z_mod_p]
d:17 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
d:17 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
d:17 [in UniMath.CategoryTheory.limits.graphs.equalizers]
D:17 [in UniMath.CategoryTheory.CategoryEquality]
D:17 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:17 [in UniMath.CategoryTheory.limits.binproducts]
d:170 [in UniMath.CategoryTheory.limits.Opp]
d:170 [in UniMath.CategoryTheory.Core.TransportMorphisms]
D:170 [in UniMath.Algebra.Dcpo]
d:170 [in UniMath.CategoryTheory.Core.Categories]
D:171 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:171 [in UniMath.HomologicalAlgebra.Triangulated]
D:171 [in UniMath.Algebra.Dcpo]
d:172 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
d:172 [in UniMath.CategoryTheory.PseudoElements]
D:172 [in UniMath.CategoryTheory.FunctorCategory]
D:172 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:172 [in UniMath.Algebra.Dcpo]
d:172 [in UniMath.CategoryTheory.limits.pullbacks]
D:173 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:173 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:173 [in UniMath.CategoryTheory.Core.NaturalTransformations]
d:173 [in UniMath.CategoryTheory.Adjunctions.Core]
D:173 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:174 [in UniMath.CategoryTheory.Monads.RelativeModules]
d:174 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
d:174 [in UniMath.CategoryTheory.Core.TransportMorphisms]
D:174 [in UniMath.Algebra.Dcpo]
d:175 [in UniMath.CategoryTheory.limits.BinDirectSums]
d:175 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:175 [in UniMath.CategoryTheory.Core.TwoCategories]
d:176 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
D:176 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:177 [in UniMath.CategoryTheory.catiso]
d:177 [in UniMath.PAdics.z_mod_p]
d:177 [in UniMath.CategoryTheory.PseudoElements]
D:177 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:177 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:177 [in UniMath.Algebra.Dcpo]
D:178 [in UniMath.CategoryTheory.FunctorCategory]
D:178 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:178 [in UniMath.CategoryTheory.Core.TransportMorphisms]
d:178 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
D:179 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:179 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:179 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:18 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
d:18 [in UniMath.Bicategories.BicategoryOfBicat]
D:18 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
D:18 [in UniMath.CategoryTheory.FunctorCategory]
D:18 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:18 [in UniMath.Bicategories.DisplayedBicats.Fibration]
D:18 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
d:18 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
d:18 [in UniMath.CategoryTheory.CommaCategories]
d:18 [in UniMath.CategoryTheory.limits.graphs.limits]
d:181 [in UniMath.PAdics.z_mod_p]
d:181 [in UniMath.CategoryTheory.limits.BinDirectSums]
D:181 [in UniMath.Algebra.Dcpo]
d:182 [in UniMath.CategoryTheory.Core.TransportMorphisms]
D:182 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:182 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
D:183 [in UniMath.Bicategories.Transformations.PseudoTransformation]
d:183 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:183 [in UniMath.HomologicalAlgebra.Triangulated]
D:183 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
d:184 [in UniMath.PAdics.z_mod_p]
D:184 [in UniMath.CategoryTheory.FunctorCategory]
D:184 [in UniMath.CategoryTheory.Adjunctions.Core]
D:184 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:185 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:186 [in UniMath.CategoryTheory.Monads.RelativeModules]
D:186 [in UniMath.CategoryTheory.Core.Functors]
D:186 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
d:186 [in UniMath.CategoryTheory.limits.pullbacks]
D:187 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
D:187 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:187 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:188 [in UniMath.Bicategories.Transformations.PseudoTransformation]
D:189 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:189 [in UniMath.CategoryTheory.FunctorCategory]
D:189 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:189 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:189 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d:19 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:19 [in UniMath.CategoryTheory.limits.graphs.pushouts]
d:19 [in UniMath.CategoryTheory.limits.pushouts]
D:19 [in UniMath.CategoryTheory.HorizontalComposition]
D:19 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:19 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
d:19 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
D:19 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
D:190 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
d:190 [in UniMath.CategoryTheory.Adjunctions.Core]
D:191 [in UniMath.CategoryTheory.Monads.Monads]
d:191 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:191 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:191 [in UniMath.CategoryTheory.Core.Categories]
D:192 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:192 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
D:192 [in UniMath.CategoryTheory.FunctorCategory]
D:192 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
d:193 [in UniMath.CategoryTheory.limits.cats.limits]
D:194 [in UniMath.CategoryTheory.limits.graphs.limits]
D:195 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
d:195 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
D:195 [in UniMath.HomologicalAlgebra.Triangulated]
D:195 [in UniMath.Algebra.Dcpo]
D:196 [in UniMath.CategoryTheory.Monads.Monads]
D:196 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
D:196 [in UniMath.CategoryTheory.Core.Functors]
D:196 [in UniMath.CategoryTheory.FunctorCategory]
D:196 [in UniMath.HomologicalAlgebra.Triangulated]
D:197 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:197 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:197 [in UniMath.Algebra.Dcpo]
D:198 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:198 [in UniMath.CategoryTheory.limits.graphs.limits]
D:199 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:199 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:199 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:199 [in UniMath.Algebra.Dcpo]
d:199 [in UniMath.CategoryTheory.Core.Categories]
D:2 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
D:2 [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
D:2 [in UniMath.SubstitutionSystems.Signatures]
D:2 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:2 [in UniMath.CategoryTheory.Monads.RelativeModules]
D:2 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:2 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D:2 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
D:2 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
D:2 [in UniMath.Bicategories.Transformations.PseudoTransformation]
D:2 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
D:2 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
D:2 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
D:2 [in UniMath.CategoryTheory.CategoryEquality]
D:2 [in UniMath.CategoryTheory.DisplayedCats.Limits]
D:2 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
D:2 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:2 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:2 [in UniMath.Bicategories.DisplayedBicats.Fibration]
D:2 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:2 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
d:2 [in UniMath.CategoryTheory.limits.graphs.initial]
D:2 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:2 [in UniMath.CategoryTheory.Adjunctions.Restriction]
D:2 [in UniMath.CategoryTheory.Subcategory.Reflective]
D:2 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:2 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
D:2 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
D:2 [in UniMath.CategoryTheory.Profunctors.Core]
d:2 [in UniMath.Induction.M.Limits]
D:2 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
D:2 [in UniMath.CategoryTheory.RightKanExtension]
D:2 [in UniMath.Bicategories.Core.Examples.StrictCats]
D:2 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
D:20 [in UniMath.Bicategories.Transformations.PseudoTransformation]
d:20 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
d:20 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
d:20 [in UniMath.CategoryTheory.opp_precat]
D:20 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:20 [in UniMath.CategoryTheory.Subcategory.Limits]
d:20 [in UniMath.CategoryTheory.limits.pullbacks]
D:200 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:200 [in UniMath.CategoryTheory.FunctorCategory]
d:200 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
D:200 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:201 [in UniMath.CategoryTheory.Monads.Monads]
D:201 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:201 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:201 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:201 [in UniMath.Algebra.Dcpo]
D:202 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:202 [in UniMath.CategoryTheory.Adjunctions.Core]
D:202 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d:203 [in UniMath.Bicategories.Core.Bicat]
D:203 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:203 [in UniMath.CategoryTheory.limits.graphs.limits]
D:204 [in UniMath.Algebra.Dcpo]
D:205 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:205 [in UniMath.CategoryTheory.FunctorCategory]
D:205 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:205 [in UniMath.Algebra.Dcpo]
D:206 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:206 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
D:206 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:206 [in UniMath.Algebra.Dcpo]
d:207 [in UniMath.Bicategories.Core.Univalence]
D:207 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
d:207 [in UniMath.CategoryTheory.Core.Categories]
D:208 [in UniMath.CategoryTheory.Core.NaturalTransformations]
d:208 [in UniMath.Bicategories.Core.Invertible_2cells]
d:208 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:208 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:208 [in UniMath.Algebra.Dcpo]
D:209 [in UniMath.CategoryTheory.Adjunctions.Core]
D:209 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
d:21 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
D:21 [in UniMath.CategoryTheory.DisplayedCats.Limits]
d:21 [in UniMath.CategoryTheory.limits.graphs.zero]
D:21 [in UniMath.CategoryTheory.Adjunctions.Examples]
D:21 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
d:21 [in UniMath.CategoryTheory.limits.binproducts]
d:210 [in UniMath.CategoryTheory.limits.equalizers]
d:210 [in UniMath.Algebra.Dcpo]
D:210 [in UniMath.CategoryTheory.limits.graphs.limits]
D:211 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
D:211 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:212 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:212 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
d:212 [in UniMath.Bicategories.Core.Bicat]
D:212 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:212 [in UniMath.CategoryTheory.limits.graphs.limits]
D:213 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
D:213 [in UniMath.CategoryTheory.Core.NaturalTransformations]
d:213 [in UniMath.CategoryTheory.limits.BinDirectSums]
D:213 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:214 [in UniMath.CategoryTheory.LocalizingClass]
D:214 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
D:214 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:215 [in UniMath.Bicategories.Core.Univalence]
D:215 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:216 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
d:216 [in UniMath.Bicategories.Core.Invertible_2cells]
D:216 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:216 [in UniMath.CategoryTheory.limits.graphs.limits]
D:217 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:217 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:218 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:218 [in UniMath.CategoryTheory.FunctorCategory]
d:218 [in UniMath.CategoryTheory.limits.graphs.limits]
D:219 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:219 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:219 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:22 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:22 [in UniMath.Bicategories.BicategoryOfBicat]
D:22 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
d:22 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
D:22 [in UniMath.CategoryTheory.DisplayedCats.Projection]
d:22 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:22 [in UniMath.CategoryTheory.CategoryEquality]
D:22 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:22 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:22 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
D:22 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:22 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
D:22 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
D:22 [in UniMath.CategoryTheory.IsoCommaCategory]
d:220 [in UniMath.Folds.folds_pre_2_cat]
D:220 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:221 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:221 [in UniMath.Bicategories.Core.Bicat]
D:221 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
d:221 [in UniMath.CategoryTheory.limits.BinDirectSums]
d:222 [in UniMath.Bicategories.Core.Univalence]
D:223 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
D:223 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:223 [in UniMath.CategoryTheory.limits.graphs.limits]
d:224 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:225 [in UniMath.CategoryTheory.Core.NaturalTransformations]
d:225 [in UniMath.CategoryTheory.limits.graphs.limits]
D:226 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:227 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:227 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
d:227 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
D:228 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:228 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:229 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:229 [in UniMath.CategoryTheory.limits.BinDirectSums]
d:229 [in UniMath.CategoryTheory.limits.graphs.limits]
D:23 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
D:23 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
d:23 [in UniMath.CategoryTheory.Monads.RelativeModules]
D:23 [in UniMath.CategoryTheory.Subcategory.Full]
d:23 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
D:23 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
d:23 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:23 [in UniMath.Bicategories.DisplayedBicats.Fibration]
d:23 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:23 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:23 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
d:23 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
d:23 [in UniMath.Combinatorics.VectorsTests]
d:23 [in UniMath.CategoryTheory.limits.binproducts]
D:230 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:230 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
D:230 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:230 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:231 [in UniMath.CategoryTheory.Core.Functors]
D:232 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:232 [in UniMath.CategoryTheory.limits.binproducts]
D:233 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:233 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:234 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:234 [in UniMath.CategoryTheory.limits.graphs.limits]
D:235 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:236 [in UniMath.CategoryTheory.Core.Functors]
d:236 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:236 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:237 [in UniMath.CategoryTheory.limits.graphs.pushouts]
d:237 [in UniMath.CategoryTheory.limits.BinDirectSums]
d:237 [in UniMath.CategoryTheory.limits.graphs.limits]
D:238 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:238 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:239 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:24 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:24 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
D:24 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
d:24 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
d:24 [in UniMath.CategoryTheory.limits.graphs.equalizers]
D:24 [in UniMath.CategoryTheory.SetValuedFunctors]
d:24 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:24 [in UniMath.CategoryTheory.Adjunctions.Examples]
d:24 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
D:240 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D:240 [in UniMath.CategoryTheory.Core.Functors]
D:240 [in UniMath.HomologicalAlgebra.Triangulated]
D:240 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
d:240 [in UniMath.CategoryTheory.limits.graphs.limits]
D:241 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:241 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:241 [in UniMath.CategoryTheory.limits.bincoproducts]
D:241 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:241 [in UniMath.HomologicalAlgebra.Triangulated]
D:242 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:243 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:243 [in UniMath.Bicategories.Core.Univalence]
D:243 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:243 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:244 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:244 [in UniMath.CategoryTheory.PreAdditive]
D:244 [in UniMath.Algebra.RigsAndRings]
d:245 [in UniMath.CategoryTheory.limits.BinDirectSums]
D:245 [in UniMath.HomologicalAlgebra.Triangulated]
D:246 [in UniMath.CategoryTheory.Core.Functors]
D:246 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:246 [in UniMath.CategoryTheory.limits.pullbacks]
D:247 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D:247 [in UniMath.CategoryTheory.limits.bincoproducts]
D:247 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:247 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:248 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:248 [in UniMath.CategoryTheory.limits.graphs.pushouts]
D:248 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:249 [in UniMath.CategoryTheory.PreAdditive]
D:25 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
d:25 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
d:25 [in UniMath.CategoryTheory.DisplayedCats.Limits]
d:25 [in UniMath.Bicategories.BicatOfBicategory]
D:25 [in UniMath.HomologicalAlgebra.Triangulated]
D:25 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:25 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d:25 [in UniMath.CategoryTheory.limits.graphs.limits]
d:25 [in UniMath.CategoryTheory.limits.binproducts]
d:250 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:250 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:251 [in UniMath.Bicategories.Core.Bicat]
D:251 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:252 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:252 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:252 [in UniMath.CategoryTheory.Core.Functors]
d:252 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:253 [in UniMath.CategoryTheory.limits.BinDirectSums]
D:253 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:253 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:253 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:253 [in UniMath.CategoryTheory.limits.graphs.limits]
D:254 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
d:254 [in UniMath.CategoryTheory.Core.TwoCategories]
D:255 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:256 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:256 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:257 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:257 [in UniMath.CategoryTheory.Core.NaturalTransformations]
d:258 [in UniMath.Bicategories.Core.Bicat]
d:258 [in UniMath.Algebra.BinaryOperations]
D:258 [in UniMath.HomologicalAlgebra.Triangulated]
D:258 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:259 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:259 [in UniMath.CategoryTheory.Core.Functors]
D:259 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:259 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:26 [in UniMath.CategoryTheory.Subcategory.Full]
D:26 [in UniMath.Bicategories.Transformations.PseudoTransformation]
d:26 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
D:26 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
d:26 [in UniMath.CategoryTheory.SetValuedFunctors]
D:26 [in UniMath.HomologicalAlgebra.Triangulated]
d:26 [in UniMath.CategoryTheory.Subcategory.Limits]
d:26 [in UniMath.CategoryTheory.IsoCommaCategory]
D:260 [in UniMath.HomologicalAlgebra.Triangulated]
d:261 [in UniMath.CategoryTheory.limits.BinDirectSums]
D:262 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D:262 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:262 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:262 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:263 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
d:263 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:263 [in UniMath.CategoryTheory.Core.TwoCategories]
D:264 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:264 [in UniMath.CategoryTheory.Core.Functors]
D:264 [in UniMath.CategoryTheory.Adjunctions.Core]
d:265 [in UniMath.CategoryTheory.limits.pushouts]
D:265 [in UniMath.HomologicalAlgebra.Triangulated]
D:266 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:266 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:266 [in UniMath.Algebra.RigsAndRings]
D:266 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:267 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:267 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:267 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
D:267 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:268 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D:268 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:269 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:27 [in UniMath.CategoryTheory.categories.StandardCategories]
D:27 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
d:27 [in UniMath.CategoryTheory.opp_precat]
D:27 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:27 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:27 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:27 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
D:27 [in UniMath.CategoryTheory.Adjunctions.Examples]
D:27 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
d:27 [in UniMath.CategoryTheory.IsoCommaCategory]
d:270 [in UniMath.Bicategories.Core.Bicat]
d:270 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:272 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:272 [in UniMath.CategoryTheory.Core.TwoCategories]
D:273 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:273 [in UniMath.CategoryTheory.Core.Functors]
D:273 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:275 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:275 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:275 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d:276 [in UniMath.CategoryTheory.limits.pushouts]
D:276 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:279 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:279 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:279 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
d:28 [in UniMath.CategoryTheory.limits.graphs.pushouts]
d:28 [in UniMath.CategoryTheory.limits.pushouts]
d:28 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
D:28 [in UniMath.CategoryTheory.EpiFacts]
D:28 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:28 [in UniMath.Bicategories.DisplayedBicats.Fibration]
D:28 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:28 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
d:28 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
d:28 [in UniMath.CategoryTheory.limits.binproducts]
D:280 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:280 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D:280 [in UniMath.CategoryTheory.Core.Functors]
D:280 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:280 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:281 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:281 [in UniMath.CategoryTheory.Adjunctions.Core]
D:281 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:282 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:282 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:282 [in UniMath.CategoryTheory.limits.graphs.limits]
D:283 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:284 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:285 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:285 [in UniMath.CategoryTheory.limits.graphs.limits]
D:286 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:286 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
D:286 [in UniMath.HomologicalAlgebra.Triangulated]
d:287 [in UniMath.Algebra.Monoids]
D:287 [in UniMath.CategoryTheory.Core.Functors]
d:287 [in UniMath.CategoryTheory.limits.pushouts]
D:288 [in UniMath.CategoryTheory.Adjunctions.Core]
D:288 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:289 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:289 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:289 [in UniMath.HomologicalAlgebra.Triangulated]
d:289 [in UniMath.CategoryTheory.limits.graphs.limits]
D:29 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:29 [in UniMath.CategoryTheory.Subcategory.Full]
d:29 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
D:29 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
D:29 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
D:29 [in UniMath.CategoryTheory.FunctorCategory]
D:29 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:29 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:29 [in UniMath.CategoryTheory.limits.pullbacks]
d:29 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
D:29 [in UniMath.CategoryTheory.CommaCategories]
D:290 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:290 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:290 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:291 [in UniMath.CategoryTheory.Core.Functors]
D:291 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:292 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:292 [in UniMath.HomologicalAlgebra.Triangulated]
D:293 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
d:293 [in UniMath.CategoryTheory.PseudoElements]
D:293 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:294 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:294 [in UniMath.CategoryTheory.limits.graphs.limits]
D:295 [in UniMath.HomologicalAlgebra.Triangulated]
D:295 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:296 [in UniMath.CategoryTheory.Core.NaturalTransformations]
d:296 [in UniMath.CategoryTheory.limits.Opp]
D:296 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d:297 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:297 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:298 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:298 [in UniMath.CategoryTheory.Core.Functors]
D:298 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:298 [in UniMath.CategoryTheory.Adjunctions.Core]
d:299 [in UniMath.CategoryTheory.limits.pushouts]
D:299 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:3 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D:3 [in UniMath.CategoryTheory.rezk_completion]
d:3 [in UniMath.CategoryTheory.PseudoElements]
d:3 [in UniMath.CategoryTheory.covyoneda]
D:3 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
D:3 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
D:3 [in UniMath.SubstitutionSystems.SumOfSignatures]
D:3 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
D:3 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:3 [in UniMath.CategoryTheory.Subcategory.Reflective]
D:3 [in UniMath.HomologicalAlgebra.Complexes]
D:3 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:3 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:3 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:3 [in UniMath.CategoryTheory.Monads.LModules]
D:3 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
d:3 [in UniMath.CategoryTheory.limits.graphs.limits]
d:3 [in UniMath.CategoryTheory.limits.binproducts]
d:30 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
D:30 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
d:30 [in UniMath.Bicategories.Core.Bicat]
D:30 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
d:30 [in UniMath.CategoryTheory.Enriched.Enriched]
D:30 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
D:30 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:30 [in UniMath.CategoryTheory.Adjunctions.Examples]
D:300 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:301 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:301 [in UniMath.HomologicalAlgebra.Triangulated]
d:301 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:302 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:303 [in UniMath.CategoryTheory.Core.NaturalTransformations]
D:303 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:304 [in UniMath.CategoryTheory.LocalizingClass]
d:304 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:304 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:305 [in UniMath.CategoryTheory.Core.Functors]
D:306 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:306 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D:306 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:306 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:306 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:306 [in UniMath.CategoryTheory.limits.Opp]
D:307 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
D:308 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:308 [in UniMath.CategoryTheory.Adjunctions.Core]
D:308 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:308 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d:309 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:309 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:31 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:31 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D:31 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
D:31 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
d:31 [in UniMath.Bicategories.WkCatEnrichment.Cat]
D:31 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:31 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
D:31 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d:31 [in UniMath.CategoryTheory.limits.graphs.limits]
d:31 [in UniMath.CategoryTheory.limits.binproducts]
D:310 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
D:310 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:310 [in UniMath.CategoryTheory.limits.graphs.limits]
D:312 [in UniMath.CategoryTheory.Core.Functors]
d:312 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:313 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:313 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:313 [in UniMath.CategoryTheory.limits.graphs.limits]
D:314 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
D:315 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:315 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:317 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:318 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:318 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D:318 [in UniMath.CategoryTheory.Core.Functors]
D:319 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:32 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:32 [in UniMath.CategoryTheory.Subcategory.Full]
D:32 [in UniMath.CategoryTheory.CategoryEquality]
d:32 [in UniMath.CategoryTheory.SetValuedFunctors]
D:32 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:32 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:32 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
d:32 [in UniMath.CategoryTheory.Profunctors.Core]
d:320 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:321 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D:322 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
D:322 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:323 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:323 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:324 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
d:324 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
D:324 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:324 [in UniMath.Foundations.PartA]
D:325 [in UniMath.CategoryTheory.Core.Functors]
d:325 [in UniMath.CategoryTheory.limits.pushouts]
D:325 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:325 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:326 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:326 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D:326 [in UniMath.CategoryTheory.LocalizingClass]
D:328 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:328 [in UniMath.CategoryTheory.limits.Opp]
d:328 [in UniMath.CategoryTheory.limits.pullbacks]
D:33 [in UniMath.CategoryTheory.DisplayedCats.Projection]
d:33 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:33 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
D:33 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
d:33 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
d:33 [in UniMath.CategoryTheory.SetValuedFunctors]
d:33 [in UniMath.CategoryTheory.Enriched.Enriched]
d:33 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:33 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
D:33 [in UniMath.CategoryTheory.Adjunctions.Examples]
D:33 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
D:330 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:331 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:331 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
D:331 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:331 [in UniMath.CategoryTheory.Adjunctions.Core]
D:332 [in UniMath.CategoryTheory.Core.Functors]
d:332 [in UniMath.Foundations.PartA]
d:333 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:334 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D:334 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d:334 [in UniMath.CategoryTheory.limits.graphs.limits]
d:336 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:337 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:337 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:337 [in UniMath.CategoryTheory.limits.graphs.limits]
D:338 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:338 [in UniMath.CategoryTheory.Core.Functors]
D:338 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:339 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
D:339 [in UniMath.CategoryTheory.Adjunctions.Core]
D:339 [in UniMath.HomologicalAlgebra.Triangulated]
d:34 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:34 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
D:34 [in UniMath.CategoryTheory.LocalizingClass]
D:34 [in UniMath.Bicategories.Transformations.PseudoTransformation]
d:34 [in UniMath.CategoryTheory.Enriched.Enriched]
D:34 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:34 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
d:34 [in UniMath.Induction.M.Limits]
d:34 [in UniMath.CategoryTheory.limits.binproducts]
D:340 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:340 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
d:340 [in UniMath.CategoryTheory.limits.Opp]
D:341 [in UniMath.CategoryTheory.Core.Functors]
D:341 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:342 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:343 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:343 [in UniMath.CategoryTheory.limits.Opp]
D:344 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:345 [in UniMath.CategoryTheory.Core.Functors]
d:346 [in UniMath.Bicategories.Core.Bicat]
d:346 [in UniMath.CategoryTheory.limits.graphs.limits]
D:348 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:349 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:35 [in UniMath.Bicategories.BicategoryOfBicat]
D:35 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:35 [in UniMath.MoreFoundations.WeakEquivalences]
D:35 [in UniMath.CategoryTheory.Subcategory.Full]
D:35 [in UniMath.CategoryTheory.CategoryEquality]
D:35 [in UniMath.Bicategories.DisplayedBicats.Fibration]
D:350 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:351 [in UniMath.CategoryTheory.Core.Functors]
d:351 [in UniMath.CategoryTheory.limits.graphs.limits]
D:352 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:352 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D:353 [in UniMath.CategoryTheory.LocalizingClass]
d:355 [in UniMath.Bicategories.Core.Bicat]
D:356 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:357 [in UniMath.CategoryTheory.Adjunctions.Core]
D:357 [in UniMath.Algebra.RigsAndRings]
d:357 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:358 [in UniMath.CategoryTheory.Core.Functors]
D:358 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:358 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:358 [in UniMath.CategoryTheory.limits.graphs.limits]
D:359 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:359 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:36 [in UniMath.CategoryTheory.Monads.RelativeModules]
D:36 [in UniMath.CategoryTheory.categories.StandardCategories]
D:36 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
D:36 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
D:36 [in UniMath.CategoryTheory.limits.kernels]
D:36 [in UniMath.CategoryTheory.Chains.Chains]
d:36 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
D:36 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:36 [in UniMath.CategoryTheory.Adjunctions.Examples]
d:36 [in UniMath.CategoryTheory.limits.graphs.limits]
D:361 [in UniMath.CategoryTheory.Adjunctions.Core]
d:362 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
d:362 [in UniMath.CategoryTheory.limits.graphs.limits]
d:364 [in UniMath.Bicategories.Core.Bicat]
d:364 [in UniMath.CategoryTheory.limits.graphs.limits]
D:366 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:366 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
d:366 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:366 [in UniMath.CategoryTheory.Core.Functors]
D:366 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:367 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:368 [in UniMath.CategoryTheory.limits.pullbacks]
d:369 [in UniMath.CategoryTheory.limits.graphs.limits]
D:37 [in UniMath.CategoryTheory.DisplayedCats.Projection]
d:37 [in UniMath.Bicategories.Core.Bicat]
d:37 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
D:37 [in UniMath.CategoryTheory.FunctorCategory]
D:37 [in UniMath.CategoryTheory.Enriched.Enriched]
D:37 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
d:37 [in UniMath.CategoryTheory.limits.binproducts]
D:370 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:370 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:370 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:371 [in UniMath.CategoryTheory.Core.Functors]
d:371 [in UniMath.CategoryTheory.limits.graphs.limits]
d:372 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:373 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:373 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:373 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:373 [in UniMath.CategoryTheory.limits.graphs.limits]
d:374 [in UniMath.CategoryTheory.Core.Functors]
d:375 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:375 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
D:376 [in UniMath.CategoryTheory.Core.Functors]
d:376 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:376 [in UniMath.CategoryTheory.limits.graphs.limits]
d:379 [in UniMath.CategoryTheory.limits.graphs.limits]
D:38 [in UniMath.CategoryTheory.Subcategory.Full]
d:38 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
d:38 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
d:38 [in UniMath.CategoryTheory.limits.graphs.binproducts]
D:38 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
d:38 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:38 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:38 [in UniMath.SubstitutionSystems.SignatureExamples]
D:38 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:38 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
d:38 [in UniMath.CategoryTheory.limits.graphs.zero]
D:38 [in UniMath.SubstitutionSystems.SignatureCategory]
d:38 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d:38 [in UniMath.Induction.M.Limits]
d:38 [in UniMath.Bicategories.Core.Examples.StrictCats]
D:380 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:380 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:380 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
d:380 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:380 [in UniMath.CategoryTheory.limits.pullbacks]
D:381 [in UniMath.CategoryTheory.Core.Functors]
D:382 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:383 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
d:383 [in UniMath.CategoryTheory.limits.graphs.limits]
d:384 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:384 [in UniMath.CategoryTheory.Core.Functors]
D:384 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:385 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:386 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:386 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:386 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:387 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
D:388 [in UniMath.Combinatorics.WellOrderedSets]
d:388 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:389 [in UniMath.CategoryTheory.limits.graphs.limits]
d:39 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:39 [in UniMath.Induction.ImpredicativeInductiveSets]
d:39 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
d:39 [in UniMath.CategoryTheory.limits.graphs.equalizers]
d:39 [in UniMath.CategoryTheory.Chains.Chains]
D:39 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
D:39 [in UniMath.Algebra.Dcpo]
d:39 [in UniMath.CategoryTheory.Profunctors.Core]
D:39 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
d:391 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:391 [in UniMath.CategoryTheory.Core.Functors]
d:391 [in UniMath.Combinatorics.WellOrderedSets]
D:393 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:393 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:393 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:393 [in UniMath.MoreFoundations.PartA]
d:394 [in UniMath.Bicategories.Core.Bicat]
d:394 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
d:395 [in UniMath.CategoryTheory.limits.pullbacks]
d:396 [in UniMath.CategoryTheory.limits.graphs.limits]
d:397 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:397 [in UniMath.CategoryTheory.Core.Functors]
d:399 [in UniMath.CategoryTheory.limits.graphs.limits]
D:4 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:4 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
D:4 [in UniMath.CategoryTheory.Chains.Chains]
d:4 [in UniMath.Bicategories.WkCatEnrichment.Cat]
D:4 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:4 [in UniMath.CategoryTheory.Subcategory.Reflective]
D:4 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:4 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
D:4 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
d:4 [in UniMath.CategoryTheory.limits.graphs.zero]
D:4 [in UniMath.CategoryTheory.Profunctors.Core]
D:4 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
D:4 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
d:4 [in UniMath.CategoryTheory.UnderCategories]
D:4 [in UniMath.Bicategories.Core.Examples.StrictCats]
d:4 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
d:40 [in UniMath.Bicategories.Core.Strictness]
D:40 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
D:40 [in UniMath.CategoryTheory.CategoryEquality]
D:40 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
D:40 [in UniMath.CategoryTheory.Groupoids]
D:400 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:400 [in UniMath.CategoryTheory.Core.Functors]
d:401 [in UniMath.Bicategories.Core.Bicat]
d:402 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
d:402 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:404 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:404 [in UniMath.CategoryTheory.limits.graphs.limits]
d:405 [in UniMath.CategoryTheory.limits.pullbacks]
D:406 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:407 [in UniMath.CategoryTheory.Core.Functors]
D:407 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:408 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:409 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:41 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
D:41 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
d:41 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
d:41 [in UniMath.CategoryTheory.limits.graphs.binproducts]
D:41 [in UniMath.CategoryTheory.Equivalences.Core]
d:410 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:410 [in UniMath.CategoryTheory.PreAdditive]
d:410 [in UniMath.CategoryTheory.limits.graphs.limits]
D:412 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:412 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:413 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
d:413 [in UniMath.Bicategories.Core.Bicat]
d:414 [in UniMath.CategoryTheory.limits.pullbacks]
D:417 [in UniMath.CategoryTheory.Core.Functors]
d:418 [in UniMath.CategoryTheory.limits.graphs.limits]
D:42 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
D:42 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:42 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D:42 [in UniMath.CategoryTheory.EpiFacts]
D:42 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:42 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
D:42 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:42 [in UniMath.Algebra.Dcpo]
d:42 [in UniMath.CategoryTheory.Core.Categories]
d:421 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:421 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:421 [in UniMath.CategoryTheory.limits.pullbacks]
D:422 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:423 [in UniMath.CategoryTheory.Core.Functors]
d:423 [in UniMath.CategoryTheory.PreAdditive]
D:426 [in UniMath.CategoryTheory.Core.Functors]
d:427 [in UniMath.CategoryTheory.limits.graphs.limits]
D:428 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:429 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:43 [in UniMath.CategoryTheory.GrothendieckTopos]
D:43 [in UniMath.CategoryTheory.categories.StandardCategories]
d:43 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
d:43 [in UniMath.CategoryTheory.Chains.Chains]
D:43 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:43 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
D:43 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
d:43 [in UniMath.CategoryTheory.limits.binproducts]
d:430 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:430 [in UniMath.CategoryTheory.limits.pullbacks]
D:433 [in UniMath.CategoryTheory.Core.Functors]
D:436 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:436 [in UniMath.CategoryTheory.Core.Functors]
D:439 [in UniMath.CategoryTheory.Core.Functors]
d:44 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:44 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
d:44 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
d:44 [in UniMath.CategoryTheory.limits.graphs.binproducts]
D:44 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:44 [in UniMath.SubstitutionSystems.SignatureExamples]
D:442 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:442 [in UniMath.CategoryTheory.Core.Functors]
D:443 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:445 [in UniMath.CategoryTheory.Core.Functors]
D:445 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:448 [in UniMath.CategoryTheory.Core.Functors]
D:449 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:449 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:45 [in UniMath.CategoryTheory.FunctorCategory]
D:45 [in UniMath.CategoryTheory.Equivalences.Core]
d:45 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:45 [in UniMath.Algebra.Dcpo]
D:45 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
d:45 [in UniMath.CategoryTheory.limits.graphs.limits]
d:452 [in UniMath.CategoryTheory.limits.pullbacks]
D:453 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:455 [in UniMath.CategoryTheory.Core.Functors]
D:458 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
d:458 [in UniMath.CategoryTheory.limits.pullbacks]
D:46 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
d:46 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
d:46 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
d:46 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:46 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:46 [in UniMath.Combinatorics.Lists]
d:46 [in UniMath.Bicategories.Core.Examples.StrictCats]
d:46 [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
d:460 [in UniMath.CategoryTheory.limits.pullbacks]
D:461 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:462 [in UniMath.CategoryTheory.Core.Functors]
D:463 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:467 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:468 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:47 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:47 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
D:47 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
d:471 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:473 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:476 [in UniMath.CategoryTheory.Core.Functors]
d:477 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:478 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
d:478 [in UniMath.CategoryTheory.Core.Functors]
d:48 [in UniMath.CategoryTheory.Monads.RelativeModules]
D:48 [in UniMath.CategoryTheory.whiskering]
d:48 [in UniMath.CategoryTheory.PseudoElements]
D:48 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:48 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d:480 [in UniMath.CategoryTheory.limits.pullbacks]
D:481 [in UniMath.CategoryTheory.Core.Functors]
D:481 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:483 [in UniMath.CategoryTheory.Core.Functors]
d:484 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
d:485 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:485 [in UniMath.CategoryTheory.Core.Functors]
D:486 [in UniMath.CategoryTheory.limits.graphs.limits]
D:487 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:488 [in UniMath.CategoryTheory.Core.Functors]
d:489 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:489 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:49 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
d:49 [in UniMath.Bicategories.Core.Strictness]
D:49 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d:49 [in UniMath.CategoryTheory.Core.Categories]
d:49 [in UniMath.CategoryTheory.limits.binproducts]
d:490 [in UniMath.CategoryTheory.limits.graphs.limits]
d:493 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:494 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:494 [in UniMath.CategoryTheory.limits.graphs.limits]
d:496 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:499 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:499 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:5 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
D:5 [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
d:5 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
D:5 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
d:5 [in UniMath.CategoryTheory.limits.pushouts]
d:5 [in UniMath.SubstitutionSystems.CCS_alt]
d:5 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
d:5 [in UniMath.CategoryTheory.PseudoElements]
D:5 [in UniMath.CategoryTheory.CategoryEquality]
d:5 [in UniMath.Bicategories.BicatOfBicategory]
d:5 [in UniMath.SubstitutionSystems.CCS]
d:5 [in UniMath.SubstitutionSystems.MLTT79]
d:5 [in UniMath.MoreFoundations.StructureIdentity]
d:5 [in UniMath.CategoryTheory.limits.graphs.zero]
d:5 [in UniMath.CategoryTheory.UnderCategories]
d:5 [in UniMath.Combinatorics.VectorsTests]
d:5 [in UniMath.Bicategories.Core.Unitors]
D:50 [in UniMath.Bicategories.Transformations.PseudoTransformation]
d:50 [in UniMath.CategoryTheory.yoneda]
D:50 [in UniMath.CategoryTheory.Chains.Chains]
D:50 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
D:50 [in UniMath.CategoryTheory.limits.cokernels]
d:50 [in UniMath.Folds.folds_precat]
D:50 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:50 [in UniMath.HomologicalAlgebra.Complexes]
d:50 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
d:500 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:500 [in UniMath.CategoryTheory.limits.graphs.limits]
d:502 [in UniMath.CategoryTheory.limits.graphs.limits]
d:503 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:503 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
D:505 [in UniMath.CategoryTheory.limits.graphs.limits]
D:506 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:506 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
d:507 [in UniMath.CategoryTheory.limits.graphs.limits]
D:509 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:51 [in UniMath.CategoryTheory.DisplayedCats.Projection]
d:51 [in UniMath.CategoryTheory.limits.graphs.pushouts]
D:51 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
d:51 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
D:51 [in UniMath.CategoryTheory.limits.cones]
d:51 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:51 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
D:51 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
d:51 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
d:511 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:511 [in UniMath.CategoryTheory.limits.graphs.limits]
d:512 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:513 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:513 [in UniMath.CategoryTheory.limits.graphs.limits]
d:518 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:519 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
d:519 [in UniMath.CategoryTheory.limits.pullbacks]
D:52 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
D:52 [in UniMath.CategoryTheory.CategoryEquality]
D:52 [in UniMath.CategoryTheory.FunctorCategory]
d:52 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:52 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:52 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
D:52 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:520 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:520 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:522 [in UniMath.CategoryTheory.limits.graphs.limits]
D:525 [in UniMath.CategoryTheory.Core.Functors]
D:527 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:528 [in UniMath.CategoryTheory.limits.graphs.limits]
d:529 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
d:53 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
D:53 [in UniMath.RealNumbers.DedekindCuts]
d:53 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
d:53 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
D:53 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
d:53 [in UniMath.CategoryTheory.limits.graphs.limits]
d:530 [in UniMath.CategoryTheory.limits.pullbacks]
D:533 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:533 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:534 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:534 [in UniMath.CategoryTheory.limits.graphs.limits]
D:538 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:539 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:54 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:54 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
d:54 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
D:54 [in UniMath.CategoryTheory.CategoryEquality]
d:54 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
D:54 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:54 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:54 [in UniMath.SubstitutionSystems.LiftingInitial]
d:540 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:543 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:543 [in UniMath.CategoryTheory.limits.pullbacks]
D:547 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:547 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
d:549 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
d:549 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:55 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
D:55 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
d:55 [in UniMath.CategoryTheory.yoneda]
D:55 [in UniMath.RealNumbers.DedekindCuts]
d:55 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
d:55 [in UniMath.CategoryTheory.Enriched.Enriched]
D:55 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:55 [in UniMath.SubstitutionSystems.LiftingInitial]
d:55 [in UniMath.CategoryTheory.limits.binproducts]
D:551 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:553 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:555 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:555 [in UniMath.HomologicalAlgebra.Triangulated]
D:556 [in UniMath.HomologicalAlgebra.Triangulated]
D:557 [in UniMath.HomologicalAlgebra.Triangulated]
D:558 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:558 [in UniMath.HomologicalAlgebra.Triangulated]
D:559 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:559 [in UniMath.HomologicalAlgebra.Triangulated]
D:56 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:56 [in UniMath.Bicategories.Transformations.PseudoTransformation]
d:56 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
D:56 [in UniMath.CategoryTheory.whiskering]
D:56 [in UniMath.CategoryTheory.CategoryEquality]
D:56 [in UniMath.CategoryTheory.Chains.Chains]
d:56 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
d:56 [in UniMath.CategoryTheory.Enriched.Enriched]
d:56 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:56 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:56 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
D:560 [in UniMath.HomologicalAlgebra.Triangulated]
D:561 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:561 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:561 [in UniMath.HomologicalAlgebra.Triangulated]
D:562 [in UniMath.HomologicalAlgebra.Triangulated]
D:563 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:563 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:564 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:565 [in UniMath.HomologicalAlgebra.Triangulated]
d:565 [in UniMath.CategoryTheory.limits.pullbacks]
D:566 [in UniMath.HomologicalAlgebra.Triangulated]
D:567 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:569 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:569 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:57 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:57 [in UniMath.CategoryTheory.Monads.RelativeModules]
d:57 [in UniMath.CategoryTheory.yoneda]
D:57 [in UniMath.RealNumbers.DedekindCuts]
D:57 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
D:57 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
d:570 [in UniMath.CategoryTheory.LocalizingClass]
D:571 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:572 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:572 [in UniMath.CategoryTheory.categories.abgrs]
D:573 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:574 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
d:575 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:58 [in UniMath.CategoryTheory.CategoryEquality]
d:58 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d:58 [in UniMath.CategoryTheory.limits.graphs.limits]
D:581 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:581 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:583 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:586 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:587 [in UniMath.CategoryTheory.LocalizingClass]
D:588 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:588 [in UniMath.CategoryTheory.categories.abgrs]
D:588 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:59 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:59 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
D:59 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
D:59 [in UniMath.CategoryTheory.Chains.Chains]
D:59 [in UniMath.CategoryTheory.FunctorCategory]
d:59 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:59 [in UniMath.CategoryTheory.Monads.Derivative]
D:590 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:591 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
D:591 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:592 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:593 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:595 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:597 [in UniMath.CategoryTheory.LocalizingClass]
D:599 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:6 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
D:6 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:6 [in UniMath.Bicategories.Transformations.PseudoTransformation]
D:6 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
d:6 [in UniMath.SubstitutionSystems.PCF_alt]
D:6 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
d:6 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:6 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:6 [in UniMath.CategoryTheory.limits.pullbacks]
D:6 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
D:60 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
D:60 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
D:60 [in UniMath.RealNumbers.DedekindCuts]
D:60 [in UniMath.CategoryTheory.CategoryEquality]
D:60 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:60 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:60 [in UniMath.Algebra.Dcpo]
D:603 [in UniMath.CategoryTheory.categories.abgrs]
d:604 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:605 [in UniMath.CategoryTheory.LocalizingClass]
D:608 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:61 [in UniMath.CategoryTheory.HorizontalComposition]
D:61 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
d:61 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
D:61 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:612 [in UniMath.HomologicalAlgebra.Triangulated]
d:613 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:613 [in UniMath.HomologicalAlgebra.Triangulated]
D:614 [in UniMath.HomologicalAlgebra.Triangulated]
D:616 [in UniMath.HomologicalAlgebra.Triangulated]
D:617 [in UniMath.CategoryTheory.categories.abgrs]
D:617 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:618 [in UniMath.CategoryTheory.LocalizingClass]
D:618 [in UniMath.HomologicalAlgebra.Triangulated]
D:62 [in UniMath.CategoryTheory.Monads.RelativeModules]
D:62 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:62 [in UniMath.CategoryTheory.Subcategory.Full]
D:62 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
d:62 [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
D:620 [in UniMath.HomologicalAlgebra.Triangulated]
D:622 [in UniMath.HomologicalAlgebra.Triangulated]
D:623 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:624 [in UniMath.HomologicalAlgebra.Triangulated]
D:625 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:626 [in UniMath.HomologicalAlgebra.Triangulated]
D:627 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:628 [in UniMath.HomologicalAlgebra.Triangulated]
D:629 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:63 [in UniMath.CategoryTheory.Monads.RelativeMonads]
d:63 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
d:63 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
d:63 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
d:63 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:63 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:63 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:63 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
D:63 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
d:63 [in UniMath.CategoryTheory.Core.Categories]
D:630 [in UniMath.HomologicalAlgebra.Triangulated]
D:631 [in UniMath.CategoryTheory.LocalizingClass]
D:631 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:632 [in UniMath.CategoryTheory.categories.abgrs]
D:632 [in UniMath.HomologicalAlgebra.Triangulated]
D:633 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:634 [in UniMath.HomologicalAlgebra.Triangulated]
D:635 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:637 [in UniMath.CategoryTheory.LocalizingClass]
D:637 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:637 [in UniMath.HomologicalAlgebra.Triangulated]
D:639 [in UniMath.HomologicalAlgebra.Triangulated]
D:64 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:64 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
d:64 [in UniMath.CategoryTheory.limits.bincoproducts]
d:64 [in UniMath.Bicategories.Core.Strictness]
d:64 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:64 [in UniMath.CategoryTheory.limits.graphs.limits]
d:64 [in UniMath.CategoryTheory.limits.binproducts]
D:641 [in UniMath.HomologicalAlgebra.Triangulated]
D:643 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:643 [in UniMath.HomologicalAlgebra.Triangulated]
D:645 [in UniMath.HomologicalAlgebra.Triangulated]
D:647 [in UniMath.CategoryTheory.LocalizingClass]
D:647 [in UniMath.CategoryTheory.categories.abgrs]
D:649 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:65 [in UniMath.CategoryTheory.whiskering]
D:65 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:65 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D:65 [in UniMath.Algebra.Dcpo]
D:65 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
D:655 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:657 [in UniMath.Bicategories.Core.Bicat]
D:659 [in UniMath.HomologicalAlgebra.Triangulated]
D:66 [in UniMath.CategoryTheory.Subcategory.Full]
D:66 [in UniMath.Bicategories.Transformations.PseudoTransformation]
d:66 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D:66 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:661 [in UniMath.CategoryTheory.LocalizingClass]
D:661 [in UniMath.HomologicalAlgebra.Triangulated]
D:663 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:663 [in UniMath.HomologicalAlgebra.Triangulated]
d:664 [in UniMath.Bicategories.Core.Bicat]
D:665 [in UniMath.HomologicalAlgebra.Triangulated]
D:667 [in UniMath.HomologicalAlgebra.Triangulated]
D:669 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:67 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:67 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:67 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D:67 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:67 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D:67 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:67 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:674 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:679 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:68 [in UniMath.CategoryTheory.Monads.RelativeModules]
D:68 [in UniMath.RealNumbers.DedekindCuts]
D:68 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:68 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D:68 [in UniMath.Algebra.Dcpo]
d:68 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d:68 [in UniMath.CategoryTheory.limits.graphs.limits]
d:680 [in UniMath.Algebra.RigsAndRings]
D:683 [in UniMath.CategoryTheory.LocalizingClass]
d:684 [in UniMath.Algebra.RigsAndRings]
D:686 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:69 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
D:69 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
D:69 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:69 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
D:691 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:697 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:7 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:7 [in UniMath.CategoryTheory.Abelian]
D:7 [in UniMath.CategoryTheory.Monads.RelativeModules]
D:7 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
d:7 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
d:7 [in UniMath.Bicategories.DisplayedBicats.Fibration]
D:7 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
D:7 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
D:7 [in UniMath.CategoryTheory.Adjunctions.Restriction]
D:70 [in UniMath.CategoryTheory.DisplayedCats.Projection]
D:70 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
d:70 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
D:70 [in UniMath.CategoryTheory.HorizontalComposition]
D:70 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:703 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:707 [in UniMath.Bicategories.Core.Bicat]
D:709 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:71 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:71 [in UniMath.CategoryTheory.Core.NaturalTransformations]
d:71 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
D:71 [in UniMath.Algebra.Dcpo]
D:713 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:718 [in UniMath.Bicategories.Core.Bicat]
D:718 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:719 [in UniMath.CategoryTheory.LocalizingClass]
d:72 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:72 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
d:72 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
d:72 [in UniMath.CategoryTheory.Core.Categories]
d:72 [in UniMath.CategoryTheory.limits.graphs.limits]
d:729 [in UniMath.Bicategories.Core.Bicat]
D:73 [in UniMath.CategoryTheory.Monads.RelativeModules]
D:73 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
D:73 [in UniMath.CategoryTheory.whiskering]
d:73 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
d:73 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:73 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:73 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:73 [in UniMath.CategoryTheory.Monads.Derivative]
D:73 [in UniMath.HomologicalAlgebra.Complexes]
D:73 [in UniMath.Algebra.Dcpo]
D:73 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
D:731 [in UniMath.CategoryTheory.LocalizingClass]
D:732 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:736 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:739 [in UniMath.CategoryTheory.LocalizingClass]
D:74 [in UniMath.CategoryTheory.Subcategory.Full]
D:74 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:74 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D:74 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
D:74 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:74 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
d:740 [in UniMath.Bicategories.Core.Bicat]
d:741 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:742 [in UniMath.Algebra.RigsAndRings]
D:743 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:747 [in UniMath.CategoryTheory.LocalizingClass]
D:747 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:75 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:75 [in UniMath.CategoryTheory.DisplayedCats.Projection]
d:75 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
d:75 [in UniMath.CategoryTheory.PseudoElements]
D:75 [in UniMath.CategoryTheory.Groupoids]
D:75 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:75 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
D:753 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:756 [in UniMath.CategoryTheory.LocalizingClass]
D:76 [in UniMath.Bicategories.Transformations.PseudoTransformation]
D:76 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
d:76 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
D:76 [in UniMath.Algebra.Dcpo]
D:76 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
d:76 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d:76 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
d:760 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:762 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:764 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:767 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:77 [in UniMath.RealNumbers.DedekindCuts]
d:77 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
d:77 [in UniMath.CategoryTheory.limits.graphs.binproducts]
D:77 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
d:77 [in UniMath.CategoryTheory.limits.graphs.limits]
d:770 [in UniMath.Bicategories.Core.Bicat]
D:770 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:774 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:778 [in UniMath.CategoryTheory.LocalizingClass]
D:778 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:779 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:78 [in UniMath.CategoryTheory.Monads.RelativeModules]
d:78 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
d:78 [in UniMath.CategoryTheory.limits.bincoproducts]
D:78 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:78 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
D:785 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:79 [in UniMath.CategoryTheory.HorizontalComposition]
D:790 [in UniMath.CategoryTheory.LocalizingClass]
D:790 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:795 [in UniMath.Bicategories.Core.Bicat]
D:795 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:799 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:8 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
D:8 [in UniMath.SubstitutionSystems.ModulesFromSignatures]
d:8 [in UniMath.CategoryTheory.DisplayedCats.Limits]
d:8 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:8 [in UniMath.CategoryTheory.Enriched.Enriched]
D:8 [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
D:8 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:8 [in UniMath.CategoryTheory.Subcategory.Reflective]
D:8 [in UniMath.HomologicalAlgebra.Complexes]
D:8 [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
d:80 [in UniMath.CategoryTheory.PseudoElements]
D:80 [in UniMath.CategoryTheory.Groupoids]
D:80 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:80 [in UniMath.CategoryTheory.Monads.Derivative]
D:80 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:804 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:807 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:81 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
D:81 [in UniMath.CategoryTheory.whiskering]
d:81 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
d:81 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:81 [in UniMath.Algebra.Dcpo]
d:81 [in UniMath.CategoryTheory.limits.graphs.limits]
D:810 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:816 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:82 [in UniMath.PAdics.z_mod_p]
D:82 [in UniMath.Bicategories.Transformations.PseudoTransformation]
D:82 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
D:82 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
D:82 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
d:82 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
D:82 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
d:82 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
D:828 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:83 [in UniMath.CategoryTheory.LocalizingClass]
D:83 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
D:83 [in UniMath.RealNumbers.DedekindCuts]
d:83 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
D:836 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:84 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
D:84 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:84 [in UniMath.CategoryTheory.Monads.RelativeModules]
D:84 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:84 [in UniMath.CategoryTheory.limits.binproducts]
d:840 [in UniMath.Bicategories.Core.Bicat]
d:845 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:848 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:849 [in UniMath.Bicategories.Core.Bicat]
D:85 [in UniMath.RealNumbers.DedekindCuts]
d:85 [in UniMath.CategoryTheory.limits.graphs.binproducts]
d:858 [in UniMath.Bicategories.Core.Bicat]
d:86 [in UniMath.Bicategories.Core.Bicat]
d:86 [in UniMath.CategoryTheory.limits.bincoproducts]
d:86 [in UniMath.Folds.folds_pre_2_cat]
d:86 [in UniMath.CategoryTheory.PseudoElements]
D:86 [in UniMath.CategoryTheory.opp_precat]
d:86 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:86 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
D:86 [in UniMath.Algebra.Dcpo]
D:86 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
D:86 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
d:860 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:866 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:867 [in UniMath.Bicategories.Core.Bicat]
D:87 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
D:87 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
D:87 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:87 [in UniMath.CategoryTheory.Monads.Derivative]
D:872 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:876 [in UniMath.Bicategories.Core.Bicat]
D:878 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:88 [in UniMath.PAdics.z_mod_p]
D:88 [in UniMath.RealNumbers.DedekindCuts]
d:88 [in UniMath.Bicategories.Core.Strictness]
d:88 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:88 [in UniMath.CategoryTheory.HorizontalComposition]
D:88 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:88 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d:88 [in UniMath.CategoryTheory.Core.Categories]
D:884 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:886 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:89 [in UniMath.CategoryTheory.Monads.RelativeModules]
D:89 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
D:89 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:89 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
D:89 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:89 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:89 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
d:89 [in UniMath.CategoryTheory.limits.graphs.limits]
d:89 [in UniMath.CategoryTheory.limits.binproducts]
D:892 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:9 [in UniMath.CategoryTheory.Abelian]
d:9 [in UniMath.Bicategories.BicategoryOfBicat]
D:9 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
d:9 [in UniMath.CategoryTheory.yoneda]
D:9 [in UniMath.CategoryTheory.CategoryEquality]
d:9 [in UniMath.CategoryTheory.Enriched.Enriched]
D:9 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D:90 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
D:90 [in UniMath.CategoryTheory.Monics]
d:90 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
D:902 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:908 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:91 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
D:91 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
d:91 [in UniMath.CategoryTheory.PseudoElements]
D:91 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
D:91 [in UniMath.Algebra.Dcpo]
D:92 [in UniMath.Bicategories.Transformations.PseudoTransformation]
d:92 [in UniMath.CategoryTheory.limits.graphs.colimits]
D:92 [in UniMath.CategoryTheory.Monads.Derivative]
D:92 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
D:92 [in UniMath.CategoryTheory.Epis]
D:921 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:923 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:924 [in UniMath.Bicategories.Core.Bicat]
D:93 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
D:93 [in UniMath.CategoryTheory.Monads.RelativeMonads]
D:93 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D:93 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
D:93 [in UniMath.RealNumbers.DedekindCuts]
D:93 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:93 [in UniMath.CategoryTheory.limits.graphs.binproducts]
d:931 [in UniMath.Bicategories.Core.Bicat]
D:937 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:938 [in UniMath.Bicategories.Core.Bicat]
D:94 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
D:94 [in UniMath.CategoryTheory.Monads.RelativeModules]
d:94 [in UniMath.Bicategories.Core.Bicat]
d:94 [in UniMath.CategoryTheory.limits.bincoproducts]
D:94 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:94 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
d:94 [in UniMath.CategoryTheory.limits.graphs.limits]
D:943 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
d:945 [in UniMath.Bicategories.Core.Bicat]
D:947 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:948 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
D:95 [in UniMath.CategoryTheory.opp_precat]
D:95 [in UniMath.CategoryTheory.Subcategory.Core]
D:95 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
D:95 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
D:957 [in UniMath.CategoryTheory.DisplayedCats.Core]
D:96 [in UniMath.CategoryTheory.PrecategoryBinProduct]
d:96 [in UniMath.CategoryTheory.limits.graphs.colimits]
d:96 [in UniMath.CategoryTheory.Core.Categories]
D:965 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:965 [in UniMath.Algebra.RigsAndRings]
D:969 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:969 [in UniMath.Algebra.RigsAndRings]
D:97 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
d:97 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
D:97 [in UniMath.CategoryTheory.Monics]
d:97 [in UniMath.CategoryTheory.limits.binproducts]
d:975 [in UniMath.Bicategories.Core.Bicat]
D:98 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D:98 [in UniMath.Bicategories.Transformations.PseudoTransformation]
D:98 [in UniMath.RealNumbers.DedekindCuts]
d:98 [in UniMath.CategoryTheory.AbelianToAdditive]
D:98 [in UniMath.CategoryTheory.opp_precat]
D:98 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
D:98 [in UniMath.CategoryTheory.Monads.Derivative]
d:98 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
D:98 [in UniMath.Algebra.Dcpo]
d:98 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
d:98 [in UniMath.CategoryTheory.limits.graphs.limits]
d:980 [in UniMath.Bicategories.Core.Bicat]
D:982 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:985 [in UniMath.Bicategories.Core.Bicat]
D:99 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
d:99 [in UniMath.Folds.folds_precat]
D:99 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
d:99 [in UniMath.CategoryTheory.PrecategoryBinProduct]
D:99 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
D:99 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
d:992 [in UniMath.Algebra.RigsAndRings]
d:995 [in UniMath.Bicategories.Core.Bicat]
D:995 [in UniMath.CategoryTheory.DisplayedCats.Core]
d:996 [in UniMath.Algebra.RigsAndRings]
d:999 [in UniMath.Bicategories.Core.Bicat]
D₁:107 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
D₁:119 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:12 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
D₁:1271 [in UniMath.CategoryTheory.DisplayedCats.Core]
D₁:1289 [in UniMath.CategoryTheory.DisplayedCats.Core]
D₁:138 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₁:143 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:151 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:159 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:168 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:168 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
d₁:172 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
D₁:178 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:186 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:194 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:194 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₁:2 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₁:2 [in UniMath.Bicategories.DisplayedBicats.DispModification]
D₁:2 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₁:208 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:220 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₁:23 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₁:236 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
D₁:250 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₁:268 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₁:269 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
d₁:28 [in UniMath.CategoryTheory.IsoCommaCategory]
D₁:291 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₁:3 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
D₁:3 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
D₁:3 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
d₁:31 [in UniMath.CategoryTheory.IsoCommaCategory]
D₁:334 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₁:347 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₁:35 [in UniMath.Bicategories.DisplayedBicats.DispModification]
D₁:391 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D₁:419 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D₁:438 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D₁:453 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D₁:6 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₁:81 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₁:96 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:108 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
D₂:1272 [in UniMath.CategoryTheory.DisplayedCats.Core]
D₂:1290 [in UniMath.CategoryTheory.DisplayedCats.Core]
D₂:139 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:169 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:17 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
d₂:173 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
D₂:195 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:237 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
D₂:24 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:251 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₂:269 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:270 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
d₂:29 [in UniMath.CategoryTheory.IsoCommaCategory]
D₂:292 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
d₂:32 [in UniMath.CategoryTheory.IsoCommaCategory]
D₂:33 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:335 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₂:351 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₂:37 [in UniMath.Bicategories.DisplayedBicats.DispModification]
D₂:37 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:392 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D₂:4 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₂:4 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
D₂:4 [in UniMath.Bicategories.DisplayedBicats.DispModification]
D₂:4 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:4 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
D₂:4 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
D₂:42 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:420 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D₂:439 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D₂:454 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
D₂:54 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:7 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:81 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₂:82 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₂:97 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₃:120 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:1273 [in UniMath.CategoryTheory.DisplayedCats.Core]
D₃:1291 [in UniMath.CategoryTheory.DisplayedCats.Core]
D₃:140 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₃:144 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:152 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:160 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:169 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:170 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₃:179 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:187 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:195 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:209 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:221 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
D₃:270 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
D₃:293 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
D₃:421 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
D₃:43 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₃:55 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
D₄:271 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]

E

each_is_submonoid:193 [in UniMath.Algebra.Monoids]
each_is_subgr:146 [in UniMath.Algebra.Groups]
each_is_submodule:49 [in UniMath.Algebra.Modules.Submodule]
eA:174 [in UniMath.MoreFoundations.PartA]
ea:693 [in UniMath.MoreFoundations.PartA]
ea:707 [in UniMath.MoreFoundations.PartA]
eB:175 [in UniMath.MoreFoundations.PartA]
eb:694 [in UniMath.MoreFoundations.PartA]
eb:708 [in UniMath.MoreFoundations.PartA]
ec:695 [in UniMath.MoreFoundations.PartA]
ec:709 [in UniMath.MoreFoundations.PartA]
edf:37 [in UniMath.CategoryTheory.CommaCategories]
ed:19 [in UniMath.Induction.M.Limits]
ed:24 [in UniMath.Induction.M.Limits]
ed:28 [in UniMath.Induction.M.Limits]
ed:33 [in UniMath.CategoryTheory.CommaCategories]
ed:9 [in UniMath.Induction.M.Chains]
eee0:979 [in UniMath.Foundations.PartA]
eee0:980 [in UniMath.Foundations.PartA]
eee:820 [in UniMath.Foundations.PartA]
ee:1010 [in UniMath.Foundations.PartA]
ee:12 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
ee:15 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ee:16 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
EE:186 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ee:190 [in UniMath.Foundations.PartB]
ee:191 [in UniMath.Foundations.PartB]
EE:195 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ee:198 [in UniMath.Foundations.PartB]
ee:199 [in UniMath.Foundations.PartB]
ee:20 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
ee:200 [in UniMath.Foundations.PartB]
ee:201 [in UniMath.Foundations.PartB]
ee:2072 [in UniMath.Foundations.PartA]
ee:209 [in UniMath.Foundations.PartB]
EE:209 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ee:21 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ee:210 [in UniMath.Foundations.PartB]
ee:211 [in UniMath.Foundations.PartB]
ee:212 [in UniMath.Foundations.PartB]
EE:215 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
EE:229 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
EE:236 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ee:24 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
EE:243 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
EE:25 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
EE:250 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ee:27 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ee:271 [in UniMath.CategoryTheory.DisplayedCats.Core]
ee:28 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
ee:287 [in UniMath.CategoryTheory.DisplayedCats.Core]
ee:33 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
ee:34 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ee:361 [in UniMath.Foundations.PartC]
ee:362 [in UniMath.Foundations.PartC]
ee:365 [in UniMath.Foundations.PartC]
ee:366 [in UniMath.Foundations.PartC]
ee:367 [in UniMath.Foundations.PartC]
ee:368 [in UniMath.Foundations.PartC]
ee:380 [in UniMath.Foundations.PartC]
ee:381 [in UniMath.Foundations.PartC]
ee:384 [in UniMath.Foundations.PartC]
ee:385 [in UniMath.Foundations.PartC]
ee:385 [in UniMath.Foundations.PartA]
ee:386 [in UniMath.Foundations.PartC]
ee:387 [in UniMath.Foundations.PartC]
ee:39 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ee:39 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
ee:40 [in UniMath.Foundations.UnivalenceAxiom]
ee:43 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
ee:43 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ee:459 [in UniMath.CategoryTheory.DisplayedCats.Core]
ee:465 [in UniMath.CategoryTheory.DisplayedCats.Core]
ee:559 [in UniMath.CategoryTheory.DisplayedCats.Core]
ee:615 [in UniMath.CategoryTheory.DisplayedCats.Core]
ee:639 [in UniMath.HomologicalAlgebra.MappingCone]
ee:642 [in UniMath.HomologicalAlgebra.MappingCone]
ee:657 [in UniMath.HomologicalAlgebra.MappingCone]
ee:659 [in UniMath.HomologicalAlgebra.MappingCone]
ee:68 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ee:725 [in UniMath.CategoryTheory.DisplayedCats.Core]
ee:726 [in UniMath.CategoryTheory.DisplayedCats.Core]
ee:819 [in UniMath.Foundations.PartA]
ee:84 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ee:98 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
EFF:311 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
EFF:316 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
efg:1073 [in UniMath.Foundations.PartA]
efg:1082 [in UniMath.Foundations.PartA]
efg:1198 [in UniMath.Foundations.PartA]
efg:1208 [in UniMath.Foundations.PartA]
efg:1216 [in UniMath.Foundations.PartA]
ef:1014 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ef:1035 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ef:235 [in UniMath.CategoryTheory.DisplayedCats.Core]
ef:5 [in UniMath.PAdics.frac]
ef:994 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
egf:1196 [in UniMath.Foundations.PartA]
egf:1206 [in UniMath.Foundations.PartA]
egf:1214 [in UniMath.Foundations.PartA]
egf:1367 [in UniMath.Foundations.PartA]
eg:250 [in UniMath.CategoryTheory.DisplayedCats.Core]
epia:39 [in UniMath.CategoryTheory.EpiFacts]
epich:62 [in UniMath.CategoryTheory.slicecat]
epip:754 [in UniMath.Foundations.Sets]
eps:13 [in UniMath.Foundations.PartB]
eps:181 [in UniMath.CategoryTheory.Adjunctions.Core]
eps:21 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
eps:25 [in UniMath.MoreFoundations.MoreEquivalences]
eps:26 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
eps:341 [in UniMath.Foundations.PartA]
eps:350 [in UniMath.Foundations.PartA]
eps:359 [in UniMath.Foundations.PartA]
eps:374 [in UniMath.Foundations.PartA]
eps:375 [in UniMath.RealNumbers.NonnegativeReals]
eps:39 [in UniMath.CategoryTheory.Adjunctions.Core]
eps:393 [in UniMath.RealNumbers.NonnegativeReals]
eps:399 [in UniMath.RealNumbers.NonnegativeReals]
eps:45 [in UniMath.CategoryTheory.Adjunctions.Core]
eps:51 [in UniMath.CategoryTheory.Adjunctions.Core]
eps:53 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
eps:66 [in UniMath.CategoryTheory.Adjunctions.Core]
eps:700 [in UniMath.RealNumbers.NonnegativeReals]
eps:706 [in UniMath.RealNumbers.NonnegativeReals]
eps:743 [in UniMath.Foundations.PartA]
eps:8 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
ep:18 [in UniMath.CategoryTheory.categories.HSET.Structures]
eqclass:657 [in UniMath.CategoryTheory.LocalizingClass]
eqclass:671 [in UniMath.CategoryTheory.LocalizingClass]
eqclass:729 [in UniMath.CategoryTheory.LocalizingClass]
eqf:111 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
eqf:125 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
eqg:112 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
eqg:126 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
eqin:61 [in UniMath.CategoryTheory.limits.graphs.colimits]
eqn:197 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
eqn:207 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
eqn:217 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
eqn:227 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Eqs:322 [in UniMath.CategoryTheory.limits.pullbacks]
eq_d:141 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_d:135 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_d:123 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_d:115 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_v:33 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_α:81 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq_ρ:80 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq_λ:79 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq_α:59 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq_ρ:57 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq_λ:55 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq1:57 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
eq1:73 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq1:813 [in UniMath.Algebra.RigsAndRings]
eq2:59 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
eq2:74 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
eq2:814 [in UniMath.Algebra.RigsAndRings]
eq:11 [in UniMath.MoreFoundations.NoInjectivePairing]
eq:12 [in UniMath.Algebra.Universal.Equations]
eq:221 [in UniMath.CategoryTheory.Core.NaturalTransformations]
eq:228 [in UniMath.CategoryTheory.Core.NaturalTransformations]
eq:299 [in UniMath.CategoryTheory.Core.NaturalTransformations]
Eq:302 [in UniMath.CategoryTheory.limits.pullbacks]
Eq:309 [in UniMath.CategoryTheory.limits.pullbacks]
Eq:320 [in UniMath.CategoryTheory.limits.pullbacks]
eq:388 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
eq:394 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
eq:6 [in UniMath.Algebra.Universal.Equations]
eq:9 [in UniMath.Algebra.Universal.Equations]
esF:387 [in UniMath.CategoryTheory.Core.Functors]
esG:389 [in UniMath.CategoryTheory.Core.Functors]
etaeps:24 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
etaeps:60 [in UniMath.CategoryTheory.Adjunctions.Core]
eta:198 [in UniMath.CategoryTheory.Adjunctions.Core]
eta:20 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
eta:25 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
eta:38 [in UniMath.CategoryTheory.Adjunctions.Core]
eta:44 [in UniMath.CategoryTheory.Adjunctions.Core]
eta:5 [in UniMath.CategoryTheory.Adjunctions.Restriction]
eta:50 [in UniMath.CategoryTheory.Adjunctions.Core]
eta:52 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
eta:65 [in UniMath.CategoryTheory.Adjunctions.Core]
eta:7 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
exinv:12 [in UniMath.RealNumbers.Sets]
exinv:19 [in UniMath.RealNumbers.Sets]
exinv:5 [in UniMath.RealNumbers.Sets]
Ext:582 [in UniMath.HomologicalAlgebra.Triangulated]
ex:190 [in UniMath.Foundations.PartA]
ex:210 [in UniMath.Foundations.PartA]
ex:23 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
ex:237 [in UniMath.Algebra.Lattice]
ex:240 [in UniMath.Algebra.Lattice]
ex:245 [in UniMath.Algebra.Lattice]
ex:286 [in UniMath.Algebra.Lattice]
ey:191 [in UniMath.Foundations.PartA]
ey:211 [in UniMath.Foundations.PartA]
ez:1857 [in UniMath.Foundations.PartA]
ez:1865 [in UniMath.Foundations.PartA]
ez:1872 [in UniMath.Foundations.PartA]
ez:1879 [in UniMath.Foundations.PartA]
ez:1886 [in UniMath.Foundations.PartA]
ez:1918 [in UniMath.Foundations.PartA]
E_corr:461 [in UniMath.RealNumbers.NonnegativeReals]
E_bot:460 [in UniMath.RealNumbers.NonnegativeReals]
E_corr:458 [in UniMath.RealNumbers.NonnegativeReals]
E_bot:457 [in UniMath.RealNumbers.NonnegativeReals]
E_corr:455 [in UniMath.RealNumbers.NonnegativeReals]
E_bot:454 [in UniMath.RealNumbers.NonnegativeReals]
E_open:452 [in UniMath.RealNumbers.NonnegativeReals]
E_bot:449 [in UniMath.RealNumbers.NonnegativeReals]
E_corr:434 [in UniMath.RealNumbers.NonnegativeReals]
E_open:433 [in UniMath.RealNumbers.NonnegativeReals]
E_bot:432 [in UniMath.RealNumbers.NonnegativeReals]
E_corr:430 [in UniMath.RealNumbers.NonnegativeReals]
E_bot:429 [in UniMath.RealNumbers.NonnegativeReals]
E_corr:421 [in UniMath.RealNumbers.NonnegativeReals]
E_open:418 [in UniMath.RealNumbers.NonnegativeReals]
E_bot:415 [in UniMath.RealNumbers.NonnegativeReals]
e_B:100 [in UniMath.Algebra.FixedPointTheorems]
e_A:99 [in UniMath.Algebra.FixedPointTheorems]
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e:567 [in UniMath.CategoryTheory.DisplayedCats.Core]
e:569 [in UniMath.MoreFoundations.PartA]
E:57 [in UniMath.CategoryTheory.limits.Opp]
e:57 [in UniMath.Combinatorics.StandardFiniteSets]
e:570 [in UniMath.Combinatorics.StandardFiniteSets]
E:570 [in UniMath.HomologicalAlgebra.Complexes]
e:571 [in UniMath.NumberSystems.Integers]
e:576 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:576 [in UniMath.Combinatorics.StandardFiniteSets]
e:577 [in UniMath.HomologicalAlgebra.Complexes]
e:578 [in UniMath.Foundations.Sets]
e:58 [in UniMath.CategoryTheory.Monads.RelativeModules]
e:58 [in UniMath.Algebra.Groups]
E:58 [in UniMath.CategoryTheory.limits.Opp]
E:58 [in UniMath.Combinatorics.GraphPaths]
e:581 [in UniMath.NumberSystems.Integers]
e:581 [in UniMath.MoreFoundations.PartA]
e:585 [in UniMath.HomologicalAlgebra.Complexes]
e:588 [in UniMath.Foundations.Sets]
e:59 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
e:59 [in UniMath.Algebra.Monoids]
E:59 [in UniMath.CategoryTheory.limits.Opp]
e:59 [in UniMath.CategoryTheory.limits.graphs.zero]
e:59 [in UniMath.Combinatorics.WellFoundedRelations]
e:593 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
e:594 [in UniMath.CategoryTheory.DisplayedCats.Core]
e:594 [in UniMath.HomologicalAlgebra.Complexes]
e:597 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
e:599 [in UniMath.Foundations.Sets]
e:6 [in UniMath.CategoryTheory.Presheaf]
e:6 [in UniMath.SubstitutionSystems.CCS_alt]
e:6 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
e:6 [in UniMath.SubstitutionSystems.CCS]
e:6 [in UniMath.MoreFoundations.PartA]
E:6 [in UniMath.Combinatorics.GraphPaths]
E:60 [in UniMath.Combinatorics.ZFstructures]
e:60 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
E:60 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
E:60 [in UniMath.CategoryTheory.limits.graphs.equalizers]
e:60 [in UniMath.Induction.M.Limits]
e:60 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:601 [in UniMath.HomologicalAlgebra.Complexes]
e:603 [in UniMath.CategoryTheory.DisplayedCats.Core]
e:605 [in UniMath.Foundations.Sets]
e:608 [in UniMath.HomologicalAlgebra.Complexes]
e:609 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
e:61 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:61 [in UniMath.CategoryTheory.limits.equalizers]
e:61 [in UniMath.MoreFoundations.Univalence]
e:61 [in UniMath.CategoryTheory.limits.coequalizers]
e:610 [in UniMath.MoreFoundations.PathsOver]
e:610 [in UniMath.Foundations.Sets]
e:611 [in UniMath.Foundations.PartA]
e:612 [in UniMath.CategoryTheory.DisplayedCats.Core]
e:613 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
e:615 [in UniMath.HomologicalAlgebra.Complexes]
E:62 [in UniMath.CategoryTheory.HorizontalComposition]
e:62 [in UniMath.CategoryTheory.Monics]
e:62 [in UniMath.CategoryTheory.limits.graphs.zero]
e:620 [in UniMath.MoreFoundations.PathsOver]
e:622 [in UniMath.HomologicalAlgebra.Complexes]
e:626 [in UniMath.Foundations.PartB]
e:627 [in UniMath.Foundations.PartB]
e:629 [in UniMath.HomologicalAlgebra.Complexes]
e:63 [in UniMath.MoreFoundations.NullHomotopies]
E:63 [in UniMath.Ktheory.GrothendieckGroup]
e:63 [in UniMath.Algebra.Groups]
e:63 [in UniMath.CategoryTheory.Core.TransportMorphisms]
e:63 [in UniMath.CategoryTheory.Epis]
e:636 [in UniMath.HomologicalAlgebra.Complexes]
e:643 [in UniMath.HomologicalAlgebra.Complexes]
E:65 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
E:65 [in UniMath.CategoryTheory.limits.graphs.equalizers]
E:65 [in UniMath.Combinatorics.GraphPaths]
e:650 [in UniMath.MoreFoundations.PartA]
e:651 [in UniMath.Foundations.PartA]
e:652 [in UniMath.Foundations.PartB]
e:653 [in UniMath.Foundations.PartB]
e:66 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:67 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
e:67 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
e:68 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
e:68 [in UniMath.CategoryTheory.limits.zero]
e:68 [in UniMath.CategoryTheory.limits.equalizers]
E:68 [in UniMath.CategoryTheory.Monics]
e:68 [in UniMath.MoreFoundations.Univalence]
e:68 [in UniMath.CategoryTheory.limits.coequalizers]
e:69 [in UniMath.CategoryTheory.Monads.RelativeModules]
e:69 [in UniMath.CategoryTheory.Monics]
E:69 [in UniMath.CategoryTheory.Epis]
e:7 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
E:7 [in UniMath.Algebra.Modules.Quotient]
e:7 [in UniMath.SubstitutionSystems.PCF_alt]
e:7 [in UniMath.CategoryTheory.limits.equalizers]
e:7 [in UniMath.CategoryTheory.categories.HSET.Limits]
e:7 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
e:7 [in UniMath.CategoryTheory.limits.coequalizers]
e:7 [in UniMath.Induction.M.Limits]
E:70 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
E:70 [in UniMath.CategoryTheory.limits.graphs.equalizers]
e:70 [in UniMath.Algebra.Groups]
e:70 [in UniMath.Combinatorics.GraphPaths]
e:70 [in UniMath.CategoryTheory.Epis]
e:71 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
e:71 [in UniMath.CategoryTheory.limits.graphs.equalizers]
E:71 [in UniMath.CategoryTheory.HorizontalComposition]
e:72 [in UniMath.MoreFoundations.MoreEquivalences]
E:72 [in UniMath.Combinatorics.GraphPaths]
e:72 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:721 [in UniMath.CategoryTheory.DisplayedCats.Core]
e:722 [in UniMath.CategoryTheory.DisplayedCats.Core]
e:723 [in UniMath.CategoryTheory.DisplayedCats.Core]
e:724 [in UniMath.CategoryTheory.DisplayedCats.Core]
e:725 [in UniMath.MoreFoundations.PartA]
e:73 [in UniMath.CategoryTheory.limits.zero]
e:73 [in UniMath.CategoryTheory.limits.cats.limits]
e:73 [in UniMath.MoreFoundations.Univalence]
e:73 [in UniMath.MoreFoundations.Subtypes]
e:731 [in UniMath.MoreFoundations.PartA]
E:739 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
E:74 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
E:74 [in UniMath.CategoryTheory.Monics]
E:75 [in UniMath.CategoryTheory.Abelian]
e:75 [in UniMath.CategoryTheory.Monics]
E:75 [in UniMath.CategoryTheory.Epis]
e:76 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
E:76 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
e:76 [in UniMath.CategoryTheory.Core.TransportMorphisms]
E:76 [in UniMath.CategoryTheory.Additive]
e:76 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:76 [in UniMath.CategoryTheory.Epis]
e:765 [in UniMath.Foundations.PartA]
e:77 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
e:77 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:77 [in UniMath.MoreFoundations.Nat]
E:78 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
e:78 [in UniMath.MoreFoundations.MoreEquivalences]
E:78 [in UniMath.CategoryTheory.limits.graphs.equalizers]
e:78 [in UniMath.MoreFoundations.Univalence]
E:78 [in UniMath.Combinatorics.GraphPaths]
e:787 [in UniMath.MoreFoundations.PartA]
e:79 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
e:79 [in UniMath.CategoryTheory.limits.graphs.equalizers]
e:79 [in UniMath.CategoryTheory.FunctorAlgebras]
e:793 [in UniMath.Foundations.PartA]
e:799 [in UniMath.Foundations.PartA]
E:8 [in UniMath.Algebra.Modules.Quotient]
e:8 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
e:8 [in UniMath.Algebra.Universal.EqAlgebras]
e:8 [in UniMath.CategoryTheory.Core.TransportMorphisms]
E:80 [in UniMath.CategoryTheory.HorizontalComposition]
e:80 [in UniMath.Combinatorics.StandardFiniteSets]
e:80 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:806 [in UniMath.Foundations.PartA]
e:807 [in UniMath.MoreFoundations.PartA]
E:81 [in UniMath.CategoryTheory.Additive]
e:811 [in UniMath.MoreFoundations.PartA]
e:812 [in UniMath.Foundations.PartA]
e:82 [in UniMath.CategoryTheory.FunctorAlgebras]
E:82 [in UniMath.Combinatorics.GraphPaths]
e:82 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
e:82 [in UniMath.CategoryTheory.elems_slice_equiv]
e:821 [in UniMath.Foundations.PartA]
e:822 [in UniMath.Foundations.PartA]
e:829 [in UniMath.Foundations.PartA]
E:83 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
E:83 [in UniMath.CategoryTheory.limits.equalizers]
E:83 [in UniMath.CategoryTheory.limits.coequalizers]
e:83 [in UniMath.MoreFoundations.Nat]
e:838 [in UniMath.Foundations.PartA]
e:84 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:85 [in UniMath.Algebra.Domains_and_Fields]
e:858 [in UniMath.Foundations.PartA]
E:86 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
E:86 [in UniMath.CategoryTheory.limits.graphs.equalizers]
e:86 [in UniMath.Algebra.RigsAndRings]
E:86 [in UniMath.Combinatorics.GraphPaths]
E:86 [in UniMath.CategoryTheory.Additive]
e:868 [in UniMath.Bicategories.Core.Bicat]
e:87 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
e:87 [in UniMath.CategoryTheory.limits.graphs.equalizers]
e:87 [in UniMath.CategoryTheory.Profunctors.Core]
e:877 [in UniMath.Bicategories.Core.Bicat]
E:88 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
e:88 [in UniMath.Foundations.PartB]
E:88 [in UniMath.CategoryTheory.limits.equalizers]
e:88 [in UniMath.Induction.M.Chains]
e:88 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
e:88 [in UniMath.CategoryTheory.Profunctors.Core]
E:88 [in UniMath.CategoryTheory.limits.coequalizers]
E:885 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
e:886 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
E:887 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
e:887 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:888 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
E:89 [in UniMath.CategoryTheory.HorizontalComposition]
e:9 [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
E:9 [in UniMath.Algebra.Modules.Quotient]
e:9 [in UniMath.CategoryTheory.limits.cats.limits]
e:9 [in UniMath.MoreFoundations.Interval]
e:9 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:9 [in UniMath.CategoryTheory.limits.graphs.limits]
e:90 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:91 [in UniMath.Algebra.Domains_and_Fields]
e:91 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:918 [in UniMath.Bicategories.Core.Bicat]
e:92 [in UniMath.Foundations.PartB]
E:93 [in UniMath.CategoryTheory.limits.equalizers]
E:93 [in UniMath.CategoryTheory.limits.coequalizers]
e:93 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
e:95 [in UniMath.Induction.M.Chains]
e:958 [in UniMath.Foundations.PartA]
e:96 [in UniMath.CategoryTheory.limits.graphs.pushouts]
e:96 [in UniMath.Algebra.GroupAction]
e:96 [in UniMath.Combinatorics.WellFoundedRelations]
e:964 [in UniMath.Foundations.PartA]
e:97 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
e:97 [in UniMath.Combinatorics.WellFoundedRelations]
e:970 [in UniMath.Foundations.PartA]
e:972 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:976 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:976 [in UniMath.Foundations.PartA]
E:98 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
e:98 [in UniMath.CategoryTheory.limits.pushouts]
E:98 [in UniMath.CategoryTheory.limits.graphs.equalizers]
E:98 [in UniMath.CategoryTheory.limits.equalizers]
e:98 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
E:98 [in UniMath.CategoryTheory.limits.coequalizers]
e:980 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:985 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
e:99 [in UniMath.MoreFoundations.PartA]
e:99 [in UniMath.CategoryTheory.limits.pullbacks]
e₀:6 [in UniMath.CategoryTheory.categories.Graph]
e₁:10 [in UniMath.CategoryTheory.categories.Graph]
e₁:174 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
e₁:19 [in UniMath.Bicategories.Modifications.Examples.ApModification]
e₁:5 [in UniMath.Bicategories.Modifications.Examples.ApModification]
e₁:886 [in UniMath.MoreFoundations.PartA]
e₂:175 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
e₂:20 [in UniMath.Bicategories.Modifications.Examples.ApModification]
e₂:6 [in UniMath.Bicategories.Modifications.Examples.ApModification]
e₂:889 [in UniMath.MoreFoundations.PartA]

F

faithF:403 [in UniMath.CategoryTheory.Core.Functors]
faithG:405 [in UniMath.CategoryTheory.Core.Functors]
fapp:11 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fapp:13 [in UniMath.SubstitutionSystems.LamFromBindingSig]
fapp:14 [in UniMath.SubstitutionSystems.CCS_alt]
fapp:15 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fapp:15 [in UniMath.SubstitutionSystems.STLC_alt]
fapp:17 [in UniMath.SubstitutionSystems.STLC]
fapp:19 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fapp:19 [in UniMath.SubstitutionSystems.LamFromBindingSig]
fapp:21 [in UniMath.SubstitutionSystems.CCS]
fapp:22 [in UniMath.SubstitutionSystems.CCS_alt]
fapp:23 [in UniMath.SubstitutionSystems.STLC_alt]
fapp:25 [in UniMath.SubstitutionSystems.STLC]
fapp:25 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fapp:27 [in UniMath.SubstitutionSystems.LamFromBindingSig]
fapp:29 [in UniMath.SubstitutionSystems.CCS]
fapp:31 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fapp:31 [in UniMath.SubstitutionSystems.STLC_alt]
fapp:33 [in UniMath.SubstitutionSystems.STLC]
fapp:39 [in UniMath.SubstitutionSystems.STLC_alt]
fapp:49 [in UniMath.SubstitutionSystems.STLC_alt]
fapp:5 [in UniMath.SubstitutionSystems.LamFromBindingSig]
fapp:7 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fapp:9 [in UniMath.SubstitutionSystems.LamFromBindingSig]
fap:11 [in UniMath.CategoryTheory.limits.products]
FA':114 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Fa':15 [in UniMath.CategoryTheory.Chains.Adamek]
FA':45 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
FA':57 [in UniMath.Induction.W.Naturals]
FA':70 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
FA:113 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
FA:40 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
FA:44 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
FA:56 [in UniMath.Induction.W.Naturals]
FA:69 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Fcells:26 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Fcomp:17 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
Fcomp:17 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
Fcomp:21 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Fcomp:21 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Fcomp:27 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
Fcomp:27 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
FC':20 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC':23 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC':26 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC':29 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC:10 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC:19 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC:22 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC:25 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
FC:28 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
fd':195 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fd':203 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fD:105 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fD:106 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fd:127 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fd:134 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fd:141 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fd:194 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fd:202 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fD:47 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
fD:48 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
FES:22 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
FES:28 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
FES:43 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
FFdata:101 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FFdata:69 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
fff:114 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fff:122 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fff:129 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fff:138 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fff:147 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fff:157 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
FFF:21 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
FFF:27 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
fff:317 [in UniMath.CategoryTheory.limits.graphs.limits]
FFF:42 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
ffF:458 [in UniMath.CategoryTheory.Core.Functors]
fff:464 [in UniMath.CategoryTheory.Core.Functors]
ffG:460 [in UniMath.CategoryTheory.Core.Functors]
ffi:131 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ffi:140 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ffi:149 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ffi:672 [in UniMath.CategoryTheory.DisplayedCats.Core]
ffi:677 [in UniMath.CategoryTheory.DisplayedCats.Core]
ffi:684 [in UniMath.CategoryTheory.DisplayedCats.Core]
fforall:15 [in UniMath.SubstitutionSystems.CCS_alt]
fforall:22 [in UniMath.SubstitutionSystems.CCS]
fforall:23 [in UniMath.SubstitutionSystems.CCS_alt]
fforall:30 [in UniMath.SubstitutionSystems.CCS]
FF_ff:1035 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF_ff:258 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FF_split:257 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FF_ff:256 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF_split:255 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff_cart:29 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff'':225 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF':179 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff':18 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FF':188 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
FF':195 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff':20 [in UniMath.Bicategories.DisplayedBicats.Fibration]
ff':224 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff':255 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff':269 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff':30 [in UniMath.Bicategories.DisplayedBicats.Fibration]
ff':31 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff':33 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FF':334 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff':380 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff':477 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff':531 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff':66 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff':9 [in UniMath.Bicategories.DisplayedBicats.Fibration]
FF':943 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff':952 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF':953 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff':960 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF':963 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff':967 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff':971 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff':975 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff':979 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff':984 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff1:1138 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff1:1152 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff1:1257 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff1:1275 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff1:196 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff1:248 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff1:258 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff1:260 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff1:270 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff1:273 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff1:299 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff2:1139 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff2:1153 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff2:1258 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff2:1276 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff2:197 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff2:249 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff2:259 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff2:261 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff2:271 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff2:274 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff2:300 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff3:1140 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff3:1154 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:10 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
ff:10 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:1001 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:1003 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:101 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:101 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:101 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
FF:1010 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1016 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:102 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:102 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:102 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1020 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:1022 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1028 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:103 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:1034 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1041 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:105 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
ff:105 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:105 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:105 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:105 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ff:1053 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1057 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:1064 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1071 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:1078 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1085 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:1089 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:1098 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:11 [in UniMath.Bicategories.DisplayedBicats.Fibration]
ff:110 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:1104 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1108 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:111 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:1110 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:112 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:112 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:113 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:114 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:1142 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:115 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
FF:115 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:117 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1170 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:118 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:118 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:118 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:119 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:1190 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:1194 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:12 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:12 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff:12 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:120 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:1206 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:121 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:1219 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:122 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
FF:123 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:123 [in UniMath.Foundations.Propositions]
ff:123 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:123 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:1238 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:124 [in UniMath.Foundations.Propositions]
ff:126 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:126 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:1274 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:128 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:128 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:129 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:129 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:129 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:1294 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:13 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ff:131 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
ff:1313 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:133 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:133 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:1334 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:135 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:1355 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:137 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:1372 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:138 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:1384 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:139 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:139 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:139 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:14 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:14 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
ff:140 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:1400 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:141 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:142 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:1426 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:144 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:145 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:146 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:1460 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:147 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:147 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:147 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:147 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:1471 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:148 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:1483 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:149 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:1497 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:151 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:1514 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:1519 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:152 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:1527 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:1529 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:153 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:1535 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:154 [in UniMath.Algebra.FixedPointTheorems]
ff:154 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:154 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:1545 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:155 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:155 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:155 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FF:155 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:156 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:157 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:158 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:159 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:160 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:160 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:160 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:161 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:162 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:162 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:163 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:163 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:163 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:163 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:163 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:164 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
FF:165 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
FF:165 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:166 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:167 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:169 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:17 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:17 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:17 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
ff:17 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:170 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:170 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:171 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:171 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
FF:171 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:172 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
FF:174 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:175 [in UniMath.Algebra.FixedPointTheorems]
ff:175 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:178 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF:178 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
FF:179 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:18 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:180 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:180 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:181 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:182 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:182 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:183 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:184 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:184 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:184 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:185 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:185 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
ff:185 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:189 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF:189 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:19 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
FF:19 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
FF:190 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:190 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:192 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:193 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:194 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:194 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
FF:196 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
FF:196 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:197 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:20 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
ff:20 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:201 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:201 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:202 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:202 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:203 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:206 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:21 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:21 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff:21 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:210 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:210 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:212 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:212 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:212 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:214 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:218 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:22 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
FF:221 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:222 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff:222 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
ff:222 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:223 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:225 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:225 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:226 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:228 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:228 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:228 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:229 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:23 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
ff:23 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:230 [in UniMath.Topology.Filters]
FF:230 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:234 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:235 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:235 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:235 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FF:235 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:236 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:236 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:237 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:237 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:238 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:238 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:238 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:24 [in UniMath.Bicategories.DisplayedBicats.DispModification]
FF:24 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:240 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:242 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:242 [in UniMath.Foundations.PartD]
FF:242 [in UniMath.CategoryTheory.Core.Functors]
ff:243 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:243 [in UniMath.Foundations.UnivalenceAxiom]
ff:243 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:244 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:244 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:244 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:244 [in UniMath.Topology.Filters]
ff:245 [in UniMath.Foundations.PartD]
ff:245 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:246 [in UniMath.Foundations.UnivalenceAxiom]
FF:246 [in UniMath.Topology.Filters]
FF:247 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
FF:248 [in UniMath.CategoryTheory.Core.Functors]
ff:249 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:249 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:25 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
ff:25 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:25 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
FF:250 [in UniMath.Topology.Filters]
FF:252 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:254 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF:254 [in UniMath.CategoryTheory.Core.Functors]
ff:254 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:254 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:254 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:254 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
FF:254 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:255 [in UniMath.Topology.Filters]
ff:256 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:256 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
FF:256 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:258 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:26 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:26 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
ff:26 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
ff:26 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ff:260 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:260 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:261 [in UniMath.CategoryTheory.Core.Functors]
ff:263 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:264 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
FF:266 [in UniMath.CategoryTheory.Core.Functors]
ff:266 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:268 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:27 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
ff:27 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:270 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:270 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:271 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:273 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:274 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:275 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:275 [in UniMath.CategoryTheory.Core.Functors]
ff:276 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:276 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:279 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:28 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:28 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:280 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:282 [in UniMath.CategoryTheory.Core.Functors]
FF:282 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:283 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:284 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:284 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:285 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:287 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:288 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:289 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:289 [in UniMath.CategoryTheory.Core.Functors]
ff:289 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:290 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:290 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:293 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:294 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FF:294 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:295 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:299 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:30 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:30 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:30 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
ff:300 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:301 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:301 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:304 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:305 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:305 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:306 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:307 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:309 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:309 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:31 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
ff:31 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:31 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:31 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
FF:310 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:311 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:311 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:312 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:314 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:315 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:315 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:317 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:319 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:32 [in UniMath.Bicategories.DisplayedBicats.Fibration]
ff:32 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FF:32 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ff:320 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
ff:321 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:322 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:322 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:323 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:326 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:329 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:329 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:33 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:33 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ff:330 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:332 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF:333 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:337 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:337 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:338 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:339 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:34 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:341 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:342 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
ff:343 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:344 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:346 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:347 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:348 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:35 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:35 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
ff:35 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:351 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:353 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:355 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:355 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:356 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:36 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ff:361 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:364 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:364 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:365 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:366 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:366 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:37 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
FF:37 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ff:375 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:378 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:379 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:379 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:38 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:38 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:38 [in UniMath.CategoryTheory.Monoidal.Actions]
ff:39 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
FF:39 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ff:390 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:391 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:393 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:396 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:398 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:399 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:40 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:40 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
ff:401 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:408 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF:409 [in UniMath.CategoryTheory.Core.Functors]
ff:41 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
FF:41 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
FF:41 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ff:411 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:412 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:418 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:419 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:42 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
FF:422 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ff:423 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:426 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:438 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:440 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:446 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:45 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
ff:45 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:45 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
ff:45 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:45 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ff:45 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ff:459 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:46 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ff:469 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:47 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:473 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:476 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:478 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:48 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
ff:48 [in UniMath.CategoryTheory.DisplayedCats.Projection]
ff:48 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
FF:48 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FF:48 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
FF:49 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:491 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:496 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:496 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:505 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:508 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:51 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:51 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
ff:51 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:512 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:515 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:517 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:52 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:52 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
ff:522 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:528 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:529 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:53 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
ff:530 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:54 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:54 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:54 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ff:542 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:545 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:55 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:55 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
FF:55 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff:557 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:56 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF:56 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:569 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:57 [in UniMath.Bicategories.DisplayedBicats.DispModification]
ff:586 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:59 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
FF:6 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:6 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
FF:6 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FF:6 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:6 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:60 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
FF:60 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ff:601 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:61 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:61 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ff:61 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
FF:61 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ff:61 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
ff:61 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:612 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:62 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
ff:627 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:63 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:63 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:64 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:646 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:65 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:658 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:66 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:66 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ff:664 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:666 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:67 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
FF:67 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
ff:675 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:682 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:689 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:690 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:695 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:7 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
ff:7 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
ff:70 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
FF:70 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ff:701 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:707 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:709 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:71 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:71 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
ff:723 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:734 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:74 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff:74 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:75 [in UniMath.CategoryTheory.Inductives.Lists]
ff:751 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:77 [in UniMath.CategoryTheory.Inductives.Lists]
ff:77 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:770 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:78 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:78 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:78 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
FF:780 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:787 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:789 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:79 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF:792 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:797 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:8 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
ff:8 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF:8 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
ff:80 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:807 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:819 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:826 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:829 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:833 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:837 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:84 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff:84 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:840 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:843 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:849 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:853 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:86 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff:86 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:860 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:867 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:868 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:873 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:879 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:880 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:885 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:89 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff:89 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
FF:893 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:897 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:9 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:90 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff:902 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:909 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:91 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
ff:91 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:918 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:925 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:93 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
ff:933 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:933 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:94 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ff:94 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:942 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:951 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:952 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:959 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:96 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
FF:962 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:966 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:970 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:971 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:974 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:977 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:978 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ff:98 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
ff:983 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF:984 [in UniMath.CategoryTheory.DisplayedCats.Core]
ff:99 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF:99 [in UniMath.CategoryTheory.Monics]
ff:990 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF:997 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF₁:1292 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF₁:141 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff₁:176 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FF₁:200 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff₁:209 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF₁:214 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
FF₁:226 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
FF₁:25 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
FF₁:272 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₁:294 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff₁:380 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF₁:42 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
FF₁:42 [in UniMath.Bicategories.DisplayedBicats.DispModification]
FF₁:441 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff₁:462 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff₁:482 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF₁:59 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
ff₁:65 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
FF₁:7 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₁:71 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
FF₁:8 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
FF₁:9 [in UniMath.Bicategories.DisplayedBicats.DispModification]
ff₁:915 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF₁:98 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₂:10 [in UniMath.Bicategories.DisplayedBicats.DispModification]
FF₂:1293 [in UniMath.CategoryTheory.DisplayedCats.Core]
FF₂:142 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ff₂:177 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FF₂:201 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
ff₂:210 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
FF₂:215 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
FF₂:227 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
FF₂:26 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
FF₂:273 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₂:295 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ff₂:381 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
FF₂:43 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
FF₂:43 [in UniMath.Bicategories.DisplayedBicats.DispModification]
FF₂:442 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ff₂:463 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ff₂:483 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
FF₂:60 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
ff₂:66 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
FF₂:72 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
FF₂:8 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₂:9 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
ff₂:916 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
FF₂:99 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₃:100 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₃:274 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
FF₃:443 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fg_h:226 [in UniMath.Folds.folds_pre_2_cat]
fg_h:92 [in UniMath.Folds.folds_pre_2_cat]
fg_h:56 [in UniMath.Folds.folds_precat]
fg':266 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
fg':269 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
fg:10 [in UniMath.CategoryTheory.limits.bincoproducts]
fg:10 [in UniMath.CategoryTheory.limits.binproducts]
fg:11 [in UniMath.Folds.from_precats_to_folds_and_back]
FG:12 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
fg:138 [in UniMath.CategoryTheory.limits.bincoproducts]
fg:139 [in UniMath.CategoryTheory.limits.bincoproducts]
fg:198 [in UniMath.CategoryTheory.limits.binproducts]
fg:200 [in UniMath.CategoryTheory.limits.binproducts]
fg:224 [in UniMath.Folds.folds_pre_2_cat]
fg:263 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
fg:264 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
fg:265 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
fg:268 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
fg:27 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fg:279 [in UniMath.CategoryTheory.limits.bincoproducts]
fg:281 [in UniMath.CategoryTheory.limits.bincoproducts]
FG:35 [in UniMath.CategoryTheory.HorizontalComposition]
FG:36 [in UniMath.CategoryTheory.HorizontalComposition]
fg:363 [in UniMath.Foundations.PartD]
fg:37 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fg:39 [in UniMath.Induction.M.ComputationalM]
fg:4 [in UniMath.CategoryTheory.ArrowCategory]
fg:45 [in UniMath.Induction.M.ComputationalM]
fg:456 [in UniMath.CategoryTheory.limits.pullbacks]
FG:46 [in UniMath.CategoryTheory.HorizontalComposition]
fg:46 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
FG:47 [in UniMath.CategoryTheory.HorizontalComposition]
fg:5 [in UniMath.CategoryTheory.ArrowCategory]
fg:54 [in UniMath.Folds.folds_precat]
fg:55 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fg:66 [in UniMath.Foundations.PartD]
fg:90 [in UniMath.Folds.folds_pre_2_cat]
fh:108 [in UniMath.SyntheticHomotopyTheory.AffineLine]
fh:113 [in UniMath.MoreFoundations.Univalence]
fh:114 [in UniMath.MoreFoundations.Univalence]
fh:121 [in UniMath.SyntheticHomotopyTheory.AffineLine]
fH:13 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
fh:146 [in UniMath.SyntheticHomotopyTheory.AffineLine]
fh:173 [in UniMath.SyntheticHomotopyTheory.AffineLine]
fh:174 [in UniMath.SyntheticHomotopyTheory.AffineLine]
fh:39 [in UniMath.MoreFoundations.Nat]
fibX:35 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
fibX:40 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
fibY:36 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
fibY:41 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
Fid:15 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Fid:15 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
Fid:15 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Fid:15 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
Fid:9 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
Fid:9 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
fin:14 [in UniMath.NumberSystems.NaturalNumbersAlgebra]
fin:140 [in UniMath.Algebra.IteratedBinaryOperations]
fin:5 [in UniMath.NumberSystems.Tests]
fiso:32 [in UniMath.CategoryTheory.Core.Isos]
Fixedpoint:9 [in UniMath.Algebra.FixedPointTheorems]
FI_is_univalent_2_1:32 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
fi:660 [in UniMath.CategoryTheory.DisplayedCats.Core]
fk:220 [in UniMath.CategoryTheory.limits.bincoproducts]
flam:10 [in UniMath.SubstitutionSystems.LamFromBindingSig]
flam:12 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
flam:13 [in UniMath.SubstitutionSystems.CCS_alt]
flam:14 [in UniMath.SubstitutionSystems.LamFromBindingSig]
flam:16 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
flam:18 [in UniMath.SubstitutionSystems.STLC_alt]
flam:20 [in UniMath.SubstitutionSystems.STLC]
flam:20 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
flam:20 [in UniMath.SubstitutionSystems.CCS]
flam:20 [in UniMath.SubstitutionSystems.LamFromBindingSig]
flam:21 [in UniMath.SubstitutionSystems.CCS_alt]
flam:26 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
flam:26 [in UniMath.SubstitutionSystems.STLC_alt]
flam:28 [in UniMath.SubstitutionSystems.STLC]
flam:28 [in UniMath.SubstitutionSystems.CCS]
flam:28 [in UniMath.SubstitutionSystems.LamFromBindingSig]
flam:32 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
flam:34 [in UniMath.SubstitutionSystems.STLC_alt]
flam:36 [in UniMath.SubstitutionSystems.STLC]
flam:42 [in UniMath.SubstitutionSystems.STLC_alt]
flam:52 [in UniMath.SubstitutionSystems.STLC_alt]
flam:6 [in UniMath.SubstitutionSystems.LamFromBindingSig]
flam:8 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fL:112 [in UniMath.CategoryTheory.LatticeObject]
fM:111 [in UniMath.CategoryTheory.LatticeObject]
Fm:21 [in UniMath.CategoryTheory.Core.Functors]
fm:2379 [in UniMath.Foundations.PartA]
fNat:141 [in UniMath.CategoryTheory.limits.cats.limits]
fNat:146 [in UniMath.CategoryTheory.limits.graphs.limits]
fNat:153 [in UniMath.CategoryTheory.limits.cats.limits]
fNat:158 [in UniMath.CategoryTheory.limits.graphs.limits]
fNat:166 [in UniMath.CategoryTheory.limits.cats.limits]
fNat:171 [in UniMath.CategoryTheory.limits.graphs.limits]
fNat:183 [in UniMath.CategoryTheory.limits.cats.limits]
fNat:186 [in UniMath.CategoryTheory.limits.graphs.colimits]
fNat:188 [in UniMath.CategoryTheory.limits.graphs.limits]
fNat:198 [in UniMath.CategoryTheory.limits.graphs.colimits]
fNat:211 [in UniMath.CategoryTheory.limits.graphs.colimits]
fNat:228 [in UniMath.CategoryTheory.limits.graphs.colimits]
fNat:442 [in UniMath.CategoryTheory.limits.graphs.limits]
fNat:453 [in UniMath.CategoryTheory.limits.graphs.limits]
fNat:465 [in UniMath.CategoryTheory.limits.graphs.limits]
fNat:481 [in UniMath.CategoryTheory.limits.graphs.limits]
Fob:738 [in UniMath.CategoryTheory.DisplayedCats.Core]
Fob:818 [in UniMath.CategoryTheory.DisplayedCats.Core]
Fo:10 [in UniMath.CategoryTheory.CategoryEquality]
Fo:18 [in UniMath.CategoryTheory.CategoryEquality]
Fo:23 [in UniMath.CategoryTheory.CategoryEquality]
Fo:33 [in UniMath.CategoryTheory.CategoryEquality]
Fo:41 [in UniMath.CategoryTheory.CategoryEquality]
Fo:6 [in UniMath.CategoryTheory.CategoryEquality]
fPi:10 [in UniMath.SubstitutionSystems.CCS_alt]
fPi:17 [in UniMath.SubstitutionSystems.CCS]
fPi:18 [in UniMath.SubstitutionSystems.CCS_alt]
fPi:25 [in UniMath.SubstitutionSystems.CCS]
fProof:12 [in UniMath.SubstitutionSystems.CCS_alt]
fProof:19 [in UniMath.SubstitutionSystems.CCS]
fProof:20 [in UniMath.SubstitutionSystems.CCS_alt]
fProof:27 [in UniMath.SubstitutionSystems.CCS]
fProp:11 [in UniMath.SubstitutionSystems.CCS_alt]
fProp:18 [in UniMath.SubstitutionSystems.CCS]
fProp:19 [in UniMath.SubstitutionSystems.CCS_alt]
fProp:26 [in UniMath.SubstitutionSystems.CCS]
FRDE:145 [in UniMath.CategoryTheory.FiveLemma]
FRDE:149 [in UniMath.CategoryTheory.FiveLemma]
FRDE:153 [in UniMath.CategoryTheory.FiveLemma]
FRDE:157 [in UniMath.CategoryTheory.FiveLemma]
FRDE:161 [in UniMath.CategoryTheory.FiveLemma]
FRDE:35 [in UniMath.CategoryTheory.FiveLemma]
FRDE:38 [in UniMath.CategoryTheory.FiveLemma]
FRDE:41 [in UniMath.CategoryTheory.FiveLemma]
FRDE:44 [in UniMath.CategoryTheory.FiveLemma]
FRDE:47 [in UniMath.CategoryTheory.FiveLemma]
FRDE:53 [in UniMath.CategoryTheory.FiveLemma]
FRDE:57 [in UniMath.CategoryTheory.FiveLemma]
FRDE:61 [in UniMath.CategoryTheory.FiveLemma]
FRDE:65 [in UniMath.CategoryTheory.FiveLemma]
FRDE:68 [in UniMath.CategoryTheory.FiveLemma]
FRD:141 [in UniMath.CategoryTheory.FiveLemma]
FRD:144 [in UniMath.CategoryTheory.FiveLemma]
FRD:148 [in UniMath.CategoryTheory.FiveLemma]
FRD:152 [in UniMath.CategoryTheory.FiveLemma]
FRD:156 [in UniMath.CategoryTheory.FiveLemma]
FRD:160 [in UniMath.CategoryTheory.FiveLemma]
FRD:19 [in UniMath.CategoryTheory.FiveLemma]
FRD:21 [in UniMath.CategoryTheory.FiveLemma]
FRD:23 [in UniMath.CategoryTheory.FiveLemma]
FRD:25 [in UniMath.CategoryTheory.FiveLemma]
FRD:27 [in UniMath.CategoryTheory.FiveLemma]
FRD:29 [in UniMath.CategoryTheory.FiveLemma]
FRD:34 [in UniMath.CategoryTheory.FiveLemma]
FRD:37 [in UniMath.CategoryTheory.FiveLemma]
FRD:40 [in UniMath.CategoryTheory.FiveLemma]
FRD:43 [in UniMath.CategoryTheory.FiveLemma]
FRD:46 [in UniMath.CategoryTheory.FiveLemma]
FRD:52 [in UniMath.CategoryTheory.FiveLemma]
FRD:56 [in UniMath.CategoryTheory.FiveLemma]
FRD:60 [in UniMath.CategoryTheory.FiveLemma]
FRD:64 [in UniMath.CategoryTheory.FiveLemma]
FRD:67 [in UniMath.CategoryTheory.FiveLemma]
FRE:162 [in UniMath.CategoryTheory.FiveLemma]
FRE:54 [in UniMath.CategoryTheory.FiveLemma]
FRE:58 [in UniMath.CategoryTheory.FiveLemma]
FRE:62 [in UniMath.CategoryTheory.FiveLemma]
FRE:69 [in UniMath.CategoryTheory.FiveLemma]
FRMC:111 [in UniMath.CategoryTheory.FiveLemma]
FRMC:115 [in UniMath.CategoryTheory.FiveLemma]
FRMC:119 [in UniMath.CategoryTheory.FiveLemma]
FRMC:123 [in UniMath.CategoryTheory.FiveLemma]
FRMC:130 [in UniMath.CategoryTheory.FiveLemma]
FRMC:173 [in UniMath.CategoryTheory.FiveLemma]
FRMs:100 [in UniMath.CategoryTheory.FiveLemma]
FRMs:103 [in UniMath.CategoryTheory.FiveLemma]
FRMs:110 [in UniMath.CategoryTheory.FiveLemma]
FRMs:114 [in UniMath.CategoryTheory.FiveLemma]
FRMs:118 [in UniMath.CategoryTheory.FiveLemma]
FRMs:122 [in UniMath.CategoryTheory.FiveLemma]
FRMs:126 [in UniMath.CategoryTheory.FiveLemma]
FRMs:129 [in UniMath.CategoryTheory.FiveLemma]
FRMs:85 [in UniMath.CategoryTheory.FiveLemma]
FRMs:88 [in UniMath.CategoryTheory.FiveLemma]
FRMs:91 [in UniMath.CategoryTheory.FiveLemma]
FRMs:94 [in UniMath.CategoryTheory.FiveLemma]
FRMs:97 [in UniMath.CategoryTheory.FiveLemma]
FRM:133 [in UniMath.CategoryTheory.FiveLemma]
FRM:136 [in UniMath.CategoryTheory.FiveLemma]
FRM:168 [in UniMath.CategoryTheory.FiveLemma]
FRM:172 [in UniMath.CategoryTheory.FiveLemma]
FRM:177 [in UniMath.CategoryTheory.FiveLemma]
FRM:181 [in UniMath.CategoryTheory.FiveLemma]
FRM:189 [in UniMath.CategoryTheory.FiveLemma]
FRM:196 [in UniMath.CategoryTheory.FiveLemma]
FRO:10 [in UniMath.CategoryTheory.FiveLemma]
FRO:11 [in UniMath.CategoryTheory.FiveLemma]
FRO:12 [in UniMath.CategoryTheory.FiveLemma]
FRO:13 [in UniMath.CategoryTheory.FiveLemma]
FRO:138 [in UniMath.CategoryTheory.FiveLemma]
FRO:140 [in UniMath.CategoryTheory.FiveLemma]
FRO:143 [in UniMath.CategoryTheory.FiveLemma]
FRO:147 [in UniMath.CategoryTheory.FiveLemma]
FRO:151 [in UniMath.CategoryTheory.FiveLemma]
FRO:155 [in UniMath.CategoryTheory.FiveLemma]
FRO:159 [in UniMath.CategoryTheory.FiveLemma]
FRO:18 [in UniMath.CategoryTheory.FiveLemma]
FRO:20 [in UniMath.CategoryTheory.FiveLemma]
FRO:22 [in UniMath.CategoryTheory.FiveLemma]
FRO:24 [in UniMath.CategoryTheory.FiveLemma]
FRO:26 [in UniMath.CategoryTheory.FiveLemma]
FRO:28 [in UniMath.CategoryTheory.FiveLemma]
FRO:33 [in UniMath.CategoryTheory.FiveLemma]
FRO:36 [in UniMath.CategoryTheory.FiveLemma]
FRO:39 [in UniMath.CategoryTheory.FiveLemma]
FRO:42 [in UniMath.CategoryTheory.FiveLemma]
FRO:45 [in UniMath.CategoryTheory.FiveLemma]
FRO:51 [in UniMath.CategoryTheory.FiveLemma]
FRO:55 [in UniMath.CategoryTheory.FiveLemma]
FRO:59 [in UniMath.CategoryTheory.FiveLemma]
FRO:63 [in UniMath.CategoryTheory.FiveLemma]
FRO:66 [in UniMath.CategoryTheory.FiveLemma]
FRO:7 [in UniMath.CategoryTheory.FiveLemma]
FRO:8 [in UniMath.CategoryTheory.FiveLemma]
FRO:9 [in UniMath.CategoryTheory.FiveLemma]
FR1:101 [in UniMath.CategoryTheory.FiveLemma]
FR1:108 [in UniMath.CategoryTheory.FiveLemma]
FR1:112 [in UniMath.CategoryTheory.FiveLemma]
FR1:116 [in UniMath.CategoryTheory.FiveLemma]
FR1:120 [in UniMath.CategoryTheory.FiveLemma]
FR1:124 [in UniMath.CategoryTheory.FiveLemma]
FR1:127 [in UniMath.CategoryTheory.FiveLemma]
FR1:131 [in UniMath.CategoryTheory.FiveLemma]
FR1:134 [in UniMath.CategoryTheory.FiveLemma]
FR1:166 [in UniMath.CategoryTheory.FiveLemma]
FR1:170 [in UniMath.CategoryTheory.FiveLemma]
FR1:175 [in UniMath.CategoryTheory.FiveLemma]
FR1:179 [in UniMath.CategoryTheory.FiveLemma]
FR1:187 [in UniMath.CategoryTheory.FiveLemma]
FR1:194 [in UniMath.CategoryTheory.FiveLemma]
FR1:74 [in UniMath.CategoryTheory.FiveLemma]
FR1:76 [in UniMath.CategoryTheory.FiveLemma]
FR1:83 [in UniMath.CategoryTheory.FiveLemma]
FR1:86 [in UniMath.CategoryTheory.FiveLemma]
FR1:89 [in UniMath.CategoryTheory.FiveLemma]
FR1:92 [in UniMath.CategoryTheory.FiveLemma]
FR1:95 [in UniMath.CategoryTheory.FiveLemma]
FR1:98 [in UniMath.CategoryTheory.FiveLemma]
FR2:102 [in UniMath.CategoryTheory.FiveLemma]
FR2:109 [in UniMath.CategoryTheory.FiveLemma]
FR2:113 [in UniMath.CategoryTheory.FiveLemma]
FR2:117 [in UniMath.CategoryTheory.FiveLemma]
FR2:121 [in UniMath.CategoryTheory.FiveLemma]
FR2:125 [in UniMath.CategoryTheory.FiveLemma]
FR2:128 [in UniMath.CategoryTheory.FiveLemma]
FR2:132 [in UniMath.CategoryTheory.FiveLemma]
FR2:135 [in UniMath.CategoryTheory.FiveLemma]
FR2:167 [in UniMath.CategoryTheory.FiveLemma]
FR2:171 [in UniMath.CategoryTheory.FiveLemma]
FR2:176 [in UniMath.CategoryTheory.FiveLemma]
FR2:180 [in UniMath.CategoryTheory.FiveLemma]
FR2:188 [in UniMath.CategoryTheory.FiveLemma]
FR2:195 [in UniMath.CategoryTheory.FiveLemma]
FR2:75 [in UniMath.CategoryTheory.FiveLemma]
FR2:77 [in UniMath.CategoryTheory.FiveLemma]
FR2:84 [in UniMath.CategoryTheory.FiveLemma]
FR2:87 [in UniMath.CategoryTheory.FiveLemma]
FR2:90 [in UniMath.CategoryTheory.FiveLemma]
FR2:93 [in UniMath.CategoryTheory.FiveLemma]
FR2:96 [in UniMath.CategoryTheory.FiveLemma]
FR2:99 [in UniMath.CategoryTheory.FiveLemma]
FR:164 [in UniMath.CategoryTheory.FiveLemma]
FR:70 [in UniMath.CategoryTheory.FiveLemma]
FR:71 [in UniMath.CategoryTheory.FiveLemma]
FR:72 [in UniMath.CategoryTheory.FiveLemma]
FR:73 [in UniMath.CategoryTheory.FiveLemma]
fs:156 [in UniMath.Combinatorics.FiniteSets]
fs:175 [in UniMath.Combinatorics.FiniteSets]
fs:1893 [in UniMath.Foundations.PartA]
fs:1900 [in UniMath.Foundations.PartA]
fs:1909 [in UniMath.Foundations.PartA]
fs:1928 [in UniMath.Foundations.PartA]
fs:1942 [in UniMath.Foundations.PartA]
fs:1950 [in UniMath.Foundations.PartA]
fs:1958 [in UniMath.Foundations.PartA]
fs:1968 [in UniMath.Foundations.PartA]
fs:1977 [in UniMath.Foundations.PartA]
fs:228 [in UniMath.Combinatorics.FiniteSets]
fs:261 [in UniMath.Combinatorics.FiniteSets]
fs:270 [in UniMath.Foundations.PartB]
fs:39 [in UniMath.Combinatorics.FiniteSets]
fs:414 [in UniMath.Foundations.PartC]
fs:421 [in UniMath.Foundations.PartC]
fs:57 [in UniMath.Foundations.PartB]
fs:59 [in UniMath.Combinatorics.FiniteSets]
fs:66 [in UniMath.Foundations.PartB]
fullF:429 [in UniMath.CategoryTheory.Core.Functors]
fullG:431 [in UniMath.CategoryTheory.Core.Functors]
fvar:10 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fvar:12 [in UniMath.SubstitutionSystems.STLC_alt]
fvar:12 [in UniMath.SubstitutionSystems.LamFromBindingSig]
fvar:14 [in UniMath.SubstitutionSystems.STLC]
fvar:14 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fvar:16 [in UniMath.SubstitutionSystems.CCS]
fvar:17 [in UniMath.SubstitutionSystems.CCS_alt]
fvar:18 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fvar:18 [in UniMath.SubstitutionSystems.LamFromBindingSig]
fvar:20 [in UniMath.SubstitutionSystems.STLC_alt]
fvar:22 [in UniMath.SubstitutionSystems.STLC]
fvar:24 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fvar:24 [in UniMath.SubstitutionSystems.CCS]
fvar:26 [in UniMath.SubstitutionSystems.LamFromBindingSig]
fvar:28 [in UniMath.SubstitutionSystems.STLC_alt]
fvar:30 [in UniMath.SubstitutionSystems.STLC]
fvar:30 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fvar:36 [in UniMath.SubstitutionSystems.STLC_alt]
fvar:4 [in UniMath.SubstitutionSystems.LamFromBindingSig]
fvar:46 [in UniMath.SubstitutionSystems.STLC_alt]
fvar:6 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
fvar:8 [in UniMath.SubstitutionSystems.LamFromBindingSig]
fvar:9 [in UniMath.SubstitutionSystems.CCS_alt]
fw:2389 [in UniMath.Foundations.PartA]
fw:2400 [in UniMath.Foundations.PartA]
fx0:230 [in UniMath.Combinatorics.FiniteSets]
fx0:233 [in UniMath.Combinatorics.FiniteSets]
fx0:264 [in UniMath.Combinatorics.FiniteSets]
fx0:267 [in UniMath.Combinatorics.FiniteSets]
fX:11 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fx:14 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fX:15 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fx:1603 [in UniMath.Foundations.PartA]
Fx:162 [in UniMath.Topology.Filters]
fX:17 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
Fx:183 [in UniMath.Topology.Filters]
Fx:187 [in UniMath.Topology.Filters]
fX:23 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fX:33 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fx:43 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fX:43 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fx:47 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
FX:5 [in UniMath.SubstitutionSystems.Signatures]
fx:52 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fX:52 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fx:521 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
fx:522 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
fx:57 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
FX:6 [in UniMath.SubstitutionSystems.Signatures]
fX:6 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fY:12 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fy:15 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fy:1604 [in UniMath.Foundations.PartA]
Fy:167 [in UniMath.Topology.Filters]
Fy:184 [in UniMath.Topology.Filters]
Fy:188 [in UniMath.Topology.Filters]
fY:24 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fY:34 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fy:44 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fY:44 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fy:48 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fy:53 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fY:53 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fy:58 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
fY:7 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fZ:25 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
fZ:35 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F_local_equiv:33 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f_prog:463 [in UniMath.Algebra.FixedPointTheorems]
f_prog:457 [in UniMath.Algebra.FixedPointTheorems]
f_monot:443 [in UniMath.Algebra.FixedPointTheorems]
f_monot:39 [in UniMath.Algebra.FixedPointTheorems]
f_and_f_G:453 [in UniMath.CategoryTheory.Core.Functors]
f_and_f_F:451 [in UniMath.CategoryTheory.Core.Functors]
f_gh:227 [in UniMath.Folds.folds_pre_2_cat]
f_gh:93 [in UniMath.Folds.folds_pre_2_cat]
f_gh:57 [in UniMath.Folds.folds_precat]
f_is_z_iso:30 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
f_is_iso:22 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
f_is_z_iso:10 [in UniMath.CategoryTheory.Monoidal.Actions]
f_is_z_iso:103 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f_is_iso:77 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f_is_iso:67 [in UniMath.CategoryTheory.PrecategoryBinProduct]
F''':38 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f''1:348 [in UniMath.CategoryTheory.PreAdditive]
F'':1223 [in UniMath.CategoryTheory.DisplayedCats.Core]
F'':1239 [in UniMath.CategoryTheory.DisplayedCats.Core]
F'':17 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f'':217 [in UniMath.CategoryTheory.DisplayedCats.Core]
f'':253 [in UniMath.Foundations.PartA]
F'':26 [in UniMath.CategoryTheory.PointedFunctors]
f'':28 [in UniMath.HomologicalAlgebra.KATriangulated]
F'':318 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
F'':37 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f'':46 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
f'':55 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
f'':64 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
f'':73 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
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f:100 [in UniMath.Folds.folds_precat]
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f:100 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
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f:100 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
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f:101 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:101 [in UniMath.CategoryTheory.AdditiveFunctors]
f:101 [in UniMath.CategoryTheory.Monads.Monads]
f:101 [in UniMath.Bicategories.Core.Bicat]
F:101 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:101 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
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f:101 [in UniMath.CategoryTheory.limits.equalizers]
f:101 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:101 [in UniMath.Algebra.RigsAndRings]
f:101 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:101 [in UniMath.Combinatorics.WellFoundedRelations]
F:101 [in UniMath.CategoryTheory.Monads.LModules]
f:101 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:101 [in UniMath.CategoryTheory.limits.coequalizers]
f:1011 [in UniMath.Algebra.BinaryOperations]
f:1011 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1015 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1015 [in UniMath.Algebra.BinaryOperations]
f:1016 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1017 [in UniMath.Foundations.Sets]
F:1019 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1019 [in UniMath.Algebra.BinaryOperations]
f:102 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:102 [in UniMath.CategoryTheory.Inductives.Lists]
f:102 [in UniMath.Folds.folds_pre_2_cat]
f:102 [in UniMath.Foundations.Propositions]
f:102 [in UniMath.CategoryTheory.FunctorAlgebras]
F:102 [in UniMath.CategoryTheory.FunctorCategory]
f:102 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:102 [in UniMath.CategoryTheory.Adjunctions.Core]
f:102 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:102 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:102 [in UniMath.Foundations.PartC]
f:102 [in UniMath.CategoryTheory.Morphisms]
f:102 [in UniMath.CategoryTheory.limits.binproducts]
f:1020 [in UniMath.Bicategories.Core.Bicat]
f:1023 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1023 [in UniMath.Algebra.BinaryOperations]
f:1027 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1027 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1029 [in UniMath.Algebra.BinaryOperations]
F:103 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:103 [in UniMath.HomologicalAlgebra.MappingCylinder]
F:103 [in UniMath.CategoryTheory.catiso]
f:103 [in UniMath.Combinatorics.OrderedSets]
f:103 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:103 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:103 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:103 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:103 [in UniMath.CategoryTheory.PseudoElements]
f:103 [in UniMath.CategoryTheory.limits.kernels]
f:103 [in UniMath.CategoryTheory.PreAdditive]
f:103 [in UniMath.CategoryTheory.limits.Opp]
F:103 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:103 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:103 [in UniMath.Topology.Filters]
f:103 [in UniMath.Combinatorics.FiniteSequences]
f:103 [in UniMath.MoreFoundations.NegativePropositions]
f:103 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:1030 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1031 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:1031 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1033 [in UniMath.Bicategories.Core.Bicat]
f:1033 [in UniMath.Algebra.BinaryOperations]
f:1035 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1038 [in UniMath.Bicategories.Core.Bicat]
f:1039 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1039 [in UniMath.Algebra.BinaryOperations]
f:104 [in UniMath.CategoryTheory.Monads.Monads]
f:104 [in UniMath.CategoryTheory.categories.abgrs]
f:104 [in UniMath.Algebra.Monoids]
f:104 [in UniMath.Induction.ImpredicativeInductiveSets]
F:104 [in UniMath.CategoryTheory.Core.Functors]
F:104 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:104 [in UniMath.CategoryTheory.DisplayedCats.Examples]
f:104 [in UniMath.Algebra.Modules.Multimodules]
f:104 [in UniMath.CategoryTheory.slicecat]
f:104 [in UniMath.Bicategories.Core.Univalence]
f:104 [in UniMath.Algebra.RigsAndRings]
F:104 [in UniMath.CategoryTheory.Core.TransportMorphisms]
f:104 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:104 [in UniMath.Topology.Filters]
f:104 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:104 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:104 [in UniMath.CategoryTheory.Additive]
f:104 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:104 [in UniMath.CategoryTheory.Core.Categories]
f:1040 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1043 [in UniMath.Bicategories.Core.Bicat]
f:1043 [in UniMath.Algebra.BinaryOperations]
f:1045 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1047 [in UniMath.Algebra.BinaryOperations]
f:1048 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1048 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:105 [in UniMath.CategoryTheory.ExactCategories.Tests]
F:105 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:105 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:105 [in UniMath.CategoryTheory.limits.pushouts]
f:105 [in UniMath.CategoryTheory.DisplayedCats.Examples]
f:105 [in UniMath.Foundations.Propositions]
f:105 [in UniMath.CategoryTheory.Core.Isos]
f:105 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:105 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:105 [in UniMath.SubstitutionSystems.SubstitutionSystems]
f:105 [in UniMath.CategoryTheory.limits.products]
F:105 [in UniMath.Bicategories.Modifications.Modification]
f:105 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:105 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:1051 [in UniMath.Algebra.BinaryOperations]
f:1055 [in UniMath.Algebra.BinaryOperations]
f:1056 [in UniMath.Bicategories.Core.Bicat]
f:1059 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:106 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:106 [in UniMath.Bicategories.Core.BicategoryLaws]
f:106 [in UniMath.CategoryTheory.Monads.RelativeModules]
f:106 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:106 [in UniMath.CategoryTheory.LocalizingClass]
f:106 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:106 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:106 [in UniMath.Bicategories.Core.Strictness]
f:106 [in UniMath.CategoryTheory.FunctorAlgebras]
F:106 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:106 [in UniMath.CategoryTheory.limits.graphs.binproducts]
F:106 [in UniMath.CategoryTheory.Adjunctions.Core]
f:106 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
F:106 [in UniMath.CategoryTheory.limits.cats.limits]
f:106 [in UniMath.CategoryTheory.Core.Univalence]
F:106 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:106 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:106 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:106 [in UniMath.CategoryTheory.limits.pullbacks]
f:106 [in UniMath.CategoryTheory.Monads.KTriples]
f:1061 [in UniMath.Bicategories.Core.Bicat]
f:1064 [in UniMath.Foundations.PartA]
f:107 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:107 [in UniMath.CategoryTheory.AdditiveFunctors]
f:107 [in UniMath.CategoryTheory.Inductives.Lists]
f:107 [in UniMath.Bicategories.Core.FullyFaithful]
f:107 [in UniMath.HomologicalAlgebra.MappingCylinder]
F:107 [in UniMath.CategoryTheory.catiso]
f:107 [in UniMath.Combinatorics.Vectors]
f:107 [in UniMath.Algebra.FixedPointTheorems]
f:107 [in UniMath.Induction.ImpredicativeInductiveSets]
f:107 [in UniMath.Bicategories.Core.Adjunctions]
f:107 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:107 [in UniMath.Folds.folds_pre_2_cat]
f:107 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:107 [in UniMath.CategoryTheory.PreAdditive]
f:107 [in UniMath.Algebra.RigsAndRings]
f:107 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:107 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:1070 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1070 [in UniMath.Foundations.Sets]
f:1070 [in UniMath.Foundations.PartA]
F:1075 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1076 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1078 [in UniMath.Foundations.Sets]
f:1079 [in UniMath.Foundations.PartA]
f:108 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:108 [in UniMath.Algebra.Monoids]
F:108 [in UniMath.CategoryTheory.Core.Functors]
f:108 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:108 [in UniMath.CategoryTheory.FunctorAlgebras]
f:108 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:108 [in UniMath.CategoryTheory.limits.Opp]
f:108 [in UniMath.CategoryTheory.Monads.Derivative]
f:108 [in UniMath.Combinatorics.FiniteSequences]
F:108 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:108 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:108 [in UniMath.CategoryTheory.Core.Categories]
F:1086 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:109 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
f:109 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
F:109 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F:109 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:109 [in UniMath.CategoryTheory.categories.abgrs]
F:109 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:109 [in UniMath.CategoryTheory.PseudoElements]
f:109 [in UniMath.Foundations.Propositions]
F:109 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:109 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:109 [in UniMath.CategoryTheory.limits.cokernels]
f:109 [in UniMath.Algebra.Modules.Multimodules]
f:109 [in UniMath.CategoryTheory.limits.equalizers]
f:109 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:109 [in UniMath.Algebra.GroupAction]
f:109 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:109 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:109 [in UniMath.Topology.Filters]
f:109 [in UniMath.CategoryTheory.Additive]
f:109 [in UniMath.Algebra.IteratedBinaryOperations]
f:109 [in UniMath.CategoryTheory.limits.coequalizers]
f:109 [in UniMath.CategoryTheory.Morphisms]
f:1091 [in UniMath.Foundations.PartA]
f:1092 [in UniMath.Foundations.Sets]
F:1095 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1097 [in UniMath.Foundations.Sets]
f:1098 [in UniMath.Foundations.PartA]
f:1099 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:11 [in UniMath.MoreFoundations.NullHomotopies]
f:11 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
f:11 [in UniMath.Algebra.Modules.Core]
F:11 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:11 [in UniMath.Combinatorics.Maybe]
f:11 [in UniMath.PAdics.z_mod_p]
f:11 [in UniMath.MoreFoundations.PartD]
F:11 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:11 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:11 [in UniMath.CategoryTheory.AbelianToAdditive]
F:11 [in UniMath.CategoryTheory.CategoryEquality]
f:11 [in UniMath.CategoryTheory.FunctorAlgebras]
f:11 [in UniMath.Bicategories.Core.Examples.OneTypes]
f:11 [in UniMath.SubstitutionSystems.Lam]
f:11 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
f:11 [in UniMath.Algebra.Tests]
F:11 [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
f:11 [in UniMath.Bicategories.WkCatEnrichment.Cat]
f:11 [in UniMath.CategoryTheory.categories.HSET.Limits]
F:11 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
F:11 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:11 [in UniMath.CategoryTheory.limits.Opp]
f:11 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:11 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:11 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:11 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:11 [in UniMath.PAdics.fps]
f:11 [in UniMath.Combinatorics.WellFoundedRelations]
f:11 [in UniMath.HomologicalAlgebra.TranslationFunctors]
F:11 [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
f:11 [in UniMath.CategoryTheory.UnderCategories]
f:11 [in UniMath.CategoryTheory.FunctorCoalgebras]
F:11 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:11 [in UniMath.SyntheticHomotopyTheory.Halfline]
f:11 [in UniMath.CategoryTheory.Epis]
f:11 [in UniMath.Bicategories.Core.Unitors]
F:11 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:11 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:11 [in UniMath.Bicategories.Transformations.Examples.ApTransformation]
f:11 [in UniMath.CategoryTheory.AbelianPushoutPullback]
f:11 [in UniMath.Induction.W.Naturals]
f:11 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:110 [in UniMath.CategoryTheory.Monads.RelativeModules]
f:110 [in UniMath.CategoryTheory.Monads.Monads]
f:110 [in UniMath.Bicategories.Core.Bicat]
f:110 [in UniMath.CategoryTheory.whiskering]
f:110 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
f:110 [in UniMath.CategoryTheory.limits.bincoproducts]
F:110 [in UniMath.CategoryTheory.FunctorCategory]
F:110 [in UniMath.CategoryTheory.opp_precat]
f:110 [in UniMath.Bicategories.Core.Invertible_2cells]
f:110 [in UniMath.CategoryTheory.slicecat]
f:110 [in UniMath.CategoryTheory.Core.TransportMorphisms]
F:110 [in UniMath.Topology.Filters]
f:110 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:110 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:110 [in UniMath.CategoryTheory.Core.TwoCategories]
f:110 [in UniMath.CategoryTheory.limits.binproducts]
F:1101 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1105 [in UniMath.Foundations.Sets]
f:1105 [in UniMath.Foundations.PartA]
F:1107 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:111 [in UniMath.Bicategories.Core.BicategoryLaws]
f:111 [in UniMath.CategoryTheory.Monads.RelativeMonads]
F:111 [in UniMath.CategoryTheory.Subcategory.Full]
F:111 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:111 [in UniMath.Algebra.FixedPointTheorems]
f:111 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:111 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:111 [in UniMath.CategoryTheory.PreAdditive]
f:111 [in UniMath.MoreFoundations.Univalence]
f:111 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:111 [in UniMath.Combinatorics.WellFoundedRelations]
f:111 [in UniMath.Foundations.PartC]
f:111 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:1113 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1114 [in UniMath.Foundations.Sets]
F:1118 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:112 [in UniMath.Bicategories.Core.FullyFaithful]
f:112 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:112 [in UniMath.Algebra.Monoids]
f:112 [in UniMath.CategoryTheory.limits.coproducts]
f:112 [in UniMath.Algebra.Universal.HVectors]
f:112 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:112 [in UniMath.Foundations.Propositions]
f:112 [in UniMath.CategoryTheory.FunctorAlgebras]
f:112 [in UniMath.Algebra.RigsAndRings]
F:112 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:112 [in UniMath.Bicategories.Modifications.Modification]
f:112 [in UniMath.Combinatorics.Lists]
f:112 [in UniMath.Combinatorics.FiniteSequences]
f:112 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:1122 [in UniMath.Foundations.Sets]
f:1122 [in UniMath.Foundations.PartA]
F:113 [in UniMath.CategoryTheory.AdditiveFunctors]
F:113 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:113 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:113 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:113 [in UniMath.CategoryTheory.limits.Opp]
f:113 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
F:1130 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1131 [in UniMath.Foundations.Sets]
f:1134 [in UniMath.Foundations.PartA]
f:1139 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:114 [in UniMath.CategoryTheory.LocalizingClass]
f:114 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:114 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:114 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:114 [in UniMath.Folds.folds_pre_2_cat]
f:114 [in UniMath.CategoryTheory.Core.Isos]
f:114 [in UniMath.Bicategories.Core.Univalence]
F:114 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:114 [in UniMath.CategoryTheory.Core.Univalence]
f:114 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:114 [in UniMath.Topology.Filters]
f:114 [in UniMath.CategoryTheory.Additive]
f:114 [in UniMath.CategoryTheory.Monads.LModules]
f:114 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:114 [in UniMath.Foundations.PartA]
f:114 [in UniMath.CategoryTheory.Monads.KTriples]
f:114 [in UniMath.CategoryTheory.Core.Categories]
f:1143 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:1146 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1146 [in UniMath.Foundations.Sets]
f:115 [in UniMath.CategoryTheory.Monads.Monads]
f:115 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:115 [in UniMath.Algebra.FixedPointTheorems]
f:115 [in UniMath.Algebra.Monoids]
F:115 [in UniMath.CategoryTheory.Core.Functors]
f:115 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:115 [in UniMath.CategoryTheory.limits.pushouts]
f:115 [in UniMath.CategoryTheory.AbelianToAdditive]
f:115 [in UniMath.CategoryTheory.PseudoElements]
f:115 [in UniMath.Foundations.Propositions]
f:115 [in UniMath.Algebra.Modules.Multimodules]
f:115 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:115 [in UniMath.CategoryTheory.limits.graphs.binproducts]
f:115 [in UniMath.Algebra.RigsAndRings]
f:115 [in UniMath.CategoryTheory.limits.products]
F:115 [in UniMath.CategoryTheory.limits.cats.limits]
F:115 [in UniMath.CategoryTheory.Core.TransportMorphisms]
f:115 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:115 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:115 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:115 [in UniMath.CategoryTheory.Core.TwoCategories]
f:1150 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1152 [in UniMath.Foundations.PartA]
f:1154 [in UniMath.Foundations.Sets]
F:1156 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1156 [in UniMath.Foundations.PartA]
f:1158 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1159 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:116 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:116 [in UniMath.CategoryTheory.AdditiveFunctors]
f:116 [in UniMath.Bicategories.Core.BicategoryLaws]
f:116 [in UniMath.CategoryTheory.categories.abgrs]
f:116 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:116 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:116 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:116 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:1160 [in UniMath.Foundations.Sets]
f:1161 [in UniMath.Foundations.PartA]
f:1165 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:1166 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1166 [in UniMath.Foundations.PartA]
f:117 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:117 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:117 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:117 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:117 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:117 [in UniMath.CategoryTheory.limits.cokernels]
f:117 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:117 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:117 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:117 [in UniMath.Combinatorics.Lists]
f:117 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:117 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:1170 [in UniMath.Foundations.Sets]
f:1171 [in UniMath.Foundations.PartA]
f:1178 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:1178 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1178 [in UniMath.Foundations.PartA]
f:118 [in UniMath.Bicategories.Core.Adjunctions]
f:118 [in UniMath.CategoryTheory.AbelianToAdditive]
F:118 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:118 [in UniMath.CategoryTheory.FunctorAlgebras]
f:118 [in UniMath.CategoryTheory.limits.equalizers]
f:118 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:118 [in UniMath.CategoryTheory.Adjunctions.Core]
f:118 [in UniMath.Algebra.RigsAndRings]
f:118 [in UniMath.CategoryTheory.limits.coequalizers]
f:118 [in UniMath.CategoryTheory.limits.binproducts]
f:1182 [in UniMath.Foundations.Sets]
f:1184 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1187 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1188 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1189 [in UniMath.Foundations.PartA]
f:119 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:119 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:119 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:119 [in UniMath.Algebra.FixedPointTheorems]
f:119 [in UniMath.MoreFoundations.MoreEquivalences]
F:119 [in UniMath.CategoryTheory.Core.Functors]
f:119 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:119 [in UniMath.CategoryTheory.limits.bincoproducts]
f:119 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:119 [in UniMath.Foundations.Propositions]
F:119 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:119 [in UniMath.CategoryTheory.FunctorCategory]
F:119 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:119 [in UniMath.Bicategories.Core.Univalence]
f:119 [in UniMath.CategoryTheory.PreAdditive]
f:119 [in UniMath.CategoryTheory.limits.cats.limits]
f:119 [in UniMath.CategoryTheory.limits.pullbacks]
F:119 [in UniMath.CategoryTheory.Monads.LModules]
f:1193 [in UniMath.Foundations.PartA]
F:1194 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1196 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:12 [in UniMath.CategoryTheory.ExactCategories.Tests]
F:12 [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
f:12 [in UniMath.CategoryTheory.Inductives.Lists]
f:12 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f:12 [in UniMath.CategoryTheory.Elements]
f:12 [in UniMath.HomologicalAlgebra.MappingCylinder]
F:12 [in UniMath.CategoryTheory.catiso]
f:12 [in UniMath.CategoryTheory.ElementsOp]
F:12 [in UniMath.CategoryTheory.Monads.Monads]
f:12 [in UniMath.CategoryTheory.category_binops]
f:12 [in UniMath.Bicategories.Core.YonedaLemma]
f:12 [in UniMath.CategoryTheory.limits.graphs.kernels]
F:12 [in UniMath.Bicategories.Core.Examples.Image]
f:12 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f:12 [in UniMath.MoreFoundations.Sets]
f:12 [in UniMath.CategoryTheory.limits.graphs.cokernels]
f:12 [in UniMath.Algebra.FixedPointTheorems]
f:12 [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
f:12 [in UniMath.Bicategories.Core.Adjunctions]
f:12 [in UniMath.MoreFoundations.AxiomOfChoice]
f:12 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:12 [in UniMath.Bicategories.Core.Strictness]
f:12 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
f:12 [in UniMath.CategoryTheory.coslicecat]
f:12 [in UniMath.CategoryTheory.SetValuedFunctors]
f:12 [in UniMath.Bicategories.PseudoFunctors.Representable]
f:12 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
f:12 [in UniMath.CategoryTheory.slicecat]
f:12 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:12 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:12 [in UniMath.CategoryTheory.ShortExactSequences]
f:12 [in UniMath.SubstitutionSystems.MultiSorted_alt]
f:12 [in UniMath.Folds.folds_isomorphism]
f:12 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:12 [in UniMath.CategoryTheory.limits.cats.limits]
f:12 [in UniMath.CategoryTheory.NNO]
f:12 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
f:12 [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
f:12 [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
f:12 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:12 [in UniMath.CategoryTheory.elems_slice_equiv]
F:12 [in UniMath.CategoryTheory.Profunctors.Core]
f:12 [in UniMath.Bicategories.Core.TransportLaws]
f:12 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
F:12 [in UniMath.CategoryTheory.PointedFunctors]
F:12 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
F:12 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:12 [in UniMath.CategoryTheory.IsoCommaCategory]
f:12 [in UniMath.CategoryTheory.limits.terminal]
F:120 [in UniMath.CategoryTheory.AdditiveFunctors]
f:120 [in UniMath.CategoryTheory.Monads.Monads]
f:120 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:120 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
F:120 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:120 [in UniMath.CategoryTheory.Core.Isos]
f:120 [in UniMath.Bicategories.Core.Invertible_2cells]
f:120 [in UniMath.Algebra.Modules.Multimodules]
F:120 [in UniMath.CategoryTheory.HorizontalComposition]
f:120 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:120 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:120 [in UniMath.CategoryTheory.Core.TwoCategories]
F:120 [in UniMath.CategoryTheory.Morphisms]
f:1203 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1203 [in UniMath.Foundations.PartA]
f:1205 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1209 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:121 [in UniMath.Bicategories.Core.BicategoryLaws]
f:121 [in UniMath.CategoryTheory.Monads.RelativeModules]
f:121 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:121 [in UniMath.Algebra.Monoids]
f:121 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:121 [in UniMath.CategoryTheory.AbelianToAdditive]
f:121 [in UniMath.CategoryTheory.PseudoElements]
F:121 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:121 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:121 [in UniMath.Algebra.GroupAction]
F:121 [in UniMath.CategoryTheory.HorizontalComposition]
f:121 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
F:121 [in UniMath.Bicategories.Modifications.Modification]
f:121 [in UniMath.CategoryTheory.Core.TransportMorphisms]
f:121 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:121 [in UniMath.CategoryTheory.Additive]
f:121 [in UniMath.Foundations.PartC]
f:121 [in UniMath.Foundations.PartA]
f:121 [in UniMath.CategoryTheory.Monads.KTriples]
f:1210 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1211 [in UniMath.Foundations.PartA]
f:1218 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1219 [in UniMath.Foundations.PartA]
F:122 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:122 [in UniMath.CategoryTheory.LocalizingClass]
f:122 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:122 [in UniMath.Foundations.PartB]
F:122 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:122 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:122 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:122 [in UniMath.CategoryTheory.Core.Univalence]
f:122 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:122 [in UniMath.Combinatorics.Lists]
f:122 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:122 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:122 [in UniMath.Combinatorics.FiniteSequences]
f:122 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:122 [in UniMath.CategoryTheory.Core.Categories]
F:1225 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1226 [in UniMath.Foundations.PartA]
f:1229 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:123 [in UniMath.Bicategories.Core.FullyFaithful]
f:123 [in UniMath.CategoryTheory.categories.abgrs]
f:123 [in UniMath.CategoryTheory.Core.Functors]
f:123 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:123 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F:123 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:123 [in UniMath.Bicategories.Core.Univalence]
f:123 [in UniMath.CategoryTheory.PreAdditive]
f:123 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:123 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
F:123 [in UniMath.Algebra.Dcpo]
f:123 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:1233 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:124 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:124 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:124 [in UniMath.Foundations.PartD]
f:124 [in UniMath.Algebra.FixedPointTheorems]
f:124 [in UniMath.Algebra.Monoids]
f:124 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:124 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:124 [in UniMath.CategoryTheory.AbelianToAdditive]
f:124 [in UniMath.CategoryTheory.limits.Opp]
F:124 [in UniMath.CategoryTheory.Morphisms]
f:124 [in UniMath.CategoryTheory.limits.graphs.limits]
F:1241 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1243 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1245 [in UniMath.Algebra.BinaryOperations]
f:1249 [in UniMath.Algebra.BinaryOperations]
f:125 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:125 [in UniMath.CategoryTheory.limits.pushouts]
F:125 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F:125 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:125 [in UniMath.Algebra.GroupAction]
F:125 [in UniMath.CategoryTheory.limits.cats.limits]
f:125 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:125 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F:1254 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:1254 [in UniMath.Algebra.BinaryOperations]
f:1258 [in UniMath.Algebra.BinaryOperations]
F:126 [in UniMath.CategoryTheory.AdditiveFunctors]
f:126 [in UniMath.CategoryTheory.Abelian]
f:126 [in UniMath.CategoryTheory.categories.abgrs]
f:126 [in UniMath.MoreFoundations.Sets]
f:126 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:126 [in UniMath.Combinatorics.OrderedSets]
F:126 [in UniMath.CategoryTheory.limits.coproducts]
f:126 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:126 [in UniMath.CategoryTheory.PseudoElements]
f:126 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:126 [in UniMath.Algebra.Modules.Multimodules]
f:126 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:126 [in UniMath.CategoryTheory.Adjunctions.Core]
f:126 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:126 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
F:126 [in UniMath.Topology.Filters]
f:126 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:126 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:1264 [in UniMath.Algebra.BinaryOperations]
F:1267 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:127 [in UniMath.CategoryTheory.Abelian]
f:127 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:127 [in UniMath.Algebra.Monoids]
f:127 [in UniMath.CategoryTheory.AbelianToAdditive]
F:127 [in UniMath.CategoryTheory.FunctorCategory]
f:127 [in UniMath.CategoryTheory.opp_precat]
f:127 [in UniMath.CategoryTheory.limits.cokernels]
F:127 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:127 [in UniMath.CategoryTheory.PreAdditive]
f:127 [in UniMath.CategoryTheory.ShortExactSequences]
f:127 [in UniMath.CategoryTheory.limits.products]
f:127 [in UniMath.CategoryTheory.Additive]
f:127 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:127 [in UniMath.CategoryTheory.limits.binproducts]
f:1270 [in UniMath.Algebra.BinaryOperations]
f:128 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:128 [in UniMath.CategoryTheory.Abelian]
f:128 [in UniMath.CategoryTheory.limits.bincoproducts]
f:128 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:128 [in UniMath.Foundations.Propositions]
f:128 [in UniMath.CategoryTheory.Core.Isos]
f:128 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:128 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:128 [in UniMath.Bicategories.Core.Univalence]
f:128 [in UniMath.CategoryTheory.limits.cats.limits]
f:128 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:128 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:128 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:1285 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:129 [in UniMath.CategoryTheory.Abelian]
f:129 [in UniMath.Combinatorics.Vectors]
f:129 [in UniMath.CategoryTheory.categories.abgrs]
f:129 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:129 [in UniMath.CategoryTheory.Core.Functors]
f:129 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
F:129 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:129 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:129 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:129 [in UniMath.CategoryTheory.limits.equalizers]
f:129 [in UniMath.Algebra.GroupAction]
f:129 [in UniMath.CategoryTheory.Core.Univalence]
F:129 [in UniMath.Topology.Filters]
F:129 [in UniMath.Algebra.Dcpo]
f:129 [in UniMath.CategoryTheory.limits.pullbacks]
f:129 [in UniMath.CategoryTheory.limits.coequalizers]
f:129 [in UniMath.CategoryTheory.Core.TwoCategories]
f:13 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
f:13 [in UniMath.Bicategories.Core.FullyFaithful]
F:13 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
f:13 [in UniMath.Algebra.Modules.Core]
f:13 [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
f:13 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:13 [in UniMath.Bicategories.Transformations.PseudoTransformation]
F:13 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:13 [in UniMath.MoreFoundations.Equivalences]
f:13 [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
f:13 [in UniMath.Folds.folds_pre_2_cat]
f:13 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:13 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:13 [in UniMath.SubstitutionSystems.SubstitutionSystems]
f:13 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
f:13 [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
f:13 [in UniMath.Bicategories.Core.Examples.Final]
f:13 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
F:13 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:13 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
f:13 [in UniMath.CategoryTheory.Inductives.Trees]
F:13 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:13 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
F:13 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:13 [in UniMath.CategoryTheory.CommaCategories]
f:13 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
F:13 [in UniMath.Bicategories.Core.Examples.StrictCats]
F:13 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
F:13 [in UniMath.SubstitutionSystems.MultiSorted]
f:13 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:13 [in UniMath.Algebra.Universal.SortedTypes]
f:13 [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
f:13 [in UniMath.CategoryTheory.DisplayedCats.SIP]
f:130 [in UniMath.CategoryTheory.Inductives.Lists]
f:130 [in UniMath.Bicategories.Core.BicategoryLaws]
f:130 [in UniMath.CategoryTheory.Abelian]
f:130 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:130 [in UniMath.CategoryTheory.LocalizingClass]
f:130 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:130 [in UniMath.Algebra.FixedPointTheorems]
f:130 [in UniMath.CategoryTheory.AbelianToAdditive]
f:130 [in UniMath.CategoryTheory.opp_precat]
f:130 [in UniMath.Bicategories.Core.Invertible_2cells]
f:130 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
F:130 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:130 [in UniMath.CategoryTheory.Morphisms]
f:1303 [in UniMath.Foundations.PartA]
f:1304 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1306 [in UniMath.Foundations.PartA]
f:1309 [in UniMath.Foundations.PartA]
f:131 [in UniMath.CategoryTheory.Abelian]
F:131 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
F:131 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:131 [in UniMath.Algebra.Modules.Multimodules]
f:131 [in UniMath.CategoryTheory.PreAdditive]
f:131 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:1312 [in UniMath.Foundations.PartA]
f:132 [in UniMath.CategoryTheory.Inductives.Lists]
f:132 [in UniMath.Bicategories.Core.FullyFaithful]
f:132 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:132 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:132 [in UniMath.Algebra.Monoids]
f:132 [in UniMath.Induction.ImpredicativeInductiveSets]
F:132 [in UniMath.CategoryTheory.limits.coproducts]
f:132 [in UniMath.MoreFoundations.MoreEquivalences]
F:132 [in UniMath.CategoryTheory.Core.Functors]
f:132 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:132 [in UniMath.CategoryTheory.limits.cokernels]
f:132 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:132 [in UniMath.Bicategories.Modifications.Modification]
f:132 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:1323 [in UniMath.Algebra.BinaryOperations]
f:1325 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:1325 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:133 [in UniMath.CategoryTheory.AdditiveFunctors]
f:133 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:133 [in UniMath.Foundations.Propositions]
f:133 [in UniMath.CategoryTheory.Core.Isos]
f:133 [in UniMath.Bicategories.Core.Univalence]
f:133 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:133 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:133 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:133 [in UniMath.CategoryTheory.Core.TransportMorphisms]
f:133 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:133 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:133 [in UniMath.CategoryTheory.Additive]
f:133 [in UniMath.CategoryTheory.limits.graphs.limits]
f:1332 [in UniMath.Foundations.PartA]
f:1334 [in UniMath.Algebra.BinaryOperations]
f:134 [in UniMath.Combinatorics.OrderedSets]
f:134 [in UniMath.Foundations.PartB]
f:134 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:134 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:134 [in UniMath.CategoryTheory.PseudoElements]
F:134 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:134 [in UniMath.CategoryTheory.limits.BinDirectSums]
F:134 [in UniMath.CategoryTheory.Adjunctions.Core]
f:134 [in UniMath.CategoryTheory.ShortExactSequences]
f:134 [in UniMath.CategoryTheory.limits.Opp]
F:134 [in UniMath.Algebra.Dcpo]
f:1343 [in UniMath.Foundations.PartA]
f:1346 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1349 [in UniMath.Algebra.BinaryOperations]
f:135 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:135 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:135 [in UniMath.CategoryTheory.categories.abgrs]
f:135 [in UniMath.Algebra.Monoids]
f:135 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:135 [in UniMath.CategoryTheory.Core.Functors]
f:135 [in UniMath.Algebra.Universal.HVectors]
f:135 [in UniMath.CategoryTheory.AbelianToAdditive]
F:135 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:135 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:135 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:135 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
F:135 [in UniMath.Topology.Filters]
f:135 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:135 [in UniMath.Combinatorics.WellFoundedRelations]
f:135 [in UniMath.SyntheticHomotopyTheory.Circle2]
f:1354 [in UniMath.Foundations.PartA]
f:136 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:136 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:136 [in UniMath.CategoryTheory.LocalizingClass]
f:136 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:136 [in UniMath.Algebra.FixedPointTheorems]
f:136 [in UniMath.CategoryTheory.limits.pushouts]
f:136 [in UniMath.Foundations.Propositions]
f:136 [in UniMath.Algebra.Modules.Multimodules]
F:136 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:136 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:136 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:136 [in UniMath.SyntheticHomotopyTheory.Circle2]
f:1360 [in UniMath.Algebra.BinaryOperations]
f:1364 [in UniMath.Foundations.PartA]
f:1367 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:137 [in UniMath.CategoryTheory.AdditiveFunctors]
f:137 [in UniMath.Bicategories.Core.BicategoryLaws]
f:137 [in UniMath.CategoryTheory.Monads.Monads]
f:137 [in UniMath.Combinatorics.Vectors]
f:137 [in UniMath.MoreFoundations.Sets]
F:137 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:137 [in UniMath.Bicategories.Core.Strictness]
f:137 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:137 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:137 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:137 [in UniMath.CategoryTheory.limits.cats.limits]
f:137 [in UniMath.CategoryTheory.Core.Univalence]
f:137 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:137 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:1373 [in UniMath.Foundations.PartA]
f:1379 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:138 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F:138 [in UniMath.CategoryTheory.Core.Functors]
f:138 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:138 [in UniMath.CategoryTheory.Core.Isos]
f:138 [in UniMath.CategoryTheory.limits.equalizers]
f:138 [in UniMath.Combinatorics.Lists]
f:138 [in UniMath.CategoryTheory.limits.coequalizers]
f:138 [in UniMath.CategoryTheory.Core.TwoCategories]
f:1384 [in UniMath.Foundations.PartA]
f:1389 [in UniMath.Foundations.PartA]
f:139 [in UniMath.Algebra.Monoids]
f:139 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:139 [in UniMath.Bicategories.Core.Strictness]
f:139 [in UniMath.CategoryTheory.AbelianToAdditive]
f:139 [in UniMath.CategoryTheory.FunctorCategory]
f:139 [in UniMath.CategoryTheory.opp_precat]
f:139 [in UniMath.CategoryTheory.PreAdditive]
F:139 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:139 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:139 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
F:139 [in UniMath.Algebra.Dcpo]
f:139 [in UniMath.CategoryTheory.limits.pullbacks]
f:139 [in UniMath.CategoryTheory.Additive]
f:139 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:139 [in UniMath.CategoryTheory.limits.binproducts]
f:1392 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1394 [in UniMath.Foundations.PartA]
f:14 [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
f:14 [in UniMath.MoreFoundations.NullHomotopies]
f:14 [in UniMath.CategoryTheory.categories.rings]
F:14 [in UniMath.CategoryTheory.AdditiveFunctors]
f:14 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f:14 [in UniMath.CategoryTheory.categories.setwith2binops]
f:14 [in UniMath.CategoryTheory.categories.grs]
F:14 [in UniMath.CategoryTheory.Monads.RelativeModules]
f:14 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:14 [in UniMath.CategoryTheory.categories.flds]
f:14 [in UniMath.Combinatorics.Maybe]
f:14 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:14 [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
f:14 [in UniMath.CategoryTheory.limits.graphs.terminal]
f:14 [in UniMath.Bicategories.Core.Bicat]
f:14 [in UniMath.CategoryTheory.categories.abgrs]
f:14 [in UniMath.CategoryTheory.yoneda]
f:14 [in UniMath.CategoryTheory.limits.initial]
f:14 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:14 [in UniMath.CategoryTheory.Monads.MonadAlgebras]
f:14 [in UniMath.CategoryTheory.precomp_fully_faithful]
f:14 [in UniMath.CategoryTheory.AbelianToAdditive]
f:14 [in UniMath.CategoryTheory.PseudoElements]
f:14 [in UniMath.CategoryTheory.CategoriesWithBinOps]
f:14 [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
f:14 [in UniMath.CategoryTheory.FunctorAlgebras]
f:14 [in UniMath.Algebra.Groups]
f:14 [in UniMath.CategoryTheory.categories.HSET.Slice]
f:14 [in UniMath.Bicategories.Colimits.Final]
f:14 [in UniMath.Bicategories.Core.Univalence]
f:14 [in UniMath.CategoryTheory.PreAdditive]
f:14 [in UniMath.Bicategories.PseudoFunctors.Yoneda]
f:14 [in UniMath.HomologicalAlgebra.KA]
f:14 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:14 [in UniMath.CategoryTheory.categories.commrigs]
f:14 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:14 [in UniMath.Bicategories.Discreteness]
f:14 [in UniMath.CategoryTheory.categories.rigs]
f:14 [in UniMath.CategoryTheory.Core.TransportMorphisms]
F:14 [in UniMath.Topology.Filters]
F:14 [in UniMath.CategoryTheory.elems_slice_equiv]
f:14 [in UniMath.SyntheticHomotopyTheory.Test]
f:14 [in UniMath.CategoryTheory.categories.monoids]
f:14 [in UniMath.CategoryTheory.categories.intdoms]
f:14 [in UniMath.CategoryTheory.UnderCategories]
f:14 [in UniMath.CategoryTheory.FunctorCoalgebras]
f:14 [in UniMath.SyntheticHomotopyTheory.Halfline]
f:14 [in UniMath.Combinatorics.VectorsTests]
F:14 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:14 [in UniMath.MoreFoundations.Nat]
f:14 [in UniMath.CategoryTheory.SimplicialSets]
f:14 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:14 [in UniMath.CategoryTheory.categories.commrings]
f:14 [in UniMath.CategoryTheory.categories.abmonoids]
f:140 [in UniMath.CategoryTheory.Monads.RelativeMonads]
F:140 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:140 [in UniMath.Foundations.PartB]
f:140 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:140 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:140 [in UniMath.CategoryTheory.limits.cokernels]
f:140 [in UniMath.Bicategories.Core.Invertible_2cells]
f:140 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:140 [in UniMath.Bicategories.Core.Univalence]
f:140 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:140 [in UniMath.CategoryTheory.Adjunctions.Core]
F:140 [in UniMath.Bicategories.Modifications.Modification]
f:140 [in UniMath.CategoryTheory.Core.TransportMorphisms]
f:140 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:1400 [in UniMath.Foundations.PartA]
f:1405 [in UniMath.Foundations.PartA]
f:141 [in UniMath.Bicategories.Core.FullyFaithful]
f:141 [in UniMath.CategoryTheory.categories.abgrs]
f:141 [in UniMath.CategoryTheory.Core.Functors]
f:141 [in UniMath.Algebra.GroupAction]
f:141 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:141 [in UniMath.Algebra.IteratedBinaryOperations]
f:1415 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:142 [in UniMath.CategoryTheory.AdditiveFunctors]
f:142 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:142 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:142 [in UniMath.Algebra.Monoids]
f:142 [in UniMath.CategoryTheory.limits.coproducts]
f:142 [in UniMath.Bicategories.Core.Strictness]
f:142 [in UniMath.Algebra.Modules.Multimodules]
f:142 [in UniMath.CategoryTheory.slicecat]
f:142 [in UniMath.Algebra.GroupAction]
F:142 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:142 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:142 [in UniMath.Foundations.Sets]
f:142 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:142 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:142 [in UniMath.CategoryTheory.limits.graphs.limits]
f:1420 [in UniMath.Algebra.BinaryOperations]
f:1421 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1424 [in UniMath.Foundations.PartA]
f:1427 [in UniMath.Algebra.BinaryOperations]
f:1429 [in UniMath.Foundations.PartA]
f:143 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:143 [in UniMath.Bicategories.Core.Strictness]
F:143 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:143 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:143 [in UniMath.CategoryTheory.limits.Opp]
f:1434 [in UniMath.Foundations.PartA]
f:1436 [in UniMath.Algebra.BinaryOperations]
f:1439 [in UniMath.Algebra.BinaryOperations]
f:144 [in UniMath.Bicategories.Core.BicategoryLaws]
f:144 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:144 [in UniMath.CategoryTheory.LocalizingClass]
f:144 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:144 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:144 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:144 [in UniMath.Folds.folds_pre_2_cat]
f:144 [in UniMath.Bicategories.Core.Strictness]
f:144 [in UniMath.CategoryTheory.Core.Isos]
f:144 [in UniMath.CategoryTheory.PreAdditive]
F:144 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:144 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:144 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:144 [in UniMath.CategoryTheory.Core.Univalence]
f:1442 [in UniMath.Algebra.BinaryOperations]
f:1448 [in UniMath.Algebra.BinaryOperations]
f:145 [in UniMath.Bicategories.Core.Bicat]
f:145 [in UniMath.Algebra.Monoids]
f:145 [in UniMath.MoreFoundations.MoreEquivalences]
F:145 [in UniMath.CategoryTheory.Core.Functors]
f:145 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:145 [in UniMath.Bicategories.Core.Strictness]
f:145 [in UniMath.Bicategories.Core.Univalence]
F:145 [in UniMath.Algebra.Dcpo]
f:145 [in UniMath.CategoryTheory.Additive]
f:1451 [in UniMath.Algebra.BinaryOperations]
f:1454 [in UniMath.Algebra.BinaryOperations]
f:1455 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:146 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:146 [in UniMath.CategoryTheory.AdditiveFunctors]
F:146 [in UniMath.CategoryTheory.catiso]
F:146 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:146 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:146 [in UniMath.Bicategories.Core.Strictness]
f:146 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
F:146 [in UniMath.CategoryTheory.FunctorCategory]
f:146 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:146 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:146 [in UniMath.CategoryTheory.limits.BinDirectSums]
F:146 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:146 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:146 [in UniMath.CategoryTheory.Core.TwoCategories]
f:1462 [in UniMath.Algebra.BinaryOperations]
f:1466 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1467 [in UniMath.Algebra.BinaryOperations]
f:147 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:147 [in UniMath.CategoryTheory.categories.abgrs]
F:147 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:147 [in UniMath.Foundations.PartB]
f:147 [in UniMath.CategoryTheory.whiskering]
f:147 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:147 [in UniMath.CategoryTheory.AbelianToAdditive]
f:147 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:147 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:147 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:1471 [in UniMath.Algebra.BinaryOperations]
f:1474 [in UniMath.Algebra.BinaryOperations]
f:1478 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:148 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:148 [in UniMath.CategoryTheory.Core.Functors]
f:148 [in UniMath.CategoryTheory.PreAdditive]
F:148 [in UniMath.CategoryTheory.limits.products]
F:148 [in UniMath.Bicategories.Modifications.Modification]
f:148 [in UniMath.Combinatorics.Lists]
f:148 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:148 [in UniMath.CategoryTheory.Core.Categories]
f:1480 [in UniMath.Algebra.BinaryOperations]
f:1483 [in UniMath.Algebra.BinaryOperations]
f:1486 [in UniMath.Algebra.BinaryOperations]
f:149 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:149 [in UniMath.Folds.folds_pre_2_cat]
f:149 [in UniMath.Bicategories.Core.Strictness]
F:149 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:149 [in UniMath.CategoryTheory.limits.equalizers]
f:149 [in UniMath.CategoryTheory.limits.cats.limits]
f:149 [in UniMath.CategoryTheory.limits.Opp]
f:149 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:149 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:149 [in UniMath.Foundations.PartA]
f:149 [in UniMath.CategoryTheory.limits.coequalizers]
f:1490 [in UniMath.Algebra.BinaryOperations]
f:1494 [in UniMath.Algebra.BinaryOperations]
f:1494 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1497 [in UniMath.Algebra.BinaryOperations]
F:15 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
f:15 [in UniMath.CategoryTheory.categories.Type.Core]
f:15 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:15 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:15 [in UniMath.Algebra.Modules.Core]
f:15 [in UniMath.NumberSystems.NaturalNumbersAlgebra]
F:15 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
F:15 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:15 [in UniMath.CategoryTheory.Subcategory.Full]
F:15 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:15 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:15 [in UniMath.Algebra.FixedPointTheorems]
f:15 [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
f:15 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:15 [in UniMath.CategoryTheory.ProductCategory]
F:15 [in UniMath.Induction.W.Uniqueness]
f:15 [in UniMath.Algebra.Universal.HVectors]
f:15 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:15 [in UniMath.CategoryTheory.AbelianToAdditive]
f:15 [in UniMath.CategoryTheory.covyoneda]
f:15 [in UniMath.CategoryTheory.Core.Isos]
f:15 [in UniMath.Bicategories.Core.Examples.OneTypes]
f:15 [in UniMath.Bicategories.Core.Invertible_2cells]
f:15 [in UniMath.SubstitutionSystems.Lam]
f:15 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F:15 [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
f:15 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
F:15 [in UniMath.CategoryTheory.Chains.Cochains]
F:15 [in UniMath.Induction.M.Uniqueness]
F:15 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
f:15 [in UniMath.CategoryTheory.limits.cats.limits]
f:15 [in UniMath.MoreFoundations.StructureIdentity]
F:15 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:15 [in UniMath.CategoryTheory.limits.Opp]
f:15 [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
f:15 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
F:15 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:15 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
F:15 [in UniMath.CategoryTheory.elems_slice_equiv]
F:15 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:15 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:15 [in UniMath.HomologicalAlgebra.TranslationFunctors]
F:15 [in UniMath.CategoryTheory.PointedFunctors]
F:15 [in UniMath.Bicategories.Core.Examples.StrictCats]
F:15 [in UniMath.SubstitutionSystems.MultiSorted]
f:15 [in UniMath.Folds.from_precats_to_folds_and_back]
f:15 [in UniMath.Induction.W.Naturals]
f:15 [in UniMath.CategoryTheory.limits.terminal]
f:15 [in UniMath.CategoryTheory.limits.graphs.limits]
F:150 [in UniMath.CategoryTheory.AdditiveFunctors]
f:150 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:150 [in UniMath.CategoryTheory.catiso]
F:150 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:150 [in UniMath.Bicategories.Core.Bicat]
f:150 [in UniMath.Foundations.PartD]
f:150 [in UniMath.Algebra.FixedPointTheorems]
f:150 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:150 [in UniMath.CategoryTheory.limits.pushouts]
F:150 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:150 [in UniMath.Foundations.UnivalenceAxiom]
f:150 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:150 [in UniMath.Bicategories.Core.Invertible_2cells]
f:150 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:150 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:150 [in UniMath.Topology.Filters]
F:150 [in UniMath.Algebra.Dcpo]
f:150 [in UniMath.CategoryTheory.limits.pullbacks]
f:1503 [in UniMath.Algebra.BinaryOperations]
f:1506 [in UniMath.Algebra.BinaryOperations]
f:1509 [in UniMath.Algebra.BinaryOperations]
f:151 [in UniMath.Bicategories.Core.BicategoryLaws]
f:151 [in UniMath.MoreFoundations.Equivalences]
F:151 [in UniMath.CategoryTheory.Core.Functors]
f:151 [in UniMath.CategoryTheory.AbelianToAdditive]
f:151 [in UniMath.CategoryTheory.Core.Isos]
f:151 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:151 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:151 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:151 [in UniMath.Foundations.Sets]
f:151 [in UniMath.CategoryTheory.Additive]
f:151 [in UniMath.CategoryTheory.Core.TwoCategories]
f:1510 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1511 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1512 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1514 [in UniMath.Algebra.BinaryOperations]
f:1517 [in UniMath.Algebra.BinaryOperations]
f:1517 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:152 [in UniMath.CategoryTheory.ExactCategories.Tests]
f:152 [in UniMath.Bicategories.Core.FullyFaithful]
f:152 [in UniMath.CategoryTheory.LocalizingClass]
F:152 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:152 [in UniMath.MoreFoundations.MoreEquivalences]
f:152 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:152 [in UniMath.Bicategories.Core.Strictness]
f:152 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:1521 [in UniMath.Algebra.BinaryOperations]
f:1525 [in UniMath.Algebra.BinaryOperations]
f:1526 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1528 [in UniMath.Algebra.BinaryOperations]
f:1528 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:153 [in UniMath.CategoryTheory.categories.abgrs]
f:153 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:153 [in UniMath.Algebra.Universal.HVectors]
F:153 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:153 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:153 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:153 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:153 [in UniMath.CategoryTheory.Core.Categories]
f:1530 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:1533 [in UniMath.Foundations.Sets]
f:1537 [in UniMath.Foundations.Sets]
F:154 [in UniMath.CategoryTheory.AdditiveFunctors]
F:154 [in UniMath.CategoryTheory.catiso]
f:154 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:154 [in UniMath.Foundations.PartB]
f:154 [in UniMath.CategoryTheory.Core.Functors]
f:154 [in UniMath.Folds.folds_pre_2_cat]
f:154 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:154 [in UniMath.CategoryTheory.AbelianToAdditive]
F:154 [in UniMath.Topology.Filters]
f:154 [in UniMath.CategoryTheory.precomp_ess_surj]
f:154 [in UniMath.CategoryTheory.limits.graphs.limits]
f:1540 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:1542 [in UniMath.Algebra.BinaryOperations]
f:1546 [in UniMath.Algebra.BinaryOperations]
f:1547 [in UniMath.Foundations.Sets]
f:155 [in UniMath.CategoryTheory.Monads.Monads]
f:155 [in UniMath.Bicategories.Core.Bicat]
F:155 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:155 [in UniMath.Bicategories.Core.Strictness]
f:155 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:155 [in UniMath.CategoryTheory.limits.equalizers]
F:155 [in UniMath.Bicategories.Modifications.Modification]
f:155 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:155 [in UniMath.Algebra.Dcpo]
f:155 [in UniMath.CategoryTheory.limits.coequalizers]
f:155 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:1550 [in UniMath.Algebra.BinaryOperations]
f:1552 [in UniMath.Foundations.Sets]
f:1554 [in UniMath.Algebra.BinaryOperations]
f:1558 [in UniMath.Algebra.BinaryOperations]
f:156 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f:156 [in UniMath.Bicategories.Core.FullyFaithful]
f:156 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:156 [in UniMath.MoreFoundations.Sets]
f:156 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:156 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:156 [in UniMath.CategoryTheory.PseudoElements]
f:156 [in UniMath.CategoryTheory.Core.Isos]
F:156 [in UniMath.CategoryTheory.FunctorCategory]
F:156 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:156 [in UniMath.CategoryTheory.limits.graphs.colimits]
f:156 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:156 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F:156 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:1562 [in UniMath.Algebra.BinaryOperations]
f:1566 [in UniMath.Algebra.BinaryOperations]
F:157 [in UniMath.CategoryTheory.Monads.Monads]
f:157 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
F:157 [in UniMath.CategoryTheory.Core.Functors]
f:157 [in UniMath.Foundations.UnivalenceAxiom]
f:157 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:157 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
F:157 [in UniMath.CategoryTheory.Core.Univalence]
f:157 [in UniMath.CategoryTheory.Additive]
f:157 [in UniMath.CategoryTheory.Core.Categories]
f:1570 [in UniMath.Algebra.BinaryOperations]
F:1572 [in UniMath.Foundations.Sets]
f:1574 [in UniMath.Algebra.BinaryOperations]
f:1578 [in UniMath.Algebra.BinaryOperations]
F:1578 [in UniMath.Foundations.Sets]
f:158 [in UniMath.Algebra.Modules.Core]
f:158 [in UniMath.Algebra.FixedPointTheorems]
F:158 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:158 [in UniMath.CategoryTheory.AbelianToAdditive]
f:158 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:158 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:158 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:158 [in UniMath.CategoryTheory.limits.products]
f:158 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:158 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:158 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:158 [in UniMath.CategoryTheory.Core.TwoCategories]
f:1582 [in UniMath.Algebra.BinaryOperations]
f:1586 [in UniMath.Algebra.BinaryOperations]
f:159 [in UniMath.Bicategories.Core.BicategoryLaws]
f:159 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:159 [in UniMath.CategoryTheory.LocalizingClass]
f:159 [in UniMath.CategoryTheory.categories.abgrs]
f:159 [in UniMath.Foundations.PartD]
F:159 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:159 [in UniMath.Bicategories.Core.Invertible_2cells]
f:159 [in UniMath.Bicategories.Colimits.Products]
f:159 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:159 [in UniMath.CategoryTheory.limits.binproducts]
f:16 [in UniMath.CategoryTheory.ExactCategories.Tests]
f:16 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:16 [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
f:16 [in UniMath.SubstitutionSystems.GenMendlerIteration]
f:16 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
F:16 [in UniMath.CategoryTheory.catiso]
F:16 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
f:16 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:16 [in UniMath.CategoryTheory.limits.graphs.kernels]
f:16 [in UniMath.Combinatorics.Vectors]
F:16 [in UniMath.Bicategories.Core.Examples.Image]
F:16 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:16 [in UniMath.CategoryTheory.limits.graphs.cokernels]
f:16 [in UniMath.Bicategories.Core.Adjunctions]
f:16 [in UniMath.Induction.W.Uniqueness]
f:16 [in UniMath.MoreFoundations.AxiomOfChoice]
f:16 [in UniMath.CategoryTheory.precomp_fully_faithful]
f:16 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:16 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:16 [in UniMath.CategoryTheory.limits.kernels]
F:16 [in UniMath.CategoryTheory.DisplayedCats.Limits]
f:16 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:16 [in UniMath.CategoryTheory.limits.cokernels]
f:16 [in UniMath.CategoryTheory.limits.equalizers]
f:16 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
f:16 [in UniMath.Bicategories.BicatOfBicategory]
f:16 [in UniMath.CategoryTheory.categories.HSET.Slice]
f:16 [in UniMath.SubstitutionSystems.SubstitutionSystems]
f:16 [in UniMath.Bicategories.DisplayedBicats.Fibration]
f:16 [in UniMath.Induction.M.Uniqueness]
f:16 [in UniMath.CategoryTheory.Subobjects]
F:16 [in UniMath.CategoryTheory.Equivalences.Core]
f:16 [in UniMath.Folds.folds_isomorphism]
f:16 [in UniMath.CategoryTheory.limits.graphs.initial]
F:16 [in UniMath.Bicategories.Modifications.Modification]
f:16 [in UniMath.CategoryTheory.limits.cones]
F:16 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:16 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
f:16 [in UniMath.Combinatorics.Lists]
F:16 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:16 [in UniMath.Topology.Filters]
F:16 [in UniMath.CategoryTheory.elems_slice_equiv]
f:16 [in UniMath.PAdics.fps]
f:16 [in UniMath.CategoryTheory.Profunctors.Core]
f:16 [in UniMath.HomologicalAlgebra.MappingCone]
f:16 [in UniMath.CategoryTheory.limits.coequalizers]
f:16 [in UniMath.CategoryTheory.categories.HSET.Structures]
F:16 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:16 [in UniMath.CategoryTheory.Core.TwoCategories]
f:16 [in UniMath.CategoryTheory.Morphisms]
f:160 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:160 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:160 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:160 [in UniMath.CategoryTheory.Core.Functors]
f:160 [in UniMath.CategoryTheory.limits.bincoproducts]
f:160 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:160 [in UniMath.Bicategories.Core.Strictness]
f:160 [in UniMath.CategoryTheory.opp_precat]
F:160 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:160 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:160 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:1603 [in UniMath.Foundations.Sets]
f:161 [in UniMath.CategoryTheory.ExactCategories.Tests]
F:161 [in UniMath.CategoryTheory.AdditiveFunctors]
f:161 [in UniMath.Bicategories.Core.FullyFaithful]
f:161 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:161 [in UniMath.CategoryTheory.limits.graphs.equalizers]
F:161 [in UniMath.CategoryTheory.FunctorCategory]
f:161 [in UniMath.Algebra.Modules.Multimodules]
f:161 [in UniMath.CategoryTheory.slicecat]
f:161 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:161 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:161 [in UniMath.Algebra.Dcpo]
f:1617 [in UniMath.Foundations.PartA]
f:162 [in UniMath.CategoryTheory.categories.abgrs]
f:162 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:162 [in UniMath.Foundations.UnivalenceAxiom]
f:162 [in UniMath.Bicategories.Core.Strictness]
f:162 [in UniMath.CategoryTheory.limits.kernels]
F:162 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:162 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:162 [in UniMath.CategoryTheory.Adjunctions.Core]
f:162 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:162 [in UniMath.CategoryTheory.limits.cats.limits]
f:162 [in UniMath.Bicategories.Modifications.Modification]
f:162 [in UniMath.CategoryTheory.Core.Univalence]
F:162 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:162 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:1624 [in UniMath.Foundations.PartA]
f:163 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f:163 [in UniMath.Bicategories.Transformations.PseudoTransformation]
F:163 [in UniMath.CategoryTheory.Core.Functors]
f:163 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
F:163 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:163 [in UniMath.Folds.folds_pre_2_cat]
f:163 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:163 [in UniMath.Algebra.GroupAction]
f:163 [in UniMath.CategoryTheory.Core.Categories]
f:164 [in UniMath.Algebra.Modules.Core]
f:164 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:164 [in UniMath.MoreFoundations.Equivalences]
f:164 [in UniMath.CategoryTheory.limits.pushouts]
f:164 [in UniMath.Bicategories.Core.Strictness]
f:164 [in UniMath.CategoryTheory.AbelianToAdditive]
f:164 [in UniMath.CategoryTheory.PseudoElements]
F:164 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:164 [in UniMath.CategoryTheory.Core.Isos]
f:164 [in UniMath.CategoryTheory.opp_precat]
f:164 [in UniMath.Bicategories.Core.Invertible_2cells]
f:164 [in UniMath.CategoryTheory.limits.equalizers]
f:164 [in UniMath.CategoryTheory.limits.BinDirectSums]
F:164 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:164 [in UniMath.Bicategories.Colimits.Products]
f:164 [in UniMath.CategoryTheory.Additive]
f:164 [in UniMath.CategoryTheory.limits.coequalizers]
f:164 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:165 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:165 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:165 [in UniMath.Bicategories.Core.Bicat]
f:165 [in UniMath.CategoryTheory.categories.abgrs]
f:165 [in UniMath.Foundations.UnivalenceAxiom]
f:165 [in UniMath.Bicategories.Core.Strictness]
f:165 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:165 [in UniMath.Combinatorics.FiniteSets]
F:165 [in UniMath.Bicategories.Modifications.Modification]
f:165 [in UniMath.CategoryTheory.limits.graphs.colimits]
f:165 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:166 [in UniMath.Bicategories.Core.FullyFaithful]
f:166 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:166 [in UniMath.CategoryTheory.limits.coproducts]
f:166 [in UniMath.CategoryTheory.Core.Functors]
f:166 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:166 [in UniMath.CategoryTheory.limits.pullbacks]
f:166 [in UniMath.SyntheticHomotopyTheory.AffineLine]
F:167 [in UniMath.CategoryTheory.AdditiveFunctors]
f:167 [in UniMath.Foundations.PartD]
F:167 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
F:167 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:167 [in UniMath.Foundations.UnivalenceAxiom]
F:167 [in UniMath.CategoryTheory.FunctorCategory]
f:167 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:167 [in UniMath.Algebra.GroupAction]
F:167 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:167 [in UniMath.CategoryTheory.Core.TwoCategories]
f:167 [in UniMath.CategoryTheory.limits.graphs.limits]
f:168 [in UniMath.Algebra.Modules.Core]
F:168 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:168 [in UniMath.CategoryTheory.categories.abgrs]
f:168 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:168 [in UniMath.CategoryTheory.limits.coproducts]
f:168 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:168 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:168 [in UniMath.CategoryTheory.PseudoElements]
F:168 [in UniMath.Foundations.Propositions]
F:168 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:168 [in UniMath.Bicategories.Core.Univalence]
F:168 [in UniMath.CategoryTheory.Core.Univalence]
F:168 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:168 [in UniMath.CategoryTheory.limits.binproducts]
f:1687 [in UniMath.Foundations.PartA]
f:169 [in UniMath.Bicategories.Core.BicategoryLaws]
f:169 [in UniMath.CategoryTheory.Abelian]
f:169 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:169 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:169 [in UniMath.CategoryTheory.AbelianToAdditive]
f:169 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
F:169 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:169 [in UniMath.CategoryTheory.limits.kernels]
f:169 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:169 [in UniMath.Bicategories.Core.Invertible_2cells]
f:169 [in UniMath.Bicategories.Colimits.Products]
f:169 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:17 [in UniMath.AlgebraicGeometry.SheavesOfRings]
f:17 [in UniMath.CategoryTheory.categories.rings]
f:17 [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
f:17 [in UniMath.CategoryTheory.Inductives.Lists]
f:17 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
f:17 [in UniMath.CategoryTheory.categories.setwith2binops]
f:17 [in UniMath.CategoryTheory.categories.grs]
f:17 [in UniMath.MoreFoundations.Tactics]
f:17 [in UniMath.CategoryTheory.categories.flds]
f:17 [in UniMath.CategoryTheory.category_binops]
f:17 [in UniMath.CategoryTheory.limits.graphs.terminal]
F:17 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:17 [in UniMath.Bicategories.Core.Bicat]
f:17 [in UniMath.Induction.ImpredicativeInductiveSets]
f:17 [in UniMath.Foundations.PartB]
f:17 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:17 [in UniMath.CategoryTheory.limits.initial]
F:17 [in UniMath.CategoryTheory.whiskering]
f:17 [in UniMath.Foundations.UnivalenceAxiom]
f:17 [in UniMath.CategoryTheory.Monads.MonadAlgebras]
f:17 [in UniMath.Bicategories.Core.AdjointUnique]
f:17 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
F:17 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:17 [in UniMath.CategoryTheory.FunctorAlgebras]
f:17 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:17 [in UniMath.Bicategories.Modifications.Examples.ApModification]
f:17 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
f:17 [in UniMath.CategoryTheory.HorizontalComposition]
f:17 [in UniMath.CategoryTheory.categories.commrigs]
f:17 [in UniMath.CategoryTheory.Monics]
f:17 [in UniMath.MoreFoundations.Interval]
f:17 [in UniMath.MoreFoundations.Univalence]
f:17 [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
f:17 [in UniMath.CategoryTheory.categories.rigs]
f:17 [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
f:17 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
F:17 [in UniMath.CategoryTheory.Adjunctions.Examples]
f:17 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:17 [in UniMath.CategoryTheory.categories.monoids]
f:17 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
f:17 [in UniMath.CategoryTheory.categories.intdoms]
F:17 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
F:17 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:17 [in UniMath.Bicategories.Core.Unitors]
f:17 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:17 [in UniMath.CategoryTheory.categories.commrings]
f:17 [in UniMath.CategoryTheory.AbelianPushoutPullback]
f:17 [in UniMath.CategoryTheory.precomp_ess_surj]
f:17 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:17 [in UniMath.CategoryTheory.IsoCommaCategory]
f:17 [in UniMath.CategoryTheory.Monads.KTriples]
f:17 [in UniMath.CategoryTheory.categories.abmonoids]
f:170 [in UniMath.CategoryTheory.Abelian]
f:170 [in UniMath.CategoryTheory.LocalizingClass]
f:170 [in UniMath.Bicategories.Core.Bicat]
f:170 [in UniMath.CategoryTheory.limits.bincoproducts]
f:170 [in UniMath.Bicategories.Core.Strictness]
f:170 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:170 [in UniMath.CategoryTheory.limits.equalizers]
f:170 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
F:170 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:170 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:170 [in UniMath.CategoryTheory.limits.coequalizers]
f:1703 [in UniMath.Foundations.PartA]
f:171 [in UniMath.CategoryTheory.Abelian]
F:171 [in UniMath.CategoryTheory.catiso]
f:171 [in UniMath.CategoryTheory.categories.abgrs]
f:171 [in UniMath.Algebra.FixedPointTheorems]
f:171 [in UniMath.CategoryTheory.limits.pushouts]
f:171 [in UniMath.Folds.folds_pre_2_cat]
f:171 [in UniMath.CategoryTheory.limits.cokernels]
f:171 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:171 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:171 [in UniMath.CategoryTheory.Core.Categories]
f:1711 [in UniMath.Foundations.PartA]
f:172 [in UniMath.CategoryTheory.Abelian]
f:172 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:172 [in UniMath.CategoryTheory.limits.bincoproducts]
f:172 [in UniMath.Bicategories.Core.Strictness]
F:172 [in UniMath.Bicategories.Modifications.Modification]
f:173 [in UniMath.CategoryTheory.Abelian]
f:173 [in UniMath.Algebra.Modules.Core]
f:173 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:173 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:173 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:173 [in UniMath.CategoryTheory.limits.graphs.pushouts]
F:173 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:173 [in UniMath.CategoryTheory.PseudoElements]
f:173 [in UniMath.CategoryTheory.Core.Isos]
f:173 [in UniMath.CategoryTheory.limits.kernels]
f:173 [in UniMath.CategoryTheory.Core.Univalence]
f:174 [in UniMath.Bicategories.Core.FullyFaithful]
f:174 [in UniMath.CategoryTheory.Abelian]
F:174 [in UniMath.Foundations.Propositions]
F:174 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:174 [in UniMath.CategoryTheory.FunctorCategory]
f:174 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:174 [in UniMath.CategoryTheory.Adjunctions.Core]
F:174 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:174 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:175 [in UniMath.HomologicalAlgebra.MappingCylinder]
F:175 [in UniMath.CategoryTheory.catiso]
f:175 [in UniMath.Bicategories.Core.Bicat]
f:175 [in UniMath.CategoryTheory.categories.abgrs]
f:175 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:175 [in UniMath.CategoryTheory.limits.bincoproducts]
F:175 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
F:175 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:175 [in UniMath.Bicategories.Core.Univalence]
f:175 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:175 [in UniMath.Bicategories.Colimits.Products]
F:175 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:175 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:176 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:176 [in UniMath.MoreFoundations.Equivalences]
f:176 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:176 [in UniMath.Bicategories.Core.Invertible_2cells]
f:176 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:176 [in UniMath.CategoryTheory.limits.equalizers]
f:176 [in UniMath.Combinatorics.StandardFiniteSets]
f:176 [in UniMath.Algebra.Dcpo]
f:176 [in UniMath.CategoryTheory.limits.coequalizers]
f:176 [in UniMath.CategoryTheory.Core.TwoCategories]
f:176 [in UniMath.CategoryTheory.limits.binproducts]
f:177 [in UniMath.Algebra.Modules.Core]
f:177 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:177 [in UniMath.Foundations.PartB]
f:177 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:177 [in UniMath.CategoryTheory.limits.kernels]
f:177 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:177 [in UniMath.CategoryTheory.limits.Opp]
f:177 [in UniMath.CategoryTheory.limits.pullbacks]
f:178 [in UniMath.HomologicalAlgebra.MappingCylinder]
F:178 [in UniMath.CategoryTheory.catiso]
f:178 [in UniMath.CategoryTheory.limits.bincoproducts]
f:178 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:178 [in UniMath.Algebra.Universal.HVectors]
f:178 [in UniMath.CategoryTheory.PseudoElements]
F:178 [in UniMath.Foundations.Propositions]
f:178 [in UniMath.CategoryTheory.limits.cokernels]
f:178 [in UniMath.HomologicalAlgebra.CohomologyComplex]
F:178 [in UniMath.CategoryTheory.Adjunctions.Core]
F:178 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:178 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:178 [in UniMath.Algebra.Dcpo]
f:179 [in UniMath.Bicategories.Core.BicategoryLaws]
f:179 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:179 [in UniMath.Algebra.FixedPointTheorems]
F:179 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:179 [in UniMath.CategoryTheory.ShortExactSequences]
F:179 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:179 [in UniMath.CategoryTheory.limits.cats.limits]
F:18 [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
f:18 [in UniMath.MoreFoundations.NullHomotopies]
f:18 [in UniMath.CategoryTheory.DisplayedCats.Projection]
f:18 [in UniMath.Combinatorics.Maybe]
F:18 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
f:18 [in UniMath.PAdics.z_mod_p]
F:18 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:18 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:18 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f:18 [in UniMath.Algebra.Monoids]
F:18 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
f:18 [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
F:18 [in UniMath.CategoryTheory.Core.Functors]
f:18 [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
f:18 [in UniMath.CategoryTheory.precomp_fully_faithful]
f:18 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:18 [in UniMath.CategoryTheory.AbelianToAdditive]
f:18 [in UniMath.Bicategories.Core.Examples.OneTypes]
F:18 [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
f:18 [in UniMath.CategoryTheory.categories.HSET.Limits]
f:18 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:18 [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
f:18 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:18 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
f:18 [in UniMath.CategoryTheory.Inductives.Trees]
f:18 [in UniMath.Combinatorics.Lists]
F:18 [in UniMath.Topology.Filters]
F:18 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
f:18 [in UniMath.CategoryTheory.Profunctors.Core]
f:18 [in UniMath.CategoryTheory.FunctorCoalgebras]
f:18 [in UniMath.CategoryTheory.Epis]
F:18 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:180 [in UniMath.Bicategories.Colimits.Pullback]
f:180 [in UniMath.CategoryTheory.LocalizingClass]
f:180 [in UniMath.Bicategories.Transformations.PseudoTransformation]
F:180 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:180 [in UniMath.CategoryTheory.Core.Isos]
F:180 [in UniMath.CategoryTheory.FunctorCategory]
F:180 [in UniMath.CategoryTheory.limits.products]
f:181 [in UniMath.HomologicalAlgebra.MappingCylinder]
F:181 [in UniMath.CategoryTheory.Core.Functors]
f:181 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:181 [in UniMath.CategoryTheory.limits.kernels]
f:181 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:181 [in UniMath.Bicategories.Colimits.Products]
f:181 [in UniMath.MoreFoundations.PartA]
f:181 [in UniMath.CategoryTheory.limits.Opp]
f:181 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:1814 [in UniMath.Foundations.PartA]
f:182 [in UniMath.Algebra.Modules.Core]
f:182 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:182 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:182 [in UniMath.CategoryTheory.limits.pushouts]
f:182 [in UniMath.CategoryTheory.limits.bincoproducts]
f:182 [in UniMath.Bicategories.Core.Strictness]
F:182 [in UniMath.Foundations.Propositions]
F:182 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:182 [in UniMath.CategoryTheory.limits.cokernels]
f:182 [in UniMath.CategoryTheory.limits.equalizers]
f:182 [in UniMath.HomologicalAlgebra.Triangulated]
F:182 [in UniMath.CategoryTheory.limits.products]
f:182 [in UniMath.CategoryTheory.limits.graphs.colimits]
F:182 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:182 [in UniMath.CategoryTheory.limits.coequalizers]
f:182 [in UniMath.CategoryTheory.Core.Categories]
f:183 [in UniMath.CategoryTheory.ExactCategories.Tests]
f:183 [in UniMath.CategoryTheory.Abelian]
f:183 [in UniMath.CategoryTheory.PseudoElements]
f:183 [in UniMath.Bicategories.Core.Univalence]
f:183 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:183 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
F:183 [in UniMath.Algebra.Dcpo]
f:183 [in UniMath.SyntheticHomotopyTheory.AffineLine]
F:184 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:184 [in UniMath.Bicategories.Core.Bicat]
f:184 [in UniMath.CategoryTheory.Core.Functors]
f:184 [in UniMath.CategoryTheory.limits.graphs.pushouts]
F:184 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:184 [in UniMath.CategoryTheory.limits.Opp]
f:184 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:184 [in UniMath.CategoryTheory.limits.graphs.limits]
f:1847 [in UniMath.Foundations.PartA]
f:185 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:185 [in UniMath.CategoryTheory.limits.kernels]
f:185 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:185 [in UniMath.Combinatorics.FiniteSets]
F:185 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:185 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:1854 [in UniMath.Foundations.PartA]
f:186 [in UniMath.Bicategories.Colimits.Pullback]
f:186 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:186 [in UniMath.CategoryTheory.categories.abgrs]
f:186 [in UniMath.CategoryTheory.limits.bincoproducts]
F:186 [in UniMath.CategoryTheory.FunctorCategory]
F:186 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:186 [in UniMath.CategoryTheory.limits.cokernels]
F:186 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:186 [in UniMath.MoreFoundations.PartA]
f:186 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:186 [in UniMath.Foundations.PartC]
f:186 [in UniMath.CategoryTheory.Core.Categories]
f:186 [in UniMath.CategoryTheory.limits.binproducts]
f:1862 [in UniMath.Foundations.PartA]
f:1869 [in UniMath.Foundations.PartA]
f:187 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:187 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:187 [in UniMath.Foundations.PartB]
F:187 [in UniMath.CategoryTheory.Core.Functors]
f:187 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:187 [in UniMath.CategoryTheory.Core.Isos]
f:187 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:187 [in UniMath.Bicategories.Colimits.Products]
f:187 [in UniMath.CategoryTheory.limits.pullbacks]
f:187 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:187 [in UniMath.CategoryTheory.Core.TwoCategories]
f:1876 [in UniMath.Foundations.PartA]
f:188 [in UniMath.Algebra.Modules.Core]
f:188 [in UniMath.Folds.folds_pre_2_cat]
f:188 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:188 [in UniMath.CategoryTheory.limits.equalizers]
f:188 [in UniMath.Bicategories.Core.Univalence]
f:188 [in UniMath.CategoryTheory.limits.Opp]
f:188 [in UniMath.CategoryTheory.limits.coequalizers]
f:1883 [in UniMath.Foundations.PartA]
f:189 [in UniMath.CategoryTheory.ExactCategories.Tests]
f:189 [in UniMath.Bicategories.Core.BicategoryLaws]
f:189 [in UniMath.CategoryTheory.Monads.RelativeMonads]
F:189 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:189 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:189 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:189 [in UniMath.CategoryTheory.limits.pushouts]
f:189 [in UniMath.CategoryTheory.limits.bincoproducts]
f:189 [in UniMath.CategoryTheory.limits.kernels]
f:189 [in UniMath.HomologicalAlgebra.Triangulated]
F:189 [in UniMath.CategoryTheory.limits.cats.limits]
F:189 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:189 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:1890 [in UniMath.Foundations.PartA]
f:1897 [in UniMath.Foundations.PartA]
f:19 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:19 [in UniMath.Bicategories.Core.EquivToAdjequiv]
F:19 [in UniMath.CategoryTheory.catiso]
F:19 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:19 [in UniMath.Combinatorics.Vectors]
f:19 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
f:19 [in UniMath.CategoryTheory.categories.abgrs]
f:19 [in UniMath.Algebra.FixedPointTheorems]
f:19 [in UniMath.Induction.ImpredicativeInductiveSets]
f:19 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:19 [in UniMath.Bicategories.Core.Strictness]
f:19 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:19 [in UniMath.CategoryTheory.AbelianToAdditive]
f:19 [in UniMath.Ktheory.GrothendieckGroup]
f:19 [in UniMath.CategoryTheory.Core.Isos]
f:19 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:19 [in UniMath.CategoryTheory.coslicecat]
f:19 [in UniMath.CategoryTheory.slicecat]
f:19 [in UniMath.CategoryTheory.PreAdditive]
f:19 [in UniMath.SubstitutionSystems.SubstitutionSystems]
f:19 [in UniMath.Bicategories.PseudoFunctors.Yoneda]
f:19 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
F:19 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:19 [in UniMath.CategoryTheory.limits.graphs.initial]
f:19 [in UniMath.MoreFoundations.PartA]
f:19 [in UniMath.Algebra.Modules.Examples]
f:19 [in UniMath.MoreFoundations.QuotientSet]
f:19 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:19 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:19 [in UniMath.Algebra.Dcpo]
f:19 [in UniMath.SyntheticHomotopyTheory.Test]
f:19 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:19 [in UniMath.Foundations.PartA]
F:19 [in UniMath.CategoryTheory.PointedFunctors]
f:19 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
F:19 [in UniMath.SubstitutionSystems.MultiSorted]
f:19 [in UniMath.SyntheticHomotopyTheory.Circle2]
f:190 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:190 [in UniMath.CategoryTheory.LocalizingClass]
f:190 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:190 [in UniMath.CategoryTheory.limits.cokernels]
f:190 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:190 [in UniMath.CategoryTheory.PreAdditive]
f:190 [in UniMath.Combinatorics.WellOrderedSets]
f:190 [in UniMath.CategoryTheory.ShortExactSequences]
F:190 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:190 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:1906 [in UniMath.Foundations.PartA]
f:191 [in UniMath.CategoryTheory.Monads.RelativeModules]
f:191 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:191 [in UniMath.Bicategories.Core.Strictness]
F:191 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:191 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:191 [in UniMath.Bicategories.Core.Invertible_2cells]
f:191 [in UniMath.Bicategories.Core.Univalence]
f:191 [in UniMath.CategoryTheory.Adjunctions.Core]
F:191 [in UniMath.Topology.Filters]
f:191 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:1915 [in UniMath.Foundations.PartA]
f:192 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:192 [in UniMath.Bicategories.Core.Bicat]
f:192 [in UniMath.Foundations.PartD]
f:192 [in UniMath.CategoryTheory.limits.bincoproducts]
f:192 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:192 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:192 [in UniMath.Foundations.PartC]
f:192 [in UniMath.CategoryTheory.Core.TwoCategories]
f:192 [in UniMath.CategoryTheory.Core.Categories]
f:1925 [in UniMath.Foundations.PartA]
f:193 [in UniMath.Algebra.Modules.Core]
f:193 [in UniMath.Bicategories.Colimits.Pullback]
f:193 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:193 [in UniMath.Folds.folds_pre_2_cat]
f:193 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:193 [in UniMath.CategoryTheory.FunctorCategory]
F:193 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:193 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
F:193 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:193 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:193 [in UniMath.Combinatorics.WellOrderedSets]
f:193 [in UniMath.CategoryTheory.limits.coequalizers]
f:1939 [in UniMath.Foundations.PartA]
f:194 [in UniMath.Bicategories.Core.BicategoryLaws]
f:194 [in UniMath.CategoryTheory.Core.Functors]
f:194 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:194 [in UniMath.CategoryTheory.PseudoElements]
f:194 [in UniMath.CategoryTheory.limits.cokernels]
f:194 [in UniMath.CategoryTheory.limits.equalizers]
f:194 [in UniMath.Bicategories.Core.Univalence]
f:194 [in UniMath.CategoryTheory.PreAdditive]
f:194 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:194 [in UniMath.CategoryTheory.limits.graphs.colimits]
F:194 [in UniMath.Topology.Filters]
f:194 [in UniMath.Combinatorics.FiniteSequences]
f:1947 [in UniMath.Foundations.PartA]
f:195 [in UniMath.CategoryTheory.categories.abgrs]
f:195 [in UniMath.Foundations.PartB]
F:195 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:195 [in UniMath.Bicategories.Core.Strictness]
f:195 [in UniMath.Bicategories.Core.Invertible_2cells]
f:195 [in UniMath.Combinatorics.FiniteSequences]
f:1955 [in UniMath.Foundations.PartA]
f:196 [in UniMath.CategoryTheory.limits.pushouts]
f:196 [in UniMath.CategoryTheory.limits.bincoproducts]
f:196 [in UniMath.CategoryTheory.limits.kernels]
f:196 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:196 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:196 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:196 [in UniMath.CategoryTheory.limits.binproducts]
f:1965 [in UniMath.Foundations.PartA]
f:197 [in UniMath.Bicategories.Core.Bicat]
F:197 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:197 [in UniMath.CategoryTheory.Core.Functors]
f:197 [in UniMath.Bicategories.Core.Strictness]
F:197 [in UniMath.CategoryTheory.FunctorCategory]
f:197 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:197 [in UniMath.Bicategories.Core.Univalence]
f:197 [in UniMath.HomologicalAlgebra.Complexes]
F:197 [in UniMath.Topology.Filters]
f:197 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:197 [in UniMath.CategoryTheory.Core.TwoCategories]
f:1974 [in UniMath.Foundations.PartA]
f:198 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:198 [in UniMath.Folds.folds_pre_2_cat]
F:198 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:198 [in UniMath.CategoryTheory.Core.Isos]
f:198 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:198 [in UniMath.CategoryTheory.limits.cokernels]
f:198 [in UniMath.HomologicalAlgebra.CohomologyComplex]
F:198 [in UniMath.CategoryTheory.limits.cats.limits]
F:198 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:198 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:198 [in UniMath.Foundations.PartA]
f:199 [in UniMath.Bicategories.Core.BicategoryLaws]
f:199 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:199 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:199 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:199 [in UniMath.Bicategories.Core.Invertible_2cells]
F:2 [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
F:2 [in UniMath.SubstitutionSystems.GenMendlerIteration]
F:2 [in UniMath.CategoryTheory.Presheaf]
f:2 [in UniMath.Algebra.Modules.Core]
F:2 [in UniMath.CategoryTheory.Monads.Monads]
F:2 [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
F:2 [in UniMath.CategoryTheory.FunctorAlgebras]
F:2 [in UniMath.CategoryTheory.SetValuedFunctors]
F:2 [in UniMath.Topology.Filters]
F:2 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
f:2 [in UniMath.SyntheticHomotopyTheory.Test]
F:2 [in UniMath.CategoryTheory.PointedFunctors]
F:2 [in UniMath.CategoryTheory.FunctorCoalgebras]
f:2 [in UniMath.SyntheticHomotopyTheory.Halfline]
f:2 [in UniMath.Induction.W.Naturals]
F:2 [in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
f:20 [in UniMath.CategoryTheory.ExactCategories.Tests]
F:20 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:20 [in UniMath.Induction.W.Fibered]
f:20 [in UniMath.CategoryTheory.AdditiveFunctors]
f:20 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:20 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
f:20 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:20 [in UniMath.Bicategories.Core.YonedaLemma]
f:20 [in UniMath.CategoryTheory.limits.graphs.kernels]
f:20 [in UniMath.CategoryTheory.limits.graphs.terminal]
f:20 [in UniMath.Bicategories.Core.Bicat]
F:20 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:20 [in UniMath.MoreFoundations.Sets]
f:20 [in UniMath.CategoryTheory.limits.graphs.cokernels]
f:20 [in UniMath.CategoryTheory.categories.modules]
f:20 [in UniMath.Bicategories.Core.Adjunctions]
F:20 [in UniMath.CategoryTheory.ProductCategory]
f:20 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:20 [in UniMath.CategoryTheory.limits.pushouts]
f:20 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:20 [in UniMath.CategoryTheory.Monads.MonadAlgebras]
f:20 [in UniMath.CategoryTheory.covyoneda]
f:20 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:20 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
f:20 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:20 [in UniMath.SubstitutionSystems.Lam]
f:20 [in UniMath.CategoryTheory.limits.FinOrdCoproducts]
f:20 [in UniMath.CategoryTheory.categories.HSET.Slice]
f:20 [in UniMath.Bicategories.WkCatEnrichment.Cat]
F:20 [in UniMath.CategoryTheory.Adjunctions.Core]
f:20 [in UniMath.CategoryTheory.ShortExactSequences]
F:20 [in UniMath.CategoryTheory.Equivalences.Core]
f:20 [in UniMath.CategoryTheory.Monics]
f:20 [in UniMath.CategoryTheory.LatticeObject]
f:20 [in UniMath.CategoryTheory.limits.FinOrdProducts]
f:20 [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
f:20 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:20 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
F:20 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
F:20 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:20 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:20 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:20 [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
f:200 [in UniMath.CategoryTheory.LocalizingClass]
f:200 [in UniMath.Foundations.PartD]
f:200 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:200 [in UniMath.CategoryTheory.limits.equalizers]
f:200 [in UniMath.Bicategories.Core.Univalence]
f:200 [in UniMath.CategoryTheory.ShortExactSequences]
F:200 [in UniMath.CategoryTheory.PrecategoryBinProduct]
F:200 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:200 [in UniMath.Topology.Filters]
f:200 [in UniMath.CategoryTheory.Core.Categories]
f:201 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:201 [in UniMath.CategoryTheory.categories.abgrs]
F:201 [in UniMath.CategoryTheory.Core.Functors]
f:201 [in UniMath.CategoryTheory.limits.bincoproducts]
F:201 [in UniMath.CategoryTheory.FunctorCategory]
f:201 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:201 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:201 [in UniMath.CategoryTheory.limits.pullbacks]
f:201 [in UniMath.PAdics.fps]
f:201 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:202 [in UniMath.Algebra.Modules.Core]
f:202 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:202 [in UniMath.Algebra.Monoids]
f:202 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:202 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:203 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:203 [in UniMath.CategoryTheory.limits.pushouts]
f:203 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:203 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:203 [in UniMath.Bicategories.Core.Invertible_2cells]
f:203 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:203 [in UniMath.Bicategories.Core.Univalence]
f:203 [in UniMath.CategoryTheory.PreAdditive]
f:203 [in UniMath.HomologicalAlgebra.CohomologyComplex]
F:203 [in UniMath.Topology.Filters]
f:203 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:204 [in UniMath.Bicategories.Core.BicategoryLaws]
f:204 [in UniMath.Bicategories.Core.FullyFaithful]
f:204 [in UniMath.Bicategories.Core.Bicat]
f:204 [in UniMath.CategoryTheory.PseudoElements]
f:204 [in UniMath.CategoryTheory.limits.kernels]
F:204 [in UniMath.CategoryTheory.Adjunctions.Core]
f:205 [in UniMath.Algebra.Monoids]
f:205 [in UniMath.Foundations.PartB]
f:205 [in UniMath.CategoryTheory.Core.Functors]
f:205 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:205 [in UniMath.Folds.folds_pre_2_cat]
f:205 [in UniMath.Bicategories.Core.Strictness]
f:205 [in UniMath.CategoryTheory.limits.cokernels]
f:205 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:205 [in UniMath.CategoryTheory.limits.equalizers]
F:205 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:205 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:205 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:205 [in UniMath.CategoryTheory.limits.cats.limits]
f:205 [in UniMath.HomologicalAlgebra.Complexes]
f:205 [in UniMath.Foundations.PartA]
f:206 [in UniMath.Algebra.Modules.Core]
f:206 [in UniMath.CategoryTheory.limits.bincoproducts]
f:206 [in UniMath.Bicategories.Core.Strictness]
f:206 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:206 [in UniMath.CategoryTheory.Core.Isos]
f:206 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:206 [in UniMath.Topology.Filters]
f:206 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:207 [in UniMath.CategoryTheory.categories.abgrs]
f:207 [in UniMath.Bicategories.Core.Strictness]
f:207 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:207 [in UniMath.CategoryTheory.PreAdditive]
f:207 [in UniMath.CategoryTheory.limits.graphs.colimits]
f:207 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:207 [in UniMath.Algebra.Dcpo]
f:207 [in UniMath.CategoryTheory.Core.TwoCategories]
f:208 [in UniMath.Bicategories.Core.FullyFaithful]
f:208 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:208 [in UniMath.CategoryTheory.LocalizingClass]
f:208 [in UniMath.Algebra.Monoids]
f:208 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:208 [in UniMath.Bicategories.Core.Strictness]
f:208 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:208 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:208 [in UniMath.Bicategories.Core.Univalence]
f:208 [in UniMath.CategoryTheory.ShortExactSequences]
f:208 [in UniMath.CategoryTheory.limits.Opp]
f:208 [in UniMath.CategoryTheory.limits.pullbacks]
f:208 [in UniMath.CategoryTheory.limits.binproducts]
f:209 [in UniMath.Foundations.PartD]
f:209 [in UniMath.Bicategories.Core.Strictness]
F:209 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:209 [in UniMath.CategoryTheory.FunctorCategory]
f:209 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:209 [in UniMath.Bicategories.Core.Invertible_2cells]
f:209 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:209 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:209 [in UniMath.Algebra.Dcpo]
f:209 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:209 [in UniMath.CategoryTheory.Core.Categories]
f:2090 [in UniMath.Foundations.PartA]
f:2098 [in UniMath.Foundations.PartA]
f:21 [in UniMath.SubstitutionSystems.GenMendlerIteration]
f:21 [in UniMath.Bicategories.Transformations.Examples.Whiskering]
f:21 [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
f:21 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:21 [in UniMath.Bicategories.Transformations.PseudoTransformation]
F:21 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:21 [in UniMath.Algebra.Monoids]
f:21 [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
f:21 [in UniMath.Foundations.PartB]
f:21 [in UniMath.CategoryTheory.limits.initial]
f:21 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:21 [in UniMath.Bicategories.DisplayedBicats.DispModification]
f:21 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:21 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:21 [in UniMath.CategoryTheory.opp_precat]
f:21 [in UniMath.CategoryTheory.limits.zero]
f:21 [in UniMath.CategoryTheory.coslicecat]
f:21 [in UniMath.CategoryTheory.limits.FinOrdCoproducts]
f:21 [in UniMath.Bicategories.Colimits.Final]
f:21 [in UniMath.Bicategories.Discreteness]
F:21 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:21 [in UniMath.CategoryTheory.limits.FinOrdProducts]
f:21 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
F:21 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:21 [in UniMath.CategoryTheory.limits.pullbacks]
F:21 [in UniMath.CategoryTheory.Profunctors.Core]
f:21 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:21 [in UniMath.Bicategories.Core.TransportLaws]
f:21 [in UniMath.CategoryTheory.Epis]
f:21 [in UniMath.Bicategories.Colimits.Initial]
F:21 [in UniMath.Bicategories.Core.Examples.StrictCats]
F:21 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:21 [in UniMath.MoreFoundations.Nat]
F:21 [in UniMath.SubstitutionSystems.MultiSorted]
f:21 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:21 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:21 [in UniMath.CategoryTheory.Monads.KTriples]
f:21 [in UniMath.CategoryTheory.limits.graphs.limits]
F:210 [in UniMath.CategoryTheory.Core.Functors]
f:210 [in UniMath.CategoryTheory.limits.pushouts]
f:210 [in UniMath.CategoryTheory.limits.bincoproducts]
f:210 [in UniMath.CategoryTheory.Core.Isos]
f:210 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:210 [in UniMath.CategoryTheory.Adjunctions.Core]
F:210 [in UniMath.CategoryTheory.PrecategoryBinProduct]
F:210 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:210 [in UniMath.CategoryTheory.limits.cats.limits]
F:210 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:210 [in UniMath.Topology.Filters]
f:2106 [in UniMath.Foundations.PartA]
f:211 [in UniMath.Bicategories.Core.BicategoryLaws]
F:211 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:211 [in UniMath.Foundations.Propositions]
f:211 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:211 [in UniMath.CategoryTheory.limits.equalizers]
f:211 [in UniMath.Combinatorics.StandardFiniteSets]
f:211 [in UniMath.HomologicalAlgebra.MappingCone]
f:2114 [in UniMath.Foundations.PartA]
f:212 [in UniMath.Bicategories.Core.FullyFaithful]
f:212 [in UniMath.CategoryTheory.Abelian]
f:212 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:212 [in UniMath.Algebra.Modules.Core]
F:212 [in UniMath.Bicategories.Colimits.Pullback]
f:212 [in UniMath.Bicategories.Core.Strictness]
F:212 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:212 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:212 [in UniMath.CategoryTheory.Core.TwoCategories]
f:2122 [in UniMath.Foundations.PartA]
f:213 [in UniMath.CategoryTheory.Abelian]
f:213 [in UniMath.Bicategories.Core.Bicat]
f:213 [in UniMath.CategoryTheory.categories.abgrs]
f:213 [in UniMath.Algebra.BinaryOperations]
f:213 [in UniMath.Folds.folds_pre_2_cat]
f:213 [in UniMath.CategoryTheory.FunctorCategory]
f:213 [in UniMath.CategoryTheory.limits.cokernels]
f:213 [in UniMath.Bicategories.Core.Univalence]
f:213 [in UniMath.HomologicalAlgebra.CohomologyComplex]
F:213 [in UniMath.CategoryTheory.limits.cats.limits]
f:213 [in UniMath.HomologicalAlgebra.Complexes]
f:2130 [in UniMath.Foundations.PartA]
f:214 [in UniMath.CategoryTheory.Abelian]
f:214 [in UniMath.Algebra.BinaryOperations]
F:214 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F:214 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:214 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:214 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:214 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:2141 [in UniMath.Foundations.PartA]
f:2148 [in UniMath.Foundations.PartA]
f:215 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
F:215 [in UniMath.CategoryTheory.Core.Functors]
F:215 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:215 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:215 [in UniMath.CategoryTheory.PseudoElements]
f:215 [in UniMath.CategoryTheory.Core.Isos]
f:215 [in UniMath.CategoryTheory.limits.kernels]
f:215 [in UniMath.CategoryTheory.Adjunctions.Core]
F:215 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:215 [in UniMath.Combinatorics.StandardFiniteSets]
f:215 [in UniMath.HomologicalAlgebra.MappingCone]
f:2155 [in UniMath.Foundations.PartA]
f:216 [in UniMath.Bicategories.Core.BicategoryLaws]
F:216 [in UniMath.Bicategories.Core.FullyFaithful]
f:216 [in UniMath.Algebra.Modules.Core]
f:216 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:216 [in UniMath.CategoryTheory.limits.bincoproducts]
f:216 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:216 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:216 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:216 [in UniMath.CategoryTheory.limits.cats.limits]
f:216 [in UniMath.CategoryTheory.limits.Opp]
f:216 [in UniMath.CategoryTheory.Core.Categories]
f:216 [in UniMath.CategoryTheory.limits.binproducts]
f:2169 [in UniMath.Foundations.PartA]
F:217 [in UniMath.Bicategories.Colimits.Pullback]
F:217 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:217 [in UniMath.Bicategories.Core.Invertible_2cells]
f:217 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:217 [in UniMath.Combinatorics.StandardFiniteSets]
f:217 [in UniMath.Foundations.PartA]
f:217 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:217 [in UniMath.CategoryTheory.Core.TwoCategories]
f:217 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:2177 [in UniMath.Foundations.PartA]
f:218 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
F:218 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:218 [in UniMath.HomologicalAlgebra.MappingCone]
f:219 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:219 [in UniMath.CategoryTheory.LocalizingClass]
f:219 [in UniMath.Foundations.PartD]
F:219 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:219 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:219 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:219 [in UniMath.Algebra.GroupAction]
f:219 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:219 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:219 [in UniMath.CategoryTheory.limits.pullbacks]
f:2193 [in UniMath.Foundations.PartA]
f:22 [in UniMath.Bicategories.Core.UnivalenceOp]
f:22 [in UniMath.AlgebraicGeometry.SheavesOfRings]
f:22 [in UniMath.CategoryTheory.categories.rings]
f:22 [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
f:22 [in UniMath.Bicategories.Core.BicategoryLaws]
F:22 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
f:22 [in UniMath.CategoryTheory.Elements]
f:22 [in UniMath.CategoryTheory.categories.setwith2binops]
f:22 [in UniMath.CategoryTheory.categories.grs]
F:22 [in UniMath.CategoryTheory.catiso]
f:22 [in UniMath.CategoryTheory.categories.flds]
f:22 [in UniMath.CategoryTheory.LocalizingClass]
f:22 [in UniMath.CategoryTheory.categories.abgrs]
f:22 [in UniMath.MoreFoundations.Equivalences]
f:22 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:22 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
f:22 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:22 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
F:22 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:22 [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
f:22 [in UniMath.CategoryTheory.FunctorAlgebras]
f:22 [in UniMath.CategoryTheory.coslicecat]
f:22 [in UniMath.CategoryTheory.limits.FinOrdCoproducts]
f:22 [in UniMath.SubstitutionSystems.SubstitutionSystems]
f:22 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
f:22 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:22 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:22 [in UniMath.CategoryTheory.categories.commrigs]
f:22 [in UniMath.Folds.folds_isomorphism]
f:22 [in UniMath.CategoryTheory.limits.graphs.initial]
F:22 [in UniMath.CategoryTheory.limits.cats.limits]
f:22 [in UniMath.CategoryTheory.LatticeObject]
f:22 [in UniMath.MoreFoundations.Univalence]
F:22 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
f:22 [in UniMath.CategoryTheory.limits.FinOrdProducts]
f:22 [in UniMath.CategoryTheory.categories.rigs]
f:22 [in UniMath.Combinatorics.Lists]
f:22 [in UniMath.HomologicalAlgebra.MappingCone]
f:22 [in UniMath.CategoryTheory.categories.monoids]
f:22 [in UniMath.CategoryTheory.categories.intdoms]
f:22 [in UniMath.CategoryTheory.FunctorCoalgebras]
F:22 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
F:22 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
f:22 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:22 [in UniMath.CategoryTheory.categories.commrings]
F:22 [in UniMath.Foundations.Tests]
f:22 [in UniMath.CategoryTheory.categories.abmonoids]
f:220 [in UniMath.Algebra.Modules.Core]
f:220 [in UniMath.CategoryTheory.categories.abgrs]
f:220 [in UniMath.CategoryTheory.Core.Functors]
f:220 [in UniMath.CategoryTheory.Core.Isos]
f:220 [in UniMath.Bicategories.Core.Univalence]
F:220 [in UniMath.CategoryTheory.PrecategoryBinProduct]
F:220 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:220 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:220 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:2200 [in UniMath.Foundations.PartA]
F:221 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:221 [in UniMath.Folds.folds_pre_2_cat]
f:221 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:221 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:221 [in UniMath.HomologicalAlgebra.Complexes]
f:2211 [in UniMath.Foundations.PartA]
f:2216 [in UniMath.Foundations.PartA]
f:222 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:222 [in UniMath.Bicategories.Core.Bicat]
F:222 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:222 [in UniMath.CategoryTheory.PseudoElements]
F:222 [in UniMath.CategoryTheory.FunctorCategory]
F:222 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:222 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:222 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:222 [in UniMath.HomologicalAlgebra.MappingCone]
f:222 [in UniMath.Foundations.PartA]
f:222 [in UniMath.CategoryTheory.Core.Categories]
f:2221 [in UniMath.Foundations.PartA]
f:2228 [in UniMath.Foundations.PartA]
f:223 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:223 [in UniMath.CategoryTheory.limits.pushouts]
f:223 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:223 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:223 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:223 [in UniMath.CategoryTheory.limits.cats.limits]
f:223 [in UniMath.CategoryTheory.limits.Opp]
F:223 [in UniMath.Topology.Filters]
f:223 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:224 [in UniMath.CategoryTheory.limits.pushouts]
f:224 [in UniMath.CategoryTheory.limits.cokernels]
f:224 [in UniMath.CategoryTheory.Adjunctions.Core]
f:224 [in UniMath.CategoryTheory.limits.graphs.colimits]
f:224 [in UniMath.HomologicalAlgebra.TranslationFunctors]
F:225 [in UniMath.Bicategories.Core.FullyFaithful]
f:225 [in UniMath.Algebra.Modules.Core]
f:225 [in UniMath.CategoryTheory.FunctorCategory]
f:225 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:225 [in UniMath.CategoryTheory.PreAdditive]
F:225 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:225 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:225 [in UniMath.HomologicalAlgebra.MappingCone]
f:2253 [in UniMath.Foundations.PartA]
f:226 [in UniMath.Bicategories.Core.Strictness]
F:226 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:226 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:226 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:226 [in UniMath.Topology.Filters]
f:226 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:226 [in UniMath.CategoryTheory.limits.pullbacks]
f:226 [in UniMath.CategoryTheory.Core.TwoCategories]
f:227 [in UniMath.CategoryTheory.categories.abgrs]
f:227 [in UniMath.CategoryTheory.Core.Isos]
f:227 [in UniMath.Bicategories.Core.Univalence]
f:227 [in UniMath.Combinatorics.StandardFiniteSets]
f:228 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:228 [in UniMath.CategoryTheory.Core.Functors]
f:228 [in UniMath.CategoryTheory.limits.pushouts]
f:228 [in UniMath.Algebra.Universal.Terms]
f:228 [in UniMath.Foundations.UnivalenceAxiom]
f:228 [in UniMath.Bicategories.Core.AdjointUnique]
F:228 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:228 [in UniMath.CategoryTheory.limits.cats.limits]
f:228 [in UniMath.MoreFoundations.PartA]
f:228 [in UniMath.CategoryTheory.limits.Opp]
f:228 [in UniMath.CategoryTheory.Core.Categories]
f:229 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:229 [in UniMath.CategoryTheory.LocalizingClass]
f:229 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:229 [in UniMath.CategoryTheory.PseudoElements]
F:229 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:229 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:229 [in UniMath.CategoryTheory.ShortExactSequences]
F:229 [in UniMath.Topology.Filters]
f:229 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:2299 [in UniMath.Foundations.PartA]
f:23 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
F:23 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:23 [in UniMath.MoreFoundations.NullHomotopies]
f:23 [in UniMath.Induction.W.Fibered]
F:23 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
F:23 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:23 [in UniMath.CategoryTheory.category_binops]
f:23 [in UniMath.Bicategories.Core.YonedaLemma]
f:23 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:23 [in UniMath.Bicategories.Core.Bicat]
F:23 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:23 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
F:23 [in UniMath.Induction.W.Uniqueness]
f:23 [in UniMath.CategoryTheory.Monads.MonadAlgebras]
f:23 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:23 [in UniMath.Induction.M.ComputationalM]
f:23 [in UniMath.CategoryTheory.Core.Isos]
f:23 [in UniMath.Folds.folds_precat]
f:23 [in UniMath.CategoryTheory.limits.FinOrdCoproducts]
f:23 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
f:23 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
F:23 [in UniMath.CategoryTheory.Chains.Cochains]
f:23 [in UniMath.CategoryTheory.categories.HSET.Limits]
f:23 [in UniMath.CategoryTheory.HorizontalComposition]
F:23 [in UniMath.Induction.M.Uniqueness]
f:23 [in UniMath.CategoryTheory.limits.graphs.binproducts]
f:23 [in UniMath.HomologicalAlgebra.KA]
f:23 [in UniMath.CategoryTheory.Monics]
F:23 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:23 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:23 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
f:23 [in UniMath.Bicategories.Modifications.Modification]
F:23 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:23 [in UniMath.CategoryTheory.limits.FinOrdProducts]
f:23 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
F:23 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:23 [in UniMath.Topology.Filters]
f:23 [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
f:23 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:23 [in UniMath.Algebra.Dcpo]
F:23 [in UniMath.CategoryTheory.PointedFunctors]
F:23 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
F:23 [in UniMath.Bicategories.Core.Examples.StrictCats]
F:23 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:23 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:23 [in UniMath.MoreFoundations.Nat]
f:23 [in UniMath.Paradoxes.GirardsParadox]
f:230 [in UniMath.Algebra.Modules.Core]
f:230 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:230 [in UniMath.Bicategories.Core.Bicat]
f:230 [in UniMath.CategoryTheory.categories.abgrs]
f:230 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:230 [in UniMath.Bicategories.Core.Univalence]
F:230 [in UniMath.CategoryTheory.PrecategoryBinProduct]
F:230 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:230 [in UniMath.HomologicalAlgebra.Complexes]
f:230 [in UniMath.HomologicalAlgebra.MappingCone]
f:230 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:231 [in UniMath.Foundations.UnivalenceAxiom]
F:231 [in UniMath.CategoryTheory.FunctorCategory]
f:231 [in UniMath.CategoryTheory.Adjunctions.Core]
f:231 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
F:231 [in UniMath.Topology.Filters]
f:231 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:2310 [in UniMath.Foundations.PartA]
F:232 [in UniMath.CategoryTheory.Core.Functors]
f:232 [in UniMath.Bicategories.Core.Strictness]
F:232 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:232 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:232 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:233 [in UniMath.Bicategories.Core.FullyFaithful]
f:233 [in UniMath.CategoryTheory.categories.abgrs]
f:233 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:233 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:233 [in UniMath.CategoryTheory.Core.Isos]
f:233 [in UniMath.Bicategories.Core.Univalence]
f:233 [in UniMath.CategoryTheory.PreAdditive]
f:233 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:233 [in UniMath.Topology.Filters]
f:233 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:233 [in UniMath.CategoryTheory.limits.pullbacks]
f:233 [in UniMath.HomologicalAlgebra.MappingCone]
f:234 [in UniMath.CategoryTheory.AdditiveFunctors]
f:234 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:234 [in UniMath.Foundations.PartD]
f:234 [in UniMath.Algebra.Monoids]
f:234 [in UniMath.CategoryTheory.ShortExactSequences]
f:235 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:235 [in UniMath.Folds.folds_pre_2_cat]
f:235 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:235 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:235 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:235 [in UniMath.CategoryTheory.PrecategoryBinProduct]
F:235 [in UniMath.Topology.Filters]
f:235 [in UniMath.Foundations.PartA]
f:235 [in UniMath.CategoryTheory.Core.TwoCategories]
f:235 [in UniMath.CategoryTheory.Core.Categories]
f:2359 [in UniMath.Foundations.PartA]
f:236 [in UniMath.Algebra.Modules.Core]
f:236 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:236 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:236 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:236 [in UniMath.Bicategories.Core.Univalence]
f:236 [in UniMath.CategoryTheory.Adjunctions.Core]
f:236 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:236 [in UniMath.CategoryTheory.limits.Opp]
f:236 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:236 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:236 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:237 [in UniMath.CategoryTheory.Core.Functors]
f:237 [in UniMath.CategoryTheory.limits.pushouts]
F:237 [in UniMath.CategoryTheory.FunctorCategory]
f:237 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:237 [in UniMath.Combinatorics.StandardFiniteSets]
F:237 [in UniMath.Topology.Filters]
f:237 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:237 [in UniMath.CategoryTheory.limits.binproducts]
f:2375 [in UniMath.Foundations.PartA]
f:238 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:238 [in UniMath.Bicategories.Core.Bicat]
f:238 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:238 [in UniMath.CategoryTheory.PseudoElements]
f:238 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:238 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:238 [in UniMath.MoreFoundations.PartA]
f:238 [in UniMath.HomologicalAlgebra.Complexes]
f:238 [in UniMath.Foundations.PartC]
f:239 [in UniMath.CategoryTheory.LocalizingClass]
f:239 [in UniMath.CategoryTheory.categories.abgrs]
f:239 [in UniMath.Algebra.Monoids]
f:239 [in UniMath.Bicategories.Core.AdjointUnique]
f:239 [in UniMath.CategoryTheory.Core.Isos]
f:239 [in UniMath.Bicategories.Core.Univalence]
f:239 [in UniMath.CategoryTheory.ShortExactSequences]
F:239 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:239 [in UniMath.Topology.Filters]
f:239 [in UniMath.HomologicalAlgebra.MappingCone]
F:24 [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
F:24 [in UniMath.AlgebraicGeometry.SheavesOfRings]
f:24 [in UniMath.CategoryTheory.Inductives.Lists]
f:24 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:24 [in UniMath.Bicategories.Core.FullyFaithful]
f:24 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f:24 [in UniMath.Bicategories.Transformations.Examples.Whiskering]
f:24 [in UniMath.CategoryTheory.Monads.RelativeModules]
f:24 [in UniMath.CategoryTheory.limits.graphs.kernels]
F:24 [in UniMath.CategoryTheory.Subcategory.Full]
f:24 [in UniMath.MoreFoundations.Sets]
f:24 [in UniMath.HomologicalAlgebra.KATriangulated]
f:24 [in UniMath.CategoryTheory.limits.graphs.cokernels]
f:24 [in UniMath.Foundations.PartB]
F:24 [in UniMath.CategoryTheory.Core.Functors]
f:24 [in UniMath.Induction.W.Uniqueness]
f:24 [in UniMath.Bicategories.Core.Strictness]
f:24 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F:24 [in UniMath.CategoryTheory.CategoryEquality]
f:24 [in UniMath.CategoryTheory.covyoneda]
f:24 [in UniMath.CategoryTheory.limits.kernels]
f:24 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:24 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:24 [in UniMath.CategoryTheory.limits.cokernels]
f:24 [in UniMath.CategoryTheory.slicecat]
f:24 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:24 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:24 [in UniMath.Induction.M.Uniqueness]
f:24 [in UniMath.HomologicalAlgebra.Triangulated]
F:24 [in UniMath.CategoryTheory.Equivalences.Core]
f:24 [in UniMath.CategoryTheory.LatticeObject]
f:24 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
F:24 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:24 [in UniMath.CategoryTheory.Core.TransportMorphisms]
f:24 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:24 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:24 [in UniMath.Algebra.Dcpo]
f:24 [in UniMath.Foundations.Sets]
f:24 [in UniMath.CategoryTheory.limits.graphs.zero]
F:24 [in UniMath.CategoryTheory.PointedFunctors]
f:24 [in UniMath.CategoryTheory.Epis]
f:24 [in UniMath.Bicategories.Core.Unitors]
f:24 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:24 [in UniMath.CategoryTheory.DisplayedCats.SIP]
f:240 [in UniMath.CategoryTheory.AdditiveFunctors]
F:240 [in UniMath.Bicategories.Core.FullyFaithful]
f:240 [in UniMath.Folds.folds_pre_2_cat]
f:240 [in UniMath.Bicategories.Core.Strictness]
F:240 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
F:240 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:240 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:240 [in UniMath.Combinatorics.StandardFiniteSets]
f:240 [in UniMath.CategoryTheory.limits.pullbacks]
f:240 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:2408 [in UniMath.Foundations.PartA]
f:241 [in UniMath.Algebra.Modules.Core]
f:241 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:241 [in UniMath.Bicategories.Core.Bicat]
F:241 [in UniMath.CategoryTheory.Core.Functors]
f:241 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:241 [in UniMath.Foundations.PartA]
f:241 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:2414 [in UniMath.Foundations.PartA]
f:242 [in UniMath.Bicategories.Core.AdjointUnique]
F:242 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:242 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:242 [in UniMath.Bicategories.Core.Univalence]
F:242 [in UniMath.Topology.Filters]
f:242 [in UniMath.CategoryTheory.Core.Categories]
f:2425 [in UniMath.Foundations.PartA]
f:243 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:243 [in UniMath.CategoryTheory.limits.bincoproducts]
F:243 [in UniMath.CategoryTheory.FunctorCategory]
f:243 [in UniMath.Algebra.Groups]
f:243 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:243 [in UniMath.CategoryTheory.Adjunctions.Core]
f:243 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:243 [in UniMath.Combinatorics.StandardFiniteSets]
f:243 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:243 [in UniMath.CategoryTheory.Core.TwoCategories]
f:2436 [in UniMath.Foundations.PartA]
F:244 [in UniMath.Bicategories.Core.FullyFaithful]
f:244 [in UniMath.Bicategories.Core.Bicat]
f:244 [in UniMath.CategoryTheory.limits.pushouts]
f:244 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:244 [in UniMath.HomologicalAlgebra.Triangulated]
f:244 [in UniMath.CategoryTheory.ShortExactSequences]
f:244 [in UniMath.CategoryTheory.limits.Opp]
f:2445 [in UniMath.Foundations.PartA]
f:245 [in UniMath.CategoryTheory.categories.abgrs]
f:245 [in UniMath.Algebra.Monoids]
f:245 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:245 [in UniMath.Bicategories.Core.AdjointUnique]
f:245 [in UniMath.CategoryTheory.PseudoElements]
F:245 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:245 [in UniMath.CategoryTheory.limits.cats.limits]
f:245 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:245 [in UniMath.HomologicalAlgebra.MappingCone]
f:2454 [in UniMath.Foundations.PartA]
f:246 [in UniMath.CategoryTheory.AdditiveFunctors]
f:246 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:246 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:246 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:246 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:246 [in UniMath.MoreFoundations.PartA]
f:246 [in UniMath.Combinatorics.StandardFiniteSets]
f:2463 [in UniMath.Foundations.PartA]
f:2469 [in UniMath.Foundations.PartA]
f:247 [in UniMath.Algebra.Modules.Core]
f:247 [in UniMath.Bicategories.Core.Bicat]
F:247 [in UniMath.CategoryTheory.Core.Functors]
f:247 [in UniMath.CategoryTheory.DisplayedCats.Core]
F:247 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:247 [in UniMath.Bicategories.Core.Univalence]
F:247 [in UniMath.CategoryTheory.limits.cats.limits]
F:247 [in UniMath.Topology.Filters]
f:247 [in UniMath.CategoryTheory.limits.pullbacks]
f:247 [in UniMath.Foundations.PartC]
f:247 [in UniMath.Foundations.PartA]
f:247 [in UniMath.CategoryTheory.limits.graphs.limits]
f:2475 [in UniMath.Foundations.PartA]
F:248 [in UniMath.Bicategories.Core.FullyFaithful]
f:248 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:248 [in UniMath.Combinatorics.FiniteSets]
f:248 [in UniMath.CategoryTheory.Core.TwoCategories]
f:2482 [in UniMath.Foundations.PartA]
F:249 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:249 [in UniMath.CategoryTheory.LocalizingClass]
f:249 [in UniMath.CategoryTheory.limits.graphs.pushouts]
F:249 [in UniMath.CategoryTheory.limits.bincoproducts]
f:249 [in UniMath.Bicategories.Core.AdjointUnique]
f:249 [in UniMath.CategoryTheory.limits.kernels]
F:249 [in UniMath.CategoryTheory.FunctorCategory]
f:249 [in UniMath.Algebra.Groups]
f:249 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:249 [in UniMath.CategoryTheory.ShortExactSequences]
f:249 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:249 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:249 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:249 [in UniMath.CategoryTheory.limits.graphs.limits]
f:2492 [in UniMath.Foundations.PartA]
F:25 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
F:25 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:25 [in UniMath.AlgebraicGeometry.SheavesOfRings]
F:25 [in UniMath.CategoryTheory.AdditiveFunctors]
f:25 [in UniMath.CategoryTheory.Presheaf]
f:25 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f:25 [in UniMath.Algebra.RigsAndRings.Ideals]
f:25 [in UniMath.CategoryTheory.ElementsOp]
f:25 [in UniMath.CategoryTheory.DisplayedCats.Projection]
F:25 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:25 [in UniMath.MoreFoundations.Equivalences]
f:25 [in UniMath.CategoryTheory.categories.modules]
f:25 [in UniMath.MoreFoundations.AxiomOfChoice]
F:25 [in UniMath.CategoryTheory.FunctorAlgebras]
f:25 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:25 [in UniMath.CategoryTheory.limits.zero]
f:25 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:25 [in UniMath.CategoryTheory.categories.HSET.Colimits]
f:25 [in UniMath.CategoryTheory.PreAdditive]
f:25 [in UniMath.CategoryTheory.categories.HSET.Limits]
f:25 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:25 [in UniMath.CategoryTheory.PrecategoryBinProduct]
F:25 [in UniMath.SubstitutionSystems.MultiSorted_alt]
F:25 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
F:25 [in UniMath.Topology.Filters]
f:25 [in UniMath.Algebra.IteratedBinaryOperations]
f:25 [in UniMath.SyntheticHomotopyTheory.Test]
f:25 [in UniMath.SyntheticHomotopyTheory.Halfline]
f:25 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
f:25 [in UniMath.CategoryTheory.SimplicialSets]
F:25 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
f:25 [in UniMath.Bicategories.Transformations.Examples.ApTransformation]
f:25 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:25 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:250 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:250 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:250 [in UniMath.CategoryTheory.PreAdditive]
F:250 [in UniMath.CategoryTheory.PrecategoryBinProduct]
F:250 [in UniMath.CategoryTheory.limits.cats.limits]
f:250 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:2503 [in UniMath.Foundations.PartA]
f:251 [in UniMath.Algebra.Modules.Core]
f:251 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:251 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:251 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:251 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:251 [in UniMath.Topology.Filters]
f:251 [in UniMath.Foundations.PartA]
f:251 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:2513 [in UniMath.Foundations.PartA]
f:2519 [in UniMath.Foundations.PartA]
f:252 [in UniMath.CategoryTheory.AdditiveFunctors]
f:252 [in UniMath.Bicategories.Core.Bicat]
F:252 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:252 [in UniMath.Algebra.Groups]
f:252 [in UniMath.CategoryTheory.limits.Opp]
F:252 [in UniMath.Topology.Filters]
f:2525 [in UniMath.Foundations.PartA]
F:253 [in UniMath.CategoryTheory.Core.Functors]
f:253 [in UniMath.Bicategories.Core.AdjointUnique]
f:253 [in UniMath.Bicategories.Core.Strictness]
F:253 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:253 [in UniMath.CategoryTheory.slicecat]
f:253 [in UniMath.Bicategories.Core.Univalence]
f:253 [in UniMath.HomologicalAlgebra.CohomologyComplex]
F:253 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:253 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:253 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:2532 [in UniMath.Foundations.PartA]
f:254 [in UniMath.SyntheticHomotopyTheory.Circle]
f:254 [in UniMath.Algebra.Monoids]
f:254 [in UniMath.CategoryTheory.slicecat]
f:254 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:254 [in UniMath.CategoryTheory.ShortExactSequences]
f:254 [in UniMath.Combinatorics.StandardFiniteSets]
f:254 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:2549 [in UniMath.Foundations.PartA]
f:255 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:255 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:255 [in UniMath.CategoryTheory.limits.pushouts]
f:255 [in UniMath.CategoryTheory.PseudoElements]
f:255 [in UniMath.Algebra.Groups]
f:255 [in UniMath.CategoryTheory.PreAdditive]
f:255 [in UniMath.MoreFoundations.PartA]
f:255 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:255 [in UniMath.CategoryTheory.Core.TwoCategories]
f:255 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:256 [in UniMath.Algebra.Modules.Core]
f:256 [in UniMath.Bicategories.Core.AdjointUnique]
f:256 [in UniMath.CategoryTheory.limits.kernels]
f:256 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:256 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:2562 [in UniMath.Foundations.PartA]
f:2567 [in UniMath.Foundations.PartA]
f:257 [in UniMath.CategoryTheory.Core.Functors]
f:257 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:257 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:257 [in UniMath.CategoryTheory.limits.bincoproducts]
f:257 [in UniMath.Foundations.UnivalenceAxiom]
f:257 [in UniMath.CategoryTheory.Core.Isos]
f:257 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:257 [in UniMath.CategoryTheory.limits.Opp]
F:257 [in UniMath.Topology.Filters]
f:257 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:257 [in UniMath.Foundations.PartC]
f:257 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:2574 [in UniMath.Foundations.PartA]
f:258 [in UniMath.CategoryTheory.AdditiveFunctors]
f:258 [in UniMath.SyntheticHomotopyTheory.Circle]
f:258 [in UniMath.CategoryTheory.categories.abgrs]
F:258 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:258 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:258 [in UniMath.Algebra.Groups]
f:258 [in UniMath.CategoryTheory.PreAdditive]
F:258 [in UniMath.Topology.Topology]
f:258 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:258 [in UniMath.Topology.Filters]
f:258 [in UniMath.HomologicalAlgebra.MappingCone]
f:2580 [in UniMath.Foundations.PartA]
f:2589 [in UniMath.Foundations.PartA]
f:259 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:259 [in UniMath.Bicategories.Core.Bicat]
f:259 [in UniMath.Foundations.PartD]
f:259 [in UniMath.Algebra.Monoids]
f:259 [in UniMath.CategoryTheory.limits.cokernels]
f:259 [in UniMath.CategoryTheory.PreAdditive]
f:259 [in UniMath.Algebra.GroupAction]
f:259 [in UniMath.Combinatorics.StandardFiniteSets]
f:259 [in UniMath.HomologicalAlgebra.Complexes]
f:259 [in UniMath.CategoryTheory.limits.graphs.limits]
f:2595 [in UniMath.Foundations.PartA]
f:26 [in UniMath.MoreFoundations.NullHomotopies]
f:26 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
f:26 [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
f:26 [in UniMath.Bicategories.Core.YonedaLemma]
f:26 [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
f:26 [in UniMath.Bicategories.Core.Bicat]
f:26 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:26 [in UniMath.Algebra.Monoids]
f:26 [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
F:26 [in UniMath.CategoryTheory.whiskering]
f:26 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:26 [in UniMath.Induction.M.ComputationalM]
F:26 [in UniMath.CategoryTheory.FunctorCategory]
f:26 [in UniMath.Folds.folds_precat]
f:26 [in UniMath.Bicategories.PseudoFunctors.Representable]
f:26 [in UniMath.Bicategories.BicatOfBicategory]
f:26 [in UniMath.Bicategories.DisplayedBicats.Fibration]
f:26 [in UniMath.HomologicalAlgebra.CohomologyComplex]
F:26 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:26 [in UniMath.Bicategories.Modifications.Modification]
f:26 [in UniMath.CategoryTheory.limits.graphs.colimits]
f:26 [in UniMath.Algebra.Modules.Examples]
F:26 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:26 [in UniMath.CategoryTheory.Profunctors.Core]
f:26 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
f:26 [in UniMath.CategoryTheory.UnderCategories]
f:26 [in UniMath.SubstitutionSystems.LiftingInitial]
f:26 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
F:260 [in UniMath.CategoryTheory.Core.Functors]
f:260 [in UniMath.CategoryTheory.PseudoElements]
f:260 [in UniMath.Foundations.PartA]
f:2601 [in UniMath.Foundations.PartA]
f:2609 [in UniMath.Foundations.PartA]
f:261 [in UniMath.CategoryTheory.LocalizingClass]
f:261 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:261 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:261 [in UniMath.Topology.Topology]
f:261 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
f:261 [in UniMath.HomologicalAlgebra.TranslationFunctors]
F:261 [in UniMath.CategoryTheory.limits.graphs.limits]
f:2618 [in UniMath.Foundations.PartA]
f:262 [in UniMath.CategoryTheory.Abelian]
f:262 [in UniMath.Algebra.Modules.Core]
f:262 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:262 [in UniMath.CategoryTheory.categories.abgrs]
f:262 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:262 [in UniMath.Foundations.UnivalenceAxiom]
f:262 [in UniMath.CategoryTheory.PreAdditive]
f:262 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:262 [in UniMath.CategoryTheory.limits.Opp]
f:262 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:2627 [in UniMath.Foundations.PartA]
f:263 [in UniMath.Foundations.PartB]
F:263 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:263 [in UniMath.CategoryTheory.limits.kernels]
F:263 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:263 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:263 [in UniMath.CategoryTheory.limits.BinDirectSums]
f:263 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:263 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:263 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:2636 [in UniMath.Foundations.PartA]
f:264 [in UniMath.CategoryTheory.AdditiveFunctors]
f:264 [in UniMath.HomologicalAlgebra.Triangulated]
F:264 [in UniMath.Topology.Topology]
f:264 [in UniMath.HomologicalAlgebra.Complexes]
f:264 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:264 [in UniMath.CategoryTheory.Core.TwoCategories]
F:264 [in UniMath.CategoryTheory.limits.graphs.limits]
f:2645 [in UniMath.Foundations.PartA]
f:265 [in UniMath.CategoryTheory.Abelian]
f:265 [in UniMath.Bicategories.Core.Bicat]
F:265 [in UniMath.CategoryTheory.Core.Functors]
f:265 [in UniMath.Algebra.GroupAction]
F:265 [in UniMath.CategoryTheory.Adjunctions.Core]
f:265 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:2654 [in UniMath.Foundations.PartA]
f:266 [in UniMath.CategoryTheory.Abelian]
f:266 [in UniMath.CategoryTheory.categories.abgrs]
f:266 [in UniMath.CategoryTheory.limits.pushouts]
f:266 [in UniMath.CategoryTheory.limits.cokernels]
f:266 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
f:2668 [in UniMath.Foundations.PartA]
f:267 [in UniMath.CategoryTheory.LocalizingClass]
f:267 [in UniMath.Algebra.FixedPointTheorems]
f:267 [in UniMath.Foundations.PartB]
f:267 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:267 [in UniMath.CategoryTheory.limits.bincoproducts]
f:267 [in UniMath.CategoryTheory.PreAdditive]
f:267 [in UniMath.Foundations.PartA]
f:267 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:2678 [in UniMath.Foundations.PartA]
F:268 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
F:268 [in UniMath.Topology.Topology]
f:268 [in UniMath.CategoryTheory.limits.Opp]
f:268 [in UniMath.Combinatorics.StandardFiniteSets]
f:268 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:269 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:269 [in UniMath.CategoryTheory.PseudoElements]
F:269 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:269 [in UniMath.HomologicalAlgebra.Complexes]
f:269 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
f:269 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:2697 [in UniMath.Foundations.PartA]
f:27 [in UniMath.CategoryTheory.categories.rings]
f:27 [in UniMath.Bicategories.Core.BicategoryLaws]
f:27 [in UniMath.CategoryTheory.Elements]
f:27 [in UniMath.CategoryTheory.categories.setwith2binops]
f:27 [in UniMath.CategoryTheory.categories.grs]
f:27 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:27 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:27 [in UniMath.CategoryTheory.categories.flds]
F:27 [in UniMath.CategoryTheory.Subcategory.Full]
F:27 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:27 [in UniMath.CategoryTheory.yoneda]
f:27 [in UniMath.Bicategories.Core.Adjunctions]
F:27 [in UniMath.CategoryTheory.Core.Functors]
f:27 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:27 [in UniMath.Ktheory.GrothendieckGroup]
F:27 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:27 [in UniMath.CategoryTheory.Core.Isos]
f:27 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
f:27 [in UniMath.Bicategories.Core.Examples.OneTypes]
f:27 [in UniMath.CategoryTheory.limits.equalizers]
f:27 [in UniMath.Bicategories.WkCatEnrichment.Cat]
f:27 [in UniMath.Bicategories.Core.Univalence]
f:27 [in UniMath.CategoryTheory.categories.commrigs]
F:27 [in UniMath.SubstitutionSystems.MultiSorted_alt]
f:27 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:27 [in UniMath.Folds.folds_isomorphism]
f:27 [in UniMath.Bicategories.Discreteness]
f:27 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
f:27 [in UniMath.CategoryTheory.categories.rigs]
F:27 [in UniMath.Topology.Filters]
f:27 [in UniMath.CategoryTheory.limits.graphs.zero]
f:27 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:27 [in UniMath.SubstitutionSystems.SignatureCategory]
f:27 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:27 [in UniMath.CategoryTheory.categories.monoids]
f:27 [in UniMath.CategoryTheory.limits.coequalizers]
f:27 [in UniMath.CategoryTheory.categories.intdoms]
f:27 [in UniMath.CategoryTheory.FunctorCoalgebras]
F:27 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:27 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:27 [in UniMath.CategoryTheory.categories.commrings]
f:27 [in UniMath.CategoryTheory.precomp_ess_surj]
f:27 [in UniMath.Foundations.Tests]
f:27 [in UniMath.CategoryTheory.categories.abmonoids]
f:270 [in UniMath.CategoryTheory.Abelian]
f:270 [in UniMath.CategoryTheory.categories.abgrs]
f:270 [in UniMath.Algebra.FixedPointTheorems]
f:270 [in UniMath.CategoryTheory.Core.Functors]
f:270 [in UniMath.CategoryTheory.limits.kernels]
f:270 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:270 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:270 [in UniMath.Combinatorics.StandardFiniteSets]
F:270 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:270 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:271 [in UniMath.Algebra.Modules.Core]
f:271 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:271 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:2711 [in UniMath.Foundations.PartA]
f:272 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:272 [in UniMath.Bicategories.Core.Bicat]
f:272 [in UniMath.CategoryTheory.PreAdditive]
F:272 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:272 [in UniMath.CategoryTheory.Adjunctions.Core]
F:272 [in UniMath.Topology.Topology]
f:2721 [in UniMath.Foundations.PartA]
f:273 [in UniMath.Foundations.Propositions]
f:273 [in UniMath.CategoryTheory.limits.cokernels]
f:273 [in UniMath.Algebra.GroupAction]
f:273 [in UniMath.CategoryTheory.Core.TwoCategories]
f:274 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:274 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:274 [in UniMath.Foundations.PartB]
F:274 [in UniMath.CategoryTheory.Core.Functors]
f:274 [in UniMath.CategoryTheory.Core.Isos]
F:274 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:274 [in UniMath.CategoryTheory.limits.pullbacks]
f:2740 [in UniMath.Foundations.PartA]
f:275 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:275 [in UniMath.Foundations.PartA]
f:2750 [in UniMath.Foundations.PartA]
F:276 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:276 [in UniMath.Topology.Topology]
f:276 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:276 [in UniMath.CategoryTheory.limits.Opp]
F:276 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:2763 [in UniMath.Foundations.PartA]
f:277 [in UniMath.Algebra.Modules.Core]
f:277 [in UniMath.CategoryTheory.limits.pushouts]
f:277 [in UniMath.CategoryTheory.limits.bincoproducts]
f:277 [in UniMath.Foundations.UnivalenceAxiom]
f:277 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:277 [in UniMath.CategoryTheory.limits.kernels]
f:277 [in UniMath.CategoryTheory.PreAdditive]
f:277 [in UniMath.CategoryTheory.Adjunctions.Core]
f:277 [in UniMath.Combinatorics.FiniteSequences]
f:277 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:277 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:278 [in UniMath.CategoryTheory.Core.Functors]
f:278 [in UniMath.CategoryTheory.PseudoElements]
F:278 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:278 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:278 [in UniMath.MoreFoundations.PartA]
f:279 [in UniMath.CategoryTheory.LocalizingClass]
f:279 [in UniMath.Bicategories.Core.Bicat]
f:279 [in UniMath.CategoryTheory.Core.Isos]
f:279 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:279 [in UniMath.Topology.Topology]
f:279 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
f:279 [in UniMath.HomologicalAlgebra.TranslationFunctors]
F:28 [in UniMath.AlgebraicGeometry.SheavesOfRings]
F:28 [in UniMath.CategoryTheory.AdditiveFunctors]
f:28 [in UniMath.Bicategories.Core.FullyFaithful]
f:28 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:28 [in UniMath.CategoryTheory.Monads.RelativeModules]
f:28 [in UniMath.CategoryTheory.category_binops]
f:28 [in UniMath.CategoryTheory.limits.graphs.kernels]
f:28 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:28 [in UniMath.CategoryTheory.limits.graphs.cokernels]
f:28 [in UniMath.Algebra.FixedPointTheorems]
f:28 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
f:28 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:28 [in UniMath.CategoryTheory.Monads.MonadAlgebras]
f:28 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:28 [in UniMath.CategoryTheory.opp_precat]
f:28 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
f:28 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:28 [in UniMath.CategoryTheory.ShortExactSequences]
f:28 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F:28 [in UniMath.CategoryTheory.limits.cats.limits]
f:28 [in UniMath.CategoryTheory.limits.cones]
F:28 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:28 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
F:28 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
f:28 [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
f:28 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
F:28 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:28 [in UniMath.Algebra.Dcpo]
f:28 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:28 [in UniMath.PAdics.fps]
f:28 [in UniMath.AlgebraicGeometry.Spec]
f:28 [in UniMath.HomologicalAlgebra.MappingCone]
F:28 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:28 [in UniMath.Bicategories.Colimits.Initial]
f:28 [in UniMath.SyntheticHomotopyTheory.Circle2]
f:28 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:28 [in UniMath.SubstitutionSystems.LiftingInitial]
f:280 [in UniMath.CategoryTheory.limits.cokernels]
F:280 [in UniMath.Topology.Topology]
f:280 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:280 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:280 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:281 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:281 [in UniMath.CategoryTheory.Core.Functors]
F:281 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:281 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:281 [in UniMath.CategoryTheory.PreAdditive]
f:281 [in UniMath.CategoryTheory.limits.Opp]
f:281 [in UniMath.Combinatorics.FiniteSequences]
f:281 [in UniMath.CategoryTheory.Core.TwoCategories]
f:281 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:282 [in UniMath.CategoryTheory.Abelian]
F:282 [in UniMath.CategoryTheory.Adjunctions.Core]
f:282 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
F:282 [in UniMath.Topology.Filters]
F:282 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:282 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:282 [in UniMath.HomologicalAlgebra.MappingCone]
f:283 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:283 [in UniMath.Foundations.PartC]
F:283 [in UniMath.CategoryTheory.limits.graphs.limits]
f:284 [in UniMath.CategoryTheory.categories.abgrs]
f:284 [in UniMath.CategoryTheory.limits.kernels]
f:284 [in UniMath.Topology.Topology]
f:284 [in UniMath.HomologicalAlgebra.Complexes]
f:284 [in UniMath.Foundations.PartA]
f:285 [in UniMath.CategoryTheory.Abelian]
f:285 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:285 [in UniMath.CategoryTheory.Core.Functors]
f:285 [in UniMath.CategoryTheory.PreAdditive]
F:285 [in UniMath.Topology.Topology]
f:285 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:285 [in UniMath.CategoryTheory.limits.pullbacks]
f:285 [in UniMath.Combinatorics.FiniteSequences]
f:285 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:285 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:285 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:286 [in UniMath.CategoryTheory.AdditiveFunctors]
f:286 [in UniMath.CategoryTheory.Abelian]
f:286 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:286 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:286 [in UniMath.CategoryTheory.limits.Opp]
f:286 [in UniMath.Combinatorics.StandardFiniteSets]
f:286 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
f:286 [in UniMath.CategoryTheory.limits.pullbacks]
f:286 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:287 [in UniMath.CategoryTheory.Abelian]
f:287 [in UniMath.CategoryTheory.LocalizingClass]
f:287 [in UniMath.CategoryTheory.PseudoElements]
f:287 [in UniMath.CategoryTheory.Core.Isos]
f:287 [in UniMath.CategoryTheory.limits.cokernels]
f:287 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F:288 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:288 [in UniMath.CategoryTheory.Abelian]
f:288 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:288 [in UniMath.Bicategories.Core.Bicat]
F:288 [in UniMath.CategoryTheory.Core.Functors]
f:288 [in UniMath.CategoryTheory.limits.pushouts]
F:288 [in UniMath.Foundations.UnivalenceAxiom]
f:289 [in UniMath.Algebra.Modules.Core]
f:289 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:289 [in UniMath.Algebra.Groups]
F:289 [in UniMath.CategoryTheory.Adjunctions.Core]
f:289 [in UniMath.Topology.Topology]
f:289 [in UniMath.HomologicalAlgebra.Complexes]
f:289 [in UniMath.Foundations.PartC]
f:289 [in UniMath.CategoryTheory.Core.TwoCategories]
f:29 [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
f:29 [in UniMath.MoreFoundations.NullHomotopies]
F:29 [in UniMath.AlgebraicGeometry.SheavesOfRings]
F:29 [in UniMath.CategoryTheory.GrothendieckTopos]
f:29 [in UniMath.CategoryTheory.Presheaf]
F:29 [in UniMath.CategoryTheory.catiso]
f:29 [in UniMath.Bicategories.Core.YonedaLemma]
f:29 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:29 [in UniMath.Combinatorics.Vectors]
f:29 [in UniMath.CategoryTheory.categories.StandardCategories]
f:29 [in UniMath.Induction.ImpredicativeInductiveSets]
f:29 [in UniMath.CategoryTheory.limits.coproducts]
f:29 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:29 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:29 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:29 [in UniMath.CategoryTheory.limits.pushouts]
f:29 [in UniMath.Bicategories.Core.Strictness]
f:29 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:29 [in UniMath.CategoryTheory.CategoryEquality]
F:29 [in UniMath.CategoryTheory.FunctorAlgebras]
F:29 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:29 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:29 [in UniMath.SubstitutionSystems.SubstitutionSystems]
F:29 [in UniMath.SubstitutionSystems.BindingSigToMonad]
f:29 [in UniMath.HomologicalAlgebra.KA]
F:29 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:29 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
f:29 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:29 [in UniMath.MoreFoundations.QuotientSet]
F:29 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:29 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
F:29 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:29 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:29 [in UniMath.Topology.Filters]
f:29 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:29 [in UniMath.Algebra.Dcpo]
f:29 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
f:29 [in UniMath.CategoryTheory.Profunctors.Core]
F:29 [in UniMath.CategoryTheory.PointedFunctors]
F:29 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:29 [in UniMath.CategoryTheory.Core.TwoCategories]
f:29 [in UniMath.CategoryTheory.Monads.KTriples]
f:29 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
F:290 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:290 [in UniMath.Topology.Topology]
f:290 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:290 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:290 [in UniMath.CategoryTheory.limits.pullbacks]
f:290 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:291 [in UniMath.CategoryTheory.categories.abgrs]
f:291 [in UniMath.CategoryTheory.limits.kernels]
f:291 [in UniMath.Combinatorics.StandardFiniteSets]
F:291 [in UniMath.Topology.Filters]
F:291 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:291 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:292 [in UniMath.CategoryTheory.Abelian]
f:292 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:292 [in UniMath.Algebra.FixedPointTheorems]
F:292 [in UniMath.CategoryTheory.Core.Functors]
f:292 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:292 [in UniMath.CategoryTheory.Core.Isos]
f:292 [in UniMath.Algebra.Groups]
f:292 [in UniMath.CategoryTheory.PreAdditive]
f:292 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:292 [in UniMath.Foundations.PartA]
f:293 [in UniMath.Algebra.Modules.Core]
f:293 [in UniMath.Bicategories.Core.Bicat]
f:293 [in UniMath.Foundations.UnivalenceAxiom]
f:293 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:294 [in UniMath.CategoryTheory.limits.bincoproducts]
f:294 [in UniMath.CategoryTheory.limits.cokernels]
f:294 [in UniMath.CategoryTheory.Adjunctions.Core]
f:294 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:295 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:295 [in UniMath.Topology.Topology]
F:295 [in UniMath.Topology.Filters]
f:295 [in UniMath.Foundations.PartC]
f:296 [in UniMath.CategoryTheory.AdditiveFunctors]
F:296 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:296 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:296 [in UniMath.CategoryTheory.Core.Functors]
f:296 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:296 [in UniMath.Topology.Topology]
f:296 [in UniMath.HomologicalAlgebra.Complexes]
f:296 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:297 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:297 [in UniMath.Algebra.Modules.Core]
f:297 [in UniMath.Algebra.FixedPointTheorems]
f:297 [in UniMath.Foundations.PartB]
F:297 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:297 [in UniMath.CategoryTheory.limits.kernels]
f:297 [in UniMath.Algebra.Groups]
f:297 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:297 [in UniMath.CategoryTheory.limits.Opp]
F:297 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:297 [in UniMath.Foundations.PartA]
f:297 [in UniMath.CategoryTheory.Core.TwoCategories]
f:298 [in UniMath.CategoryTheory.Abelian]
f:298 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:298 [in UniMath.Bicategories.Core.Bicat]
f:298 [in UniMath.CategoryTheory.Core.Isos]
f:298 [in UniMath.HomologicalAlgebra.TranslationFunctors]
F:299 [in UniMath.CategoryTheory.Core.Functors]
F:299 [in UniMath.CategoryTheory.Adjunctions.Core]
f:299 [in UniMath.Bicategories.Colimits.Products]
f:299 [in UniMath.CategoryTheory.limits.pullbacks]
F:3 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
f:3 [in UniMath.MoreFoundations.NullHomotopies]
F:3 [in UniMath.CategoryTheory.AdditiveFunctors]
F:3 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
F:3 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
F:3 [in UniMath.CategoryTheory.catiso]
f:3 [in UniMath.Bicategories.Core.Examples.Initial]
F:3 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
F:3 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
F:3 [in UniMath.Bicategories.Transformations.PseudoTransformation]
F:3 [in UniMath.Bicategories.Core.Examples.Image]
f:3 [in UniMath.MoreFoundations.Sets]
f:3 [in UniMath.MoreFoundations.DecidablePropositions]
F:3 [in UniMath.CategoryTheory.Core.Functors]
f:3 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
F:3 [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
F:3 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:3 [in UniMath.CategoryTheory.FunctorCategory]
f:3 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:3 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:3 [in UniMath.Bicategories.Modifications.Examples.ApModification]
F:3 [in UniMath.CategoryTheory.Adjunctions.Core]
f:3 [in UniMath.Bicategories.Core.Examples.Final]
F:3 [in UniMath.CategoryTheory.Chains.Adamek]
F:3 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
F:3 [in UniMath.CategoryTheory.limits.cats.limits]
F:3 [in UniMath.Bicategories.Modifications.Modification]
f:3 [in UniMath.MoreFoundations.PartA]
F:3 [in UniMath.CategoryTheory.Adjunctions.Restriction]
f:3 [in UniMath.Tactics.Nat_Tactics]
F:3 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
f:3 [in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
f:3 [in UniMath.PAdics.fps]
F:3 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
f:3 [in UniMath.Bicategories.Core.TransportLaws]
F:3 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
F:3 [in UniMath.CategoryTheory.PointedFunctors]
F:3 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
F:3 [in UniMath.CategoryTheory.RightKanExtension]
f:3 [in UniMath.CategoryTheory.SimplicialSets]
f:3 [in UniMath.Bicategories.Transformations.Examples.ApTransformation]
f:30 [in UniMath.CategoryTheory.ExactCategories.Tests]
F:30 [in UniMath.AlgebraicGeometry.SheavesOfRings]
f:30 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
f:30 [in UniMath.Bicategories.BicategoryOfBicat]
f:30 [in UniMath.CategoryTheory.ElementsOp]
f:30 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
F:30 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F:30 [in UniMath.CategoryTheory.Subcategory.Full]
f:30 [in UniMath.MoreFoundations.Equivalences]
f:30 [in UniMath.Algebra.Monoids]
f:30 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:30 [in UniMath.Induction.M.ComputationalM]
f:30 [in UniMath.CategoryTheory.SetValuedFunctors]
f:30 [in UniMath.Folds.folds_precat]
f:30 [in UniMath.CategoryTheory.slicecat]
f:30 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
f:30 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:30 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:30 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
f:30 [in UniMath.MoreFoundations.PartA]
F:30 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:30 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
F:30 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:30 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:30 [in UniMath.CategoryTheory.limits.pullbacks]
f:30 [in UniMath.CategoryTheory.limits.graphs.zero]
f:30 [in UniMath.CategoryTheory.Profunctors.Core]
F:30 [in UniMath.CategoryTheory.FunctorCoalgebras]
f:30 [in UniMath.SyntheticHomotopyTheory.Halfline]
F:30 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:30 [in UniMath.MoreFoundations.Nat]
f:30 [in UniMath.CategoryTheory.AbelianPushoutPullback]
f:30 [in UniMath.CategoryTheory.IsoCommaCategory]
f:300 [in UniMath.CategoryTheory.categories.abgrs]
f:300 [in UniMath.HomologicalAlgebra.Triangulated]
f:300 [in UniMath.Foundations.PartA]
f:301 [in UniMath.CategoryTheory.Abelian]
f:301 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:301 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:301 [in UniMath.CategoryTheory.limits.cokernels]
f:301 [in UniMath.Topology.Topology]
F:301 [in UniMath.Topology.Filters]
f:302 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:302 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:302 [in UniMath.CategoryTheory.limits.bincoproducts]
f:302 [in UniMath.Algebra.Groups]
f:302 [in UniMath.CategoryTheory.PreAdditive]
F:302 [in UniMath.Topology.Topology]
f:302 [in UniMath.HomologicalAlgebra.Complexes]
f:303 [in UniMath.Algebra.Modules.Core]
f:303 [in UniMath.Algebra.Monoids]
f:303 [in UniMath.CategoryTheory.Core.Functors]
f:303 [in UniMath.CategoryTheory.Core.Isos]
f:303 [in UniMath.CategoryTheory.limits.kernels]
f:303 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:303 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:303 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:303 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:304 [in UniMath.CategoryTheory.Abelian]
F:304 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:304 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:304 [in UniMath.CategoryTheory.Adjunctions.Core]
f:304 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:305 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:305 [in UniMath.Algebra.Groups]
f:305 [in UniMath.CategoryTheory.Core.TwoCategories]
f:306 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:306 [in UniMath.CategoryTheory.Core.Functors]
f:306 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:306 [in UniMath.Bicategories.Colimits.Products]
f:306 [in UniMath.CategoryTheory.limits.pullbacks]
f:306 [in UniMath.Foundations.PartC]
f:306 [in UniMath.HomologicalAlgebra.MappingCone]
f:307 [in UniMath.CategoryTheory.Abelian]
f:307 [in UniMath.CategoryTheory.limits.cokernels]
f:307 [in UniMath.Topology.Topology]
f:307 [in UniMath.CategoryTheory.limits.Opp]
f:307 [in UniMath.Foundations.PartA]
f:308 [in UniMath.Algebra.Modules.Core]
f:308 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:308 [in UniMath.Bicategories.Core.Bicat]
f:308 [in UniMath.CategoryTheory.categories.abgrs]
f:308 [in UniMath.CategoryTheory.Core.Isos]
f:308 [in UniMath.Algebra.Groups]
F:308 [in UniMath.Topology.Topology]
f:308 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:309 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:309 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:309 [in UniMath.CategoryTheory.LocalizingClass]
f:309 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:309 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:309 [in UniMath.CategoryTheory.Adjunctions.Core]
f:309 [in UniMath.HomologicalAlgebra.Complexes]
F:309 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:309 [in UniMath.HomologicalAlgebra.MappingCone]
f:309 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:31 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:31 [in UniMath.Bicategories.Core.EquivToAdjequiv]
f:31 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
F:31 [in UniMath.CategoryTheory.AdditiveFunctors]
F:31 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:31 [in UniMath.Combinatorics.Vectors]
f:31 [in UniMath.Bicategories.Core.Bicat]
f:31 [in UniMath.Bicategories.Core.Adjunctions]
f:31 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
f:31 [in UniMath.CategoryTheory.Core.Isos]
F:31 [in UniMath.CategoryTheory.FunctorCategory]
f:31 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:31 [in UniMath.Bicategories.Core.Examples.OneTypes]
f:31 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:31 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:31 [in UniMath.CategoryTheory.limits.graphs.binproducts]
F:31 [in UniMath.SubstitutionSystems.MultiSorted_alt]
f:31 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F:31 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:31 [in UniMath.MoreFoundations.Univalence]
F:31 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:31 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:31 [in UniMath.Topology.Filters]
f:31 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:31 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:31 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
F:31 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:31 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:31 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:31 [in UniMath.SubstitutionSystems.LiftingInitial]
f:31 [in UniMath.Foundations.Tests]
f:31 [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
f:31 [in UniMath.CategoryTheory.Core.Categories]
f:310 [in UniMath.CategoryTheory.Abelian]
f:310 [in UniMath.CategoryTheory.Core.Functors]
f:310 [in UniMath.CategoryTheory.limits.kernels]
f:310 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:311 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:311 [in UniMath.Foundations.PartB]
f:311 [in UniMath.Foundations.UnivalenceAxiom]
f:311 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:311 [in UniMath.Topology.Topology]
f:311 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:311 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:311 [in UniMath.CategoryTheory.limits.graphs.limits]
f:312 [in UniMath.CategoryTheory.categories.abgrs]
f:312 [in UniMath.Algebra.Monoids]
f:312 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:312 [in UniMath.HomologicalAlgebra.MappingCone]
f:313 [in UniMath.CategoryTheory.Abelian]
f:313 [in UniMath.Algebra.Modules.Core]
f:313 [in UniMath.Bicategories.Core.Bicat]
f:313 [in UniMath.Foundations.PartD]
F:313 [in UniMath.CategoryTheory.Core.Functors]
f:313 [in UniMath.CategoryTheory.limits.cokernels]
f:313 [in UniMath.Algebra.Groups]
f:313 [in UniMath.CategoryTheory.PreAdditive]
f:313 [in UniMath.HomologicalAlgebra.Complexes]
f:313 [in UniMath.Foundations.PartC]
f:314 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:314 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:314 [in UniMath.Foundations.PartA]
f:315 [in UniMath.Algebra.GroupAction]
f:315 [in UniMath.HomologicalAlgebra.MappingCone]
f:315 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:316 [in UniMath.CategoryTheory.Abelian]
f:316 [in UniMath.Algebra.Monoids]
F:316 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:316 [in UniMath.CategoryTheory.limits.Opp]
F:316 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:316 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:317 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:317 [in UniMath.CategoryTheory.categories.abgrs]
f:317 [in UniMath.CategoryTheory.limits.kernels]
f:317 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:317 [in UniMath.Topology.Topology]
f:317 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:317 [in UniMath.CategoryTheory.limits.pullbacks]
f:317 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:318 [in UniMath.Algebra.Modules.Core]
f:318 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:318 [in UniMath.Bicategories.Core.Bicat]
f:318 [in UniMath.CategoryTheory.limits.pushouts]
f:318 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:318 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:318 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:319 [in UniMath.CategoryTheory.Abelian]
f:319 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:319 [in UniMath.Algebra.Monoids]
F:319 [in UniMath.CategoryTheory.Core.Functors]
f:319 [in UniMath.CategoryTheory.limits.cokernels]
f:319 [in UniMath.CategoryTheory.PreAdditive]
F:319 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:319 [in UniMath.CategoryTheory.limits.graphs.colimits]
f:32 [in UniMath.CategoryTheory.categories.rings]
f:32 [in UniMath.CategoryTheory.categories.setwith2binops]
f:32 [in UniMath.CategoryTheory.categories.grs]
f:32 [in UniMath.CategoryTheory.Monads.RelativeModules]
f:32 [in UniMath.CategoryTheory.categories.flds]
f:32 [in UniMath.CategoryTheory.LocalizingClass]
f:32 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:32 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f:32 [in UniMath.Induction.ImpredicativeInductiveSets]
f:32 [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
F:32 [in UniMath.CategoryTheory.Core.Functors]
f:32 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
F:32 [in UniMath.CategoryTheory.Chains.Chains]
f:32 [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
f:32 [in UniMath.CategoryTheory.FunctorAlgebras]
f:32 [in UniMath.CategoryTheory.categories.HSET.Colimits]
f:32 [in UniMath.CategoryTheory.PreAdditive]
f:32 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:32 [in UniMath.CategoryTheory.categories.commrigs]
F:32 [in UniMath.CategoryTheory.Equivalences.Core]
F:32 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:32 [in UniMath.Folds.folds_isomorphism]
f:32 [in UniMath.CategoryTheory.Core.Univalence]
F:32 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:32 [in UniMath.CategoryTheory.categories.rigs]
F:32 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:32 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:32 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:32 [in UniMath.SyntheticHomotopyTheory.Test]
f:32 [in UniMath.CategoryTheory.categories.monoids]
f:32 [in UniMath.CategoryTheory.categories.intdoms]
f:32 [in UniMath.CategoryTheory.UnderCategories]
F:32 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
F:32 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:32 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:32 [in UniMath.CategoryTheory.categories.commrings]
f:32 [in UniMath.CategoryTheory.categories.abmonoids]
F:320 [in UniMath.CategoryTheory.PrecategoryBinProduct]
F:320 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:320 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:320 [in UniMath.HomologicalAlgebra.MappingCone]
f:320 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:321 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:321 [in UniMath.Foundations.PartB]
f:321 [in UniMath.CategoryTheory.limits.graphs.colimits]
f:321 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:322 [in UniMath.CategoryTheory.Abelian]
f:322 [in UniMath.Algebra.Modules.Core]
f:322 [in UniMath.Algebra.Monoids]
f:322 [in UniMath.CategoryTheory.limits.Opp]
f:322 [in UniMath.Combinatorics.StandardFiniteSets]
f:322 [in UniMath.HomologicalAlgebra.Complexes]
f:322 [in UniMath.Foundations.PartC]
f:323 [in UniMath.CategoryTheory.Core.Functors]
f:323 [in UniMath.CategoryTheory.limits.bincoproducts]
f:323 [in UniMath.CategoryTheory.Core.Isos]
F:323 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:323 [in UniMath.MoreFoundations.PathsOver]
f:324 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:324 [in UniMath.CategoryTheory.categories.abgrs]
f:324 [in UniMath.CategoryTheory.limits.kernels]
f:324 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:325 [in UniMath.CategoryTheory.Abelian]
f:325 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:325 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:325 [in UniMath.Topology.Topology]
f:325 [in UniMath.Combinatorics.StandardFiniteSets]
f:326 [in UniMath.Algebra.Modules.Core]
F:326 [in UniMath.CategoryTheory.Core.Functors]
f:326 [in UniMath.CategoryTheory.limits.pushouts]
f:326 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:326 [in UniMath.CategoryTheory.limits.cokernels]
f:326 [in UniMath.CategoryTheory.PrecategoryBinProduct]
F:326 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:326 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:326 [in UniMath.CategoryTheory.limits.graphs.limits]
f:327 [in UniMath.Bicategories.Core.Bicat]
f:327 [in UniMath.Algebra.FixedPointTheorems]
f:327 [in UniMath.Algebra.Monoids]
f:327 [in UniMath.Foundations.PartB]
f:327 [in UniMath.CategoryTheory.Core.Isos]
f:327 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:327 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:328 [in UniMath.CategoryTheory.Abelian]
f:328 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:328 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:328 [in UniMath.CategoryTheory.limits.graphs.limits]
f:329 [in UniMath.CategoryTheory.Abelian]
f:329 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:329 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:329 [in UniMath.Topology.Topology]
f:329 [in UniMath.Combinatorics.StandardFiniteSets]
f:329 [in UniMath.CategoryTheory.limits.pullbacks]
f:33 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
F:33 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:33 [in UniMath.SubstitutionSystems.GenMendlerIteration]
f:33 [in UniMath.MoreFoundations.NullHomotopies]
f:33 [in UniMath.Bicategories.Core.BicategoryLaws]
f:33 [in UniMath.Bicategories.Core.FullyFaithful]
f:33 [in UniMath.CategoryTheory.category_binops]
F:33 [in UniMath.CategoryTheory.Subcategory.Full]
f:33 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:33 [in UniMath.Algebra.FixedPointTheorems]
f:33 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:33 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:33 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:33 [in UniMath.Induction.M.ComputationalM]
F:33 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
F:33 [in UniMath.SubstitutionSystems.MultiSorted_alt]
f:33 [in UniMath.CategoryTheory.Monics]
f:33 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
f:33 [in UniMath.CategoryTheory.limits.cones]
f:33 [in UniMath.Bicategories.Discreteness]
F:33 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:33 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:33 [in UniMath.CategoryTheory.Core.TransportMorphisms]
f:33 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
F:33 [in UniMath.CategoryTheory.Profunctors.Core]
f:33 [in UniMath.Foundations.PartC]
f:33 [in UniMath.SyntheticHomotopyTheory.Halfline]
F:33 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:33 [in UniMath.SubstitutionSystems.LiftingInitial]
f:33 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:33 [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
f:33 [in UniMath.CategoryTheory.IsoCommaCategory]
f:33 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
f:330 [in UniMath.CategoryTheory.Abelian]
f:330 [in UniMath.Algebra.Modules.Core]
f:330 [in UniMath.CategoryTheory.LocalizingClass]
f:330 [in UniMath.CategoryTheory.Core.Functors]
f:330 [in UniMath.CategoryTheory.limits.kernels]
F:330 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:330 [in UniMath.HomologicalAlgebra.MappingCone]
f:331 [in UniMath.CategoryTheory.Abelian]
f:331 [in UniMath.CategoryTheory.categories.abgrs]
f:331 [in UniMath.Algebra.Monoids]
F:331 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:331 [in UniMath.HomologicalAlgebra.Complexes]
f:332 [in UniMath.CategoryTheory.Abelian]
f:332 [in UniMath.Algebra.FixedPointTheorems]
f:332 [in UniMath.Foundations.PartB]
F:332 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F:332 [in UniMath.CategoryTheory.Adjunctions.Core]
f:332 [in UniMath.Algebra.RigsAndRings]
f:332 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:332 [in UniMath.Foundations.PartC]
f:332 [in UniMath.SyntheticHomotopyTheory.AffineLine]
F:333 [in UniMath.CategoryTheory.Core.Functors]
f:333 [in UniMath.CategoryTheory.limits.cokernels]
f:333 [in UniMath.Topology.Topology]
f:333 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:333 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:334 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:334 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:334 [in UniMath.CategoryTheory.limits.graphs.colimits]
f:334 [in UniMath.HomologicalAlgebra.MappingCone]
f:335 [in UniMath.CategoryTheory.Abelian]
f:335 [in UniMath.Bicategories.Core.Bicat]
f:335 [in UniMath.Algebra.Monoids]
f:335 [in UniMath.CategoryTheory.Core.Isos]
f:335 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:335 [in UniMath.CategoryTheory.PrecategoryBinProduct]
F:335 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:335 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:336 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:336 [in UniMath.CategoryTheory.Core.Functors]
f:336 [in UniMath.CategoryTheory.limits.kernels]
F:336 [in UniMath.CategoryTheory.limits.graphs.colimits]
f:337 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:337 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:337 [in UniMath.Bicategories.Colimits.Products]
f:338 [in UniMath.CategoryTheory.Abelian]
f:338 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:338 [in UniMath.CategoryTheory.categories.abgrs]
f:338 [in UniMath.Foundations.PartB]
F:338 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:338 [in UniMath.HomologicalAlgebra.Complexes]
f:339 [in UniMath.Algebra.Modules.Core]
f:339 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:339 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
F:339 [in UniMath.CategoryTheory.Core.Functors]
f:339 [in UniMath.CategoryTheory.Core.Isos]
f:339 [in UniMath.CategoryTheory.limits.cokernels]
f:339 [in UniMath.Algebra.RigsAndRings]
f:339 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
F:339 [in UniMath.CategoryTheory.limits.graphs.colimits]
f:339 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:34 [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
F:34 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
F:34 [in UniMath.CategoryTheory.catiso]
f:34 [in UniMath.CategoryTheory.ElementsOp]
f:34 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:34 [in UniMath.MoreFoundations.Sets]
F:34 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:34 [in UniMath.Algebra.Monoids]
f:34 [in UniMath.CategoryTheory.yoneda]
f:34 [in UniMath.CategoryTheory.limits.coproducts]
F:34 [in UniMath.CategoryTheory.whiskering]
f:34 [in UniMath.CategoryTheory.Monads.MonadAlgebras]
f:34 [in UniMath.Bicategories.Core.Strictness]
f:34 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:34 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F:34 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:34 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:34 [in UniMath.CategoryTheory.slicecat]
f:34 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:34 [in UniMath.Bicategories.Core.Univalence]
F:34 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
f:34 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
F:34 [in UniMath.Bicategories.Modifications.Modification]
F:34 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:34 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:34 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:34 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
F:34 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:34 [in UniMath.CategoryTheory.limits.graphs.zero]
f:34 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:34 [in UniMath.PAdics.fps]
f:34 [in UniMath.Combinatorics.FiniteSequences]
f:34 [in UniMath.HomologicalAlgebra.MappingCone]
F:34 [in UniMath.CategoryTheory.FunctorCoalgebras]
F:34 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:34 [in UniMath.CategoryTheory.Epis]
f:34 [in UniMath.CategoryTheory.categories.HSET.Structures]
F:34 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:34 [in UniMath.CategoryTheory.Core.TwoCategories]
f:34 [in UniMath.Algebra.Universal.SortedTypes]
f:340 [in UniMath.Bicategories.Core.Bicat]
f:340 [in UniMath.Topology.Topology]
f:340 [in UniMath.CategoryTheory.limits.graphs.limits]
f:341 [in UniMath.CategoryTheory.Abelian]
f:341 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:341 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
F:341 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:341 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:341 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:342 [in UniMath.CategoryTheory.Core.Functors]
f:342 [in UniMath.HomologicalAlgebra.MappingCone]
f:343 [in UniMath.CategoryTheory.categories.abgrs]
f:343 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:343 [in UniMath.Algebra.RigsAndRings]
f:343 [in UniMath.HomologicalAlgebra.Complexes]
f:343 [in UniMath.Foundations.PartC]
f:343 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:344 [in UniMath.CategoryTheory.Abelian]
f:344 [in UniMath.Algebra.GroupAction]
f:344 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:345 [in UniMath.Algebra.Modules.Core]
f:345 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:345 [in UniMath.CategoryTheory.Core.Isos]
F:345 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:345 [in UniMath.CategoryTheory.limits.cokernels]
f:345 [in UniMath.CategoryTheory.PreAdditive]
f:345 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:345 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:346 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:346 [in UniMath.CategoryTheory.Core.Functors]
f:346 [in UniMath.CategoryTheory.limits.kernels]
f:346 [in UniMath.Algebra.RigsAndRings]
f:346 [in UniMath.HomologicalAlgebra.MappingCone]
f:347 [in UniMath.CategoryTheory.Abelian]
f:347 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:347 [in UniMath.Bicategories.Core.Bicat]
f:347 [in UniMath.Foundations.PartB]
f:347 [in UniMath.Topology.Topology]
f:347 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
f:348 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:348 [in UniMath.CategoryTheory.Adjunctions.Core]
f:348 [in UniMath.HomologicalAlgebra.Complexes]
f:349 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:349 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:349 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:349 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:35 [in UniMath.Induction.W.Fibered]
F:35 [in UniMath.CategoryTheory.AdditiveFunctors]
f:35 [in UniMath.CategoryTheory.Monads.RelativeMonads]
F:35 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
f:35 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
F:35 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
F:35 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:35 [in UniMath.MoreFoundations.Equivalences]
f:35 [in UniMath.Bicategories.Core.Adjunctions]
F:35 [in UniMath.CategoryTheory.ProductCategory]
f:35 [in UniMath.MoreFoundations.MoreEquivalences]
f:35 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:35 [in UniMath.Induction.M.ComputationalM]
F:35 [in UniMath.CategoryTheory.FunctorAlgebras]
f:35 [in UniMath.CategoryTheory.SetValuedFunctors]
f:35 [in UniMath.CategoryTheory.limits.equalizers]
F:35 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:35 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:35 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:35 [in UniMath.Combinatorics.FiniteSets]
f:35 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:35 [in UniMath.CategoryTheory.ShortExactSequences]
F:35 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:35 [in UniMath.CategoryTheory.limits.graphs.colimits]
F:35 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:35 [in UniMath.CategoryTheory.limits.Opp]
F:35 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
F:35 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:35 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:35 [in UniMath.Algebra.Dcpo]
F:35 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:35 [in UniMath.Foundations.PartA]
f:35 [in UniMath.CategoryTheory.limits.coequalizers]
F:35 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:35 [in UniMath.Bicategories.Core.Unitors]
F:35 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:35 [in UniMath.Folds.from_precats_to_folds_and_back]
f:35 [in UniMath.CategoryTheory.Monads.KTriples]
f:35 [in UniMath.CategoryTheory.Core.Categories]
f:350 [in UniMath.CategoryTheory.Abelian]
f:350 [in UniMath.CategoryTheory.categories.abgrs]
f:350 [in UniMath.Foundations.PartB]
f:350 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:350 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:351 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:351 [in UniMath.Algebra.RigsAndRings]
f:351 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:352 [in UniMath.CategoryTheory.Core.Functors]
f:352 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:352 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:353 [in UniMath.CategoryTheory.Abelian]
f:353 [in UniMath.Foundations.PartB]
f:353 [in UniMath.CategoryTheory.Adjunctions.Core]
f:353 [in UniMath.Topology.Topology]
f:353 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:353 [in UniMath.HomologicalAlgebra.Complexes]
f:353 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:354 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:354 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:354 [in UniMath.Combinatorics.StandardFiniteSets]
f:354 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:355 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
F:355 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
F:355 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:355 [in UniMath.Algebra.RigsAndRings]
f:355 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:356 [in UniMath.CategoryTheory.Abelian]
f:356 [in UniMath.Algebra.Modules.Core]
f:356 [in UniMath.Bicategories.Core.Bicat]
f:356 [in UniMath.CategoryTheory.Core.Functors]
f:356 [in UniMath.CategoryTheory.limits.kernels]
f:356 [in UniMath.Algebra.GroupAction]
f:356 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:357 [in UniMath.Foundations.PartD]
f:357 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:358 [in UniMath.CategoryTheory.categories.abgrs]
f:358 [in UniMath.Algebra.FixedPointTheorems]
f:358 [in UniMath.CategoryTheory.PreAdditive]
f:359 [in UniMath.Foundations.PartB]
f:359 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:359 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:36 [in UniMath.CategoryTheory.ExactCategories.Tests]
f:36 [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
f:36 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
f:36 [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
f:36 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
f:36 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:36 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:36 [in UniMath.CategoryTheory.Subcategory.Full]
f:36 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:36 [in UniMath.Foundations.PartB]
f:36 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
F:36 [in UniMath.CategoryTheory.Core.Functors]
f:36 [in UniMath.Folds.folds_pre_2_cat]
f:36 [in UniMath.CategoryTheory.Core.Isos]
f:36 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
f:36 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:36 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
F:36 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:36 [in UniMath.CategoryTheory.Subcategory.Core]
f:36 [in UniMath.HomologicalAlgebra.KA]
F:36 [in UniMath.CategoryTheory.Adjunctions.Core]
F:36 [in UniMath.CategoryTheory.Equivalences.Core]
f:36 [in UniMath.Folds.folds_isomorphism]
F:36 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F:36 [in UniMath.CategoryTheory.limits.cats.limits]
f:36 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
F:36 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:36 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:36 [in UniMath.Topology.Filters]
f:36 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
f:36 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:36 [in UniMath.Induction.M.Limits]
F:36 [in UniMath.CategoryTheory.FunctorCoalgebras]
F:36 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
F:36 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:36 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:36 [in UniMath.CategoryTheory.AbelianPushoutPullback]
f:36 [in UniMath.Induction.W.Naturals]
f:360 [in UniMath.Algebra.Modules.Core]
f:360 [in UniMath.CategoryTheory.LocalizingClass]
F:360 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:360 [in UniMath.Bicategories.Colimits.Products]
f:360 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F:361 [in UniMath.CategoryTheory.Core.Functors]
f:361 [in UniMath.CategoryTheory.DisplayedCats.Core]
F:361 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:362 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:362 [in UniMath.CategoryTheory.Adjunctions.Core]
f:363 [in UniMath.Foundations.PartB]
f:363 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:363 [in UniMath.Algebra.GroupAction]
f:363 [in UniMath.Topology.Topology]
f:363 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:363 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:365 [in UniMath.Algebra.Modules.Core]
f:365 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:365 [in UniMath.Bicategories.Core.Bicat]
F:365 [in UniMath.Topology.Topology]
f:366 [in UniMath.CategoryTheory.categories.abgrs]
f:366 [in UniMath.CategoryTheory.PreAdditive]
f:366 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:367 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
F:367 [in UniMath.CategoryTheory.Core.Functors]
f:368 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:368 [in UniMath.CategoryTheory.Core.Isos]
f:368 [in UniMath.CategoryTheory.Adjunctions.Core]
F:368 [in UniMath.CategoryTheory.limits.graphs.colimits]
f:368 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:369 [in UniMath.Algebra.Modules.Core]
f:369 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:369 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:369 [in UniMath.CategoryTheory.limits.pullbacks]
F:37 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
f:37 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:37 [in UniMath.CategoryTheory.categories.StandardCategories]
f:37 [in UniMath.Algebra.Monoids]
f:37 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:37 [in UniMath.Algebra.Modules.Quotient]
f:37 [in UniMath.CategoryTheory.limits.graphs.equalizers]
F:37 [in UniMath.CategoryTheory.Chains.Chains]
F:37 [in UniMath.CategoryTheory.FunctorAlgebras]
f:37 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:37 [in UniMath.Folds.folds_precat]
f:37 [in UniMath.CategoryTheory.PreAdditive]
F:37 [in UniMath.SubstitutionSystems.BindingSigToMonad]
f:37 [in UniMath.CategoryTheory.Groupoids]
f:37 [in UniMath.CategoryTheory.Monics]
f:37 [in UniMath.CategoryTheory.limits.products]
f:37 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
F:37 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
F:37 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:37 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:37 [in UniMath.CategoryTheory.Profunctors.Core]
f:37 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:37 [in UniMath.CategoryTheory.PointedFunctors]
F:37 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:37 [in UniMath.SyntheticHomotopyTheory.Halfline]
f:37 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
f:37 [in UniMath.MoreFoundations.Nat]
f:37 [in UniMath.SyntheticHomotopyTheory.Circle2]
f:37 [in UniMath.CategoryTheory.limits.terminal]
f:370 [in UniMath.CategoryTheory.categories.abgrs]
f:370 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:370 [in UniMath.Algebra.GroupAction]
f:370 [in UniMath.Topology.Topology]
f:371 [in UniMath.Foundations.PartB]
f:371 [in UniMath.CategoryTheory.PreAdditive]
F:372 [in UniMath.CategoryTheory.Core.Functors]
F:372 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:373 [in UniMath.Algebra.Modules.Core]
f:373 [in UniMath.Bicategories.Core.Bicat]
f:373 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:373 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:374 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:374 [in UniMath.CategoryTheory.categories.abgrs]
f:375 [in UniMath.CategoryTheory.PreAdditive]
f:375 [in UniMath.Algebra.GroupAction]
f:375 [in UniMath.CategoryTheory.Adjunctions.Core]
f:376 [in UniMath.Foundations.PartB]
f:376 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:376 [in UniMath.Topology.Topology]
F:377 [in UniMath.CategoryTheory.Core.Functors]
F:377 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:377 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:377 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:378 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:378 [in UniMath.CategoryTheory.categories.abgrs]
f:378 [in UniMath.HomologicalAlgebra.Complexes]
f:379 [in UniMath.CategoryTheory.PreAdditive]
F:379 [in UniMath.Topology.Topology]
F:38 [in UniMath.CategoryTheory.AdditiveFunctors]
f:38 [in UniMath.Bicategories.Core.FullyFaithful]
f:38 [in UniMath.CategoryTheory.Monads.RelativeModules]
f:38 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
f:38 [in UniMath.Bicategories.Core.YonedaLemma]
f:38 [in UniMath.Bicategories.Core.Bicat]
f:38 [in UniMath.Algebra.FixedPointTheorems]
f:38 [in UniMath.CategoryTheory.yoneda]
f:38 [in UniMath.CategoryTheory.DisplayedCats.Core]
F:38 [in UniMath.Ktheory.GrothendieckGroup]
F:38 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:38 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:38 [in UniMath.CategoryTheory.limits.cokernels]
f:38 [in UniMath.Bicategories.Core.Invertible_2cells]
f:38 [in UniMath.CategoryTheory.slicecat]
f:38 [in UniMath.Bicategories.BicatOfBicategory]
F:38 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
F:38 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
F:38 [in UniMath.Topology.Filters]
f:38 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:38 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:38 [in UniMath.Bicategories.Core.TransportLaws]
F:38 [in UniMath.CategoryTheory.FunctorCoalgebras]
f:38 [in UniMath.CategoryTheory.Epis]
f:38 [in UniMath.CategoryTheory.Core.TwoCategories]
f:38 [in UniMath.CategoryTheory.Core.Categories]
f:380 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:381 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:381 [in UniMath.Bicategories.Core.Bicat]
f:381 [in UniMath.Foundations.PartB]
f:381 [in UniMath.CategoryTheory.limits.pullbacks]
F:382 [in UniMath.CategoryTheory.Core.Functors]
f:382 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:382 [in UniMath.Combinatorics.StandardFiniteSets]
f:383 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:383 [in UniMath.Foundations.PartA]
f:384 [in UniMath.Bicategories.Core.Bicat]
f:384 [in UniMath.CategoryTheory.categories.abgrs]
f:384 [in UniMath.CategoryTheory.Core.Isos]
f:384 [in UniMath.CategoryTheory.PreAdditive]
f:385 [in UniMath.CategoryTheory.DisplayedCats.Core]
F:385 [in UniMath.CategoryTheory.limits.graphs.colimits]
f:385 [in UniMath.Combinatorics.StandardFiniteSets]
f:386 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:386 [in UniMath.CategoryTheory.Core.Functors]
f:386 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:387 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:387 [in UniMath.Bicategories.Core.Bicat]
f:387 [in UniMath.CategoryTheory.Adjunctions.Core]
f:387 [in UniMath.Combinatorics.StandardFiniteSets]
f:389 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:39 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
F:39 [in UniMath.CategoryTheory.Subcategory.Full]
f:39 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
f:39 [in UniMath.Bicategories.Core.Adjunctions]
f:39 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:39 [in UniMath.Folds.folds_pre_2_cat]
f:39 [in UniMath.Foundations.Propositions]
F:39 [in UniMath.CategoryTheory.FunctorAlgebras]
F:39 [in UniMath.CategoryTheory.FunctorCategory]
f:39 [in UniMath.CategoryTheory.limits.zero]
f:39 [in UniMath.CategoryTheory.categories.HSET.Colimits]
F:39 [in UniMath.CategoryTheory.Enriched.Enriched]
f:39 [in UniMath.CategoryTheory.categories.HSET.Limits]
f:39 [in UniMath.HomologicalAlgebra.KA]
f:39 [in UniMath.CategoryTheory.Monoidal.Actions]
F:39 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
f:39 [in UniMath.CategoryTheory.limits.cones]
f:39 [in UniMath.MoreFoundations.QuotientSet]
F:39 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:39 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:39 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:39 [in UniMath.CategoryTheory.limits.graphs.zero]
f:39 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:39 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:39 [in UniMath.PAdics.fps]
f:39 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:39 [in UniMath.SubstitutionSystems.LiftingInitial]
F:390 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:390 [in UniMath.Bicategories.Core.Bicat]
f:390 [in UniMath.CategoryTheory.PreAdditive]
f:390 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:390 [in UniMath.Combinatorics.StandardFiniteSets]
f:391 [in UniMath.CategoryTheory.categories.abgrs]
f:391 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:392 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:392 [in UniMath.CategoryTheory.Core.Functors]
f:393 [in UniMath.CategoryTheory.Core.Isos]
f:394 [in UniMath.CategoryTheory.Adjunctions.Core]
f:395 [in UniMath.Bicategories.Core.Bicat]
f:395 [in UniMath.CategoryTheory.Core.Functors]
f:395 [in UniMath.CategoryTheory.Adjunctions.Core]
f:395 [in UniMath.HomologicalAlgebra.Complexes]
f:396 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:396 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:396 [in UniMath.CategoryTheory.PreAdditive]
f:396 [in UniMath.Combinatorics.StandardFiniteSets]
f:396 [in UniMath.CategoryTheory.limits.pullbacks]
f:396 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:398 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:398 [in UniMath.CategoryTheory.categories.abgrs]
F:398 [in UniMath.CategoryTheory.Core.Functors]
f:398 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:399 [in UniMath.Foundations.PartB]
f:399 [in UniMath.HomologicalAlgebra.MappingCone]
f:4 [in UniMath.CategoryTheory.ExactCategories.Tests]
f:4 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
F:4 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:4 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
f:4 [in UniMath.Bicategories.Core.FullyFaithful]
f:4 [in UniMath.HomologicalAlgebra.MappingCylinder]
F:4 [in UniMath.CategoryTheory.Monads.Monads]
F:4 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F:4 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
F:4 [in UniMath.SubstitutionSystems.ModulesFromSignatures]
f:4 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:4 [in UniMath.Bicategories.Core.Adjunctions]
F:4 [in UniMath.CategoryTheory.whiskering]
f:4 [in UniMath.Bicategories.Core.Strictness]
f:4 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:4 [in UniMath.CategoryTheory.Core.Isos]
F:4 [in UniMath.CategoryTheory.DisplayedCats.Limits]
f:4 [in UniMath.CategoryTheory.coslicecat]
f:4 [in UniMath.Bicategories.Core.Invertible_2cells]
f:4 [in UniMath.CategoryTheory.SetValuedFunctors]
f:4 [in UniMath.CategoryTheory.slicecat]
f:4 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:4 [in UniMath.CategoryTheory.categories.HSET.Limits]
f:4 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
f:4 [in UniMath.CategoryTheory.Groupoids]
f:4 [in UniMath.CategoryTheory.Monics]
f:4 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:4 [in UniMath.MoreFoundations.Subposets]
f:4 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
f:4 [in UniMath.Bicategories.Discreteness]
f:4 [in UniMath.CategoryTheory.limits.Opp]
f:4 [in UniMath.MoreFoundations.Univalence]
f:4 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:4 [in UniMath.CategoryTheory.Inductives.Trees]
f:4 [in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
F:4 [in UniMath.CategoryTheory.Monads.LModules]
f:4 [in UniMath.HomologicalAlgebra.MappingCone]
F:4 [in UniMath.CategoryTheory.PointedFunctors]
f:4 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
f:4 [in UniMath.Folds.from_precats_to_folds_and_back]
f:4 [in UniMath.Induction.W.Naturals]
F:4 [in UniMath.CategoryTheory.IsoCommaCategory]
F:4 [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
f:40 [in UniMath.Bicategories.Core.BicategoryLaws]
f:40 [in UniMath.Bicategories.BicategoryOfBicat]
f:40 [in UniMath.Bicategories.Transformations.PseudoTransformation]
F:40 [in UniMath.CategoryTheory.categories.StandardCategories]
f:40 [in UniMath.MoreFoundations.Equivalences]
f:40 [in UniMath.Algebra.Monoids]
f:40 [in UniMath.Induction.ImpredicativeInductiveSets]
F:40 [in UniMath.CategoryTheory.ProductCategory]
f:40 [in UniMath.CategoryTheory.Core.Functors]
f:40 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
f:40 [in UniMath.CategoryTheory.limits.bincoproducts]
f:40 [in UniMath.CategoryTheory.Core.Isos]
f:40 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:40 [in UniMath.CategoryTheory.opp_precat]
F:40 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:40 [in UniMath.Bicategories.WkCatEnrichment.Cat]
F:40 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:40 [in UniMath.CategoryTheory.Monoidal.Actions]
f:40 [in UniMath.Algebra.RigsAndRings]
f:40 [in UniMath.Folds.folds_isomorphism]
f:40 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:40 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
f:40 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:40 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:40 [in UniMath.HomologicalAlgebra.MappingCone]
f:40 [in UniMath.Foundations.PartA]
f:40 [in UniMath.CategoryTheory.PointedFunctors]
F:40 [in UniMath.CategoryTheory.FunctorCoalgebras]
F:40 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:40 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:40 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:40 [in UniMath.CategoryTheory.limits.binproducts]
f:400 [in UniMath.CategoryTheory.PreAdditive]
f:400 [in UniMath.MoreFoundations.PartA]
f:400 [in UniMath.HomologicalAlgebra.Complexes]
f:400 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:402 [in UniMath.Bicategories.Core.Bicat]
F:402 [in UniMath.CategoryTheory.Core.Functors]
f:402 [in UniMath.CategoryTheory.Core.Isos]
f:402 [in UniMath.HomologicalAlgebra.MappingCone]
f:403 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:403 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:403 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:404 [in UniMath.CategoryTheory.PreAdditive]
f:405 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:405 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:406 [in UniMath.Foundations.PartB]
F:406 [in UniMath.CategoryTheory.limits.graphs.colimits]
f:406 [in UniMath.CategoryTheory.limits.pullbacks]
f:406 [in UniMath.HomologicalAlgebra.MappingCone]
f:407 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:407 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:408 [in UniMath.Bicategories.Core.Bicat]
F:408 [in UniMath.CategoryTheory.Core.Functors]
f:409 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:409 [in UniMath.Algebra.FixedPointTheorems]
f:41 [in UniMath.SubstitutionSystems.Signatures]
f:41 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
F:41 [in UniMath.CategoryTheory.AdditiveFunctors]
f:41 [in UniMath.CategoryTheory.Monads.RelativeMonads]
F:41 [in UniMath.CategoryTheory.catiso]
f:41 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:41 [in UniMath.CategoryTheory.LocalizingClass]
F:41 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:41 [in UniMath.Foundations.PartB]
f:41 [in UniMath.MoreFoundations.MoreEquivalences]
f:41 [in UniMath.Bicategories.Core.Strictness]
f:41 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:41 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:41 [in UniMath.Induction.M.ComputationalM]
f:41 [in UniMath.CategoryTheory.limits.kernels]
F:41 [in UniMath.CategoryTheory.FunctorAlgebras]
F:41 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
F:41 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:41 [in UniMath.Bicategories.Modifications.Modification]
f:41 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
f:41 [in UniMath.MoreFoundations.PartA]
f:41 [in UniMath.CategoryTheory.limits.graphs.colimits]
F:41 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:41 [in UniMath.CategoryTheory.Core.TransportMorphisms]
f:41 [in UniMath.Algebra.Universal.Algebras]
f:41 [in UniMath.Foundations.Sets]
f:41 [in UniMath.CategoryTheory.Profunctors.Core]
f:41 [in UniMath.SyntheticHomotopyTheory.AffineLine]
F:41 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:41 [in UniMath.Bicategories.Core.Unitors]
f:41 [in UniMath.MoreFoundations.Nat]
f:410 [in UniMath.CategoryTheory.categories.abgrs]
f:410 [in UniMath.Foundations.PartB]
f:410 [in UniMath.HomologicalAlgebra.MappingCone]
f:411 [in UniMath.CategoryTheory.Core.Isos]
f:411 [in UniMath.CategoryTheory.PreAdditive]
f:411 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:411 [in UniMath.Foundations.Sets]
f:411 [in UniMath.Foundations.PartC]
f:411 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:411 [in UniMath.Foundations.PartA]
f:412 [in UniMath.MoreFoundations.PartA]
f:413 [in UniMath.CategoryTheory.Core.Functors]
f:414 [in UniMath.Foundations.PartB]
f:415 [in UniMath.Bicategories.Core.Bicat]
f:415 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:415 [in UniMath.CategoryTheory.limits.pullbacks]
f:416 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:416 [in UniMath.Foundations.Sets]
F:417 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
f:418 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:418 [in UniMath.Foundations.PartB]
F:418 [in UniMath.CategoryTheory.Core.Functors]
f:418 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:418 [in UniMath.Foundations.PartC]
f:419 [in UniMath.CategoryTheory.Core.Isos]
F:42 [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
f:42 [in UniMath.MoreFoundations.NullHomotopies]
f:42 [in UniMath.Induction.W.Fibered]
F:42 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
f:42 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:42 [in UniMath.Bicategories.Core.Examples.Initial]
f:42 [in UniMath.CategoryTheory.ElementsOp]
F:42 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
f:42 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:42 [in UniMath.MoreFoundations.Sets]
F:42 [in UniMath.CategoryTheory.whiskering]
f:42 [in UniMath.Foundations.Propositions]
f:42 [in UniMath.CategoryTheory.slicecat]
F:42 [in UniMath.CategoryTheory.Enriched.Enriched]
F:42 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
F:42 [in UniMath.CategoryTheory.Adjunctions.Core]
f:42 [in UniMath.CategoryTheory.limits.cones]
F:42 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
F:42 [in UniMath.Topology.Filters]
f:42 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:42 [in UniMath.CategoryTheory.elems_slice_equiv]
F:42 [in UniMath.CategoryTheory.FunctorCoalgebras]
f:42 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
f:42 [in UniMath.CategoryTheory.AbelianPushoutPullback]
f:420 [in UniMath.Foundations.Sets]
f:420 [in UniMath.Foundations.PartA]
f:421 [in UniMath.Algebra.FixedPointTheorems]
f:421 [in UniMath.CategoryTheory.Core.Functors]
f:421 [in UniMath.Foundations.Sets]
f:421 [in UniMath.PAdics.fps]
f:421 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:422 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:422 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:422 [in UniMath.Bicategories.Core.Bicat]
f:422 [in UniMath.CategoryTheory.categories.abgrs]
f:422 [in UniMath.CategoryTheory.limits.graphs.limits]
f:423 [in UniMath.Foundations.PartB]
F:423 [in UniMath.CategoryTheory.limits.pullbacks]
f:424 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:424 [in UniMath.CategoryTheory.Core.Functors]
f:424 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:424 [in UniMath.CategoryTheory.PreAdditive]
f:424 [in UniMath.MoreFoundations.PartA]
F:425 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:425 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:426 [in UniMath.Combinatorics.StandardFiniteSets]
f:428 [in UniMath.Algebra.FixedPointTheorems]
f:428 [in UniMath.Foundations.PartB]
F:428 [in UniMath.CategoryTheory.Core.Functors]
f:429 [in UniMath.Foundations.Sets]
f:43 [in UniMath.Bicategories.Core.Bicat]
f:43 [in UniMath.MoreFoundations.Equivalences]
f:43 [in UniMath.Bicategories.Core.Adjunctions]
f:43 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:43 [in UniMath.Folds.folds_pre_2_cat]
F:43 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:43 [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
F:43 [in UniMath.CategoryTheory.FunctorAlgebras]
f:43 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:43 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:43 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:43 [in UniMath.Folds.folds_precat]
f:43 [in UniMath.Bicategories.Core.Univalence]
f:43 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:43 [in UniMath.Algebra.RigsAndRings]
f:43 [in UniMath.CategoryTheory.limits.products]
f:43 [in UniMath.CategoryTheory.LatticeObject]
f:43 [in UniMath.CategoryTheory.limits.Opp]
F:43 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:43 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:43 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:43 [in UniMath.Induction.W.Naturals]
f:43 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:43 [in UniMath.CategoryTheory.Core.Categories]
F:430 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:430 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:430 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:430 [in UniMath.CategoryTheory.limits.graphs.limits]
f:431 [in UniMath.Foundations.PartB]
f:431 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:432 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:433 [in UniMath.CategoryTheory.DisplayedCats.Core]
F:434 [in UniMath.CategoryTheory.Core.Functors]
f:434 [in UniMath.MoreFoundations.PartA]
f:434 [in UniMath.Foundations.Sets]
f:435 [in UniMath.Algebra.FixedPointTheorems]
f:435 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:437 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:437 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:437 [in UniMath.Foundations.PartB]
F:437 [in UniMath.CategoryTheory.Core.Functors]
f:437 [in UniMath.Foundations.Sets]
F:438 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:438 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:438 [in UniMath.CategoryTheory.categories.abgrs]
f:438 [in UniMath.CategoryTheory.PreAdditive]
f:438 [in UniMath.Combinatorics.StandardFiniteSets]
f:438 [in UniMath.CategoryTheory.limits.graphs.limits]
f:439 [in UniMath.CategoryTheory.Core.Isos]
f:44 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
f:44 [in UniMath.CategoryTheory.Subcategory.Full]
F:44 [in UniMath.CategoryTheory.categories.StandardCategories]
F:44 [in UniMath.CategoryTheory.yoneda]
F:44 [in UniMath.CategoryTheory.Core.Functors]
f:44 [in UniMath.CategoryTheory.limits.graphs.pushouts]
F:44 [in UniMath.CategoryTheory.CategoryEquality]
f:44 [in UniMath.CategoryTheory.Core.Isos]
f:44 [in UniMath.CategoryTheory.opp_precat]
f:44 [in UniMath.CategoryTheory.limits.zero]
f:44 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:44 [in UniMath.CategoryTheory.limits.equalizers]
f:44 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:44 [in UniMath.Bicategories.WkCatEnrichment.Cat]
f:44 [in UniMath.CategoryTheory.PreAdditive]
f:44 [in UniMath.Combinatorics.Graph]
F:44 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
F:44 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:44 [in UniMath.HomologicalAlgebra.KA]
f:44 [in UniMath.CategoryTheory.Monics]
f:44 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:44 [in UniMath.Folds.folds_isomorphism]
f:44 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F:44 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:44 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:44 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:44 [in UniMath.Algebra.Dcpo]
f:44 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:44 [in UniMath.PAdics.fps]
f:44 [in UniMath.CategoryTheory.limits.coequalizers]
F:44 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:44 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:44 [in UniMath.Algebra.Universal.SortedTypes]
f:44 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
F:440 [in UniMath.CategoryTheory.Core.Functors]
f:441 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:441 [in UniMath.Bicategories.Core.Bicat]
f:441 [in UniMath.Algebra.FixedPointTheorems]
f:441 [in UniMath.Foundations.Sets]
f:442 [in UniMath.Foundations.PartB]
F:443 [in UniMath.CategoryTheory.Core.Functors]
f:444 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:444 [in UniMath.CategoryTheory.Core.Isos]
f:444 [in UniMath.CategoryTheory.PreAdditive]
f:444 [in UniMath.Foundations.PartC]
f:444 [in UniMath.SyntheticHomotopyTheory.AffineLine]
F:445 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:445 [in UniMath.Bicategories.Core.Bicat]
f:445 [in UniMath.Combinatorics.StandardFiniteSets]
F:446 [in UniMath.CategoryTheory.Core.Functors]
f:447 [in UniMath.Algebra.FixedPointTheorems]
f:448 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:448 [in UniMath.CategoryTheory.PreAdditive]
f:448 [in UniMath.Foundations.PartC]
f:449 [in UniMath.Combinatorics.StandardFiniteSets]
f:449 [in UniMath.CategoryTheory.limits.graphs.limits]
f:45 [in UniMath.SubstitutionSystems.Signatures]
f:45 [in UniMath.CategoryTheory.Presheaf]
F:45 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
F:45 [in UniMath.CategoryTheory.catiso]
f:45 [in UniMath.CategoryTheory.DisplayedCats.Projection]
f:45 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:45 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:45 [in UniMath.CategoryTheory.ProductCategory]
f:45 [in UniMath.CategoryTheory.limits.coproducts]
f:45 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:45 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
f:45 [in UniMath.Ktheory.GrothendieckGroup]
f:45 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:45 [in UniMath.CategoryTheory.Subcategory.Core]
f:45 [in UniMath.CategoryTheory.ShortExactSequences]
F:45 [in UniMath.CategoryTheory.limits.cats.limits]
f:45 [in UniMath.CategoryTheory.Core.Univalence]
f:45 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
F:45 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:45 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:45 [in UniMath.CategoryTheory.limits.graphs.zero]
f:45 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:45 [in UniMath.Foundations.PartA]
f:45 [in UniMath.CategoryTheory.Epis]
f:45 [in UniMath.Folds.from_precats_to_folds_and_back]
f:45 [in UniMath.SubstitutionSystems.LiftingInitial]
F:45 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
F:450 [in UniMath.CategoryTheory.Core.Functors]
f:450 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:451 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:451 [in UniMath.CategoryTheory.categories.abgrs]
f:451 [in UniMath.Combinatorics.StandardFiniteSets]
f:451 [in UniMath.Foundations.PartC]
F:452 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:452 [in UniMath.Bicategories.Core.Bicat]
f:452 [in UniMath.Algebra.FixedPointTheorems]
f:454 [in UniMath.CategoryTheory.PreAdditive]
f:454 [in UniMath.CategoryTheory.limits.pullbacks]
f:454 [in UniMath.Foundations.PartC]
f:455 [in UniMath.Algebra.FixedPointTheorems]
f:455 [in UniMath.CategoryTheory.Core.Isos]
F:456 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:457 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:457 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:457 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:457 [in UniMath.CategoryTheory.Core.Functors]
f:457 [in UniMath.CategoryTheory.PreAdditive]
f:457 [in UniMath.Combinatorics.StandardFiniteSets]
f:459 [in UniMath.CategoryTheory.categories.abgrs]
f:459 [in UniMath.CategoryTheory.Core.Isos]
f:46 [in UniMath.MoreFoundations.NullHomotopies]
F:46 [in UniMath.CategoryTheory.AdditiveFunctors]
f:46 [in UniMath.Bicategories.Core.FullyFaithful]
f:46 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:46 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:46 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:46 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:46 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:46 [in UniMath.Algebra.Monoids]
f:46 [in UniMath.CategoryTheory.limits.bincoproducts]
f:46 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:46 [in UniMath.CategoryTheory.limits.zero]
F:46 [in UniMath.CategoryTheory.Enriched.Enriched]
f:46 [in UniMath.SubstitutionSystems.SubstitutionSystems]
f:46 [in UniMath.CategoryTheory.categories.HSET.Limits]
F:46 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:46 [in UniMath.CategoryTheory.limits.cones]
f:46 [in UniMath.CategoryTheory.Inductives.Trees]
f:46 [in UniMath.Combinatorics.GraphPaths]
F:46 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:46 [in UniMath.Algebra.Universal.Algebras]
f:46 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:46 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
F:46 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
F:46 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:46 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
f:46 [in UniMath.CategoryTheory.limits.binproducts]
f:461 [in UniMath.Bicategories.Core.Bicat]
f:461 [in UniMath.Algebra.FixedPointTheorems]
f:461 [in UniMath.CategoryTheory.limits.graphs.limits]
f:462 [in UniMath.CategoryTheory.PreAdditive]
F:463 [in UniMath.CategoryTheory.Core.Functors]
f:463 [in UniMath.CategoryTheory.Core.Isos]
f:463 [in UniMath.Foundations.PartA]
f:464 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:464 [in UniMath.CategoryTheory.limits.pullbacks]
F:465 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:465 [in UniMath.Bicategories.Core.Bicat]
f:465 [in UniMath.Foundations.PartC]
f:467 [in UniMath.CategoryTheory.Core.Isos]
f:468 [in UniMath.CategoryTheory.categories.abgrs]
f:468 [in UniMath.Algebra.FixedPointTheorems]
f:468 [in UniMath.CategoryTheory.Core.Functors]
f:468 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:469 [in UniMath.Bicategories.Core.Bicat]
f:469 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:469 [in UniMath.CategoryTheory.PreAdditive]
f:47 [in UniMath.Combinatorics.ZFstructures]
f:47 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:47 [in UniMath.Bicategories.Core.Examples.Initial]
f:47 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:47 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:47 [in UniMath.Bicategories.Core.Adjunctions]
f:47 [in UniMath.MoreFoundations.MoreEquivalences]
f:47 [in UniMath.CategoryTheory.limits.pushouts]
f:47 [in UniMath.Folds.folds_pre_2_cat]
f:47 [in UniMath.CategoryTheory.DisplayedCats.Examples]
f:47 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:47 [in UniMath.Induction.M.ComputationalM]
f:47 [in UniMath.CategoryTheory.EpiFacts]
f:47 [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
F:47 [in UniMath.CategoryTheory.FunctorCategory]
F:47 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:47 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F:47 [in UniMath.CategoryTheory.Enriched.Enriched]
f:47 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:47 [in UniMath.Folds.folds_isomorphism]
f:47 [in UniMath.MoreFoundations.QuotientSet]
f:47 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:47 [in UniMath.Topology.Filters]
f:47 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:47 [in UniMath.Algebra.Dcpo]
f:47 [in UniMath.CategoryTheory.elems_slice_equiv]
f:47 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:47 [in UniMath.HomologicalAlgebra.MappingCone]
F:47 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:47 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:47 [in UniMath.MoreFoundations.Nat]
f:47 [in UniMath.CategoryTheory.Core.TwoCategories]
f:47 [in UniMath.SubstitutionSystems.LiftingInitial]
f:470 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:471 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:471 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:471 [in UniMath.Algebra.FixedPointTheorems]
f:471 [in UniMath.CategoryTheory.limits.pullbacks]
f:471 [in UniMath.Foundations.PartA]
f:472 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f:472 [in UniMath.CategoryTheory.Core.Isos]
F:472 [in UniMath.CategoryTheory.limits.pullbacks]
f:473 [in UniMath.Bicategories.Core.Bicat]
f:473 [in UniMath.Algebra.FixedPointTheorems]
f:473 [in UniMath.CategoryTheory.PreAdditive]
f:473 [in UniMath.Foundations.PartC]
F:474 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:475 [in UniMath.Algebra.FixedPointTheorems]
f:475 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:476 [in UniMath.CategoryTheory.categories.abgrs]
f:476 [in UniMath.CategoryTheory.Core.Isos]
f:477 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f:477 [in UniMath.Bicategories.Core.Bicat]
F:477 [in UniMath.CategoryTheory.Core.Functors]
f:477 [in UniMath.CategoryTheory.PreAdditive]
f:477 [in UniMath.CategoryTheory.limits.graphs.limits]
f:478 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:478 [in UniMath.Algebra.FixedPointTheorems]
f:478 [in UniMath.Combinatorics.WellOrderedSets]
F:479 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:479 [in UniMath.CategoryTheory.limits.pullbacks]
f:48 [in UniMath.CategoryTheory.catiso]
F:48 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:48 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:48 [in UniMath.MoreFoundations.Sets]
F:48 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:48 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
F:48 [in UniMath.CategoryTheory.yoneda]
f:48 [in UniMath.Foundations.PartB]
F:48 [in UniMath.CategoryTheory.Core.Functors]
f:48 [in UniMath.CategoryTheory.limits.initial]
f:48 [in UniMath.CategoryTheory.Core.Isos]
F:48 [in UniMath.CategoryTheory.FunctorAlgebras]
f:48 [in UniMath.CategoryTheory.limits.cokernels]
f:48 [in UniMath.Bicategories.Core.Univalence]
F:48 [in UniMath.SubstitutionSystems.BindingSigToMonad]
F:48 [in UniMath.CategoryTheory.Adjunctions.Core]
f:48 [in UniMath.CategoryTheory.Groupoids]
f:48 [in UniMath.Algebra.RigsAndRings]
f:48 [in UniMath.Bicategories.Modifications.Modification]
F:48 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:48 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
F:48 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:48 [in UniMath.CategoryTheory.Core.TransportMorphisms]
f:48 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:48 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:48 [in UniMath.CategoryTheory.limits.pullbacks]
f:48 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:48 [in UniMath.CategoryTheory.AbelianPushoutPullback]
F:48 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
F:481 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:481 [in UniMath.Algebra.FixedPointTheorems]
f:481 [in UniMath.CategoryTheory.Core.Isos]
f:481 [in UniMath.CategoryTheory.PreAdditive]
f:481 [in UniMath.MoreFoundations.PartA]
F:481 [in UniMath.Combinatorics.StandardFiniteSets]
F:481 [in UniMath.CategoryTheory.limits.pullbacks]
f:482 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f:482 [in UniMath.CategoryTheory.categories.abgrs]
F:482 [in UniMath.CategoryTheory.Core.Functors]
F:483 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:483 [in UniMath.CategoryTheory.LocalizingClass]
f:483 [in UniMath.Bicategories.Core.Bicat]
f:483 [in UniMath.Algebra.FixedPointTheorems]
f:483 [in UniMath.Foundations.PartA]
F:484 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:484 [in UniMath.CategoryTheory.LocalizingClass]
f:484 [in UniMath.Combinatorics.WellOrderedSets]
f:485 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:485 [in UniMath.Algebra.FixedPointTheorems]
F:486 [in UniMath.CategoryTheory.Core.Functors]
F:486 [in UniMath.CategoryTheory.limits.pullbacks]
f:487 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F:487 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:487 [in UniMath.CategoryTheory.categories.abgrs]
f:487 [in UniMath.Foundations.PartB]
f:487 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:487 [in UniMath.Combinatorics.WellOrderedSets]
f:487 [in UniMath.Foundations.PartC]
F:488 [in UniMath.Combinatorics.StandardFiniteSets]
f:489 [in UniMath.Algebra.FixedPointTheorems]
F:489 [in UniMath.CategoryTheory.Core.Functors]
f:489 [in UniMath.CategoryTheory.Core.Isos]
F:49 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:49 [in UniMath.CategoryTheory.Presheaf]
f:49 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:49 [in UniMath.CategoryTheory.LocalizingClass]
f:49 [in UniMath.Bicategories.Core.Bicat]
f:49 [in UniMath.Algebra.Monoids]
f:49 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:49 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:49 [in UniMath.Algebra.Modules.Quotient]
f:49 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:49 [in UniMath.Ktheory.GrothendieckGroup]
f:49 [in UniMath.Foundations.Propositions]
F:49 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:49 [in UniMath.CategoryTheory.CategoryEquality]
f:49 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:49 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:49 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
f:49 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:49 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:49 [in UniMath.Algebra.GroupAction]
f:49 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:49 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
f:49 [in UniMath.Bicategories.Discreteness]
f:49 [in UniMath.MoreFoundations.Univalence]
f:49 [in UniMath.CategoryTheory.Inductives.Trees]
f:49 [in UniMath.Combinatorics.Lists]
f:49 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:49 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:49 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:49 [in UniMath.PAdics.fps]
f:49 [in UniMath.MoreFoundations.Nat]
f:49 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:49 [in UniMath.SubstitutionSystems.LiftingInitial]
f:49 [in UniMath.Paradoxes.GirardsParadox]
f:490 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:490 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:490 [in UniMath.Foundations.PartA]
F:491 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:491 [in UniMath.Bicategories.Core.Bicat]
f:491 [in UniMath.MoreFoundations.PartA]
f:492 [in UniMath.CategoryTheory.LocalizingClass]
f:492 [in UniMath.Combinatorics.WellOrderedSets]
F:492 [in UniMath.CategoryTheory.limits.pullbacks]
f:493 [in UniMath.CategoryTheory.LocalizingClass]
f:493 [in UniMath.HomologicalAlgebra.MappingCone]
F:494 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:494 [in UniMath.CategoryTheory.categories.abgrs]
f:494 [in UniMath.MoreFoundations.PartA]
f:495 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:496 [in UniMath.HomologicalAlgebra.MappingCone]
F:497 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:497 [in UniMath.CategoryTheory.Core.Isos]
F:497 [in UniMath.CategoryTheory.limits.pullbacks]
f:497 [in UniMath.Foundations.PartC]
f:498 [in UniMath.Combinatorics.WellOrderedSets]
f:499 [in UniMath.Bicategories.Core.Bicat]
f:499 [in UniMath.HomologicalAlgebra.MappingCone]
f:5 [in UniMath.Bicategories.Core.UnivalenceOp]
f:5 [in UniMath.Bicategories.Core.EquivToAdjequiv]
F:5 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
f:5 [in UniMath.CategoryTheory.Elements]
f:5 [in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
f:5 [in UniMath.Bicategories.Colimits.Pullback]
f:5 [in UniMath.CategoryTheory.ElementsOp]
F:5 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
f:5 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
F:5 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:5 [in UniMath.CategoryTheory.limits.graphs.kernels]
f:5 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:5 [in UniMath.CategoryTheory.Subcategory.Full]
F:5 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:5 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:5 [in UniMath.CategoryTheory.limits.graphs.cokernels]
f:5 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:5 [in UniMath.CategoryTheory.categories.Type.Structures]
f:5 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
F:5 [in UniMath.CategoryTheory.Chains.Chains]
f:5 [in UniMath.CategoryTheory.Monads.KleisliCategory]
f:5 [in UniMath.Combinatorics.Tests]
F:5 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
f:5 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:5 [in UniMath.CategoryTheory.limits.equalizers]
f:5 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:5 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
f:5 [in UniMath.CategoryTheory.PreAdditive]
f:5 [in UniMath.Bicategories.DisplayedBicats.Fibration]
f:5 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
F:5 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:5 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
F:5 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
f:5 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
F:5 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:5 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
F:5 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
f:5 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:5 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
F:5 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
F:5 [in UniMath.CategoryTheory.Profunctors.Core]
F:5 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
f:5 [in UniMath.CategoryTheory.limits.coequalizers]
F:5 [in UniMath.CategoryTheory.PointedFunctors]
f:5 [in UniMath.SyntheticHomotopyTheory.Halfline]
f:5 [in UniMath.CategoryTheory.Epis]
F:5 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:5 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:5 [in UniMath.CategoryTheory.AbelianPushoutPullback]
F:5 [in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
f:50 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:50 [in UniMath.CategoryTheory.Monads.RelativeModules]
f:50 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:50 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
F:50 [in UniMath.CategoryTheory.ProductCategory]
f:50 [in UniMath.Bicategories.Core.Strictness]
f:50 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
F:50 [in UniMath.CategoryTheory.Enriched.Enriched]
F:50 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:50 [in UniMath.SubstitutionSystems.SubstitutionSystems]
F:50 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
f:50 [in UniMath.CategoryTheory.limits.graphs.binproducts]
f:50 [in UniMath.HomologicalAlgebra.KA]
f:50 [in UniMath.Folds.folds_isomorphism]
f:50 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
f:50 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:50 [in UniMath.CategoryTheory.limits.cats.limits]
f:50 [in UniMath.CategoryTheory.limits.Opp]
f:50 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
F:50 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
f:50 [in UniMath.Algebra.Universal.Algebras]
f:50 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:50 [in UniMath.CategoryTheory.limits.graphs.zero]
F:50 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:50 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:50 [in UniMath.CategoryTheory.categories.monoids]
f:50 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
f:50 [in UniMath.MoreFoundations.Nat]
f:50 [in UniMath.CategoryTheory.Monads.KTriples]
f:50 [in UniMath.CategoryTheory.Core.Categories]
f:500 [in UniMath.CategoryTheory.LocalizingClass]
F:501 [in UniMath.CategoryTheory.Monads.RelativeMonads]
f:501 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:502 [in UniMath.CategoryTheory.categories.abgrs]
f:502 [in UniMath.CategoryTheory.DisplayedCats.Core]
F:503 [in UniMath.CategoryTheory.limits.pullbacks]
f:504 [in UniMath.Bicategories.Core.Bicat]
f:504 [in UniMath.CategoryTheory.Core.Isos]
f:504 [in UniMath.MoreFoundations.PartA]
f:504 [in UniMath.HomologicalAlgebra.MappingCone]
f:505 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:505 [in UniMath.CategoryTheory.PreAdditive]
f:506 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:506 [in UniMath.Foundations.PartB]
f:506 [in UniMath.Foundations.PartC]
f:507 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:507 [in UniMath.Combinatorics.WellOrderedSets]
F:508 [in UniMath.CategoryTheory.limits.pullbacks]
f:51 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f:51 [in UniMath.MoreFoundations.NullHomotopies]
F:51 [in UniMath.CategoryTheory.AdditiveFunctors]
F:51 [in UniMath.CategoryTheory.catiso]
F:51 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:51 [in UniMath.CategoryTheory.yoneda]
f:51 [in UniMath.Combinatorics.OrderedSets]
f:51 [in UniMath.Bicategories.Core.Adjunctions]
F:51 [in UniMath.CategoryTheory.Core.Functors]
f:51 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:51 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
F:51 [in UniMath.CategoryTheory.Chains.Chains]
f:51 [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
f:51 [in UniMath.CategoryTheory.opp_precat]
f:51 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:51 [in UniMath.Folds.folds_precat]
f:51 [in UniMath.Algebra.Modules.Multimodules]
f:51 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:51 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f:51 [in UniMath.CategoryTheory.PreAdditive]
f:51 [in UniMath.CategoryTheory.Groupoids]
F:51 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:51 [in UniMath.Bicategories.Modifications.Modification]
F:51 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F:51 [in UniMath.Topology.Filters]
f:51 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:51 [in UniMath.Algebra.Dcpo]
f:510 [in UniMath.CategoryTheory.categories.abgrs]
f:510 [in UniMath.CategoryTheory.PreAdditive]
f:511 [in UniMath.Bicategories.Core.Bicat]
F:511 [in UniMath.CategoryTheory.Core.Functors]
f:511 [in UniMath.CategoryTheory.Core.Isos]
f:512 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:512 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:512 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:513 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:514 [in UniMath.CategoryTheory.categories.abgrs]
f:514 [in UniMath.CategoryTheory.Core.Functors]
f:514 [in UniMath.CategoryTheory.PreAdditive]
f:514 [in UniMath.Foundations.PartC]
f:515 [in UniMath.CategoryTheory.limits.graphs.limits]
f:516 [in UniMath.CategoryTheory.Core.Isos]
f:516 [in UniMath.MoreFoundations.PartA]
f:516 [in UniMath.CategoryTheory.limits.graphs.limits]
f:517 [in UniMath.Foundations.PartD]
f:518 [in UniMath.CategoryTheory.categories.abgrs]
f:518 [in UniMath.Foundations.PartC]
f:519 [in UniMath.Algebra.FixedPointTheorems]
F:519 [in UniMath.CategoryTheory.Core.Functors]
f:519 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:52 [in UniMath.Bicategories.Core.BicategoryLaws]
F:52 [in UniMath.Algebra.DivisionRig]
f:52 [in UniMath.Combinatorics.ZFstructures]
f:52 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:52 [in UniMath.Algebra.Monoids]
f:52 [in UniMath.Induction.ImpredicativeInductiveSets]
f:52 [in UniMath.CategoryTheory.limits.coproducts]
f:52 [in UniMath.CategoryTheory.limits.bincoproducts]
f:52 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:52 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:52 [in UniMath.Folds.folds_pre_2_cat]
f:52 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:52 [in UniMath.Induction.M.ComputationalM]
f:52 [in UniMath.CategoryTheory.Core.Isos]
f:52 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
F:52 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:52 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:52 [in UniMath.Bicategories.Core.Univalence]
f:52 [in UniMath.CategoryTheory.ShortExactSequences]
F:52 [in UniMath.CategoryTheory.Equivalences.Core]
f:52 [in UniMath.Algebra.RigsAndRings]
f:52 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:52 [in UniMath.CategoryTheory.limits.cones]
F:52 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:52 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:52 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:52 [in UniMath.CategoryTheory.limits.graphs.zero]
f:52 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:52 [in UniMath.Foundations.PartC]
f:52 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
F:52 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:52 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:52 [in UniMath.CategoryTheory.limits.binproducts]
f:520 [in UniMath.Bicategories.Core.Bicat]
f:520 [in UniMath.CategoryTheory.PreAdditive]
f:520 [in UniMath.CategoryTheory.limits.pullbacks]
f:521 [in UniMath.CategoryTheory.Core.Isos]
f:522 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:522 [in UniMath.CategoryTheory.Core.Functors]
f:523 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:524 [in UniMath.CategoryTheory.PreAdditive]
f:524 [in UniMath.Foundations.PartC]
f:525 [in UniMath.CategoryTheory.LocalizingClass]
f:525 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:526 [in UniMath.Bicategories.Core.Bicat]
f:526 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:528 [in UniMath.Algebra.FixedPointTheorems]
F:528 [in UniMath.CategoryTheory.Core.Functors]
f:529 [in UniMath.CategoryTheory.Core.Functors]
f:529 [in UniMath.CategoryTheory.Core.Isos]
F:529 [in UniMath.CategoryTheory.limits.graphs.limits]
f:53 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
F:53 [in UniMath.Algebra.DivisionRig]
F:53 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F:53 [in UniMath.CategoryTheory.categories.StandardCategories]
f:53 [in UniMath.Foundations.PartD]
F:53 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:53 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:53 [in UniMath.MoreFoundations.MoreEquivalences]
f:53 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
f:53 [in UniMath.Foundations.UnivalenceAxiom]
f:53 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:53 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:53 [in UniMath.Ktheory.GrothendieckGroup]
f:53 [in UniMath.CategoryTheory.categories.HSET.Limits]
f:53 [in UniMath.CategoryTheory.Core.Univalence]
F:53 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:53 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:53 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
F:53 [in UniMath.CategoryTheory.elems_slice_equiv]
F:53 [in UniMath.CategoryTheory.Profunctors.Core]
f:53 [in UniMath.SyntheticHomotopyTheory.AffineLine]
f:53 [in UniMath.HomologicalAlgebra.MappingCone]
f:53 [in UniMath.Paradoxes.GirardsParadox]
f:530 [in UniMath.CategoryTheory.LocalizingClass]
f:530 [in UniMath.CategoryTheory.PreAdditive]
f:531 [in UniMath.CategoryTheory.limits.pullbacks]
f:532 [in UniMath.CategoryTheory.categories.abgrs]
F:532 [in UniMath.CategoryTheory.Core.Functors]
f:533 [in UniMath.Bicategories.Core.Bicat]
f:533 [in UniMath.Foundations.PartD]
f:533 [in UniMath.Foundations.PartB]
f:533 [in UniMath.Foundations.PartA]
f:534 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:534 [in UniMath.Algebra.RigsAndRings]
f:535 [in UniMath.CategoryTheory.LocalizingClass]
f:535 [in UniMath.CategoryTheory.Core.Functors]
f:535 [in UniMath.CategoryTheory.Core.Isos]
f:535 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:535 [in UniMath.CategoryTheory.PreAdditive]
f:535 [in UniMath.Foundations.PartC]
f:536 [in UniMath.Foundations.PartD]
f:537 [in UniMath.CategoryTheory.DisplayedCats.Core]
F:537 [in UniMath.Combinatorics.StandardFiniteSets]
f:538 [in UniMath.CategoryTheory.LocalizingClass]
f:538 [in UniMath.CategoryTheory.categories.abgrs]
f:538 [in UniMath.Foundations.PartB]
F:538 [in UniMath.CategoryTheory.Core.Functors]
f:539 [in UniMath.Foundations.PartD]
f:539 [in UniMath.Foundations.PartC]
f:54 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:54 [in UniMath.MoreFoundations.NullHomotopies]
f:54 [in UniMath.CategoryTheory.AdditiveFunctors]
f:54 [in UniMath.CategoryTheory.Inductives.Lists]
F:54 [in UniMath.Algebra.DivisionRig]
f:54 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:54 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
F:54 [in UniMath.CategoryTheory.yoneda]
f:54 [in UniMath.Foundations.PartB]
F:54 [in UniMath.CategoryTheory.Core.Functors]
f:54 [in UniMath.Bicategories.DisplayedBicats.DispModification]
f:54 [in UniMath.CategoryTheory.DisplayedCats.Examples]
f:54 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:54 [in UniMath.CategoryTheory.FunctorCategory]
f:54 [in UniMath.Combinatorics.Graph]
f:54 [in UniMath.CategoryTheory.Monics]
f:54 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
f:54 [in UniMath.Combinatorics.Lists]
F:54 [in UniMath.CategoryTheory.elems_slice_equiv]
f:54 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:54 [in UniMath.Folds.from_precats_to_folds_and_back]
f:54 [in UniMath.CategoryTheory.AbelianPushoutPullback]
f:540 [in UniMath.Bicategories.Core.Bicat]
f:540 [in UniMath.CategoryTheory.Core.Isos]
f:541 [in UniMath.CategoryTheory.Core.Functors]
f:541 [in UniMath.Algebra.RigsAndRings]
f:542 [in UniMath.Foundations.PartD]
f:542 [in UniMath.CategoryTheory.PreAdditive]
F:542 [in UniMath.Combinatorics.StandardFiniteSets]
f:543 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:543 [in UniMath.Foundations.PartB]
f:543 [in UniMath.MoreFoundations.PartA]
f:543 [in UniMath.Foundations.PartC]
f:544 [in UniMath.CategoryTheory.categories.abgrs]
f:544 [in UniMath.Foundations.PartA]
f:545 [in UniMath.CategoryTheory.Core.Isos]
f:547 [in UniMath.Bicategories.Core.Bicat]
f:549 [in UniMath.CategoryTheory.PreAdditive]
f:549 [in UniMath.MoreFoundations.PartA]
f:549 [in UniMath.Foundations.PartC]
f:55 [in UniMath.CategoryTheory.Monads.RelativeMonads]
F:55 [in UniMath.Algebra.DivisionRig]
f:55 [in UniMath.Induction.ImpredicativeInductiveSets]
f:55 [in UniMath.Bicategories.Core.Adjunctions]
f:55 [in UniMath.CategoryTheory.limits.pushouts]
f:55 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:55 [in UniMath.CategoryTheory.limits.cokernels]
f:55 [in UniMath.Algebra.GroupAction]
f:55 [in UniMath.HomologicalAlgebra.KA]
f:55 [in UniMath.Combinatorics.FiniteSets]
f:55 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:55 [in UniMath.CategoryTheory.limits.products]
f:55 [in UniMath.MoreFoundations.PartA]
f:55 [in UniMath.CategoryTheory.limits.Opp]
f:55 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
F:55 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:55 [in UniMath.Algebra.Universal.Algebras]
f:55 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:55 [in UniMath.Topology.Filters]
f:55 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:55 [in UniMath.PAdics.fps]
f:55 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:55 [in UniMath.CategoryTheory.Epis]
f:550 [in UniMath.CategoryTheory.categories.abgrs]
f:550 [in UniMath.Foundations.PartB]
f:550 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:551 [in UniMath.Bicategories.Core.Bicat]
f:551 [in UniMath.CategoryTheory.Core.Isos]
f:552 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:552 [in UniMath.Algebra.RigsAndRings]
F:553 [in UniMath.Combinatorics.StandardFiniteSets]
f:554 [in UniMath.Foundations.PartD]
f:554 [in UniMath.Foundations.PartB]
f:555 [in UniMath.CategoryTheory.categories.abgrs]
f:555 [in UniMath.CategoryTheory.PreAdditive]
f:555 [in UniMath.MoreFoundations.PartA]
f:555 [in UniMath.Foundations.PartA]
f:557 [in UniMath.Bicategories.Core.Bicat]
f:558 [in UniMath.CategoryTheory.Core.Isos]
f:56 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F:56 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
F:56 [in UniMath.Algebra.DivisionRig]
f:56 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:56 [in UniMath.CategoryTheory.catiso]
f:56 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:56 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:56 [in UniMath.CategoryTheory.yoneda]
f:56 [in UniMath.CategoryTheory.Core.Isos]
f:56 [in UniMath.CategoryTheory.FunctorAlgebras]
F:56 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:56 [in UniMath.Bicategories.Core.Univalence]
f:56 [in UniMath.SubstitutionSystems.SubstitutionSystems]
f:56 [in UniMath.CategoryTheory.limits.graphs.binproducts]
f:56 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:56 [in UniMath.Algebra.RigsAndRings]
F:56 [in UniMath.CategoryTheory.limits.cats.limits]
f:56 [in UniMath.Bicategories.Discreteness]
f:56 [in UniMath.CategoryTheory.limits.pullbacks]
f:56 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:56 [in UniMath.Paradoxes.GirardsParadox]
f:56 [in UniMath.CategoryTheory.Core.Categories]
f:561 [in UniMath.CategoryTheory.categories.abgrs]
f:561 [in UniMath.HomologicalAlgebra.MappingCone]
f:562 [in UniMath.Bicategories.Core.Bicat]
f:564 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:564 [in UniMath.Algebra.FixedPointTheorems]
f:564 [in UniMath.CategoryTheory.Core.Isos]
f:564 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:564 [in UniMath.Combinatorics.StandardFiniteSets]
f:564 [in UniMath.HomologicalAlgebra.MappingCone]
f:565 [in UniMath.Algebra.FixedPointTheorems]
f:566 [in UniMath.Algebra.FixedPointTheorems]
f:566 [in UniMath.Combinatorics.StandardFiniteSets]
f:566 [in UniMath.CategoryTheory.limits.pullbacks]
f:568 [in UniMath.CategoryTheory.categories.abgrs]
f:57 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:57 [in UniMath.CategoryTheory.Inductives.Lists]
F:57 [in UniMath.Algebra.DivisionRig]
f:57 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:57 [in UniMath.CategoryTheory.LocalizingClass]
f:57 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F:57 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:57 [in UniMath.MoreFoundations.Equivalences]
f:57 [in UniMath.Algebra.Monoids]
f:57 [in UniMath.Combinatorics.OrderedSets]
f:57 [in UniMath.Bicategories.Core.Strictness]
f:57 [in UniMath.Induction.M.ComputationalM]
F:57 [in UniMath.CategoryTheory.Chains.Chains]
f:57 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:57 [in UniMath.SubstitutionSystems.STLC_alt]
f:57 [in UniMath.Algebra.Modules.Multimodules]
f:57 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:57 [in UniMath.CategoryTheory.PreAdditive]
f:57 [in UniMath.CategoryTheory.categories.HSET.Limits]
F:57 [in UniMath.CategoryTheory.HorizontalComposition]
f:57 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
F:57 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:57 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
F:57 [in UniMath.Topology.Filters]
f:57 [in UniMath.Algebra.Dcpo]
f:570 [in UniMath.HomologicalAlgebra.MappingCone]
f:571 [in UniMath.CategoryTheory.LocalizingClass]
f:572 [in UniMath.Bicategories.Core.Bicat]
f:573 [in UniMath.Algebra.FixedPointTheorems]
f:573 [in UniMath.HomologicalAlgebra.Complexes]
f:576 [in UniMath.CategoryTheory.LocalizingClass]
f:576 [in UniMath.MoreFoundations.PartA]
f:577 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:578 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:578 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:58 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:58 [in UniMath.CategoryTheory.AdditiveFunctors]
f:58 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:58 [in UniMath.Algebra.Modules.Core]
f:58 [in UniMath.Bicategories.Core.YonedaLemma]
f:58 [in UniMath.CategoryTheory.yoneda]
f:58 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
F:58 [in UniMath.CategoryTheory.Core.Functors]
f:58 [in UniMath.CategoryTheory.limits.bincoproducts]
F:58 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:58 [in UniMath.Combinatorics.MoreLists]
f:58 [in UniMath.CategoryTheory.limits.graphs.equalizers]
F:58 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:58 [in UniMath.CategoryTheory.limits.equalizers]
f:58 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:58 [in UniMath.CategoryTheory.Subcategory.Core]
F:58 [in UniMath.CategoryTheory.Adjunctions.Core]
f:58 [in UniMath.CategoryTheory.Groupoids]
f:58 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:58 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:58 [in UniMath.CategoryTheory.limits.cones]
f:58 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:58 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:58 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:58 [in UniMath.CategoryTheory.limits.coequalizers]
F:58 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:58 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:58 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:58 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:58 [in UniMath.CategoryTheory.limits.binproducts]
f:580 [in UniMath.CategoryTheory.LocalizingClass]
f:580 [in UniMath.Combinatorics.StandardFiniteSets]
f:580 [in UniMath.HomologicalAlgebra.MappingCone]
f:581 [in UniMath.CategoryTheory.Core.Isos]
f:581 [in UniMath.HomologicalAlgebra.Complexes]
f:582 [in UniMath.Bicategories.Core.Bicat]
f:583 [in UniMath.HomologicalAlgebra.MappingCone]
f:584 [in UniMath.CategoryTheory.categories.abgrs]
f:584 [in UniMath.Combinatorics.StandardFiniteSets]
f:585 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:585 [in UniMath.CategoryTheory.LocalizingClass]
f:586 [in UniMath.HomologicalAlgebra.MappingCone]
F:589 [in UniMath.CategoryTheory.LocalizingClass]
f:589 [in UniMath.Combinatorics.StandardFiniteSets]
F:59 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:59 [in UniMath.CategoryTheory.Presheaf]
F:59 [in UniMath.Algebra.DivisionRig]
f:59 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
f:59 [in UniMath.CategoryTheory.Monads.RelativeModules]
f:59 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:59 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:59 [in UniMath.Bicategories.Core.Adjunctions]
f:59 [in UniMath.CategoryTheory.limits.coproducts]
f:59 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:59 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:59 [in UniMath.CategoryTheory.FunctorAlgebras]
f:59 [in UniMath.SubstitutionSystems.STLC_alt]
F:59 [in UniMath.CategoryTheory.Enriched.Enriched]
f:59 [in UniMath.SubstitutionSystems.SubstitutionSystems]
f:59 [in UniMath.Algebra.RigsAndRings]
F:59 [in UniMath.Bicategories.Modifications.Modification]
f:59 [in UniMath.MoreFoundations.QuotientSet]
f:59 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:59 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:59 [in UniMath.Combinatorics.Lists]
f:59 [in UniMath.CategoryTheory.elems_slice_equiv]
f:59 [in UniMath.PAdics.fps]
f:59 [in UniMath.CategoryTheory.Additive]
f:59 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
f:59 [in UniMath.CategoryTheory.Profunctors.Core]
f:59 [in UniMath.HomologicalAlgebra.MappingCone]
f:59 [in UniMath.SubstitutionSystems.LiftingInitial]
f:59 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
f:59 [in UniMath.CategoryTheory.Core.Categories]
f:590 [in UniMath.MoreFoundations.PartA]
f:590 [in UniMath.HomologicalAlgebra.Complexes]
f:591 [in UniMath.HomologicalAlgebra.MappingCone]
f:592 [in UniMath.Bicategories.Core.Bicat]
f:594 [in UniMath.CategoryTheory.LocalizingClass]
f:596 [in UniMath.Foundations.PartB]
f:596 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:597 [in UniMath.HomologicalAlgebra.Complexes]
f:599 [in UniMath.Bicategories.Core.Bicat]
f:599 [in UniMath.CategoryTheory.categories.abgrs]
F:6 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
f:6 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:6 [in UniMath.CategoryTheory.Inductives.Lists]
f:6 [in UniMath.Bicategories.Core.BicategoryLaws]
f:6 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f:6 [in UniMath.CategoryTheory.Elements]
f:6 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
F:6 [in UniMath.CategoryTheory.catiso]
f:6 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:6 [in UniMath.CategoryTheory.ElementsOp]
F:6 [in UniMath.CategoryTheory.Monads.Monads]
f:6 [in UniMath.CategoryTheory.categories.StandardCategories]
F:6 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:6 [in UniMath.CategoryTheory.yoneda]
F:6 [in UniMath.SubstitutionSystems.ModulesFromSignatures]
f:6 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:6 [in UniMath.CategoryTheory.limits.pushouts]
f:6 [in UniMath.Foundations.UnivalenceAxiom]
f:6 [in UniMath.CategoryTheory.PseudoElements]
f:6 [in UniMath.CategoryTheory.limits.kernels]
f:6 [in UniMath.Combinatorics.Tests]
f:6 [in UniMath.CategoryTheory.limits.cokernels]
f:6 [in UniMath.Bicategories.BicatOfBicategory]
f:6 [in UniMath.CategoryTheory.categories.HSET.Colimits]
F:6 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:6 [in UniMath.CategoryTheory.ShortExactSequences]
f:6 [in UniMath.CategoryTheory.limits.cats.limits]
f:6 [in UniMath.MoreFoundations.QuotientSet]
f:6 [in UniMath.CategoryTheory.Core.TransportMorphisms]
F:6 [in UniMath.CategoryTheory.elems_slice_equiv]
f:6 [in UniMath.PAdics.fps]
F:6 [in UniMath.CategoryTheory.Monads.LModules]
f:6 [in UniMath.CategoryTheory.UnderCategories]
f:6 [in UniMath.Bicategories.Core.Unitors]
f:6 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:6 [in UniMath.MoreFoundations.Nat]
f:6 [in UniMath.NumberSystems.Tests]
f:6 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
f:6 [in UniMath.CategoryTheory.Morphisms]
f:6 [in UniMath.CategoryTheory.limits.graphs.limits]
F:60 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:60 [in UniMath.CategoryTheory.catiso]
f:60 [in UniMath.Foundations.PartD]
f:60 [in UniMath.CategoryTheory.limits.pushouts]
f:60 [in UniMath.Folds.folds_pre_2_cat]
f:60 [in UniMath.Bicategories.Core.Strictness]
f:60 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F:60 [in UniMath.CategoryTheory.Chains.Chains]
f:60 [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
F:60 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
F:60 [in UniMath.CategoryTheory.Enriched.Enriched]
F:60 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:60 [in UniMath.Bicategories.Core.Univalence]
F:60 [in UniMath.CategoryTheory.Equivalences.Core]
f:60 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:60 [in UniMath.CategoryTheory.limits.cats.limits]
f:60 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
F:60 [in UniMath.SubstitutionSystems.SignatureCategory]
f:60 [in UniMath.Foundations.PartA]
f:60 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:600 [in UniMath.CategoryTheory.Core.Isos]
f:600 [in UniMath.MoreFoundations.PartA]
f:601 [in UniMath.CategoryTheory.LocalizingClass]
f:604 [in UniMath.CategoryTheory.Core.Isos]
f:604 [in UniMath.HomologicalAlgebra.Complexes]
f:605 [in UniMath.Bicategories.Core.Bicat]
f:606 [in UniMath.MoreFoundations.PathsOver]
F:607 [in UniMath.CategoryTheory.LocalizingClass]
f:607 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:608 [in UniMath.CategoryTheory.Core.Isos]
f:61 [in UniMath.MoreFoundations.NullHomotopies]
f:61 [in UniMath.CategoryTheory.AdditiveFunctors]
f:61 [in UniMath.Bicategories.Core.BicategoryLaws]
f:61 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:61 [in UniMath.Bicategories.Core.YonedaLemma]
f:61 [in UniMath.MoreFoundations.Equivalences]
F:61 [in UniMath.CategoryTheory.yoneda]
f:61 [in UniMath.MoreFoundations.MoreEquivalences]
F:61 [in UniMath.CategoryTheory.FunctorCategory]
f:61 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:61 [in UniMath.CategoryTheory.limits.cokernels]
F:61 [in UniMath.CategoryTheory.Enriched.Enriched]
f:61 [in UniMath.Algebra.Modules.Submodule]
f:61 [in UniMath.CategoryTheory.Core.Univalence]
f:61 [in UniMath.CategoryTheory.limits.cones]
F:61 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:61 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:61 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:61 [in UniMath.CategoryTheory.limits.pullbacks]
f:61 [in UniMath.Folds.from_precats_to_folds_and_back]
f:61 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:61 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
f:611 [in UniMath.HomologicalAlgebra.Complexes]
f:612 [in UniMath.CategoryTheory.LocalizingClass]
f:612 [in UniMath.Bicategories.Core.Bicat]
f:612 [in UniMath.CategoryTheory.Core.Isos]
f:613 [in UniMath.CategoryTheory.categories.abgrs]
F:614 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:615 [in UniMath.Combinatorics.StandardFiniteSets]
f:616 [in UniMath.CategoryTheory.Core.Isos]
f:617 [in UniMath.MoreFoundations.PathsOver]
f:618 [in UniMath.Bicategories.Core.Bicat]
f:618 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:618 [in UniMath.HomologicalAlgebra.Complexes]
F:619 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:619 [in UniMath.Combinatorics.StandardFiniteSets]
f:62 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
f:62 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:62 [in UniMath.Bicategories.Transformations.PseudoTransformation]
F:62 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:62 [in UniMath.Combinatorics.OrderedSets]
f:62 [in UniMath.CategoryTheory.DisplayedCats.Examples]
f:62 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:62 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:62 [in UniMath.Ktheory.GrothendieckGroup]
f:62 [in UniMath.CategoryTheory.FunctorAlgebras]
f:62 [in UniMath.CategoryTheory.opp_precat]
f:62 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:62 [in UniMath.Algebra.Modules.Multimodules]
f:62 [in UniMath.CategoryTheory.limits.graphs.binproducts]
f:62 [in UniMath.CategoryTheory.Groupoids]
f:62 [in UniMath.CategoryTheory.ShortExactSequences]
f:62 [in UniMath.CategoryTheory.Core.TransportMorphisms]
f:62 [in UniMath.Topology.Filters]
f:62 [in UniMath.Algebra.Dcpo]
F:62 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:62 [in UniMath.CategoryTheory.Profunctors.Core]
f:62 [in UniMath.CategoryTheory.precomp_ess_surj]
f:62 [in UniMath.Paradoxes.GirardsParadox]
F:620 [in UniMath.CategoryTheory.LocalizingClass]
f:620 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:620 [in UniMath.CategoryTheory.Core.Isos]
f:621 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:621 [in UniMath.NumberSystems.Integers]
f:623 [in UniMath.Combinatorics.StandardFiniteSets]
f:624 [in UniMath.Bicategories.Core.Bicat]
f:625 [in UniMath.CategoryTheory.LocalizingClass]
f:625 [in UniMath.Combinatorics.StandardFiniteSets]
f:625 [in UniMath.HomologicalAlgebra.Complexes]
F:626 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:627 [in UniMath.Combinatorics.StandardFiniteSets]
f:628 [in UniMath.Bicategories.Core.Bicat]
f:628 [in UniMath.CategoryTheory.categories.abgrs]
F:63 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
F:63 [in UniMath.Algebra.DivisionRig]
f:63 [in UniMath.CategoryTheory.catiso]
f:63 [in UniMath.Bicategories.Core.YonedaLemma]
F:63 [in UniMath.CategoryTheory.Subcategory.Full]
f:63 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:63 [in UniMath.Foundations.PartB]
f:63 [in UniMath.Bicategories.Core.Adjunctions]
f:63 [in UniMath.Folds.folds_pre_2_cat]
f:63 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:63 [in UniMath.Foundations.Propositions]
f:63 [in UniMath.Induction.M.ComputationalM]
f:63 [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
f:63 [in UniMath.Bicategories.Core.Invertible_2cells]
F:63 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:63 [in UniMath.CategoryTheory.PreAdditive]
F:63 [in UniMath.CategoryTheory.HorizontalComposition]
f:63 [in UniMath.HomologicalAlgebra.CohomologyComplex]
F:63 [in UniMath.CategoryTheory.Adjunctions.Core]
f:63 [in UniMath.CategoryTheory.limits.products]
f:63 [in UniMath.CategoryTheory.limits.Opp]
f:63 [in UniMath.MoreFoundations.Univalence]
F:63 [in UniMath.Topology.Filters]
f:63 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:63 [in UniMath.Combinatorics.WellFoundedRelations]
f:63 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:63 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
F:632 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:632 [in UniMath.CategoryTheory.Core.Isos]
f:632 [in UniMath.Combinatorics.StandardFiniteSets]
f:632 [in UniMath.HomologicalAlgebra.Complexes]
f:633 [in UniMath.MoreFoundations.PathsOver]
f:635 [in UniMath.CategoryTheory.LocalizingClass]
f:636 [in UniMath.Bicategories.Core.Bicat]
f:637 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:638 [in UniMath.Foundations.PartB]
F:639 [in UniMath.CategoryTheory.LocalizingClass]
f:639 [in UniMath.HomologicalAlgebra.Complexes]
f:64 [in UniMath.Bicategories.Core.FullyFaithful]
f:64 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:64 [in UniMath.Bicategories.Core.YonedaLemma]
f:64 [in UniMath.Induction.ImpredicativeInductiveSets]
f:64 [in UniMath.CategoryTheory.Core.Functors]
f:64 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:64 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:64 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
F:64 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:64 [in UniMath.CategoryTheory.limits.cokernels]
f:64 [in UniMath.Bicategories.Core.Univalence]
f:64 [in UniMath.Algebra.RigsAndRings]
F:64 [in UniMath.CategoryTheory.limits.cats.limits]
F:64 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:64 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:64 [in UniMath.CategoryTheory.Additive]
F:64 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
F:64 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:64 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:64 [in UniMath.CategoryTheory.Core.Categories]
f:640 [in UniMath.Combinatorics.StandardFiniteSets]
F:641 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:642 [in UniMath.Foundations.PartB]
f:643 [in UniMath.CategoryTheory.categories.abgrs]
f:643 [in UniMath.Foundations.PartA]
f:644 [in UniMath.CategoryTheory.LocalizingClass]
f:644 [in UniMath.MoreFoundations.PathsOver]
f:645 [in UniMath.Bicategories.Core.Bicat]
f:646 [in UniMath.Combinatorics.StandardFiniteSets]
F:648 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
F:649 [in UniMath.CategoryTheory.LocalizingClass]
f:649 [in UniMath.Combinatorics.StandardFiniteSets]
f:65 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:65 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:65 [in UniMath.Bicategories.Core.YonedaLemma]
f:65 [in UniMath.CategoryTheory.LocalizingClass]
f:65 [in UniMath.Bicategories.Core.Bicat]
f:65 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:65 [in UniMath.MoreFoundations.Equivalences]
f:65 [in UniMath.Algebra.Monoids]
F:65 [in UniMath.CategoryTheory.yoneda]
f:65 [in UniMath.CategoryTheory.limits.pushouts]
f:65 [in UniMath.Bicategories.Core.Strictness]
F:65 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:65 [in UniMath.CategoryTheory.FunctorAlgebras]
F:65 [in UniMath.CategoryTheory.Enriched.Enriched]
f:65 [in UniMath.Algebra.Modules.Submodule]
f:65 [in UniMath.SubstitutionSystems.SubstitutionSystems]
F:65 [in UniMath.CategoryTheory.Equivalences.Core]
f:65 [in UniMath.CategoryTheory.PrecategoryBinProduct]
f:65 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:65 [in UniMath.CategoryTheory.limits.cones]
f:65 [in UniMath.Combinatorics.Lists]
f:65 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:65 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:65 [in UniMath.HomologicalAlgebra.MappingCone]
f:65 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:65 [in UniMath.SubstitutionSystems.LiftingInitial]
f:65 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
f:652 [in UniMath.CategoryTheory.LocalizingClass]
f:652 [in UniMath.Foundations.PartD]
F:654 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:655 [in UniMath.Foundations.PartD]
f:657 [in UniMath.Combinatorics.StandardFiniteSets]
f:658 [in UniMath.Bicategories.Core.Bicat]
f:658 [in UniMath.Foundations.PartD]
f:659 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:659 [in UniMath.MoreFoundations.PathsOver]
F:66 [in UniMath.Algebra.DivisionRig]
f:66 [in UniMath.HomologicalAlgebra.MappingCylinder]
F:66 [in UniMath.CategoryTheory.catiso]
f:66 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:66 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:66 [in UniMath.CategoryTheory.limits.coproducts]
f:66 [in UniMath.MoreFoundations.MoreEquivalences]
f:66 [in UniMath.Foundations.UnivalenceAxiom]
f:66 [in UniMath.CategoryTheory.opp_precat]
F:66 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:66 [in UniMath.CategoryTheory.limits.equalizers]
f:66 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F:66 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:66 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:66 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:66 [in UniMath.CategoryTheory.limits.pullbacks]
f:66 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:66 [in UniMath.CategoryTheory.elems_slice_equiv]
f:66 [in UniMath.CategoryTheory.limits.coequalizers]
f:661 [in UniMath.Foundations.PartD]
F:663 [in UniMath.CategoryTheory.LocalizingClass]
f:665 [in UniMath.Bicategories.Core.Bicat]
f:666 [in UniMath.CategoryTheory.LocalizingClass]
f:666 [in UniMath.Foundations.PartD]
f:668 [in UniMath.Combinatorics.StandardFiniteSets]
f:67 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
f:67 [in UniMath.CategoryTheory.ElementsOp]
F:67 [in UniMath.CategoryTheory.Subcategory.Full]
F:67 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:67 [in UniMath.Bicategories.Core.Adjunctions]
f:67 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:67 [in UniMath.Folds.folds_pre_2_cat]
f:67 [in UniMath.CategoryTheory.limits.cokernels]
f:67 [in UniMath.Folds.folds_precat]
f:67 [in UniMath.CategoryTheory.HorizontalComposition]
f:67 [in UniMath.CategoryTheory.Monics]
f:67 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:67 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:67 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:67 [in UniMath.Algebra.Dcpo]
f:67 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
f:67 [in UniMath.Foundations.PartA]
f:67 [in UniMath.Folds.from_precats_to_folds_and_back]
f:670 [in UniMath.Bicategories.Core.Bicat]
f:670 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:672 [in UniMath.Foundations.PartD]
f:677 [in UniMath.MoreFoundations.PathsOver]
f:678 [in UniMath.Foundations.PartD]
f:679 [in UniMath.Bicategories.Core.Bicat]
f:68 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:68 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:68 [in UniMath.Combinatorics.OrderedSets]
f:68 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:68 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:68 [in UniMath.CategoryTheory.DisplayedCats.Examples]
F:68 [in UniMath.CategoryTheory.FunctorCategory]
f:68 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:68 [in UniMath.Folds.folds_precat]
f:68 [in UniMath.SubstitutionSystems.STLC_alt]
f:68 [in UniMath.Algebra.Modules.Multimodules]
f:68 [in UniMath.Bicategories.Core.Univalence]
f:68 [in UniMath.CategoryTheory.limits.graphs.binproducts]
F:68 [in UniMath.SubstitutionSystems.BindingSigToMonad]
f:68 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:68 [in UniMath.CategoryTheory.ShortExactSequences]
f:68 [in UniMath.Folds.folds_isomorphism]
f:68 [in UniMath.CategoryTheory.Core.Univalence]
f:68 [in UniMath.MoreFoundations.PartA]
f:68 [in UniMath.Combinatorics.Lists]
f:68 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:68 [in UniMath.Combinatorics.WellFoundedRelations]
f:68 [in UniMath.SyntheticHomotopyTheory.Test]
f:68 [in UniMath.CategoryTheory.Epis]
f:68 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:68 [in UniMath.CategoryTheory.AbelianPushoutPullback]
f:68 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
f:681 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:682 [in UniMath.Foundations.PartD]
F:685 [in UniMath.CategoryTheory.LocalizingClass]
f:687 [in UniMath.MoreFoundations.PathsOver]
f:688 [in UniMath.CategoryTheory.LocalizingClass]
f:688 [in UniMath.Bicategories.Core.Bicat]
f:688 [in UniMath.Foundations.PartD]
f:69 [in UniMath.Bicategories.Core.Bicat]
f:69 [in UniMath.MoreFoundations.Equivalences]
F:69 [in UniMath.CategoryTheory.yoneda]
f:69 [in UniMath.CategoryTheory.limits.graphs.pushouts]
F:69 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:69 [in UniMath.Induction.M.ComputationalM]
F:69 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:69 [in UniMath.Folds.folds_precat]
f:69 [in UniMath.Algebra.Modules.Submodule]
f:69 [in UniMath.CategoryTheory.PreAdditive]
f:69 [in UniMath.SubstitutionSystems.SubstitutionSystems]
F:69 [in UniMath.CategoryTheory.limits.cats.limits]
F:69 [in UniMath.Bicategories.Modifications.Modification]
f:69 [in UniMath.CategoryTheory.limits.cones]
f:69 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:69 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:69 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:69 [in UniMath.CategoryTheory.elems_slice_equiv]
f:69 [in UniMath.CategoryTheory.Additive]
f:69 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:69 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
f:694 [in UniMath.Foundations.PartD]
f:694 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:697 [in UniMath.Bicategories.Core.Bicat]
f:699 [in UniMath.Foundations.PartD]
f:7 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
f:7 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:7 [in UniMath.CategoryTheory.Presheaf]
f:7 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
f:7 [in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
f:7 [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
F:7 [in UniMath.Bicategories.Transformations.PseudoTransformation]
F:7 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f:7 [in UniMath.Induction.ImpredicativeInductiveSets]
f:7 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
f:7 [in UniMath.SubstitutionSystems.CCS_alt]
f:7 [in UniMath.Bicategories.Core.Strictness]
F:7 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:7 [in UniMath.CategoryTheory.coslicecat]
f:7 [in UniMath.CategoryTheory.slicecat]
f:7 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:7 [in UniMath.SubstitutionSystems.BindingSigToMonad]
f:7 [in UniMath.HomologicalAlgebra.Triangulated]
f:7 [in UniMath.SubstitutionSystems.CCS]
f:7 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
f:7 [in UniMath.Induction.PolynomialFunctors]
f:7 [in UniMath.CategoryTheory.limits.graphs.colimits]
F:7 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
F:7 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
F:7 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
f:7 [in UniMath.CategoryTheory.Inductives.Trees]
F:7 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
f:7 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
f:7 [in UniMath.CategoryTheory.limits.pullbacks]
F:7 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
F:7 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:7 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
F:7 [in UniMath.Bicategories.Core.Examples.StrictCats]
f:7 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:7 [in UniMath.CategoryTheory.Core.TwoCategories]
f:7 [in UniMath.Induction.W.Naturals]
F:7 [in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
f:70 [in UniMath.Bicategories.Core.BicategoryLaws]
f:70 [in UniMath.Bicategories.Core.FullyFaithful]
f:70 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:70 [in UniMath.CategoryTheory.Monads.RelativeModules]
f:70 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:70 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
f:70 [in UniMath.Algebra.Monoids]
f:70 [in UniMath.Foundations.PartB]
f:70 [in UniMath.CategoryTheory.AbelianToAdditive]
f:70 [in UniMath.Foundations.Propositions]
f:70 [in UniMath.HomologicalAlgebra.CohomologyComplex]
F:70 [in UniMath.CategoryTheory.Adjunctions.Core]
f:70 [in UniMath.Algebra.RigsAndRings]
F:70 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:70 [in UniMath.MoreFoundations.Univalence]
f:70 [in UniMath.Algebra.Dcpo]
F:70 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:70 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:700 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:700 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:706 [in UniMath.Foundations.PartB]
f:706 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:708 [in UniMath.Bicategories.Core.Bicat]
f:709 [in UniMath.Foundations.PartB]
f:71 [in UniMath.CategoryTheory.ExactCategories.Tests]
f:71 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
f:71 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:71 [in UniMath.Induction.ImpredicativeInductiveSets]
f:71 [in UniMath.Bicategories.Core.Adjunctions]
f:71 [in UniMath.CategoryTheory.limits.coproducts]
f:71 [in UniMath.CategoryTheory.limits.pushouts]
f:71 [in UniMath.Foundations.UnivalenceAxiom]
f:71 [in UniMath.Algebra.Universal.HVectors]
f:71 [in UniMath.CategoryTheory.Core.Isos]
f:71 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:71 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:71 [in UniMath.CategoryTheory.limits.cokernels]
f:71 [in UniMath.SubstitutionSystems.STLC_alt]
F:71 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
f:71 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:71 [in UniMath.CategoryTheory.limits.products]
f:71 [in UniMath.Folds.folds_isomorphism]
f:71 [in UniMath.CategoryTheory.limits.Opp]
f:71 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:71 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
f:71 [in UniMath.CategoryTheory.Profunctors.Core]
F:71 [in UniMath.Bicategories.Core.TransportLaws]
f:71 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
f:71 [in UniMath.CategoryTheory.precomp_ess_surj]
f:713 [in UniMath.Foundations.PartB]
f:716 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:718 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:719 [in UniMath.Bicategories.Core.Bicat]
F:72 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:72 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
f:72 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:72 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:72 [in UniMath.Combinatorics.Vectors]
F:72 [in UniMath.CategoryTheory.yoneda]
f:72 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:72 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:72 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:72 [in UniMath.CategoryTheory.FunctorAlgebras]
f:72 [in UniMath.Bicategories.Core.Invertible_2cells]
F:72 [in UniMath.CategoryTheory.Enriched.Enriched]
F:72 [in UniMath.CategoryTheory.HorizontalComposition]
F:72 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:72 [in UniMath.Topology.Filters]
f:72 [in UniMath.CategoryTheory.limits.pullbacks]
f:72 [in UniMath.HomologicalAlgebra.MappingCone]
f:72 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
f:72 [in UniMath.CategoryTheory.limits.binproducts]
F:721 [in UniMath.CategoryTheory.LocalizingClass]
f:724 [in UniMath.CategoryTheory.LocalizingClass]
f:727 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:728 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:729 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:73 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f:73 [in UniMath.CategoryTheory.ElementsOp]
f:73 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:73 [in UniMath.CategoryTheory.LocalizingClass]
f:73 [in UniMath.Bicategories.Core.Bicat]
F:73 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:73 [in UniMath.CategoryTheory.limits.bincoproducts]
F:73 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:73 [in UniMath.Folds.folds_pre_2_cat]
f:73 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:73 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
F:73 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:73 [in UniMath.CategoryTheory.opp_precat]
F:73 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:73 [in UniMath.Algebra.Modules.Multimodules]
f:73 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:73 [in UniMath.CategoryTheory.limits.equalizers]
f:73 [in UniMath.CategoryTheory.ShortExactSequences]
f:73 [in UniMath.Algebra.RigsAndRings]
f:73 [in UniMath.CategoryTheory.Monics]
f:73 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:73 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:73 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:73 [in UniMath.Topology.Filters]
F:73 [in UniMath.CategoryTheory.elems_slice_equiv]
f:73 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:73 [in UniMath.CategoryTheory.limits.coequalizers]
f:73 [in UniMath.Folds.from_precats_to_folds_and_back]
f:73 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:73 [in UniMath.CategoryTheory.Core.Categories]
f:73 [in UniMath.CategoryTheory.Morphisms]
f:730 [in UniMath.Bicategories.Core.Bicat]
F:731 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:732 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:733 [in UniMath.CategoryTheory.LocalizingClass]
f:735 [in UniMath.Foundations.Sets]
f:735 [in UniMath.HomologicalAlgebra.MappingCone]
f:736 [in UniMath.CategoryTheory.LocalizingClass]
F:74 [in UniMath.CategoryTheory.AdditiveFunctors]
f:74 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:74 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:74 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:74 [in UniMath.CategoryTheory.yoneda]
f:74 [in UniMath.CategoryTheory.AbelianToAdditive]
f:74 [in UniMath.Induction.M.ComputationalM]
f:74 [in UniMath.CategoryTheory.Enriched.Enriched]
f:74 [in UniMath.Algebra.Modules.Submodule]
f:74 [in UniMath.SubstitutionSystems.SubstitutionSystems]
f:74 [in UniMath.Algebra.GroupAction]
F:74 [in UniMath.CategoryTheory.Equivalences.Core]
f:74 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:74 [in UniMath.Combinatorics.Lists]
f:74 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:74 [in UniMath.CategoryTheory.Additive]
f:74 [in UniMath.CategoryTheory.Epis]
f:74 [in UniMath.CategoryTheory.AbelianPushoutPullback]
f:74 [in UniMath.MoreFoundations.Subtypes]
F:741 [in UniMath.CategoryTheory.LocalizingClass]
f:741 [in UniMath.Bicategories.Core.Bicat]
f:741 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:742 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:744 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:744 [in UniMath.CategoryTheory.LocalizingClass]
F:744 [in UniMath.CategoryTheory.DisplayedCats.Core]
F:748 [in UniMath.CategoryTheory.DisplayedCats.Core]
F:749 [in UniMath.CategoryTheory.LocalizingClass]
f:75 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
F:75 [in UniMath.CategoryTheory.Subcategory.Full]
f:75 [in UniMath.Foundations.PartD]
F:75 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:75 [in UniMath.Induction.ImpredicativeInductiveSets]
f:75 [in UniMath.Bicategories.Core.Adjunctions]
f:75 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:75 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
F:75 [in UniMath.CategoryTheory.FunctorCategory]
f:75 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:75 [in UniMath.CategoryTheory.limits.cokernels]
f:75 [in UniMath.Algebra.Groups]
f:75 [in UniMath.Folds.folds_precat]
f:75 [in UniMath.CategoryTheory.Enriched.Enriched]
f:75 [in UniMath.CategoryTheory.limits.graphs.binproducts]
F:75 [in UniMath.CategoryTheory.Adjunctions.Core]
f:75 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:75 [in UniMath.CategoryTheory.PrecategoryBinProduct]
F:75 [in UniMath.Bicategories.Modifications.Modification]
f:75 [in UniMath.CategoryTheory.Core.TransportMorphisms]
f:75 [in UniMath.Algebra.Dcpo]
f:75 [in UniMath.CategoryTheory.elems_slice_equiv]
f:75 [in UniMath.Combinatorics.WellFoundedRelations]
f:75 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
F:75 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:751 [in UniMath.Bicategories.Core.Bicat]
f:751 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:752 [in UniMath.CategoryTheory.LocalizingClass]
F:754 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:756 [in UniMath.Bicategories.Core.Bicat]
f:757 [in UniMath.Foundations.PartA]
F:759 [in UniMath.CategoryTheory.LocalizingClass]
f:759 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:76 [in UniMath.CategoryTheory.ExactCategories.Tests]
f:76 [in UniMath.Bicategories.Core.FullyFaithful]
f:76 [in UniMath.CategoryTheory.categories.abgrs]
f:76 [in UniMath.Algebra.Monoids]
F:76 [in UniMath.CategoryTheory.yoneda]
f:76 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:76 [in UniMath.CategoryTheory.limits.coproducts]
f:76 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:76 [in UniMath.CategoryTheory.PseudoElements]
f:76 [in UniMath.CategoryTheory.Enriched.Enriched]
f:76 [in UniMath.CategoryTheory.HorizontalComposition]
f:76 [in UniMath.CategoryTheory.Subcategory.Core]
f:76 [in UniMath.CategoryTheory.Groupoids]
f:76 [in UniMath.Algebra.RigsAndRings]
f:76 [in UniMath.Folds.folds_isomorphism]
F:76 [in UniMath.CategoryTheory.limits.cats.limits]
f:76 [in UniMath.CategoryTheory.Core.Univalence]
f:76 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:76 [in UniMath.Topology.Filters]
f:76 [in UniMath.HomologicalAlgebra.MappingCone]
f:761 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:762 [in UniMath.CategoryTheory.LocalizingClass]
f:762 [in UniMath.Foundations.PartA]
F:765 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:768 [in UniMath.CategoryTheory.LocalizingClass]
F:768 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:768 [in UniMath.Foundations.PartA]
F:77 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:77 [in UniMath.Combinatorics.Vectors]
f:77 [in UniMath.Bicategories.Core.Bicat]
f:77 [in UniMath.MoreFoundations.Equivalences]
f:77 [in UniMath.CategoryTheory.limits.pushouts]
f:77 [in UniMath.Foundations.UnivalenceAxiom]
f:77 [in UniMath.Bicategories.Core.Strictness]
f:77 [in UniMath.CategoryTheory.Core.Isos]
f:77 [in UniMath.PAdics.lemmas]
F:77 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:77 [in UniMath.Bicategories.Core.Invertible_2cells]
f:77 [in UniMath.CategoryTheory.limits.equalizers]
f:77 [in UniMath.CategoryTheory.Enriched.Enriched]
f:77 [in UniMath.SubstitutionSystems.SubstitutionSystems]
f:77 [in UniMath.HomologicalAlgebra.CohomologyComplex]
f:77 [in UniMath.Folds.folds_isomorphism]
f:77 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:77 [in UniMath.Topology.Filters]
f:77 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:77 [in UniMath.HomologicalAlgebra.TranslationFunctors]
f:77 [in UniMath.CategoryTheory.limits.coequalizers]
F:77 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
f:77 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:77 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:77 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:77 [in UniMath.CategoryTheory.Monads.KTriples]
f:770 [in UniMath.HomologicalAlgebra.MappingCone]
F:771 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:772 [in UniMath.Foundations.PartA]
f:775 [in UniMath.CategoryTheory.LocalizingClass]
F:775 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:777 [in UniMath.Foundations.PartA]
F:779 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:78 [in UniMath.Combinatorics.ZFstructures]
f:78 [in UniMath.HomologicalAlgebra.MappingCylinder]
F:78 [in UniMath.CategoryTheory.catiso]
f:78 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
f:78 [in UniMath.Induction.ImpredicativeInductiveSets]
f:78 [in UniMath.Bicategories.Core.Adjunctions]
F:78 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:78 [in UniMath.CategoryTheory.AbelianToAdditive]
f:78 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:78 [in UniMath.CategoryTheory.opp_precat]
f:78 [in UniMath.CategoryTheory.Enriched.Enriched]
f:78 [in UniMath.Algebra.Modules.Submodule]
f:78 [in UniMath.Algebra.GroupAction]
f:78 [in UniMath.CategoryTheory.limits.products]
f:78 [in UniMath.Algebra.Dcpo]
f:78 [in UniMath.CategoryTheory.limits.pullbacks]
f:78 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:78 [in UniMath.Foundations.PartA]
f:78 [in UniMath.Folds.from_precats_to_folds_and_back]
F:780 [in UniMath.CategoryTheory.LocalizingClass]
f:780 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:782 [in UniMath.Bicategories.Core.Bicat]
f:783 [in UniMath.CategoryTheory.LocalizingClass]
f:783 [in UniMath.Foundations.PartA]
f:785 [in UniMath.Bicategories.Core.Bicat]
F:786 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:788 [in UniMath.Bicategories.Core.Bicat]
f:789 [in UniMath.Foundations.PartA]
f:79 [in UniMath.Bicategories.Core.BicategoryLaws]
f:79 [in UniMath.CategoryTheory.Abelian]
f:79 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:79 [in UniMath.CategoryTheory.categories.abgrs]
F:79 [in UniMath.CategoryTheory.yoneda]
f:79 [in UniMath.Folds.folds_pre_2_cat]
f:79 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:79 [in UniMath.CategoryTheory.Enriched.Enriched]
f:79 [in UniMath.CategoryTheory.PreAdditive]
F:79 [in UniMath.CategoryTheory.Equivalences.Core]
f:79 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:79 [in UniMath.CategoryTheory.limits.Opp]
f:79 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:79 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:79 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:79 [in UniMath.CategoryTheory.Additive]
f:79 [in UniMath.CategoryTheory.Profunctors.Core]
f:79 [in UniMath.Combinatorics.WellFoundedRelations]
f:79 [in UniMath.Foundations.PartC]
f:79 [in UniMath.HomologicalAlgebra.MappingCone]
F:79 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:79 [in UniMath.CategoryTheory.Core.Categories]
f:791 [in UniMath.Bicategories.Core.Bicat]
F:791 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:791 [in UniMath.Algebra.BinaryOperations]
F:796 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:796 [in UniMath.Algebra.BinaryOperations]
f:796 [in UniMath.Foundations.PartA]
f:798 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:799 [in UniMath.HomologicalAlgebra.MappingCone]
f:8 [in UniMath.CategoryTheory.ExactCategories.Tests]
F:8 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:8 [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
F:8 [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
f:8 [in UniMath.MoreFoundations.NullHomotopies]
F:8 [in UniMath.CategoryTheory.AdditiveFunctors]
F:8 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
F:8 [in UniMath.CategoryTheory.Monads.Monads]
F:8 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f:8 [in UniMath.CategoryTheory.limits.graphs.kernels]
F:8 [in UniMath.Bicategories.Core.Examples.Image]
F:8 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
f:8 [in UniMath.MoreFoundations.Sets]
f:8 [in UniMath.CategoryTheory.limits.graphs.cokernels]
f:8 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:8 [in UniMath.Bicategories.Core.Adjunctions]
F:8 [in UniMath.CategoryTheory.Core.Functors]
f:8 [in UniMath.CategoryTheory.limits.bincoproducts]
f:8 [in UniMath.CategoryTheory.limits.graphs.equalizers]
F:8 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:8 [in UniMath.SubstitutionSystems.PCF_alt]
f:8 [in UniMath.CategoryTheory.FunctorAlgebras]
f:8 [in UniMath.CategoryTheory.coslicecat]
f:8 [in UniMath.Bicategories.PseudoFunctors.Representable]
f:8 [in UniMath.CategoryTheory.slicecat]
f:8 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
F:8 [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
f:8 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
f:8 [in UniMath.CategoryTheory.Monoidal.Actions]
f:8 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:8 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
f:8 [in UniMath.Bicategories.Core.Examples.Final]
f:8 [in UniMath.Folds.folds_isomorphism]
f:8 [in UniMath.CategoryTheory.NNO]
f:8 [in UniMath.Bicategories.Discreteness]
F:8 [in UniMath.CategoryTheory.Adjunctions.Restriction]
f:8 [in UniMath.CategoryTheory.limits.Opp]
f:8 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
f:8 [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
f:8 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
F:8 [in UniMath.CategoryTheory.Monads.LModules]
f:8 [in UniMath.SyntheticHomotopyTheory.AffineLine]
F:8 [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
f:8 [in UniMath.CategoryTheory.FunctorCoalgebras]
F:8 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
f:8 [in UniMath.CategoryTheory.CommaCategories]
f:8 [in UniMath.Combinatorics.VectorsTests]
f:8 [in UniMath.CategoryTheory.SimplicialSets]
f:8 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:8 [in UniMath.CategoryTheory.limits.binproducts]
F:80 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:80 [in UniMath.CategoryTheory.AdditiveFunctors]
f:80 [in UniMath.CategoryTheory.Subcategory.Full]
f:80 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:80 [in UniMath.CategoryTheory.limits.bincoproducts]
f:80 [in UniMath.CategoryTheory.DisplayedCats.Core]
F:80 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:80 [in UniMath.Algebra.Modules.Multimodules]
f:80 [in UniMath.CategoryTheory.Enriched.Enriched]
F:80 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
F:80 [in UniMath.CategoryTheory.Adjunctions.Core]
f:80 [in UniMath.Algebra.RigsAndRings]
f:80 [in UniMath.Topology.Filters]
f:80 [in UniMath.CategoryTheory.limits.binproducts]
f:801 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:802 [in UniMath.Algebra.BinaryOperations]
f:802 [in UniMath.HomologicalAlgebra.MappingCone]
f:802 [in UniMath.Foundations.PartA]
f:805 [in UniMath.HomologicalAlgebra.MappingCone]
f:806 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:806 [in UniMath.Algebra.BinaryOperations]
f:808 [in UniMath.Bicategories.Core.Bicat]
f:808 [in UniMath.HomologicalAlgebra.MappingCone]
f:809 [in UniMath.Foundations.PartA]
f:81 [in UniMath.CategoryTheory.Monads.RelativeMonads]
F:81 [in UniMath.Bicategories.Core.FullyFaithful]
f:81 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:81 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:81 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:81 [in UniMath.CategoryTheory.LocalizingClass]
f:81 [in UniMath.Bicategories.Core.Bicat]
F:81 [in UniMath.CategoryTheory.yoneda]
f:81 [in UniMath.Bicategories.Core.Adjunctions]
f:81 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:81 [in UniMath.CategoryTheory.PseudoElements]
F:81 [in UniMath.CategoryTheory.FunctorCategory]
f:81 [in UniMath.CategoryTheory.limits.equalizers]
f:81 [in UniMath.CategoryTheory.Enriched.Enriched]
f:81 [in UniMath.SubstitutionSystems.SubstitutionSystems]
F:81 [in UniMath.CategoryTheory.HorizontalComposition]
F:81 [in UniMath.CategoryTheory.Groupoids]
f:81 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:81 [in UniMath.MoreFoundations.PartA]
f:81 [in UniMath.Combinatorics.Lists]
F:81 [in UniMath.Topology.Filters]
F:81 [in UniMath.CategoryTheory.elems_slice_equiv]
f:81 [in UniMath.CategoryTheory.limits.coequalizers]
f:81 [in UniMath.CategoryTheory.Epis]
f:81 [in UniMath.Folds.from_precats_to_folds_and_back]
f:811 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:813 [in UniMath.Algebra.BinaryOperations]
f:813 [in UniMath.HomologicalAlgebra.MappingCone]
F:814 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:814 [in UniMath.MoreFoundations.PartA]
f:815 [in UniMath.Foundations.PartA]
f:816 [in UniMath.Algebra.BinaryOperations]
f:816 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:817 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:817 [in UniMath.Foundations.Sets]
f:818 [in UniMath.HomologicalAlgebra.MappingCone]
f:82 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f:82 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:82 [in UniMath.Combinatorics.Vectors]
f:82 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
f:82 [in UniMath.Foundations.UnivalenceAxiom]
f:82 [in UniMath.Bicategories.Core.Strictness]
f:82 [in UniMath.CategoryTheory.AbelianToAdditive]
F:82 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
f:82 [in UniMath.CategoryTheory.limits.graphs.binproducts]
f:82 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
F:82 [in UniMath.Bicategories.Modifications.Modification]
f:82 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
f:82 [in UniMath.Bicategories.Core.TransportLaws]
f:82 [in UniMath.CategoryTheory.Core.TwoCategories]
f:82 [in UniMath.CategoryTheory.Morphisms]
f:822 [in UniMath.Algebra.BinaryOperations]
f:822 [in UniMath.HomologicalAlgebra.MappingCone]
f:823 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:823 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:825 [in UniMath.Foundations.Sets]
F:826 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:828 [in UniMath.Algebra.BinaryOperations]
f:828 [in UniMath.MoreFoundations.PartA]
f:828 [in UniMath.HomologicalAlgebra.MappingCone]
F:83 [in UniMath.CategoryTheory.AdditiveFunctors]
f:83 [in UniMath.CategoryTheory.Subcategory.Full]
F:83 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:83 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:83 [in UniMath.CategoryTheory.limits.pushouts]
f:83 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
f:83 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
F:83 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f:83 [in UniMath.Folds.folds_precat]
F:83 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F:83 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:83 [in UniMath.CategoryTheory.PreAdditive]
f:83 [in UniMath.CategoryTheory.Monics]
f:83 [in UniMath.CategoryTheory.LatticeObject]
f:83 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
f:83 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:83 [in UniMath.Algebra.Dcpo]
f:83 [in UniMath.CategoryTheory.Profunctors.Core]
f:83 [in UniMath.HomologicalAlgebra.MappingCone]
F:83 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:83 [in UniMath.CategoryTheory.precomp_ess_surj]
f:83 [in UniMath.CategoryTheory.Core.Categories]
f:830 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:830 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:830 [in UniMath.Foundations.Sets]
f:833 [in UniMath.Algebra.BinaryOperations]
F:834 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:835 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:835 [in UniMath.HomologicalAlgebra.MappingCone]
f:836 [in UniMath.MoreFoundations.PartA]
f:837 [in UniMath.Algebra.BinaryOperations]
f:837 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:837 [in UniMath.Foundations.Sets]
f:84 [in UniMath.CategoryTheory.Abelian]
f:84 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
F:84 [in UniMath.CategoryTheory.catiso]
f:84 [in UniMath.CategoryTheory.categories.abgrs]
f:84 [in UniMath.Foundations.PartD]
F:84 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
F:84 [in UniMath.CategoryTheory.yoneda]
f:84 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:84 [in UniMath.Bicategories.Core.Adjunctions]
f:84 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:84 [in UniMath.CategoryTheory.limits.graphs.equalizers]
F:84 [in UniMath.CategoryTheory.DisplayedCats.Examples]
f:84 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:84 [in UniMath.CategoryTheory.limits.kernels]
f:84 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
f:84 [in UniMath.HomologicalAlgebra.CohomologyComplex]
F:84 [in UniMath.CategoryTheory.Adjunctions.Core]
f:84 [in UniMath.Algebra.RigsAndRings]
F:84 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:84 [in UniMath.CategoryTheory.limits.cats.limits]
f:84 [in UniMath.CategoryTheory.limits.Opp]
f:84 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:84 [in UniMath.CategoryTheory.Core.TransportMorphisms]
f:84 [in UniMath.CategoryTheory.limits.pullbacks]
f:84 [in UniMath.CategoryTheory.Additive]
f:84 [in UniMath.Foundations.PartA]
f:84 [in UniMath.SyntheticHomotopyTheory.Circle2]
f:84 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:840 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:840 [in UniMath.Algebra.BinaryOperations]
f:841 [in UniMath.Bicategories.Core.Bicat]
f:842 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:844 [in UniMath.HomologicalAlgebra.MappingCone]
f:846 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:846 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:846 [in UniMath.Algebra.BinaryOperations]
f:846 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:846 [in UniMath.MoreFoundations.PartA]
f:847 [in UniMath.Foundations.Sets]
f:85 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:85 [in UniMath.Bicategories.Core.FullyFaithful]
f:85 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:85 [in UniMath.Induction.ImpredicativeInductiveSets]
f:85 [in UniMath.CategoryTheory.Core.Isos]
f:85 [in UniMath.SubstitutionSystems.SubstitutionSystems]
f:85 [in UniMath.CategoryTheory.HorizontalComposition]
f:85 [in UniMath.PAdics.padics]
f:85 [in UniMath.CategoryTheory.Core.Univalence]
f:85 [in UniMath.Topology.Filters]
f:85 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:85 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:850 [in UniMath.Bicategories.Core.Bicat]
f:850 [in UniMath.Algebra.BinaryOperations]
f:850 [in UniMath.HomologicalAlgebra.MappingCone]
f:854 [in UniMath.Algebra.BinaryOperations]
f:854 [in UniMath.Foundations.Sets]
f:855 [in UniMath.Foundations.Sets]
f:856 [in UniMath.HomologicalAlgebra.MappingCone]
f:857 [in UniMath.Algebra.BinaryOperations]
f:858 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:858 [in UniMath.MoreFoundations.PartA]
f:859 [in UniMath.Bicategories.Core.Bicat]
f:86 [in UniMath.CategoryTheory.ExactCategories.Tests]
f:86 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
f:86 [in UniMath.CategoryTheory.Subcategory.Full]
F:86 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
F:86 [in UniMath.CategoryTheory.Core.Functors]
f:86 [in UniMath.Algebra.Universal.HVectors]
f:86 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
f:86 [in UniMath.Foundations.Propositions]
f:86 [in UniMath.Bicategories.Core.Invertible_2cells]
f:86 [in UniMath.CategoryTheory.limits.equalizers]
F:86 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:86 [in UniMath.CategoryTheory.LatticeObject]
f:86 [in UniMath.Combinatorics.Lists]
f:86 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:86 [in UniMath.Topology.Filters]
f:86 [in UniMath.Algebra.IteratedBinaryOperations]
f:86 [in UniMath.HomologicalAlgebra.MappingCone]
f:86 [in UniMath.CategoryTheory.limits.coequalizers]
f:860 [in UniMath.Foundations.Sets]
f:861 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:862 [in UniMath.HomologicalAlgebra.MappingCone]
F:864 [in UniMath.CategoryTheory.DisplayedCats.Core]
F:865 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:865 [in UniMath.Algebra.BinaryOperations]
f:865 [in UniMath.Foundations.PartA]
f:868 [in UniMath.HomologicalAlgebra.MappingCone]
F:869 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:869 [in UniMath.Bicategories.Core.Bicat]
f:869 [in UniMath.Algebra.BinaryOperations]
f:869 [in UniMath.Foundations.Sets]
f:869 [in UniMath.Foundations.PartA]
f:87 [in UniMath.Combinatorics.Vectors]
f:87 [in UniMath.Bicategories.Core.Bicat]
F:87 [in UniMath.CategoryTheory.yoneda]
f:87 [in UniMath.Bicategories.Core.Adjunctions]
f:87 [in UniMath.CategoryTheory.limits.coproducts]
f:87 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:87 [in UniMath.Folds.folds_pre_2_cat]
f:87 [in UniMath.CategoryTheory.AbelianToAdditive]
f:87 [in UniMath.CategoryTheory.PseudoElements]
F:87 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:87 [in UniMath.CategoryTheory.opp_precat]
f:87 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:87 [in UniMath.CategoryTheory.slicecat]
f:87 [in UniMath.CategoryTheory.PreAdditive]
f:87 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f:87 [in UniMath.CategoryTheory.Monics]
f:87 [in UniMath.CategoryTheory.limits.products]
f:87 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
F:87 [in UniMath.SubstitutionSystems.SignatureCategory]
f:87 [in UniMath.CategoryTheory.Monads.LModules]
F:87 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:87 [in UniMath.SyntheticHomotopyTheory.Circle2]
f:87 [in UniMath.CategoryTheory.Monads.KTriples]
f:87 [in UniMath.CategoryTheory.limits.binproducts]
F:870 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:870 [in UniMath.MoreFoundations.PartA]
f:873 [in UniMath.Algebra.BinaryOperations]
f:873 [in UniMath.Foundations.PartA]
f:874 [in UniMath.HomologicalAlgebra.MappingCone]
f:875 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:876 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:876 [in UniMath.Algebra.BinaryOperations]
f:877 [in UniMath.Foundations.Sets]
f:877 [in UniMath.Foundations.PartA]
f:878 [in UniMath.Bicategories.Core.Bicat]
f:88 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:88 [in UniMath.Bicategories.Core.BicategoryLaws]
F:88 [in UniMath.CategoryTheory.catiso]
f:88 [in UniMath.CategoryTheory.limits.bincoproducts]
F:88 [in UniMath.CategoryTheory.FunctorCategory]
f:88 [in UniMath.Folds.folds_precat]
f:88 [in UniMath.Algebra.Modules.Multimodules]
f:88 [in UniMath.Algebra.GroupAction]
f:88 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:88 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
F:88 [in UniMath.Bicategories.Modifications.Modification]
f:88 [in UniMath.MoreFoundations.Univalence]
f:88 [in UniMath.MoreFoundations.Propositions]
f:88 [in UniMath.Algebra.Dcpo]
f:88 [in UniMath.Bicategories.Core.TransportLaws]
f:88 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f:88 [in UniMath.CategoryTheory.Morphisms]
f:880 [in UniMath.MoreFoundations.PartA]
f:880 [in UniMath.HomologicalAlgebra.MappingCone]
F:881 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:881 [in UniMath.Foundations.PartA]
F:882 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:883 [in UniMath.Foundations.Sets]
f:885 [in UniMath.Bicategories.Core.Bicat]
f:885 [in UniMath.Foundations.PartA]
f:886 [in UniMath.HomologicalAlgebra.MappingCone]
f:887 [in UniMath.Bicategories.Core.Bicat]
f:888 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F:89 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F:89 [in UniMath.CategoryTheory.AdditiveFunctors]
F:89 [in UniMath.Bicategories.Core.FullyFaithful]
f:89 [in UniMath.CategoryTheory.Abelian]
f:89 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:89 [in UniMath.CategoryTheory.Subcategory.Full]
f:89 [in UniMath.Bicategories.Transformations.PseudoTransformation]
F:89 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:89 [in UniMath.CategoryTheory.limits.pushouts]
F:89 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:89 [in UniMath.Bicategories.Core.Strictness]
f:89 [in UniMath.SubstitutionSystems.SubstitutionSystems]
f:89 [in UniMath.Algebra.GroupAction]
F:89 [in UniMath.CategoryTheory.Adjunctions.Core]
f:89 [in UniMath.Algebra.RigsAndRings]
F:89 [in UniMath.CategoryTheory.limits.cats.limits]
f:89 [in UniMath.CategoryTheory.limits.Opp]
f:89 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
F:89 [in UniMath.CategoryTheory.elems_slice_equiv]
f:89 [in UniMath.CategoryTheory.Additive]
f:89 [in UniMath.CategoryTheory.Epis]
f:89 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:89 [in UniMath.CategoryTheory.Core.Categories]
F:890 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:890 [in UniMath.Algebra.BinaryOperations]
f:890 [in UniMath.Foundations.Sets]
f:890 [in UniMath.Foundations.PartA]
f:892 [in UniMath.HomologicalAlgebra.MappingCone]
f:895 [in UniMath.Foundations.PartA]
f:897 [in UniMath.Algebra.BinaryOperations]
f:897 [in UniMath.MoreFoundations.PartA]
f:898 [in UniMath.HomologicalAlgebra.MappingCone]
F:9 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
F:9 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:9 [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
f:9 [in UniMath.AlgebraicGeometry.SheavesOfRings]
f:9 [in UniMath.CategoryTheory.categories.rings]
f:9 [in UniMath.CategoryTheory.Inductives.Lists]
F:9 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
f:9 [in UniMath.CategoryTheory.categories.HSET.Core]
f:9 [in UniMath.CategoryTheory.Elements]
f:9 [in UniMath.CategoryTheory.categories.setwith2binops]
f:9 [in UniMath.CategoryTheory.categories.grs]
f:9 [in UniMath.Algebra.Modules.Core]
F:9 [in UniMath.CategoryTheory.catiso]
f:9 [in UniMath.CategoryTheory.ElementsOp]
f:9 [in UniMath.CategoryTheory.categories.flds]
f:9 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
f:9 [in UniMath.CategoryTheory.DisplayedCats.Projection]
f:9 [in UniMath.CategoryTheory.category_binops]
f:9 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:9 [in UniMath.Bicategories.Core.Bicat]
f:9 [in UniMath.CategoryTheory.categories.abgrs]
f:9 [in UniMath.CategoryTheory.limits.coproducts]
f:9 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
F:9 [in UniMath.CategoryTheory.whiskering]
f:9 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:9 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:9 [in UniMath.CategoryTheory.EpiFacts]
f:9 [in UniMath.Combinatorics.Tests]
f:9 [in UniMath.CategoryTheory.opp_precat]
f:9 [in UniMath.Bicategories.Core.Examples.OneTypes]
f:9 [in UniMath.CategoryTheory.coslicecat]
f:9 [in UniMath.SubstitutionSystems.Lam]
f:9 [in UniMath.CategoryTheory.slicecat]
F:9 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
f:9 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
f:9 [in UniMath.Algebra.Tests]
f:9 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
f:9 [in UniMath.Bicategories.Core.Univalence]
f:9 [in UniMath.CategoryTheory.PreAdditive]
f:9 [in UniMath.CategoryTheory.categories.HSET.Limits]
f:9 [in UniMath.Bicategories.PseudoFunctors.Yoneda]
f:9 [in UniMath.CategoryTheory.categories.commrigs]
F:9 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
F:9 [in UniMath.Bicategories.Modifications.Modification]
f:9 [in UniMath.CategoryTheory.categories.Graph]
f:9 [in UniMath.CategoryTheory.categories.rigs]
F:9 [in UniMath.CategoryTheory.elems_slice_equiv]
f:9 [in UniMath.CategoryTheory.categories.monoids]
f:9 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
f:9 [in UniMath.CategoryTheory.categories.intdoms]
F:9 [in UniMath.CategoryTheory.PointedFunctors]
f:9 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f:9 [in UniMath.SyntheticHomotopyTheory.Circle2]
f:9 [in UniMath.Folds.from_precats_to_folds_and_back]
f:9 [in UniMath.CategoryTheory.categories.commrings]
F:9 [in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
f:9 [in UniMath.CategoryTheory.categories.abmonoids]
F:90 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:90 [in UniMath.CategoryTheory.Monads.RelativeMonads]
F:90 [in UniMath.Algebra.DivisionRig]
f:90 [in UniMath.CategoryTheory.LocalizingClass]
f:90 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
F:90 [in UniMath.CategoryTheory.yoneda]
f:90 [in UniMath.Bicategories.Core.Adjunctions]
f:90 [in UniMath.Foundations.Propositions]
f:90 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:90 [in UniMath.CategoryTheory.opp_precat]
f:90 [in UniMath.Bicategories.Core.Invertible_2cells]
f:90 [in UniMath.Bicategories.Core.Univalence]
F:90 [in UniMath.CategoryTheory.HorizontalComposition]
f:90 [in UniMath.CategoryTheory.limits.graphs.binproducts]
F:90 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
f:90 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f:90 [in UniMath.Combinatorics.Lists]
f:90 [in UniMath.Topology.Filters]
f:90 [in UniMath.CategoryTheory.limits.pullbacks]
f:90 [in UniMath.HomologicalAlgebra.MappingCone]
f:90 [in UniMath.CategoryTheory.Core.TwoCategories]
f:90 [in UniMath.CategoryTheory.precomp_ess_surj]
f:900 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:904 [in UniMath.Algebra.BinaryOperations]
f:906 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:906 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:907 [in UniMath.HomologicalAlgebra.MappingCone]
f:907 [in UniMath.Foundations.PartA]
f:909 [in UniMath.Foundations.PartA]
f:91 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F:91 [in UniMath.Algebra.DivisionRig]
f:91 [in UniMath.CategoryTheory.categories.abgrs]
f:91 [in UniMath.CategoryTheory.Core.Functors]
f:91 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:91 [in UniMath.CategoryTheory.AbelianToAdditive]
f:91 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
f:91 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
F:91 [in UniMath.CategoryTheory.opp_precat]
f:91 [in UniMath.CategoryTheory.limits.equalizers]
F:91 [in UniMath.Bicategories.Colimits.Final]
F:91 [in UniMath.CategoryTheory.Monics]
f:91 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
F:91 [in UniMath.CategoryTheory.Core.TransportMorphisms]
F:91 [in UniMath.Topology.Filters]
f:91 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:91 [in UniMath.Combinatorics.WellFoundedRelations]
f:91 [in UniMath.CategoryTheory.limits.coequalizers]
f:91 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:911 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:911 [in UniMath.Bicategories.Core.Bicat]
f:912 [in UniMath.MoreFoundations.PartA]
f:912 [in UniMath.Foundations.PartA]
f:914 [in UniMath.Foundations.PartA]
f:915 [in UniMath.Algebra.BinaryOperations]
f:916 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:916 [in UniMath.Bicategories.Core.Bicat]
f:916 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:916 [in UniMath.Foundations.PartA]
f:917 [in UniMath.HomologicalAlgebra.MappingCone]
f:918 [in UniMath.MoreFoundations.PartA]
f:919 [in UniMath.Foundations.PartA]
f:92 [in UniMath.CategoryTheory.Abelian]
f:92 [in UniMath.HomologicalAlgebra.MappingCylinder]
F:92 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:92 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f:92 [in UniMath.Algebra.Monoids]
f:92 [in UniMath.CategoryTheory.PseudoElements]
f:92 [in UniMath.Folds.folds_precat]
F:92 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
F:92 [in UniMath.CategoryTheory.Adjunctions.Core]
f:92 [in UniMath.Algebra.RigsAndRings]
F:92 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F:92 [in UniMath.CategoryTheory.elems_slice_equiv]
f:92 [in UniMath.Foundations.PartC]
f:92 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
f:922 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:923 [in UniMath.Foundations.PartA]
F:924 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:924 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:925 [in UniMath.Bicategories.Core.Bicat]
f:926 [in UniMath.Algebra.BinaryOperations]
f:928 [in UniMath.HomologicalAlgebra.MappingCone]
f:929 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:93 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:93 [in UniMath.CategoryTheory.Inductives.Lists]
f:93 [in UniMath.Bicategories.Core.FullyFaithful]
F:93 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:93 [in UniMath.Combinatorics.Vectors]
f:93 [in UniMath.Bicategories.Core.Adjunctions]
f:93 [in UniMath.CategoryTheory.limits.graphs.pushouts]
f:93 [in UniMath.Foundations.UnivalenceAxiom]
f:93 [in UniMath.CategoryTheory.Core.Isos]
F:93 [in UniMath.CategoryTheory.limits.cats.limits]
f:93 [in UniMath.CategoryTheory.limits.cones]
f:93 [in UniMath.MoreFoundations.Univalence]
f:93 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
f:93 [in UniMath.Algebra.Dcpo]
f:93 [in UniMath.Combinatorics.FiniteSequences]
f:93 [in UniMath.CategoryTheory.Monads.LModules]
f:93 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:93 [in UniMath.CategoryTheory.Morphisms]
f:931 [in UniMath.Algebra.BinaryOperations]
f:932 [in UniMath.Bicategories.Core.Bicat]
f:938 [in UniMath.HomologicalAlgebra.MappingCone]
f:939 [in UniMath.Bicategories.Core.Bicat]
f:94 [in UniMath.Bicategories.Core.EquivToAdjequiv]
f:94 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f:94 [in UniMath.Foundations.PartD]
F:94 [in UniMath.CategoryTheory.Core.NaturalTransformations]
F:94 [in UniMath.CategoryTheory.FunctorCategory]
f:94 [in UniMath.Algebra.Modules.Multimodules]
f:94 [in UniMath.CategoryTheory.HorizontalComposition]
F:94 [in UniMath.CategoryTheory.elems_slice_equiv]
f:94 [in UniMath.CategoryTheory.Additive]
F:94 [in UniMath.CategoryTheory.Epis]
f:94 [in UniMath.Algebra.Free_Monoids_and_Groups]
f:94 [in UniMath.CategoryTheory.limits.binproducts]
F:940 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:942 [in UniMath.Algebra.BinaryOperations]
f:946 [in UniMath.Bicategories.Core.Bicat]
f:946 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:948 [in UniMath.HomologicalAlgebra.MappingCone]
F:95 [in UniMath.CategoryTheory.AdditiveFunctors]
f:95 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:95 [in UniMath.Bicategories.Core.Bicat]
F:95 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
f:95 [in UniMath.Algebra.Monoids]
f:95 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:95 [in UniMath.CategoryTheory.limits.pushouts]
f:95 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
f:95 [in UniMath.Folds.folds_precat]
F:95 [in UniMath.CategoryTheory.slicecat]
f:95 [in UniMath.Bicategories.Colimits.Final]
f:95 [in UniMath.CategoryTheory.PreAdditive]
f:95 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
f:95 [in UniMath.CategoryTheory.limits.Opp]
f:95 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f:95 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
f:95 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:95 [in UniMath.CategoryTheory.Core.TwoCategories]
F:950 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:951 [in UniMath.Bicategories.Core.Bicat]
f:953 [in UniMath.Algebra.BinaryOperations]
f:954 [in UniMath.Bicategories.Core.Bicat]
f:957 [in UniMath.Bicategories.Core.Bicat]
f:958 [in UniMath.Algebra.BinaryOperations]
f:96 [in UniMath.CategoryTheory.Inductives.Lists]
f:96 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
f:96 [in UniMath.Foundations.PartB]
f:96 [in UniMath.Bicategories.Core.Adjunctions]
f:96 [in UniMath.CategoryTheory.limits.coproducts]
F:96 [in UniMath.CategoryTheory.Core.Functors]
f:96 [in UniMath.CategoryTheory.limits.bincoproducts]
f:96 [in UniMath.CategoryTheory.limits.graphs.equalizers]
f:96 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f:96 [in UniMath.CategoryTheory.FunctorAlgebras]
F:96 [in UniMath.CategoryTheory.opp_precat]
f:96 [in UniMath.CategoryTheory.limits.equalizers]
f:96 [in UniMath.CategoryTheory.limits.products]
f:96 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
f:96 [in UniMath.Topology.Filters]
f:96 [in UniMath.CategoryTheory.limits.pullbacks]
f:96 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
f:96 [in UniMath.Combinatorics.FiniteSequences]
f:96 [in UniMath.CategoryTheory.limits.coequalizers]
F:96 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
f:96 [in UniMath.CategoryTheory.Morphisms]
f:960 [in UniMath.Bicategories.Core.Bicat]
F:960 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:963 [in UniMath.Foundations.Sets]
f:964 [in UniMath.Bicategories.Core.Bicat]
f:967 [in UniMath.Algebra.BinaryOperations]
F:968 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:969 [in UniMath.Bicategories.Core.Bicat]
f:97 [in UniMath.Bicategories.Core.BicategoryLaws]
F:97 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f:97 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:97 [in UniMath.Algebra.Universal.HVectors]
f:97 [in UniMath.Bicategories.Core.Strictness]
f:97 [in UniMath.Foundations.Propositions]
f:97 [in UniMath.Bicategories.Colimits.Final]
f:97 [in UniMath.Bicategories.Core.Univalence]
F:97 [in UniMath.CategoryTheory.Subcategory.Core]
F:97 [in UniMath.CategoryTheory.Adjunctions.Core]
f:97 [in UniMath.CategoryTheory.Core.TransportMorphisms]
f:97 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f:97 [in UniMath.CategoryTheory.Core.Categories]
f:970 [in UniMath.Foundations.Sets]
f:976 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:976 [in UniMath.Algebra.BinaryOperations]
f:978 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
F:98 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f:98 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f:98 [in UniMath.HomologicalAlgebra.MappingCylinder]
f:98 [in UniMath.CategoryTheory.LocalizingClass]
f:98 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
f:98 [in UniMath.CategoryTheory.categories.abgrs]
F:98 [in UniMath.CategoryTheory.Core.NaturalTransformations]
f:98 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
f:98 [in UniMath.CategoryTheory.limits.cokernels]
f:98 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f:98 [in UniMath.CategoryTheory.limits.graphs.binproducts]
f:98 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
f:98 [in UniMath.Algebra.RigsAndRings]
F:98 [in UniMath.CategoryTheory.Monics]
F:98 [in UniMath.Bicategories.Modifications.Modification]
F:98 [in UniMath.Topology.Filters]
f:98 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
f:98 [in UniMath.CategoryTheory.precomp_ess_surj]
f:98 [in UniMath.CategoryTheory.Monads.KTriples]
F:981 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:981 [in UniMath.Algebra.BinaryOperations]
f:984 [in UniMath.Foundations.PartA]
f:985 [in UniMath.Algebra.BinaryOperations]
f:987 [in UniMath.Foundations.Sets]
f:988 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:989 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:989 [in UniMath.Algebra.BinaryOperations]
f:99 [in UniMath.Bicategories.Core.EquivToAdjequiv]
f:99 [in UniMath.CategoryTheory.Inductives.Lists]
F:99 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f:99 [in UniMath.Combinatorics.Vectors]
f:99 [in UniMath.Induction.ImpredicativeInductiveSets]
f:99 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f:99 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
F:99 [in UniMath.CategoryTheory.opp_precat]
f:99 [in UniMath.Algebra.Modules.Multimodules]
f:99 [in UniMath.CategoryTheory.PreAdditive]
F:99 [in UniMath.CategoryTheory.limits.cats.limits]
F:99 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
f:99 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
F:99 [in UniMath.CategoryTheory.elems_slice_equiv]
f:99 [in UniMath.CategoryTheory.Additive]
f:99 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
f:99 [in UniMath.CategoryTheory.Morphisms]
f:990 [in UniMath.Foundations.PartA]
f:992 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
f:993 [in UniMath.Algebra.BinaryOperations]
F:994 [in UniMath.CategoryTheory.DisplayedCats.Core]
f:995 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
f:996 [in UniMath.Foundations.Sets]
f:997 [in UniMath.Algebra.BinaryOperations]
F₀:16 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:17 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₀:17 [in UniMath.Combinatorics.Graph]
F₀:187 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:194 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:20 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
f₀:22 [in UniMath.Combinatorics.Graph]
F₀:23 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:25 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:3 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:3 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:30 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:35 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:46 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:48 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:49 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:5 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F₀:5 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F₀:54 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:57 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:6 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:60 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:61 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:73 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:8 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
F₀:85 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₀:9 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁comm:144 [in UniMath.Bicategories.Colimits.Pullback]
f₁comm:158 [in UniMath.Bicategories.Colimits.Pullback]
f₁comm:172 [in UniMath.Bicategories.Colimits.Pullback]
F₁':189 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁':196 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁':197 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₁':211 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₁':223 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:10 [in UniMath.Bicategories.Core.BicategoryLaws]
F₁:107 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f₁:107 [in UniMath.Bicategories.Core.TransportLaws]
F₁:108 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₁:11 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁:112 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₁:118 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:119 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F₁:121 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₁:122 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f₁:123 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₁:125 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₁:1285 [in UniMath.CategoryTheory.DisplayedCats.Core]
F₁:129 [in UniMath.Bicategories.Transformations.PseudoTransformation]
F₁:130 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₁:130 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:130 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f₁:131 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₁:134 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F₁:136 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f₁:137 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:138 [in UniMath.Bicategories.Colimits.Pullback]
f₁:139 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₁:140 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₁:140 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁:141 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f₁:143 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
F₁:145 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:146 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:147 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₁:148 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₁:152 [in UniMath.Bicategories.Colimits.Pullback]
F₁:153 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₁:161 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:164 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f₁:165 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:166 [in UniMath.Bicategories.Colimits.Pullback]
F₁:170 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:170 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f₁:172 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₁:174 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₁:178 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₁:179 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:18 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
F₁:180 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:181 [in UniMath.Bicategories.Core.FullyFaithful]
f₁:183 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₁:184 [in UniMath.Bicategories.Core.Invertible_2cells]
F₁:188 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₁:188 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:188 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₁:19 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:190 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:192 [in UniMath.Bicategories.Colimits.Products]
f₁:192 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₁:195 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:195 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F₁:196 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:197 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₁:20 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
f₁:201 [in UniMath.Bicategories.Colimits.Products]
f₁:202 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f₁:205 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₁:210 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:210 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₁:212 [in UniMath.Bicategories.Colimits.Products]
f₁:221 [in UniMath.Bicategories.Colimits.Products]
F₁:222 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₁:230 [in UniMath.Bicategories.Colimits.Products]
f₁:239 [in UniMath.Bicategories.Colimits.Products]
f₁:249 [in UniMath.Bicategories.Colimits.Products]
f₁:25 [in UniMath.Combinatorics.Graph]
f₁:253 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₁:259 [in UniMath.Bicategories.Colimits.Products]
F₁:26 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁:265 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f₁:269 [in UniMath.Bicategories.Colimits.Products]
f₁:279 [in UniMath.Bicategories.Colimits.Products]
F₁:289 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f₁:289 [in UniMath.Bicategories.Colimits.Products]
F₁:3 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
F₁:30 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
F₁:31 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:319 [in UniMath.Bicategories.Colimits.Products]
f₁:329 [in UniMath.Bicategories.Colimits.Products]
f₁:343 [in UniMath.Bicategories.Colimits.Products]
f₁:344 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₁:36 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₁:37 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
f₁:371 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
F₁:38 [in UniMath.Bicategories.DisplayedBicats.DispModification]
F₁:4 [in UniMath.Bicategories.Transformations.Examples.Whiskering]
F₁:4 [in UniMath.Bicategories.Core.Examples.Groupoids]
F₁:40 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
F₁:40 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁:40 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
f₁:41 [in UniMath.Bicategories.Core.YonedaLemma]
F₁:42 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₁:422 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₁:43 [in UniMath.Bicategories.Core.Invertible_2cells]
F₁:433 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f₁:44 [in UniMath.Bicategories.Core.TransportLaws]
f₁:454 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f₁:474 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f₁:49 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₁:494 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₁:5 [in UniMath.Bicategories.DisplayedBicats.DispModification]
F₁:5 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f₁:53 [in UniMath.Bicategories.Core.FullyFaithful]
F₁:53 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:54 [in UniMath.Bicategories.Core.TransportLaws]
F₁:55 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f₁:55 [in UniMath.Bicategories.Core.Invertible_2cells]
f₁:61 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₁:63 [in UniMath.Bicategories.Core.TransportLaws]
f₁:65 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
F₁:66 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₁:66 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁:67 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f₁:7 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
F₁:74 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₁:77 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
F₁:78 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
F₁:8 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F₁:8 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f₁:86 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f₁:9 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
F₁:90 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
f₁:906 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F₁:91 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F₁:94 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₁:97 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f₁:98 [in UniMath.Bicategories.Core.TransportLaws]
f₁π₁:140 [in UniMath.Bicategories.Colimits.Pullback]
f₁π₁:154 [in UniMath.Bicategories.Colimits.Pullback]
f₁π₁:168 [in UniMath.Bicategories.Colimits.Pullback]
f₁π₂:141 [in UniMath.Bicategories.Colimits.Pullback]
f₁π₂:155 [in UniMath.Bicategories.Colimits.Pullback]
f₁π₂:169 [in UniMath.Bicategories.Colimits.Pullback]
f₂comm:145 [in UniMath.Bicategories.Colimits.Pullback]
f₂comm:159 [in UniMath.Bicategories.Colimits.Pullback]
f₂comm:173 [in UniMath.Bicategories.Colimits.Pullback]
f₂:10 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
F₂:108 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
f₂:108 [in UniMath.Bicategories.Core.TransportLaws]
F₂:109 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₂:113 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₂:119 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₂:120 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F₂:122 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₂:123 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f₂:124 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₂:126 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₂:1286 [in UniMath.CategoryTheory.DisplayedCats.Core]
f₂:13 [in UniMath.Bicategories.Core.BicategoryLaws]
F₂:13 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
F₂:13 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
F₂:130 [in UniMath.Bicategories.Transformations.PseudoTransformation]
F₂:131 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₂:131 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f₂:132 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₂:135 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F₂:137 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f₂:138 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₂:139 [in UniMath.Bicategories.Colimits.Pullback]
f₂:140 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₂:141 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₂:142 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f₂:144 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
F₂:146 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:147 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₂:148 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₂:149 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₂:15 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
f₂:153 [in UniMath.Bicategories.Colimits.Pullback]
F₂:154 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
F₂:162 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:165 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f₂:167 [in UniMath.Bicategories.Colimits.Pullback]
f₂:168 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F₂:171 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:171 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
f₂:173 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₂:175 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₂:179 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₂:180 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
F₂:181 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:182 [in UniMath.Bicategories.Core.FullyFaithful]
f₂:184 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₂:185 [in UniMath.Bicategories.Core.Invertible_2cells]
F₂:189 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:189 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₂:19 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
f₂:191 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₂:193 [in UniMath.Bicategories.Colimits.Products]
f₂:193 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
f₂:196 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₂:198 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₂:199 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:202 [in UniMath.Bicategories.Colimits.Products]
f₂:203 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f₂:206 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₂:21 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
f₂:211 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
F₂:213 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:213 [in UniMath.Bicategories.Colimits.Products]
f₂:222 [in UniMath.Bicategories.Colimits.Products]
F₂:225 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
f₂:231 [in UniMath.Bicategories.Colimits.Products]
f₂:240 [in UniMath.Bicategories.Colimits.Products]
F₂:25 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
f₂:250 [in UniMath.Bicategories.Colimits.Products]
f₂:254 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₂:260 [in UniMath.Bicategories.Colimits.Products]
F₂:266 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f₂:270 [in UniMath.Bicategories.Colimits.Products]
f₂:280 [in UniMath.Bicategories.Colimits.Products]
F₂:290 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
f₂:290 [in UniMath.Bicategories.Colimits.Products]
F₂:31 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f₂:320 [in UniMath.Bicategories.Colimits.Products]
f₂:330 [in UniMath.Bicategories.Colimits.Products]
f₂:344 [in UniMath.Bicategories.Colimits.Products]
f₂:345 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₂:37 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₂:372 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
F₂:39 [in UniMath.Bicategories.DisplayedBicats.DispModification]
F₂:4 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
F₂:41 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f₂:42 [in UniMath.Bicategories.Core.YonedaLemma]
f₂:423 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₂:43 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₂:434 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
f₂:45 [in UniMath.Bicategories.Core.Invertible_2cells]
f₂:45 [in UniMath.Bicategories.Core.TransportLaws]
f₂:455 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f₂:475 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
f₂:495 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₂:5 [in UniMath.Bicategories.Transformations.Examples.Whiskering]
F₂:5 [in UniMath.Bicategories.Core.Examples.Groupoids]
f₂:50 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₂:54 [in UniMath.Bicategories.Core.FullyFaithful]
f₂:55 [in UniMath.Bicategories.Core.TransportLaws]
F₂:56 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
f₂:56 [in UniMath.Bicategories.Core.Invertible_2cells]
F₂:6 [in UniMath.Bicategories.DisplayedBicats.DispModification]
F₂:6 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f₂:62 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₂:64 [in UniMath.Bicategories.Core.TransportLaws]
f₂:66 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
F₂:67 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₂:68 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
F₂:75 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₂:78 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
f₂:8 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
f₂:87 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
f₂:907 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
F₂:92 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F₂:95 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₂:98 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
f₂:99 [in UniMath.Bicategories.Core.TransportLaws]
f₂π₁:142 [in UniMath.Bicategories.Colimits.Pullback]
f₂π₁:156 [in UniMath.Bicategories.Colimits.Pullback]
f₂π₁:170 [in UniMath.Bicategories.Colimits.Pullback]
f₂π₂:143 [in UniMath.Bicategories.Colimits.Pullback]
f₂π₂:157 [in UniMath.Bicategories.Colimits.Pullback]
f₂π₂:171 [in UniMath.Bicategories.Colimits.Pullback]
f₃:109 [in UniMath.Bicategories.Core.TransportLaws]
f₃:11 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
F₃:124 [in UniMath.Bicategories.Transformations.PseudoTransformation]
f₃:125 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₃:127 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₃:133 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₃:139 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₃:141 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₃:148 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₃:149 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
F₃:150 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₃:174 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₃:255 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₃:267 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
F₃:32 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
f₃:345 [in UniMath.Bicategories.Colimits.Products]
f₃:346 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₃:38 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₃:435 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
F₃:44 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
f₃:46 [in UniMath.Bicategories.Core.TransportLaws]
f₃:496 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₃:63 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
F₃:76 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
F₃:93 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
f₄:126 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₄:134 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₄:140 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₄:142 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₄:149 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
f₄:150 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
f₄:175 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₄:256 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₄:347 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
f₄:64 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]

G

gamma:12 [in UniMath.CategoryTheory.whiskering]
gamma:131 [in UniMath.CategoryTheory.whiskering]
gamma:134 [in UniMath.CategoryTheory.whiskering]
gamma:136 [in UniMath.CategoryTheory.FunctorCategory]
gamma:152 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
gamma:161 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
gamma:182 [in UniMath.CategoryTheory.FunctorCategory]
gamma:20 [in UniMath.CategoryTheory.whiskering]
gamma:29 [in UniMath.CategoryTheory.whiskering]
gamma:37 [in UniMath.CategoryTheory.whiskering]
gamma:406 [in UniMath.CategoryTheory.Monads.RelativeMonads]
gamma:419 [in UniMath.CategoryTheory.Monads.RelativeMonads]
gamma:51 [in UniMath.CategoryTheory.whiskering]
gamma:59 [in UniMath.CategoryTheory.whiskering]
gamma:68 [in UniMath.CategoryTheory.whiskering]
gamma:76 [in UniMath.CategoryTheory.whiskering]
gamma:94 [in UniMath.CategoryTheory.whiskering]
gamma:97 [in UniMath.CategoryTheory.whiskering]
Gcomp:18 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
Gcomp:18 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
Gcomp:28 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
Gcomp:28 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
GC:70 [in UniMath.Bicategories.Core.YonedaLemma]
gg':107 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':123 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':134 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':225 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':286 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg':29 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':41 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
gg':41 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':51 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':62 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':74 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg':80 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg':86 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg1:1295 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg1:184 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg1:229 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg1:244 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg1:250 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg1:262 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg1:272 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg1:286 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg2:1296 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg2:185 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg2:230 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg2:245 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg2:251 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg2:263 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg2:273 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg2:287 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:10 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
gg:100 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:1002 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:101 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:102 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
gg:1021 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:103 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:104 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:104 [in UniMath.HomologicalAlgebra.MappingCone]
gg:1042 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:1058 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:106 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:106 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
gg:106 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:106 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
gg:1065 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:107 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
gg:107 [in UniMath.HomologicalAlgebra.MappingCone]
gg:1086 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:11 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
gg:11 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:1109 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:114 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:115 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:116 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:116 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
gg:1171 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:119 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
gg:1195 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:12 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:120 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
gg:122 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
GG:122 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
gg:1220 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:123 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
gg:1239 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:1260 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:127 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:1278 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:129 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
gg:129 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
GG:129 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
GG:1295 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:130 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:130 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:130 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:1314 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:132 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
gg:133 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:1335 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:1356 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:136 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
gg:1373 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:1385 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:14 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
gg:140 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:1401 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:141 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
gg:142 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:1427 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:143 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
gg:145 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:1461 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:147 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:1472 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:1484 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:149 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
gg:1498 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:150 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:1515 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:152 [in UniMath.HomologicalAlgebra.MappingCone]
gg:1520 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:153 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:1536 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:154 [in UniMath.HomologicalAlgebra.MappingCone]
gg:1546 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:155 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
GG:156 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
GG:156 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:158 [in UniMath.HomologicalAlgebra.MappingCone]
gg:159 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:159 [in UniMath.HomologicalAlgebra.MappingCone]
gg:160 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:161 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
GG:161 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:163 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
GG:163 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
GG:166 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:167 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
gg:17 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:170 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:171 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:171 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:171 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:175 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:176 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
GG:18 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
GG:180 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:180 [in UniMath.HomologicalAlgebra.MappingCone]
gg:181 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:181 [in UniMath.HomologicalAlgebra.MappingCone]
gg:182 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:182 [in UniMath.HomologicalAlgebra.MappingCone]
gg:183 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:185 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
GG:185 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:185 [in UniMath.HomologicalAlgebra.MappingCone]
gg:186 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:188 [in UniMath.CategoryTheory.PseudoElements]
gg:189 [in UniMath.CategoryTheory.PseudoElements]
gg:190 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:193 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:194 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:198 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:198 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
GG:20 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
gg:202 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:202 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
gg:203 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:203 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:204 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:204 [in UniMath.HomologicalAlgebra.MappingCone]
gg:205 [in UniMath.HomologicalAlgebra.MappingCone]
gg:210 [in UniMath.CategoryTheory.limits.kernels]
gg:211 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:211 [in UniMath.CategoryTheory.limits.kernels]
gg:211 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
gg:211 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
gg:213 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:213 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:215 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:219 [in UniMath.CategoryTheory.limits.cokernels]
gg:22 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:22 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:22 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg:22 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:220 [in UniMath.CategoryTheory.limits.cokernels]
GG:222 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
gg:223 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
gg:224 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:226 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
GG:226 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:227 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:23 [in UniMath.CategoryTheory.ShortExactSequences]
gg:237 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
gg:238 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:24 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
gg:24 [in UniMath.CategoryTheory.ShortExactSequences]
gg:241 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:245 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:246 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
GG:25 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:250 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:255 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:255 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
gg:259 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:26 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
GG:26 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
gg:260 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
GG:27 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
gg:27 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
gg:270 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:271 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:275 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:276 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:277 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:28 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:280 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:285 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:289 [in UniMath.CategoryTheory.AdditiveFunctors]
gg:289 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
GG:29 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
gg:290 [in UniMath.CategoryTheory.AdditiveFunctors]
gg:291 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
GG:295 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:296 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:299 [in UniMath.CategoryTheory.AdditiveFunctors]
gg:300 [in UniMath.CategoryTheory.AdditiveFunctors]
gg:301 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:302 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
GG:31 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
gg:310 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:312 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:315 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:32 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
gg:32 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:32 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
gg:320 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:323 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:324 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
GG:33 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
gg:330 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:338 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:339 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:34 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
gg:34 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
gg:345 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:349 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:35 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:35 [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
gg:352 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg:354 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:355 [in UniMath.HomologicalAlgebra.CohomologyComplex]
gg:356 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:357 [in UniMath.HomologicalAlgebra.CohomologyComplex]
gg:357 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:36 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:362 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:365 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:367 [in UniMath.HomologicalAlgebra.CohomologyComplex]
gg:367 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:368 [in UniMath.HomologicalAlgebra.CohomologyComplex]
gg:369 [in UniMath.HomologicalAlgebra.CohomologyComplex]
gg:370 [in UniMath.HomologicalAlgebra.CohomologyComplex]
gg:376 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:38 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
gg:380 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:39 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:392 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:397 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg:399 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:40 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
gg:40 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:40 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg:409 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:41 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:41 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
gg:412 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:413 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:42 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
gg:420 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
GG:423 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:424 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:43 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
gg:439 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:441 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:458 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg:46 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:46 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
gg:46 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:460 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:464 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
GG:47 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
gg:479 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:48 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:484 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
GG:49 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
gg:497 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:497 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:50 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:51 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
gg:513 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:52 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:52 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:529 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:53 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:543 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:546 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:558 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:56 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
gg:57 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
GG:57 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
gg:570 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:570 [in UniMath.HomologicalAlgebra.Triangulated]
gg:571 [in UniMath.HomologicalAlgebra.Triangulated]
gg:575 [in UniMath.HomologicalAlgebra.Triangulated]
gg:576 [in UniMath.HomologicalAlgebra.Triangulated]
gg:587 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:596 [in UniMath.HomologicalAlgebra.Triangulated]
gg:597 [in UniMath.HomologicalAlgebra.Triangulated]
gg:598 [in UniMath.HomologicalAlgebra.Triangulated]
gg:599 [in UniMath.HomologicalAlgebra.Triangulated]
gg:602 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:61 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:613 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:62 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:628 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:63 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
gg:647 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:65 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:66 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
gg:665 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:67 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:676 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:68 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
gg:691 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:710 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:72 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
gg:724 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:73 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:735 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:752 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:771 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:79 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:79 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg:790 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:8 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
gg:80 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:808 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:81 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:81 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
GG:81 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
gg:82 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
gg:85 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg:854 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:861 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:869 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:87 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg:881 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:898 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:9 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
GG:9 [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
gg:90 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg:90 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
gg:903 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:919 [in UniMath.CategoryTheory.DisplayedCats.Core]
gg:92 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
gg:934 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gg:95 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG:97 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
GG₁:1275 [in UniMath.CategoryTheory.DisplayedCats.Core]
GG₁:172 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
gg₁:195 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg₁:382 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg₁:427 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg₁:447 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg₁:917 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
GG₂:1276 [in UniMath.CategoryTheory.DisplayedCats.Core]
GG₂:173 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
gg₂:196 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
gg₂:383 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
gg₂:428 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg₂:448 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
gg₂:918 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
gh':91 [in UniMath.SyntheticHomotopyTheory.Circle]
GH:14 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
GH:19 [in UniMath.CategoryTheory.DisplayedCats.Examples]
gh:221 [in UniMath.CategoryTheory.limits.bincoproducts]
gh:225 [in UniMath.Folds.folds_pre_2_cat]
GH:25 [in UniMath.CategoryTheory.DisplayedCats.Examples]
GH:29 [in UniMath.CategoryTheory.DisplayedCats.Examples]
GH:33 [in UniMath.CategoryTheory.DisplayedCats.Examples]
GH:37 [in UniMath.CategoryTheory.DisplayedCats.Examples]
gh:55 [in UniMath.Folds.folds_precat]
gh:73 [in UniMath.SyntheticHomotopyTheory.Circle]
gh:90 [in UniMath.SyntheticHomotopyTheory.Circle]
gh:91 [in UniMath.Folds.folds_pre_2_cat]
Gid:10 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
Gid:10 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
Gid:16 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
Gid:16 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
glb:183 [in UniMath.RealNumbers.Sets]
glb:185 [in UniMath.RealNumbers.Sets]
glb:187 [in UniMath.RealNumbers.Sets]
glb:196 [in UniMath.Combinatorics.OrderedSets]
gL:115 [in UniMath.CategoryTheory.LatticeObject]
gmk:108 [in UniMath.NumberSystems.RationalNumbers]
gmk:121 [in UniMath.NumberSystems.Integers]
gmk:149 [in UniMath.Foundations.NaturalNumbers]
gmn:113 [in UniMath.NumberSystems.RationalNumbers]
gmn:126 [in UniMath.NumberSystems.Integers]
gmn:154 [in UniMath.Foundations.NaturalNumbers]
gM:114 [in UniMath.CategoryTheory.LatticeObject]
gnm:107 [in UniMath.NumberSystems.RationalNumbers]
gnm:112 [in UniMath.NumberSystems.RationalNumbers]
gnm:120 [in UniMath.NumberSystems.Integers]
gnm:125 [in UniMath.NumberSystems.Integers]
gnm:133 [in UniMath.NumberSystems.RationalNumbers]
gnm:137 [in UniMath.NumberSystems.RationalNumbers]
gnm:146 [in UniMath.NumberSystems.Integers]
gnm:148 [in UniMath.Foundations.NaturalNumbers]
gnm:150 [in UniMath.NumberSystems.Integers]
gnm:153 [in UniMath.Foundations.NaturalNumbers]
gnm:174 [in UniMath.Foundations.NaturalNumbers]
gnm:178 [in UniMath.Foundations.NaturalNumbers]
gpd:13 [in UniMath.CategoryTheory.Groupoids]
gpd:14 [in UniMath.CategoryTheory.Groupoids]
gpd:9 [in UniMath.CategoryTheory.Groupoids]
gr_D:41 [in UniMath.CategoryTheory.Groupoids]
gr:115 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
gr:191 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
gt:126 [in UniMath.Algebra.Lattice]
gt:137 [in UniMath.Algebra.Lattice]
GT:26 [in UniMath.CategoryTheory.GrothendieckTopos]
GT:27 [in UniMath.CategoryTheory.GrothendieckTopos]
GT:31 [in UniMath.CategoryTheory.GrothendieckTopos]
GT:37 [in UniMath.CategoryTheory.GrothendieckTopos]
GT:39 [in UniMath.CategoryTheory.GrothendieckTopos]
GT:41 [in UniMath.CategoryTheory.GrothendieckTopos]
GT:45 [in UniMath.CategoryTheory.GrothendieckTopos]
GT:46 [in UniMath.CategoryTheory.GrothendieckTopos]
GT:47 [in UniMath.CategoryTheory.GrothendieckTopos]
GT:48 [in UniMath.CategoryTheory.GrothendieckTopos]
GX:48 [in UniMath.CategoryTheory.DisplayedCats.Examples]
GX:55 [in UniMath.CategoryTheory.DisplayedCats.Examples]
GX:63 [in UniMath.CategoryTheory.DisplayedCats.Examples]
GX:69 [in UniMath.CategoryTheory.DisplayedCats.Examples]
GY:49 [in UniMath.CategoryTheory.DisplayedCats.Examples]
GY:56 [in UniMath.CategoryTheory.DisplayedCats.Examples]
GY:64 [in UniMath.CategoryTheory.DisplayedCats.Examples]
GY:70 [in UniMath.CategoryTheory.DisplayedCats.Examples]
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g_pw_lub:445 [in UniMath.Algebra.FixedPointTheorems]
g_monot:41 [in UniMath.Algebra.FixedPointTheorems]
g_equiv:120 [in UniMath.Bicategories.Core.Adjunctions]
g_is_z_iso:31 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
g_is_iso:23 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
g_is_z_iso:11 [in UniMath.CategoryTheory.Monoidal.Actions]
g_is_z_iso:104 [in UniMath.CategoryTheory.PrecategoryBinProduct]
g_is_iso:78 [in UniMath.CategoryTheory.PrecategoryBinProduct]
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G0:403 [in UniMath.CategoryTheory.Monads.RelativeMonads]
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g:35 [in UniMath.Combinatorics.FiniteSequences]
g:35 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
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g:469 [in UniMath.CategoryTheory.Core.Functors]
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g:47 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
G:47 [in UniMath.Algebra.Modules.Core]
g:47 [in UniMath.Bicategories.Core.YonedaLemma]
g:47 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g:47 [in UniMath.CategoryTheory.limits.bincoproducts]
g:47 [in UniMath.CategoryTheory.limits.kernels]
g:47 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
g:47 [in UniMath.CategoryTheory.UnderCategories]
G:47 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
g:47 [in UniMath.CategoryTheory.limits.binproducts]
g:470 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
g:471 [in UniMath.CategoryTheory.limits.graphs.limits]
g:472 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
G:473 [in UniMath.CategoryTheory.limits.pullbacks]
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g:48 [in UniMath.Bicategories.Transformations.PseudoTransformation]
g:48 [in UniMath.CategoryTheory.limits.pushouts]
g:48 [in UniMath.Folds.folds_pre_2_cat]
G:48 [in UniMath.Ktheory.GrothendieckGroup]
G:48 [in UniMath.CategoryTheory.FunctorCategory]
g:48 [in UniMath.Folds.folds_isomorphism]
g:48 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
G:48 [in UniMath.Topology.Filters]
g:48 [in UniMath.CategoryTheory.elems_slice_equiv]
g:48 [in UniMath.Bicategories.Core.Examples.StrictCats]
g:480 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
g:482 [in UniMath.CategoryTheory.Core.Isos]
g:482 [in UniMath.MoreFoundations.PartA]
G:482 [in UniMath.CategoryTheory.limits.pullbacks]
g:484 [in UniMath.Bicategories.Core.Bicat]
g:485 [in UniMath.CategoryTheory.limits.graphs.limits]
G:487 [in UniMath.CategoryTheory.limits.pullbacks]
g:487 [in UniMath.HomologicalAlgebra.MappingCone]
g:488 [in UniMath.Foundations.PartB]
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g:489 [in UniMath.HomologicalAlgebra.MappingCone]
G:49 [in UniMath.Algebra.Modules.Core]
g:49 [in UniMath.MoreFoundations.Sets]
G:49 [in UniMath.CategoryTheory.whiskering]
g:49 [in UniMath.Bicategories.Core.Univalence]
G:49 [in UniMath.CategoryTheory.Adjunctions.Core]
G:49 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
g:49 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
G:49 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
g:49 [in UniMath.CategoryTheory.Core.TransportMorphisms]
g:49 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
g:49 [in UniMath.CategoryTheory.limits.pullbacks]
g:49 [in UniMath.CategoryTheory.categories.HSET.Structures]
g:49 [in UniMath.Algebra.Free_Monoids_and_Groups]
g:49 [in UniMath.CategoryTheory.AbelianPushoutPullback]
g:490 [in UniMath.CategoryTheory.Core.Isos]
g:491 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
g:492 [in UniMath.Bicategories.Core.Bicat]
g:493 [in UniMath.Combinatorics.WellOrderedSets]
G:493 [in UniMath.CategoryTheory.limits.pullbacks]
g:493 [in UniMath.CategoryTheory.limits.graphs.limits]
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G:498 [in UniMath.CategoryTheory.limits.pullbacks]
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g:499 [in UniMath.CategoryTheory.limits.graphs.limits]
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G:5 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
g:5 [in UniMath.CategoryTheory.categories.StandardCategories]
G:5 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
g:5 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
g:5 [in UniMath.Bicategories.Core.Adjunctions]
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g:5 [in UniMath.CategoryTheory.limits.graphs.equalizers]
G:5 [in UniMath.CategoryTheory.DisplayedCats.Examples]
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g:5 [in UniMath.CategoryTheory.slicecat]
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g:5 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
g:5 [in UniMath.CategoryTheory.limits.graphs.colimits]
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g:5 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
g:5 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
G:5 [in UniMath.CategoryTheory.IsoCommaCategory]
G:50 [in UniMath.CategoryTheory.Presheaf]
G:50 [in UniMath.Combinatorics.ZFstructures]
g:50 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
g:50 [in UniMath.Bicategories.Core.YonedaLemma]
g:50 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
g:50 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
g:50 [in UniMath.CategoryTheory.limits.graphs.pushouts]
g:50 [in UniMath.CategoryTheory.limits.graphs.equalizers]
g:50 [in UniMath.CategoryTheory.CategoryEquality]
g:50 [in UniMath.CategoryTheory.limits.kernels]
g:50 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
g:50 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
g:50 [in UniMath.Algebra.GroupAction]
g:50 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
g:50 [in UniMath.CategoryTheory.limits.graphs.colimits]
g:50 [in UniMath.Bicategories.Discreteness]
g:50 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
g:50 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
g:500 [in UniMath.Bicategories.Core.Bicat]
g:502 [in UniMath.CategoryTheory.LocalizingClass]
G:504 [in UniMath.CategoryTheory.limits.pullbacks]
g:504 [in UniMath.CategoryTheory.limits.graphs.limits]
g:505 [in UniMath.Bicategories.Core.Bicat]
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g:507 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
G:509 [in UniMath.CategoryTheory.limits.pullbacks]
g:51 [in UniMath.Bicategories.Core.BicategoryLaws]
G:51 [in UniMath.Algebra.Modules.Core]
g:51 [in UniMath.CategoryTheory.Monads.RelativeModules]
g:51 [in UniMath.SyntheticHomotopyTheory.Circle]
g:51 [in UniMath.Bicategories.Core.Strictness]
G:51 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g:51 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
g:51 [in UniMath.CategoryTheory.limits.graphs.binproducts]
g:51 [in UniMath.HomologicalAlgebra.KA]
g:51 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
g:51 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
g:51 [in UniMath.CategoryTheory.limits.Opp]
G:51 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
g:51 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
g:51 [in UniMath.CategoryTheory.Core.Categories]
g:510 [in UniMath.CategoryTheory.Core.Isos]
g:510 [in UniMath.CategoryTheory.limits.graphs.limits]
g:512 [in UniMath.Bicategories.Core.Bicat]
g:513 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g:515 [in UniMath.CategoryTheory.Core.Functors]
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g:517 [in UniMath.MoreFoundations.PartA]
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g:52 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
G:52 [in UniMath.CategoryTheory.catiso]
G:52 [in UniMath.Bicategories.Transformations.PseudoTransformation]
g:52 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
G:52 [in UniMath.Ktheory.GrothendieckGroup]
g:52 [in UniMath.CategoryTheory.opp_precat]
g:52 [in UniMath.Folds.folds_precat]
g:52 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
G:52 [in UniMath.Algebra.GroupAction]
G:52 [in UniMath.Bicategories.Modifications.Modification]
G:52 [in UniMath.Topology.Filters]
g:52 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
g:52 [in UniMath.CategoryTheory.limits.graphs.limits]
g:521 [in UniMath.Bicategories.Core.Bicat]
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g:521 [in UniMath.CategoryTheory.limits.graphs.limits]
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g:524 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g:526 [in UniMath.CategoryTheory.LocalizingClass]
g:527 [in UniMath.Bicategories.Core.Bicat]
g:527 [in UniMath.CategoryTheory.limits.graphs.limits]
g:528 [in UniMath.CategoryTheory.Core.Isos]
g:53 [in UniMath.CategoryTheory.limits.bincoproducts]
g:53 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
g:53 [in UniMath.CategoryTheory.limits.kernels]
G:53 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
g:53 [in UniMath.Bicategories.Core.Univalence]
g:53 [in UniMath.CategoryTheory.ShortExactSequences]
g:53 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
g:53 [in UniMath.CategoryTheory.limits.cones]
g:53 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
g:53 [in UniMath.Foundations.PartC]
g:53 [in UniMath.Bicategories.Core.TransportLaws]
g:53 [in UniMath.CategoryTheory.UnderCategories]
G:53 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
g:53 [in UniMath.Algebra.Free_Monoids_and_Groups]
g:53 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
g:53 [in UniMath.CategoryTheory.limits.binproducts]
g:532 [in UniMath.CategoryTheory.limits.pullbacks]
g:533 [in UniMath.CategoryTheory.limits.graphs.limits]
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g:54 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
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g:54 [in UniMath.Foundations.UnivalenceAxiom]
g:54 [in UniMath.Folds.folds_pre_2_cat]
g:54 [in UniMath.CategoryTheory.limits.graphs.equalizers]
g:54 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
G:54 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
G:54 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
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g:60 [in UniMath.Bicategories.Core.YonedaLemma]
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g:60 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
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G:60 [in UniMath.Bicategories.Modifications.Modification]
g:60 [in UniMath.CategoryTheory.limits.graphs.colimits]
g:60 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
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g:64 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
g:64 [in UniMath.Foundations.PartB]
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g:64 [in UniMath.CategoryTheory.limits.graphs.equalizers]
g:64 [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
g:64 [in UniMath.Bicategories.Core.Invertible_2cells]
g:64 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
G:64 [in UniMath.CategoryTheory.Adjunctions.Core]
g:64 [in UniMath.CategoryTheory.limits.Opp]
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G:642 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
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G:649 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
g:65 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
g:65 [in UniMath.CategoryTheory.limits.graphs.pushouts]
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G:65 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
g:65 [in UniMath.Bicategories.Core.Univalence]
G:65 [in UniMath.CategoryTheory.HorizontalComposition]
g:65 [in UniMath.CategoryTheory.Additive]
G:65 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
g:65 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
g:65 [in UniMath.CategoryTheory.Core.Categories]
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g:66 [in UniMath.Bicategories.Core.Strictness]
g:66 [in UniMath.Foundations.NaturalNumbers]
G:66 [in UniMath.CategoryTheory.Enriched.Enriched]
g:66 [in UniMath.CategoryTheory.PrecategoryBinProduct]
g:66 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
g:66 [in UniMath.CategoryTheory.limits.cones]
g:66 [in UniMath.Algebra.Free_Monoids_and_Groups]
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G:67 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
g:67 [in UniMath.CategoryTheory.limits.equalizers]
g:67 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
G:67 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g:67 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
g:67 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
g:67 [in UniMath.CategoryTheory.limits.pullbacks]
g:67 [in UniMath.CategoryTheory.limits.coequalizers]
g:67 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
g:67 [in UniMath.CategoryTheory.limits.graphs.limits]
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g:69 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
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G:69 [in UniMath.CategoryTheory.FunctorCategory]
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G:69 [in UniMath.Combinatorics.Graph]
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G:70 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
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G:70 [in UniMath.Bicategories.Modifications.Modification]
G:70 [in UniMath.Algebra.Modules.Examples]
g:70 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
g:70 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
g:70 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
g:70 [in UniMath.CategoryTheory.Additive]
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G:71 [in UniMath.CategoryTheory.Adjunctions.Core]
G:71 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
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g:71 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
g:71 [in UniMath.CategoryTheory.limits.graphs.limits]
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g:72 [in UniMath.SubstitutionSystems.STLC_alt]
g:72 [in UniMath.CategoryTheory.limits.graphs.colimits]
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g:73 [in UniMath.Foundations.UnivalenceAxiom]
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g:88 [in UniMath.CategoryTheory.limits.graphs.pushouts]
g:88 [in UniMath.Algebra.Universal.HVectors]
g:88 [in UniMath.Folds.folds_pre_2_cat]
g:88 [in UniMath.CategoryTheory.AbelianToAdditive]
g:88 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
G:88 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g:88 [in UniMath.CategoryTheory.PreAdditive]
G:88 [in UniMath.CategoryTheory.Adjunctions.Core]
g:88 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
g:88 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
g:88 [in UniMath.CategoryTheory.limits.graphs.limits]
g:881 [in UniMath.MoreFoundations.PartA]
g:881 [in UniMath.HomologicalAlgebra.MappingCone]
g:886 [in UniMath.Bicategories.Core.Bicat]
g:887 [in UniMath.HomologicalAlgebra.MappingCone]
g:888 [in UniMath.Bicategories.Core.Bicat]
g:889 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
g:89 [in UniMath.CategoryTheory.limits.bincoproducts]
G:89 [in UniMath.CategoryTheory.FunctorCategory]
g:89 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
g:89 [in UniMath.Folds.folds_precat]
g:89 [in UniMath.Algebra.Modules.Multimodules]
g:89 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
G:89 [in UniMath.Bicategories.Modifications.Modification]
g:89 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
g:89 [in UniMath.CategoryTheory.Morphisms]
g:893 [in UniMath.HomologicalAlgebra.MappingCone]
g:898 [in UniMath.MoreFoundations.PartA]
g:899 [in UniMath.HomologicalAlgebra.MappingCone]
g:9 [in UniMath.Induction.W.Fibered]
g:9 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
g:9 [in UniMath.CategoryTheory.limits.bincoproducts]
g:9 [in UniMath.CategoryTheory.limits.graphs.equalizers]
G:9 [in UniMath.CategoryTheory.DisplayedCats.Examples]
G:9 [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
G:9 [in UniMath.Combinatorics.Graph]
g:9 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
g:9 [in UniMath.CategoryTheory.Monoidal.Actions]
g:9 [in UniMath.Bicategories.Core.Examples.Final]
g:9 [in UniMath.Bicategories.Discreteness]
G:9 [in UniMath.CategoryTheory.Adjunctions.Restriction]
g:9 [in UniMath.CategoryTheory.Profunctors.Core]
g:9 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
g:9 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
g:9 [in UniMath.CategoryTheory.limits.binproducts]
g:90 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
G:90 [in UniMath.Combinatorics.ZFstructures]
g:90 [in UniMath.Bicategories.Transformations.PseudoTransformation]
G:90 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
G:90 [in UniMath.CategoryTheory.whiskering]
g:90 [in UniMath.CategoryTheory.limits.pushouts]
G:90 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
g:90 [in UniMath.Bicategories.Core.Strictness]
g:90 [in UniMath.CategoryTheory.limits.cokernels]
G:90 [in UniMath.Algebra.GroupAction]
g:90 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
g:90 [in UniMath.CategoryTheory.Additive]
g:90 [in UniMath.CategoryTheory.Core.Categories]
g:901 [in UniMath.CategoryTheory.DisplayedCats.Core]
g:907 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g:91 [in UniMath.CategoryTheory.Monads.RelativeMonads]
g:91 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
G:91 [in UniMath.CategoryTheory.whiskering]
g:91 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
g:91 [in UniMath.Bicategories.Core.Invertible_2cells]
g:91 [in UniMath.Bicategories.Core.Univalence]
g:91 [in UniMath.CategoryTheory.limits.graphs.binproducts]
g:91 [in UniMath.CategoryTheory.limits.graphs.colimits]
g:91 [in UniMath.CategoryTheory.limits.pullbacks]
g:91 [in UniMath.CategoryTheory.Core.TwoCategories]
g:912 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g:912 [in UniMath.Bicategories.Core.Bicat]
g:913 [in UniMath.MoreFoundations.PartA]
g:917 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g:917 [in UniMath.Bicategories.Core.Bicat]
g:917 [in UniMath.CategoryTheory.DisplayedCats.Core]
g:919 [in UniMath.MoreFoundations.PartA]
G:92 [in UniMath.Combinatorics.ZFstructures]
g:92 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
g:92 [in UniMath.CategoryTheory.AbelianToAdditive]
g:92 [in UniMath.Foundations.NaturalNumbers]
g:92 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
g:92 [in UniMath.CategoryTheory.limits.equalizers]
G:92 [in UniMath.Bicategories.Colimits.Final]
G:92 [in UniMath.CategoryTheory.HorizontalComposition]
g:92 [in UniMath.NumberSystems.Integers]
G:92 [in UniMath.CategoryTheory.Monics]
G:92 [in UniMath.Topology.Filters]
g:92 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
g:92 [in UniMath.Combinatorics.WellFoundedRelations]
g:92 [in UniMath.CategoryTheory.limits.coequalizers]
g:923 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g:925 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
g:926 [in UniMath.Bicategories.Core.Bicat]
g:93 [in UniMath.CategoryTheory.PreAdditive]
g:93 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
G:93 [in UniMath.Algebra.GroupAction]
G:93 [in UniMath.CategoryTheory.Adjunctions.Core]
g:93 [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
g:93 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
g:93 [in UniMath.CategoryTheory.limits.graphs.limits]
g:933 [in UniMath.Bicategories.Core.Bicat]
G:94 [in UniMath.Combinatorics.ZFstructures]
G:94 [in UniMath.Bicategories.Transformations.PseudoTransformation]
g:94 [in UniMath.CategoryTheory.limits.graphs.pushouts]
g:94 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
g:94 [in UniMath.CategoryTheory.Core.Isos]
g:94 [in UniMath.CategoryTheory.Monads.LModules]
g:940 [in UniMath.Bicategories.Core.Bicat]
g:947 [in UniMath.Bicategories.Core.Bicat]
g:95 [in UniMath.Bicategories.Core.EquivToAdjequiv]
g:95 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
g:95 [in UniMath.Foundations.UnivalenceAxiom]
g:95 [in UniMath.CategoryTheory.limits.kernels]
G:95 [in UniMath.CategoryTheory.FunctorCategory]
g:95 [in UniMath.CategoryTheory.HorizontalComposition]
g:95 [in UniMath.CategoryTheory.Equivalences.Core]
g:95 [in UniMath.CategoryTheory.limits.graphs.colimits]
g:95 [in UniMath.CategoryTheory.Additive]
g:95 [in UniMath.AlgebraicGeometry.Spec]
G:95 [in UniMath.CategoryTheory.Epis]
g:95 [in UniMath.CategoryTheory.limits.binproducts]
g:96 [in UniMath.Bicategories.Core.BicategoryLaws]
g:96 [in UniMath.Bicategories.Core.Bicat]
g:96 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
g:96 [in UniMath.CategoryTheory.limits.pushouts]
g:96 [in UniMath.Bicategories.Colimits.Final]
g:96 [in UniMath.CategoryTheory.limits.Opp]
g:96 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
g:96 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
g:96 [in UniMath.CategoryTheory.Core.TwoCategories]
g:965 [in UniMath.Bicategories.Core.Bicat]
G:97 [in UniMath.Combinatorics.ZFstructures]
g:97 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
g:97 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
g:97 [in UniMath.CategoryTheory.limits.bincoproducts]
g:97 [in UniMath.CategoryTheory.limits.graphs.equalizers]
g:97 [in UniMath.CategoryTheory.limits.equalizers]
G:97 [in UniMath.Algebra.GroupAction]
g:97 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
g:97 [in UniMath.Topology.Filters]
g:97 [in UniMath.CategoryTheory.limits.pullbacks]
g:97 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
g:97 [in UniMath.CategoryTheory.limits.coequalizers]
G:97 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
g:97 [in UniMath.CategoryTheory.limits.graphs.limits]
g:970 [in UniMath.Bicategories.Core.Bicat]
g:98 [in UniMath.CategoryTheory.DisplayedCats.Core]
g:98 [in UniMath.Bicategories.Core.Strictness]
g:98 [in UniMath.Bicategories.Colimits.Final]
g:98 [in UniMath.Bicategories.Core.Univalence]
G:98 [in UniMath.CategoryTheory.Adjunctions.Core]
g:98 [in UniMath.CategoryTheory.Core.Categories]
g:986 [in UniMath.Foundations.PartA]
g:99 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
g:99 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
g:99 [in UniMath.CategoryTheory.limits.cokernels]
g:99 [in UniMath.CategoryTheory.limits.graphs.binproducts]
g:99 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
G:99 [in UniMath.Bicategories.Modifications.Modification]
g:99 [in UniMath.CategoryTheory.limits.graphs.colimits]
g:99 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
G:99 [in UniMath.Topology.Filters]
g:99 [in UniMath.Algebra.Free_Monoids_and_Groups]
g:99 [in UniMath.CategoryTheory.Monads.KTriples]
g:992 [in UniMath.Foundations.PartA]
g:995 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
G₀:10 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₀:18 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₀:36 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₀:4 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
G₀:47 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
G₀:49 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₀:50 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
G₀:55 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
G₀:58 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
G₀:61 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
G₀:62 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₀:74 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₀:86 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₀:9 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
g₁:100 [in UniMath.Bicategories.Core.FullyFaithful]
g₁:1023 [in UniMath.Bicategories.Core.Bicat]
g₁:1026 [in UniMath.Bicategories.Core.Bicat]
g₁:1046 [in UniMath.Bicategories.Core.Bicat]
g₁:1049 [in UniMath.Bicategories.Core.Bicat]
g₁:11 [in UniMath.Bicategories.Core.BicategoryLaws]
g₁:115 [in UniMath.Bicategories.Core.FullyFaithful]
g₁:117 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
G₁:12 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:120 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
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G₁:13 [in UniMath.Bicategories.Transformations.Examples.Whiskering]
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g₁:166 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
g₁:177 [in UniMath.Bicategories.Core.Invertible_2cells]
g₁:181 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
g₁:188 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
g₁:194 [in UniMath.Bicategories.Colimits.Products]
g₁:195 [in UniMath.Bicategories.Core.FullyFaithful]
g₁:199 [in UniMath.Bicategories.Core.FullyFaithful]
G₁:2 [in UniMath.Bicategories.Core.Examples.Groupoids]
G₁:20 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:20 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
g₁:203 [in UniMath.Bicategories.Colimits.Products]
g₁:214 [in UniMath.Bicategories.Colimits.Products]
G₁:218 [in UniMath.Bicategories.Core.FullyFaithful]
g₁:223 [in UniMath.Bicategories.Colimits.Products]
G₁:227 [in UniMath.Bicategories.Core.FullyFaithful]
g₁:232 [in UniMath.Bicategories.Colimits.Products]
G₁:235 [in UniMath.Bicategories.Core.FullyFaithful]
g₁:241 [in UniMath.Bicategories.Colimits.Products]
g₁:251 [in UniMath.Bicategories.Colimits.Products]
g₁:261 [in UniMath.Bicategories.Colimits.Products]
g₁:271 [in UniMath.Bicategories.Colimits.Products]
g₁:281 [in UniMath.Bicategories.Colimits.Products]
g₁:291 [in UniMath.Bicategories.Colimits.Products]
g₁:300 [in UniMath.Bicategories.Colimits.Products]
g₁:307 [in UniMath.Bicategories.Colimits.Products]
g₁:321 [in UniMath.Bicategories.Colimits.Products]
g₁:331 [in UniMath.Bicategories.Colimits.Products]
g₁:346 [in UniMath.Bicategories.Colimits.Products]
g₁:373 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
G₁:41 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:419 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
g₁:424 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
g₁:439 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
g₁:44 [in UniMath.Bicategories.Core.Invertible_2cells]
g₁:51 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
G₁:54 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
G₁:58 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g₁:59 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
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G₁:64 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
G₁:67 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:69 [in UniMath.Bicategories.Core.Invertible_2cells]
g₁:71 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
G₁:78 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
G₁:79 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:80 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
G₁:81 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
G₁:84 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g₁:89 [in UniMath.Bicategories.Core.TransportLaws]
g₁:9 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
g₁:908 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
G₁:91 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
g₁:91 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
g₁:92 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
g₁:95 [in UniMath.Bicategories.Core.FullyFaithful]
g₂:10 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
g₂:101 [in UniMath.Bicategories.Core.FullyFaithful]
g₂:1024 [in UniMath.Bicategories.Core.Bicat]
g₂:1027 [in UniMath.Bicategories.Core.Bicat]
g₂:1047 [in UniMath.Bicategories.Core.Bicat]
g₂:1050 [in UniMath.Bicategories.Core.Bicat]
g₂:116 [in UniMath.Bicategories.Core.FullyFaithful]
g₂:118 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
g₂:121 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
G₂:1269 [in UniMath.CategoryTheory.DisplayedCats.Core]
g₂:127 [in UniMath.Bicategories.Core.FullyFaithful]
g₂:129 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
g₂:136 [in UniMath.Bicategories.Core.FullyFaithful]
g₂:14 [in UniMath.Bicategories.Core.BicategoryLaws]
G₂:14 [in UniMath.Bicategories.Transformations.Examples.Whiskering]
g₂:145 [in UniMath.Bicategories.Core.FullyFaithful]
g₂:146 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
G₂:16 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
G₂:166 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
g₂:169 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
g₂:17 [in UniMath.Bicategories.Core.FullyFaithful]
g₂:178 [in UniMath.Bicategories.Core.Invertible_2cells]
g₂:182 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
g₂:189 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
g₂:195 [in UniMath.Bicategories.Colimits.Products]
g₂:196 [in UniMath.Bicategories.Core.FullyFaithful]
g₂:200 [in UniMath.Bicategories.Core.FullyFaithful]
g₂:204 [in UniMath.Bicategories.Colimits.Products]
g₂:21 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
g₂:215 [in UniMath.Bicategories.Colimits.Products]
G₂:219 [in UniMath.Bicategories.Core.FullyFaithful]
g₂:224 [in UniMath.Bicategories.Colimits.Products]
G₂:228 [in UniMath.Bicategories.Core.FullyFaithful]
g₂:233 [in UniMath.Bicategories.Colimits.Products]
G₂:236 [in UniMath.Bicategories.Core.FullyFaithful]
g₂:242 [in UniMath.Bicategories.Colimits.Products]
g₂:252 [in UniMath.Bicategories.Colimits.Products]
G₂:26 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
g₂:262 [in UniMath.Bicategories.Colimits.Products]
g₂:272 [in UniMath.Bicategories.Colimits.Products]
g₂:282 [in UniMath.Bicategories.Colimits.Products]
g₂:292 [in UniMath.Bicategories.Colimits.Products]
G₂:3 [in UniMath.Bicategories.Core.Examples.Groupoids]
g₂:301 [in UniMath.Bicategories.Colimits.Products]
g₂:308 [in UniMath.Bicategories.Colimits.Products]
g₂:322 [in UniMath.Bicategories.Colimits.Products]
g₂:332 [in UniMath.Bicategories.Colimits.Products]
g₂:347 [in UniMath.Bicategories.Colimits.Products]
g₂:374 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
g₂:420 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
g₂:425 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
g₂:440 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
g₂:46 [in UniMath.Bicategories.Core.Invertible_2cells]
g₂:52 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
G₂:59 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g₂:60 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
G₂:62 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
G₂:65 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g₂:7 [in UniMath.Bicategories.Core.FullyFaithful]
g₂:70 [in UniMath.Bicategories.Core.Invertible_2cells]
g₂:72 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
G₂:79 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g₂:81 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
G₂:82 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
G₂:85 [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
g₂:90 [in UniMath.Bicategories.Core.TransportLaws]
g₂:909 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
g₂:92 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
g₂:93 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
g₂:96 [in UniMath.Bicategories.Core.FullyFaithful]
g₃:348 [in UniMath.Bicategories.Colimits.Products]
g₃:94 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]

H

Hab:12 [in UniMath.CategoryTheory.categories.HSET.Colimits]
Hab:15 [in UniMath.CategoryTheory.categories.HSET.Colimits]
Hadd:204 [in UniMath.Algebra.Archimedean]
Hadd:227 [in UniMath.Algebra.Archimedean]
Hadd:255 [in UniMath.Algebra.Archimedean]
Hand_y:170 [in UniMath.Topology.Filters]
Hand_x:165 [in UniMath.Topology.Filters]
Hand:117 [in UniMath.Topology.Filters]
Hand:119 [in UniMath.Topology.Topology]
Hand:138 [in UniMath.Topology.Filters]
Hand:21 [in UniMath.Topology.Filters]
Hand:236 [in UniMath.Topology.Filters]
Hand:34 [in UniMath.Topology.Filters]
Hand:359 [in UniMath.Topology.Filters]
Hand:66 [in UniMath.Topology.Filters]
Hap:89 [in UniMath.RealNumbers.Reals]
Hap:91 [in UniMath.RealNumbers.Reals]
Hap:93 [in UniMath.RealNumbers.Reals]
Hap:95 [in UniMath.RealNumbers.Reals]
Harch:206 [in UniMath.Algebra.Archimedean]
hasHom:15 [in UniMath.CategoryTheory.FunctorCoalgebras]
Hass:21 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
has:106 [in UniMath.Algebra.Matrix]
Ha:117 [in UniMath.MoreFoundations.Propositions]
Ha:299 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
HA:50 [in UniMath.CategoryTheory.Equivalences.Core]
HA:58 [in UniMath.CategoryTheory.Equivalences.Core]
HA:64 [in UniMath.CategoryTheory.Equivalences.Core]
HA:73 [in UniMath.CategoryTheory.Equivalences.Core]
HA:78 [in UniMath.CategoryTheory.Equivalences.Core]
Hbase:386 [in UniMath.Topology.Filters]
Hbot:108 [in UniMath.CategoryTheory.LatticeObject]
Hbot:26 [in UniMath.RealNumbers.NonnegativeReals]
HB_2_1:175 [in UniMath.Bicategories.Colimits.Pullback]
HB_2_1:67 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
HB_2_1:63 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
HB_2_1:261 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HB_2_1:254 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HB_2_1:246 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HB_2_1:139 [in UniMath.Bicategories.Colimits.Products]
HB_2_1:137 [in UniMath.Bicategories.Colimits.Products]
HB_2_1:134 [in UniMath.Bicategories.Colimits.Products]
HB_2_1:131 [in UniMath.Bicategories.Colimits.Products]
HB_2_1:130 [in UniMath.Bicategories.Colimits.Products]
HB_2_1:214 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB_2_0:213 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB_2_1:208 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB_2_1:203 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB_2_1:195 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB_2_1:176 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB_2_1:171 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HB:101 [in UniMath.Bicategories.Core.Univalence]
HB:104 [in UniMath.Bicategories.Core.TransportLaws]
HB:106 [in UniMath.Bicategories.Core.Univalence]
HB:117 [in UniMath.Bicategories.Core.Strictness]
Hb:118 [in UniMath.MoreFoundations.Propositions]
HB:123 [in UniMath.Bicategories.Core.Strictness]
HB:126 [in UniMath.Bicategories.Core.Strictness]
HB:1445 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
HB:1503 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
HB:188 [in UniMath.Bicategories.Core.Strictness]
HB:19 [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
HB:204 [in UniMath.Bicategories.Core.Strictness]
HB:216 [in UniMath.Bicategories.Core.Strictness]
HB:218 [in UniMath.Bicategories.Core.Strictness]
HB:220 [in UniMath.Bicategories.Core.Strictness]
HB:222 [in UniMath.Bicategories.Core.Strictness]
HB:23 [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
HB:236 [in UniMath.Bicategories.Core.AdjointUnique]
HB:294 [in UniMath.MoreFoundations.PartA]
HB:50 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
HB:51 [in UniMath.CategoryTheory.Equivalences.Core]
HB:55 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
HB:59 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
HB:59 [in UniMath.CategoryTheory.Equivalences.Core]
HB:69 [in UniMath.Bicategories.Core.YonedaLemma]
HB:76 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
HB:79 [in UniMath.Bicategories.Core.TransportLaws]
HB:84 [in UniMath.Bicategories.Core.TransportLaws]
HB:87 [in UniMath.Bicategories.Core.Univalence]
HB:94 [in UniMath.Bicategories.Core.Univalence]
HB:94 [in UniMath.Bicategories.Core.TransportLaws]
HB₂_2_1:30 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
HB₂_2_1:6 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
HB₂:3 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
Hccab:108 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hccab:93 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HccLM:319 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hcomm:112 [in UniMath.CategoryTheory.limits.pullbacks]
Hcomm:130 [in UniMath.CategoryTheory.limits.graphs.pushouts]
Hcomm:132 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Hcomm:162 [in UniMath.CategoryTheory.limits.graphs.pushouts]
Hcomm:192 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Hcomm:38 [in UniMath.CategoryTheory.limits.pushouts]
Hcomm:39 [in UniMath.CategoryTheory.limits.pullbacks]
HC_2_1:199 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC_2_1:190 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC_2_1:187 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC_2_1:112 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC_2_0:109 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC_2_1:263 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HC_2_0:262 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HC_2_1:255 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HC_2_1:247 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HC_2_1:239 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HC_1:94 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC_1:13 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC_1:3 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC1:426 [in UniMath.Bicategories.Core.Bicat]
HC2:427 [in UniMath.Bicategories.Core.Bicat]
Hc:10 [in UniMath.SubstitutionSystems.SignatureCategory]
HC:100 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:102 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:11 [in UniMath.Bicategories.Colimits.Initial]
HC:11 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HC:119 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
HC:15 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:156 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
HC:17 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:19 [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
HC:2 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HC:204 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC:207 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC:21 [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
HC:210 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HC:215 [in UniMath.Bicategories.Core.AdjointUnique]
HC:221 [in UniMath.Bicategories.Core.AdjointUnique]
HC:226 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
HC:230 [in UniMath.Bicategories.Core.AdjointUnique]
HC:233 [in UniMath.CategoryTheory.limits.bincoproducts]
HC:24 [in UniMath.Bicategories.Core.Univalence]
HC:259 [in UniMath.CategoryTheory.limits.cats.limits]
HC:264 [in UniMath.CategoryTheory.limits.cats.limits]
HC:276 [in UniMath.CategoryTheory.limits.graphs.limits]
HC:280 [in UniMath.CategoryTheory.limits.graphs.limits]
HC:31 [in UniMath.Bicategories.Core.Univalence]
HC:333 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HC:34 [in UniMath.Bicategories.DisplayedBicats.Fibration]
HC:344 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:346 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HC:349 [in UniMath.CategoryTheory.PrecategoryBinProduct]
HC:350 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:351 [in UniMath.CategoryTheory.limits.graphs.colimits]
HC:355 [in UniMath.CategoryTheory.limits.graphs.colimits]
HC:359 [in UniMath.CategoryTheory.Core.Functors]
HC:359 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:36 [in UniMath.Bicategories.Core.Univalence]
HC:362 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:365 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:368 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:371 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HC:405 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HC:417 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HC:418 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HC:419 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HC:420 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HC:43 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
HC:5 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:51 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
HC:536 [in UniMath.CategoryTheory.limits.graphs.limits]
HC:55 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
HC:60 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
HC:60 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
HC:62 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
HC:63 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
HC:7 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:75 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
HC:9 [in UniMath.Bicategories.Colimits.Initial]
HC:92 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:96 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC:98 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
HC₁:19 [in UniMath.CategoryTheory.IsoCommaCategory]
HC₂:20 [in UniMath.CategoryTheory.IsoCommaCategory]
HC₃:18 [in UniMath.CategoryTheory.IsoCommaCategory]
HC₃:21 [in UniMath.CategoryTheory.IsoCommaCategory]
Hdec:6 [in UniMath.RealNumbers.DecidableDedekindCuts]
Hdom:122 [in UniMath.Topology.Filters]
Hdom:133 [in UniMath.Topology.Filters]
Hdom:143 [in UniMath.Topology.Filters]
Hdom:158 [in UniMath.Topology.Filters]
HDP:68 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
HDP:81 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
HD_2_1:48 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
HD_2_1:47 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
HD_2_1:34 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
HD_2_1:33 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
HD_2_1:83 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
HD_2_1:3 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
HD_2_1:194 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
HD_2_1:83 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HD_2_1:70 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HD_2_1:209 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
HD_2_1:200 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
HD_2_1:193 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
HD_2_1:82 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD_2_1:77 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD_2_1:3 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD_2_1:48 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
HD_2_1:47 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
HD_2_1:35 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
HD_2_1:34 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
HD_2_1:35 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
HD_2_1:34 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
HD_2_1:4 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HD1:256 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:259 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:345 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:351 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:360 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:363 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:366 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:369 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:372 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:374 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD1:376 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:257 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:260 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:346 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:352 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:361 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:364 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:367 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:370 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:373 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:375 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD2:377 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
HD:104 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD:115 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
HD:120 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
HD:125 [in UniMath.CategoryTheory.limits.coproducts]
HD:130 [in UniMath.CategoryTheory.limits.coproducts]
HD:133 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HD:146 [in UniMath.CategoryTheory.limits.products]
HD:1489 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
HD:149 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
HD:1502 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
HD:157 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
HD:167 [in UniMath.CategoryTheory.limits.binproducts]
HD:20 [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
HD:210 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
HD:211 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
HD:215 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD:218 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HD:22 [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
HD:224 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
HD:225 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
HD:23 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HD:231 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HD:242 [in UniMath.CategoryTheory.limits.bincoproducts]
HD:244 [in UniMath.Bicategories.Core.Univalence]
HD:248 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
HD:248 [in UniMath.CategoryTheory.limits.bincoproducts]
HD:268 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HD:3 [in UniMath.CategoryTheory.CategoryEquality]
HD:300 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
HD:317 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
HD:319 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
HD:322 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
HD:350 [in UniMath.CategoryTheory.PrecategoryBinProduct]
HD:360 [in UniMath.CategoryTheory.Core.Functors]
HD:4 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
HD:4 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD:49 [in UniMath.CategoryTheory.DisplayedCats.Projection]
HD:5 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
HD:5 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD:50 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
HD:57 [in UniMath.CategoryTheory.DisplayedCats.Projection]
HD:60 [in UniMath.CategoryTheory.DisplayedCats.Projection]
HD:61 [in UniMath.CategoryTheory.CategoryEquality]
HD:65 [in UniMath.CategoryTheory.DisplayedCats.Projection]
HD:68 [in UniMath.CategoryTheory.DisplayedCats.Projection]
HD:68 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
HD:71 [in UniMath.CategoryTheory.DisplayedCats.Projection]
HD:78 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD:79 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD:83 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD:84 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
HD:84 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
HD:85 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
HD:94 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
HD₁_2_1:349 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HD₁_2:326 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_0:324 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_0:319 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_1:200 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_1:191 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_1:188 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_1:113 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_0:110 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁_2_1:15 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HD₁:13 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HD₁:205 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁:208 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁:211 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₁:348 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HD₁:38 [in UniMath.CategoryTheory.DisplayedCats.Projection]
HD₁:455 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HD₁:52 [in UniMath.CategoryTheory.DisplayedCats.Projection]
HD₂_2_1:353 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HD₂_2:327 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_0:325 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_0:320 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_1:201 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_1:192 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_1:189 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_1:114 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_0:111 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂_2_1:20 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HD₂:18 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
HD₂:206 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂:209 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂:212 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
HD₂:352 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HD₂:39 [in UniMath.CategoryTheory.DisplayedCats.Projection]
HD₂:440 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HD₂:53 [in UniMath.CategoryTheory.DisplayedCats.Projection]
Hempty_y:171 [in UniMath.Topology.Filters]
Hempty_x:166 [in UniMath.Topology.Filters]
Hempty:118 [in UniMath.Topology.Filters]
Hempty:139 [in UniMath.Topology.Filters]
Hempty:238 [in UniMath.Topology.Filters]
Hempty:35 [in UniMath.Topology.Filters]
Hempty:360 [in UniMath.Topology.Filters]
Hempty:67 [in UniMath.Topology.Filters]
heq_d:102 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
heq_d:93 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
Heq:104 [in UniMath.Bicategories.Colimits.Pullback]
Herror:28 [in UniMath.RealNumbers.NonnegativeReals]
Hexists:116 [in UniMath.MoreFoundations.Propositions]
HE:105 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
hE:18 [in UniMath.SubstitutionSystems.LamSignature]
hE:282 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hE:31 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
hE:9 [in UniMath.SubstitutionSystems.LamSignature]
Hfalse:361 [in UniMath.Topology.Filters]
Hff:1004 [in UniMath.CategoryTheory.DisplayedCats.Core]
Hff:112 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hff:117 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hff:128 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
HFF:164 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
Hff:219 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hff:22 [in UniMath.CategoryTheory.precomp_fully_faithful]
Hff:248 [in UniMath.Topology.Filters]
Hff:256 [in UniMath.Topology.Filters]
Hff:288 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Hff:295 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Hff:327 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Hff:353 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hff:366 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hff:379 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hff:400 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hff:422 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HFF:424 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hff:507 [in UniMath.CategoryTheory.DisplayedCats.Core]
Hff:61 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
Hff:75 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
Hff:978 [in UniMath.CategoryTheory.DisplayedCats.Core]
Hff:991 [in UniMath.CategoryTheory.DisplayedCats.Core]
Hfg1:93 [in UniMath.CategoryTheory.LatticeObject]
Hfg2:94 [in UniMath.CategoryTheory.LatticeObject]
hfg:300 [in UniMath.Foundations.PartC]
hfg:301 [in UniMath.Foundations.PartC]
Hfg:85 [in UniMath.CategoryTheory.LatticeObject]
Hfg:88 [in UniMath.CategoryTheory.LatticeObject]
hfib1:393 [in UniMath.CategoryTheory.categories.abgrs]
hfib2:394 [in UniMath.CategoryTheory.categories.abgrs]
hfib:404 [in UniMath.CategoryTheory.categories.abgrs]
hfib:416 [in UniMath.CategoryTheory.categories.abgrs]
hfib:427 [in UniMath.CategoryTheory.categories.abgrs]
hfib:430 [in UniMath.CategoryTheory.categories.abgrs]
hfib:432 [in UniMath.CategoryTheory.categories.abgrs]
hfib:443 [in UniMath.CategoryTheory.categories.abgrs]
hfib:445 [in UniMath.CategoryTheory.categories.abgrs]
hfib:447 [in UniMath.CategoryTheory.categories.abgrs]
hfib:455 [in UniMath.CategoryTheory.categories.abgrs]
hfib:464 [in UniMath.CategoryTheory.categories.abgrs]
Hf':31 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf':41 [in UniMath.Bicategories.Core.Examples.StrictCats]
HF':81 [in UniMath.CategoryTheory.Equivalences.Core]
hf1:893 [in UniMath.Algebra.BinaryOperations]
hf1:900 [in UniMath.Algebra.BinaryOperations]
hf2:894 [in UniMath.Algebra.BinaryOperations]
hf2:901 [in UniMath.Algebra.BinaryOperations]
hf:10 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Hf:100 [in UniMath.Bicategories.Core.EquivToAdjequiv]
Hf:108 [in UniMath.Bicategories.Core.FullyFaithful]
Hf:113 [in UniMath.Bicategories.Core.FullyFaithful]
Hf:113 [in UniMath.CategoryTheory.LatticeObject]
HF:120 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:124 [in UniMath.Bicategories.Core.FullyFaithful]
Hf:132 [in UniMath.Bicategories.Transformations.PseudoTransformation]
Hf:133 [in UniMath.Bicategories.Core.FullyFaithful]
HF:133 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:135 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:14 [in UniMath.Bicategories.Core.FullyFaithful]
HF:14 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:14 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
Hf:141 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HF:148 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:151 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:158 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:162 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:165 [in UniMath.CategoryTheory.Adjunctions.Core]
Hf:176 [in UniMath.Bicategories.Core.FullyFaithful]
Hf:19 [in UniMath.CategoryTheory.limits.cats.limits]
HF:199 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:20 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:205 [in UniMath.Bicategories.Core.FullyFaithful]
HF:205 [in UniMath.CategoryTheory.Adjunctions.Core]
Hf:209 [in UniMath.Bicategories.Core.FullyFaithful]
Hf:21 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
HF:214 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:217 [in UniMath.Bicategories.Core.FullyFaithful]
HF:218 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:22 [in UniMath.CategoryTheory.limits.graphs.limits]
HF:226 [in UniMath.Bicategories.Core.FullyFaithful]
HF:234 [in UniMath.Bicategories.Core.FullyFaithful]
HF:234 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:238 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:241 [in UniMath.Bicategories.Core.FullyFaithful]
HF:244 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:245 [in UniMath.Bicategories.Core.FullyFaithful]
HF:248 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hf:25 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Hf:25 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:25 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
HF:25 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
HF:255 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hf:2577 [in UniMath.Foundations.PartA]
hf:2584 [in UniMath.Foundations.PartA]
hf:2585 [in UniMath.Foundations.PartA]
HF:260 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hf:2649 [in UniMath.Foundations.PartA]
hf:2658 [in UniMath.Foundations.PartA]
hf:2672 [in UniMath.Foundations.PartA]
hf:27 [in UniMath.CategoryTheory.categories.HSET.Structures]
hf:2701 [in UniMath.Foundations.PartA]
hf:2715 [in UniMath.Foundations.PartA]
HF:272 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hf:2744 [in UniMath.Foundations.PartA]
hf:2753 [in UniMath.Foundations.PartA]
HF:276 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hf:2768 [in UniMath.Foundations.PartA]
Hf:28 [in UniMath.Bicategories.Core.Examples.OneTypes]
HF:292 [in UniMath.CategoryTheory.limits.graphs.limits]
HF:293 [in UniMath.CategoryTheory.Core.Functors]
HF:300 [in UniMath.CategoryTheory.Core.Functors]
HF:307 [in UniMath.CategoryTheory.Core.Functors]
hf:31 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HF:314 [in UniMath.CategoryTheory.Core.Functors]
Hf:32 [in UniMath.Bicategories.Core.Examples.OneTypes]
HF:320 [in UniMath.CategoryTheory.Core.Functors]
HF:327 [in UniMath.CategoryTheory.Core.Functors]
HF:33 [in UniMath.CategoryTheory.Equivalences.Core]
HF:343 [in UniMath.CategoryTheory.Core.Functors]
Hf:344 [in UniMath.CategoryTheory.limits.graphs.limits]
HF:347 [in UniMath.CategoryTheory.Core.Functors]
HF:347 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:353 [in UniMath.CategoryTheory.Core.Functors]
HF:353 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:362 [in UniMath.CategoryTheory.Core.Functors]
Hf:364 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HF:37 [in UniMath.CategoryTheory.Equivalences.Core]
HF:373 [in UniMath.CategoryTheory.Core.Functors]
HF:378 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:38 [in UniMath.SubstitutionSystems.BindingSigToMonad]
HF:386 [in UniMath.CategoryTheory.limits.graphs.colimits]
HF:4 [in UniMath.CategoryTheory.Chains.Adamek]
Hf:40 [in UniMath.Bicategories.Core.Examples.StrictCats]
Hf:42 [in UniMath.CategoryTheory.limits.graphs.colimits]
HF:43 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
hf:47 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Hf:48 [in UniMath.Bicategories.Core.FullyFaithful]
HF:49 [in UniMath.SubstitutionSystems.BindingSigToMonad]
HF:5 [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
Hf:50 [in UniMath.MoreFoundations.Sets]
HF:53 [in UniMath.CategoryTheory.Equivalences.Core]
HF:61 [in UniMath.CategoryTheory.Equivalences.Core]
HF:62 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:66 [in UniMath.CategoryTheory.Equivalences.Core]
Hf:67 [in UniMath.Bicategories.Core.FullyFaithful]
HF:69 [in UniMath.SubstitutionSystems.BindingSigToMonad]
hF:70 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hf:71 [in UniMath.Bicategories.Core.FullyFaithful]
Hf:74 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
hF:74 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HF:75 [in UniMath.CategoryTheory.Equivalences.Core]
HF:80 [in UniMath.CategoryTheory.Equivalences.Core]
HF:82 [in UniMath.Bicategories.Core.FullyFaithful]
HF:85 [in UniMath.CategoryTheory.Adjunctions.Core]
HF:86 [in UniMath.Bicategories.Core.FullyFaithful]
Hf₁:142 [in UniMath.Bicategories.Core.FullyFaithful]
Hf₁:185 [in UniMath.Bicategories.Core.FullyFaithful]
Hf₂:148 [in UniMath.Bicategories.Core.FullyFaithful]
HGC:72 [in UniMath.Bicategories.Core.YonedaLemma]
Hgg:354 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hgg:402 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HGG:425 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
HGG:478 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hg:101 [in UniMath.AlgebraicGeometry.Spec]
Hg:116 [in UniMath.CategoryTheory.LatticeObject]
HG:125 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:134 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:136 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hg:15 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
Hg:177 [in UniMath.Bicategories.Core.FullyFaithful]
Hg:22 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
HG:235 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:239 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:245 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:249 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:256 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
HG:261 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hg:27 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Hg:28 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Hg:29 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Hg:31 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
Hg:31 [in UniMath.AlgebraicGeometry.Spec]
HG:348 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hg:35 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
HG:354 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
hg:48 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Hg:49 [in UniMath.Bicategories.Core.FullyFaithful]
Hg:51 [in UniMath.MoreFoundations.Sets]
Hg:52 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
HG:63 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hg:75 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
HHf:28 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Hhh:403 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hhh:423 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hhh:548 [in UniMath.CategoryTheory.DisplayedCats.Core]
Hhk:438 [in UniMath.CategoryTheory.limits.pullbacks]
Hhk:445 [in UniMath.CategoryTheory.limits.pullbacks]
HH1:144 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
HH1:159 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
HH2:145 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
HH2:160 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
hh:1059 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1087 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:111 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
hh:1110 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1172 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1196 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1221 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:13 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
hh:131 [in UniMath.CategoryTheory.DisplayedCats.Core]
hh:1315 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1336 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1357 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1402 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:141 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
hh:146 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:151 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
hh:151 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
hh:1537 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:1547 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:156 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
hh:160 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:163 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
hh:171 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
hh:172 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:182 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
hh:186 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
hh:187 [in UniMath.CategoryTheory.DisplayedCats.Core]
hh:188 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
HH:19 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
hh:199 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
hh:203 [in UniMath.CategoryTheory.DisplayedCats.Core]
hh:204 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
hh:212 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
hh:214 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
HH:223 [in UniMath.HomologicalAlgebra.CohomologyComplex]
hh:228 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
HH:234 [in UniMath.HomologicalAlgebra.TranslationFunctors]
hh:246 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:251 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
hh:260 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:272 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:273 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
hh:277 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
HH:289 [in UniMath.HomologicalAlgebra.TranslationFunctors]
hh:339 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:343 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
hh:346 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
hh:357 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
hh:377 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
HH:38 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
hh:381 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:39 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
hh:393 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
hh:398 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
hh:400 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:413 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hh:414 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
hh:421 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
hh:442 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:46 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
hh:461 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:47 [in UniMath.CategoryTheory.DisplayedCats.Core]
hh:47 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
hh:480 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:49 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
hh:498 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:53 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hh:540 [in UniMath.CategoryTheory.DisplayedCats.Core]
hh:544 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:547 [in UniMath.CategoryTheory.DisplayedCats.Core]
hh:559 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:588 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:6 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
HH:624 [in UniMath.CategoryTheory.Core.Isos]
hh:629 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:636 [in UniMath.CategoryTheory.Core.Isos]
hh:648 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:66 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
HH:67 [in UniMath.CategoryTheory.Adjunctions.Core]
hh:69 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
HH:69 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
hh:692 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:7 [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
hh:711 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:753 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:772 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
HH:786 [in UniMath.CategoryTheory.LocalizingClass]
HH:789 [in UniMath.CategoryTheory.LocalizingClass]
hh:791 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:809 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:855 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:870 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:899 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:91 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
hh:935 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
hh:96 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
hh:96 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
HH:98 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
hh₁:49 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HH₁:56 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
hh₂:50 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
HH₂:57 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
Hij:17 [in UniMath.CategoryTheory.Chains.Chains]
Hij:22 [in UniMath.CategoryTheory.Chains.Chains]
Hij:28 [in UniMath.CategoryTheory.Chains.Chains]
Himpl:115 [in UniMath.Topology.Topology]
Himpl:19 [in UniMath.Topology.Filters]
Himp_y:168 [in UniMath.Topology.Filters]
Himp_x:163 [in UniMath.Topology.Filters]
Himp:115 [in UniMath.Topology.Filters]
Himp:136 [in UniMath.Topology.Filters]
Himp:232 [in UniMath.Topology.Filters]
Himp:32 [in UniMath.Topology.Filters]
Himp:64 [in UniMath.Topology.Filters]
Hind:158 [in UniMath.Algebra.Free_Monoids_and_Groups]
Hind:253 [in UniMath.Algebra.Free_Monoids_and_Groups]
Hind:80 [in UniMath.Algebra.Free_Monoids_and_Groups]
Hinnerpb:353 [in UniMath.CategoryTheory.limits.pullbacks]
Hinner:352 [in UniMath.CategoryTheory.limits.pullbacks]
Hirr:229 [in UniMath.Algebra.Archimedean]
Hirr:257 [in UniMath.Algebra.Archimedean]
HiSj:29 [in UniMath.CategoryTheory.Chains.Chains]
His:240 [in UniMath.Topology.Filters]
Hi:101 [in UniMath.CategoryTheory.LatticeObject]
HI:15 [in UniMath.CategoryTheory.Presheaf]
Hi:363 [in UniMath.CategoryTheory.limits.pullbacks]
HI:45 [in UniMath.CategoryTheory.categories.HSET.Colimits]
Hi:77 [in UniMath.CategoryTheory.LatticeObject]
Hjoin:106 [in UniMath.CategoryTheory.LatticeObject]
Hjoin:82 [in UniMath.CategoryTheory.LatticeObject]
hkp:43 [in UniMath.CategoryTheory.CommaCategories]
hkp:46 [in UniMath.CategoryTheory.CommaCategories]
hk:104 [in UniMath.CategoryTheory.limits.graphs.equalizers]
Hk:112 [in UniMath.CategoryTheory.limits.cats.limits]
Hk:117 [in UniMath.CategoryTheory.limits.graphs.limits]
hk:132 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
Hk:144 [in UniMath.CategoryTheory.limits.pushouts]
hk:145 [in UniMath.CategoryTheory.limits.pushouts]
hk:148 [in UniMath.CategoryTheory.limits.graphs.pushouts]
Hk:149 [in UniMath.CategoryTheory.limits.graphs.colimits]
hk:15 [in UniMath.CategoryTheory.limits.pushouts]
Hk:158 [in UniMath.CategoryTheory.limits.pullbacks]
hk:159 [in UniMath.CategoryTheory.limits.pullbacks]
hk:16 [in UniMath.CategoryTheory.limits.pullbacks]
hk:167 [in UniMath.CategoryTheory.limits.pushouts]
HK:17 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
hk:177 [in UniMath.CategoryTheory.limits.pushouts]
hk:178 [in UniMath.CategoryTheory.limits.pushouts]
hk:178 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
hk:204 [in UniMath.CategoryTheory.limits.pullbacks]
hk:214 [in UniMath.CategoryTheory.limits.pullbacks]
hk:215 [in UniMath.CategoryTheory.limits.pullbacks]
Hk:24 [in UniMath.CategoryTheory.AbelianPushoutPullback]
hk:30 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
hk:30 [in UniMath.CategoryTheory.limits.graphs.equalizers]
Hk:37 [in UniMath.CategoryTheory.limits.graphs.pushouts]
Hk:37 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
hk:38 [in UniMath.CategoryTheory.limits.graphs.pushouts]
hk:38 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Hk:416 [in UniMath.CategoryTheory.limits.graphs.limits]
hk:42 [in UniMath.CategoryTheory.limits.pushouts]
hk:43 [in UniMath.CategoryTheory.limits.pushouts]
hk:43 [in UniMath.CategoryTheory.limits.pullbacks]
hk:44 [in UniMath.CategoryTheory.limits.pullbacks]
Hk:48 [in UniMath.CategoryTheory.limits.coproducts]
Hk:58 [in UniMath.CategoryTheory.limits.products]
hk:61 [in UniMath.CategoryTheory.categories.HSET.Limits]
Hk:61 [in UniMath.CategoryTheory.AbelianPushoutPullback]
hk:62 [in UniMath.CategoryTheory.categories.HSET.Limits]
Hleft:354 [in UniMath.CategoryTheory.limits.pullbacks]
Hlt:60 [in UniMath.RealNumbers.NonnegativeReals]
Hlt:61 [in UniMath.RealNumbers.NonnegativeReals]
Hl:190 [in UniMath.Bicategories.Core.FullyFaithful]
Hl:266 [in UniMath.Topology.Filters]
Hl:278 [in UniMath.Topology.Filters]
Hl:289 [in UniMath.Topology.Filters]
Hl:61 [in UniMath.Bicategories.Core.FullyFaithful]
Hmeet:104 [in UniMath.CategoryTheory.LatticeObject]
Hmeet:80 [in UniMath.CategoryTheory.LatticeObject]
Hminus:28 [in UniMath.RealNumbers.NonnegativeRationals]
Hmm:80 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
Hmult:228 [in UniMath.Algebra.Archimedean]
Hmult:256 [in UniMath.Algebra.Archimedean]
Hm:117 [in UniMath.Bicategories.Modifications.Modification]
hm:123 [in UniMath.CategoryTheory.Monads.LModules]
Hm:127 [in UniMath.Bicategories.Modifications.Modification]
hm:127 [in UniMath.CategoryTheory.Monads.LModules]
hm:137 [in UniMath.CategoryTheory.Monads.LModules]
Hm:145 [in UniMath.Bicategories.Modifications.Modification]
Hm:160 [in UniMath.Algebra.Archimedean]
Hm:172 [in UniMath.Algebra.Archimedean]
Hm:195 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hm:204 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hm:216 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hm:227 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hm:236 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hm:245 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hm:56 [in UniMath.Bicategories.Modifications.Modification]
Hm:76 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
HM:82 [in UniMath.CategoryTheory.Monads.RelativeModules]
hnot:22 [in UniMath.CategoryTheory.precomp_ess_surj]
hnot:30 [in UniMath.CategoryTheory.precomp_ess_surj]
hnot:41 [in UniMath.CategoryTheory.precomp_ess_surj]
Hn1:107 [in UniMath.Algebra.Archimedean]
Hn2:109 [in UniMath.Algebra.Archimedean]
Hn:162 [in UniMath.Algebra.Archimedean]
Hn:174 [in UniMath.Algebra.Archimedean]
hn:19 [in UniMath.SyntheticHomotopyTheory.Halfline]
hn:22 [in UniMath.SyntheticHomotopyTheory.Halfline]
Hn:389 [in UniMath.RealNumbers.NonnegativeReals]
Hn:391 [in UniMath.RealNumbers.NonnegativeReals]
Hn:409 [in UniMath.RealNumbers.NonnegativeReals]
Hn:411 [in UniMath.RealNumbers.NonnegativeReals]
homot:109 [in UniMath.CategoryTheory.Core.Isos]
homsets:142 [in UniMath.CategoryTheory.Core.Categories]
hom_weq:345 [in UniMath.CategoryTheory.Adjunctions.Core]
hom_weq:269 [in UniMath.CategoryTheory.Adjunctions.Core]
Hopen:27 [in UniMath.RealNumbers.NonnegativeReals]
Hop1:155 [in UniMath.Algebra.Archimedean]
Hop1:167 [in UniMath.Algebra.Archimedean]
Hop1:214 [in UniMath.Algebra.Archimedean]
Hop2:215 [in UniMath.Algebra.Archimedean]
Hop:234 [in UniMath.Algebra.Lattice]
Houterpb:355 [in UniMath.CategoryTheory.limits.pullbacks]
Ho:49 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
Ho:58 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
Ho:67 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
Ho:76 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
Hpt:122 [in UniMath.Topology.Topology]
Hp:112 [in UniMath.Bicategories.Colimits.Pullback]
HP:125 [in UniMath.CategoryTheory.Inductives.Lists]
HP:156 [in UniMath.Algebra.Free_Monoids_and_Groups]
HP:22 [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
HP:250 [in UniMath.Algebra.Free_Monoids_and_Groups]
HP:27 [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
HP:37 [in UniMath.CategoryTheory.Inductives.Trees]
HP:49 [in UniMath.CategoryTheory.Inductives.Lists]
HP:5 [in UniMath.Algebra.Universal.Examples.Nat]
HP:57 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
HP:62 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
Hp:64 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
HP:65 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
HP:77 [in UniMath.Algebra.Free_Monoids_and_Groups]
Hq:100 [in UniMath.RealNumbers.DedekindCuts]
Hq:101 [in UniMath.RealNumbers.DedekindCuts]
Hq:102 [in UniMath.RealNumbers.DedekindCuts]
Hq:103 [in UniMath.RealNumbers.DedekindCuts]
Hq:104 [in UniMath.RealNumbers.DedekindCuts]
Hq:70 [in UniMath.RealNumbers.DedekindCuts]
Hq:87 [in UniMath.RealNumbers.DedekindCuts]
Hq:90 [in UniMath.RealNumbers.DedekindCuts]
Hq:95 [in UniMath.RealNumbers.DedekindCuts]
hQ:96 [in UniMath.MoreFoundations.Propositions]
Hrn:205 [in UniMath.RealNumbers.Reals]
Hrn:210 [in UniMath.RealNumbers.Reals]
Hr':102 [in UniMath.Algebra.Archimedean]
Hr1:153 [in UniMath.Algebra.Archimedean]
Hr1:165 [in UniMath.Algebra.Archimedean]
Hr:101 [in UniMath.Algebra.Archimedean]
Hr:116 [in UniMath.Algebra.Archimedean]
Hr:13 [in UniMath.RealNumbers.NonnegativeRationals]
Hr:154 [in UniMath.Algebra.Archimedean]
Hr:166 [in UniMath.Algebra.Archimedean]
Hr:203 [in UniMath.Algebra.Archimedean]
Hr:206 [in UniMath.RealNumbers.Reals]
Hr:211 [in UniMath.RealNumbers.Reals]
Hr:3 [in UniMath.RealNumbers.NonnegativeRationals]
HR:450 [in UniMath.CategoryTheory.LocalizingClass]
hsB:33 [in UniMath.Bicategories.WkCatEnrichment.Cat]
hsC'':25 [in UniMath.CategoryTheory.FunctorCategory]
hsC':101 [in UniMath.CategoryTheory.Core.Functors]
hsC':15 [in UniMath.CategoryTheory.Core.Functors]
hsC':24 [in UniMath.CategoryTheory.FunctorCategory]
hsC:103 [in UniMath.CategoryTheory.limits.bincoproducts]
hsC:106 [in UniMath.CategoryTheory.opp_precat]
hsC:11 [in UniMath.CategoryTheory.PrecategoryBinProduct]
hsC:115 [in UniMath.CategoryTheory.opp_precat]
hsC:118 [in UniMath.CategoryTheory.opp_precat]
hsC:121 [in UniMath.CategoryTheory.opp_precat]
hsC:124 [in UniMath.CategoryTheory.opp_precat]
hsC:126 [in UniMath.CategoryTheory.FunctorAlgebras]
hsC:133 [in UniMath.CategoryTheory.opp_precat]
hsC:136 [in UniMath.CategoryTheory.opp_precat]
hsC:138 [in UniMath.CategoryTheory.Monads.LModules]
hsC:14 [in UniMath.CategoryTheory.Elements]
hsC:140 [in UniMath.CategoryTheory.Monads.LModules]
hsC:146 [in UniMath.CategoryTheory.Monads.LModules]
hsC:156 [in UniMath.CategoryTheory.Monads.LModules]
hsC:16 [in UniMath.CategoryTheory.limits.graphs.binproducts]
hsC:18 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
hsC:19 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
hsC:2 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
hsC:2 [in UniMath.CategoryTheory.limits.pullbacks]
hsC:20 [in UniMath.CategoryTheory.FunctorCategory]
hsC:258 [in UniMath.CategoryTheory.limits.cats.limits]
hsC:263 [in UniMath.CategoryTheory.limits.cats.limits]
hsC:324 [in UniMath.CategoryTheory.limits.pullbacks]
hsC:34 [in UniMath.Bicategories.WkCatEnrichment.Cat]
hsC:44 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
hsC:64 [in UniMath.CategoryTheory.limits.products]
hsC:72 [in UniMath.CategoryTheory.limits.coproducts]
hsC:83 [in UniMath.CategoryTheory.opp_precat]
hsC:90 [in UniMath.CategoryTheory.FunctorAlgebras]
hsD':208 [in UniMath.CategoryTheory.FunctorCategory]
hsD':221 [in UniMath.CategoryTheory.FunctorCategory]
hsD:12 [in UniMath.CategoryTheory.PrecategoryBinProduct]
hsD:207 [in UniMath.CategoryTheory.FunctorCategory]
hsD:220 [in UniMath.CategoryTheory.FunctorCategory]
hsD:35 [in UniMath.Bicategories.WkCatEnrichment.Cat]
hsD:422 [in UniMath.CategoryTheory.limits.pullbacks]
hsD:44 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
hsD:46 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
hsD:588 [in UniMath.CategoryTheory.LocalizingClass]
hsD:606 [in UniMath.CategoryTheory.LocalizingClass]
hsD:619 [in UniMath.CategoryTheory.LocalizingClass]
hsD:638 [in UniMath.CategoryTheory.LocalizingClass]
hsD:648 [in UniMath.CategoryTheory.LocalizingClass]
hsD:662 [in UniMath.CategoryTheory.LocalizingClass]
hsD:684 [in UniMath.CategoryTheory.LocalizingClass]
hsD:720 [in UniMath.CategoryTheory.LocalizingClass]
hsD:732 [in UniMath.CategoryTheory.LocalizingClass]
hsD:740 [in UniMath.CategoryTheory.LocalizingClass]
hsD:748 [in UniMath.CategoryTheory.LocalizingClass]
hsD:757 [in UniMath.CategoryTheory.LocalizingClass]
hsD:779 [in UniMath.CategoryTheory.LocalizingClass]
hsE:112 [in UniMath.CategoryTheory.opp_precat]
hsE:36 [in UniMath.Bicategories.WkCatEnrichment.Cat]
hsfg:298 [in UniMath.Foundations.PartC]
hsfg:299 [in UniMath.Foundations.PartC]
hsF:40 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
hsF:48 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
HSij:23 [in UniMath.CategoryTheory.Chains.Chains]
Hsort:67 [in UniMath.SubstitutionSystems.MultiSorted_alt]
hssD:758 [in UniMath.CategoryTheory.LocalizingClass]
Hss:19 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
Hss:26 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
hss:771 [in UniMath.CategoryTheory.LocalizingClass]
HST:89 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
HST:98 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
Hsub:128 [in UniMath.MoreFoundations.Sets]
Hsub:130 [in UniMath.MoreFoundations.Sets]
hsX:221 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
hsX:228 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
hs:100 [in UniMath.CategoryTheory.Core.Functors]
hs:101 [in UniMath.CategoryTheory.FunctorCategory]
hs:107 [in UniMath.CategoryTheory.Core.Functors]
hs:109 [in UniMath.CategoryTheory.FunctorCategory]
hs:118 [in UniMath.CategoryTheory.FunctorCategory]
hs:12 [in UniMath.CategoryTheory.FunctorCategory]
hs:120 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:122 [in UniMath.CategoryTheory.Monads.RelativeModules]
hs:13 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
hs:130 [in UniMath.CategoryTheory.Core.NaturalTransformations]
hs:14 [in UniMath.CategoryTheory.Core.Functors]
hs:14 [in UniMath.CategoryTheory.Monads.LModules]
hs:145 [in UniMath.CategoryTheory.FunctorCategory]
hs:147 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:147 [in UniMath.CategoryTheory.Monads.RelativeModules]
hs:158 [in UniMath.MoreFoundations.PartA]
hs:16 [in UniMath.CategoryTheory.Core.NaturalTransformations]
hs:16 [in UniMath.CategoryTheory.FunctorCategory]
hs:166 [in UniMath.CategoryTheory.FunctorCategory]
hs:17 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
hs:174 [in UniMath.CategoryTheory.catiso]
hs:178 [in UniMath.CategoryTheory.Core.Categories]
hs:182 [in UniMath.CategoryTheory.Monads.RelativeModules]
hs:183 [in UniMath.CategoryTheory.Monads.RelativeModules]
hs:184 [in UniMath.CategoryTheory.Monads.RelativeModules]
hs:19 [in UniMath.CategoryTheory.Monads.KleisliCategory]
hs:193 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:212 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Hs:216 [in UniMath.Algebra.Archimedean]
hs:230 [in UniMath.CategoryTheory.FunctorCategory]
hs:236 [in UniMath.CategoryTheory.FunctorCategory]
hs:242 [in UniMath.CategoryTheory.FunctorCategory]
hs:245 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:248 [in UniMath.CategoryTheory.FunctorCategory]
hs:249 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:253 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:266 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
hs:268 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:27 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:27 [in UniMath.Folds.from_precats_to_folds_and_back]
hs:274 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:287 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:29 [in UniMath.Folds.from_precats_to_folds_and_back]
hs:295 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:30 [in UniMath.CategoryTheory.FunctorCategory]
hs:302 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:309 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:31 [in UniMath.CategoryTheory.limits.equalizers]
hs:31 [in UniMath.CategoryTheory.limits.coequalizers]
hs:31 [in UniMath.Folds.from_precats_to_folds_and_back]
hs:316 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:32 [in UniMath.CategoryTheory.Monads.LModules]
hs:324 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:33 [in UniMath.CategoryTheory.Core.NaturalTransformations]
hs:331 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:338 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:345 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:353 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:360 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:367 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:374 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:38 [in UniMath.CategoryTheory.FunctorCategory]
hs:387 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:4 [in UniMath.CategoryTheory.Monads.RelativeModules]
hs:41 [in UniMath.Folds.from_precats_to_folds_and_back]
hs:42 [in UniMath.CategoryTheory.Monads.Monads]
Hs:44 [in UniMath.SubstitutionSystems.BindingSigToMonad]
hs:46 [in UniMath.CategoryTheory.FunctorCategory]
hs:47 [in UniMath.CategoryTheory.Core.Functors]
hs:48 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:5 [in UniMath.CategoryTheory.limits.BinDirectSums]
hs:51 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:514 [in UniMath.CategoryTheory.limits.pullbacks]
hs:52 [in UniMath.CategoryTheory.Monads.RelativeModules]
hs:53 [in UniMath.CategoryTheory.FunctorCategory]
hs:539 [in UniMath.CategoryTheory.limits.pullbacks]
Hs:55 [in UniMath.SubstitutionSystems.BindingSigToMonad]
hs:56 [in UniMath.CategoryTheory.Core.Univalence]
Hs:56 [in UniMath.SubstitutionSystems.MultiSorted]
hs:568 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:57 [in UniMath.CategoryTheory.Core.NaturalTransformations]
hs:573 [in UniMath.CategoryTheory.Monads.RelativeMonads]
hs:58 [in UniMath.CategoryTheory.opp_precat]
hs:59 [in UniMath.CategoryTheory.Core.Isos]
hs:59 [in UniMath.Folds.folds_precat]
Hs:59 [in UniMath.SubstitutionSystems.BindingSigToMonad]
hs:60 [in UniMath.CategoryTheory.FunctorCategory]
Hs:62 [in UniMath.SubstitutionSystems.MultiSorted_alt]
Hs:63 [in UniMath.SubstitutionSystems.BindingSigToMonad]
hs:65 [in UniMath.Folds.from_precats_to_folds_and_back]
hs:66 [in UniMath.CategoryTheory.Monads.LModules]
hs:67 [in UniMath.CategoryTheory.FunctorCategory]
hs:71 [in UniMath.CategoryTheory.Core.Univalence]
hs:71 [in UniMath.Folds.from_precats_to_folds_and_back]
hs:74 [in UniMath.CategoryTheory.FunctorCategory]
Hs:75 [in UniMath.SubstitutionSystems.BindingSigToMonad]
hs:78 [in UniMath.CategoryTheory.Monads.LModules]
hs:80 [in UniMath.CategoryTheory.FunctorCategory]
HS:86 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
hs:87 [in UniMath.CategoryTheory.FunctorCategory]
hs:9 [in UniMath.CategoryTheory.FunctorCategory]
hs:93 [in UniMath.CategoryTheory.FunctorCategory]
hs:93 [in UniMath.CategoryTheory.Epis]
hs:94 [in UniMath.CategoryTheory.Monads.RelativeMonads]
HS:95 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
hs:95 [in UniMath.CategoryTheory.Core.Functors]
Hti:84 [in UniMath.SubstitutionSystems.SignatureCategory]
Hti:93 [in UniMath.SubstitutionSystems.SignatureCategory]
Htop:110 [in UniMath.CategoryTheory.LatticeObject]
Htra:205 [in UniMath.Algebra.Archimedean]
Htrue_y:169 [in UniMath.Topology.Filters]
Htrue_x:164 [in UniMath.Topology.Filters]
Htrue:116 [in UniMath.Topology.Filters]
Htrue:117 [in UniMath.Topology.Topology]
Htrue:137 [in UniMath.Topology.Filters]
Htrue:20 [in UniMath.Topology.Filters]
Htrue:234 [in UniMath.Topology.Filters]
Htrue:33 [in UniMath.Topology.Filters]
Htrue:65 [in UniMath.Topology.Filters]
Ht':22 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht':24 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht':26 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:16 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:45 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:49 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:51 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:55 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:57 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht1:64 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:17 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:46 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:50 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:52 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:56 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:58 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht2:65 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht3:18 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht3:59 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht:13 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht:21 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht:23 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht:25 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht:71 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht:80 [in UniMath.SubstitutionSystems.SignatureCategory]
Ht:85 [in UniMath.SubstitutionSystems.SignatureCategory]
HT:87 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
HT:96 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
Hunit:22 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Huniv:183 [in UniMath.CategoryTheory.Adjunctions.Core]
Huniv:200 [in UniMath.CategoryTheory.Adjunctions.Core]
HUp:81 [in UniMath.AlgebraicGeometry.Spec]
HUp:90 [in UniMath.AlgebraicGeometry.Spec]
HU:403 [in UniMath.RealNumbers.NonnegativeReals]
HU:407 [in UniMath.RealNumbers.NonnegativeReals]
hU:44 [in UniMath.CategoryTheory.EpiFacts]
HVp:82 [in UniMath.AlgebraicGeometry.Spec]
HVp:91 [in UniMath.AlgebraicGeometry.Spec]
hv:11 [in UniMath.Algebra.Universal.HVectors]
hv:19 [in UniMath.Algebra.Universal.HVectors]
hv:23 [in UniMath.Algebra.Universal.HVectors]
hv:26 [in UniMath.Algebra.Universal.HVectors]
hW:43 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Hx0:100 [in UniMath.Algebra.ConstructiveStructures]
Hx0:129 [in UniMath.Algebra.ConstructiveStructures]
Hx0:131 [in UniMath.Algebra.ConstructiveStructures]
Hx0:184 [in UniMath.RealNumbers.NonnegativeReals]
Hx0:189 [in UniMath.Algebra.ConstructiveStructures]
Hx0:200 [in UniMath.RealNumbers.NonnegativeReals]
Hx0:202 [in UniMath.RealNumbers.NonnegativeReals]
Hx0:21 [in UniMath.Algebra.ConstructiveStructures]
Hx0:220 [in UniMath.Algebra.ConstructiveStructures]
Hx0:222 [in UniMath.Algebra.ConstructiveStructures]
Hx0:331 [in UniMath.RealNumbers.Reals]
Hx0:333 [in UniMath.RealNumbers.Reals]
Hx0:465 [in UniMath.RealNumbers.NonnegativeReals]
Hx0:48 [in UniMath.Algebra.ConstructiveStructures]
Hx0:50 [in UniMath.Algebra.ConstructiveStructures]
Hx0:636 [in UniMath.RealNumbers.NonnegativeReals]
Hx0:638 [in UniMath.RealNumbers.NonnegativeReals]
Hx1:144 [in UniMath.RealNumbers.NonnegativeReals]
HX:10 [in UniMath.Bicategories.Colimits.Final]
Hx:107 [in UniMath.Algebra.DivisionRig]
Hx:109 [in UniMath.Algebra.DivisionRig]
Hx:121 [in UniMath.RealNumbers.NonnegativeReals]
Hx:131 [in UniMath.RealNumbers.NonnegativeReals]
Hx:132 [in UniMath.MoreFoundations.Sets]
Hx:148 [in UniMath.Topology.Filters]
HX:15 [in UniMath.Bicategories.Modifications.Examples.ApModification]
Hx:15 [in UniMath.RealNumbers.Sets]
HX:17 [in UniMath.Bicategories.Colimits.Final]
HX:17 [in UniMath.Bicategories.Colimits.Initial]
hx:18 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
hX:23 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HX:23 [in UniMath.Bicategories.Transformations.Examples.ApTransformation]
HX:24 [in UniMath.Bicategories.Colimits.Initial]
HX:26 [in UniMath.Bicategories.Colimits.Final]
Hx:26 [in UniMath.AlgebraicGeometry.Topology]
Hx:27 [in UniMath.AlgebraicGeometry.Topology]
hX:29 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HX:3 [in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
Hx:313 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
Hx:319 [in UniMath.Topology.Topology]
Hx:32 [in UniMath.RealNumbers.NonnegativeRationals]
HX:33 [in UniMath.Bicategories.Colimits.Initial]
Hx:341 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
Hx:38 [in UniMath.Algebra.DivisionRig]
HX:38 [in UniMath.Bicategories.Colimits.Final]
Hx:40 [in UniMath.Algebra.DivisionRig]
HX:41 [in UniMath.Bicategories.Colimits.Final]
Hx:418 [in UniMath.Topology.Topology]
Hx:44 [in UniMath.Algebra.DivisionRig]
hX:44 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
HX:44 [in UniMath.Bicategories.Colimits.Final]
HX:45 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
HX:45 [in UniMath.Bicategories.Colimits.Initial]
hX:457 [in UniMath.Combinatorics.WellOrderedSets]
Hx:46 [in UniMath.Algebra.DivisionRig]
hX:461 [in UniMath.Combinatorics.WellOrderedSets]
HX:47 [in UniMath.Bicategories.Colimits.Final]
HX:48 [in UniMath.Bicategories.Colimits.Initial]
HX:49 [in UniMath.Bicategories.Colimits.Final]
HX:51 [in UniMath.Bicategories.Colimits.Initial]
HX:52 [in UniMath.Bicategories.Colimits.Final]
HX:53 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
HX:54 [in UniMath.Bicategories.Colimits.Initial]
HX:55 [in UniMath.Bicategories.Colimits.Final]
HX:56 [in UniMath.Bicategories.Colimits.Initial]
HX:58 [in UniMath.Bicategories.Colimits.Final]
HX:59 [in UniMath.Bicategories.Colimits.Initial]
hx:60 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
HX:61 [in UniMath.Bicategories.Colimits.Final]
HX:62 [in UniMath.Bicategories.Colimits.Initial]
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H:111 [in UniMath.CategoryTheory.Adjunctions.Core]
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H:111 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
h:111 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:111 [in UniMath.CategoryTheory.Morphisms]
H:112 [in UniMath.CategoryTheory.Core.Functors]
h:112 [in UniMath.Bicategories.Core.Invertible_2cells]
H:112 [in UniMath.CategoryTheory.ShortExactSequences]
h:112 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
h:1124 [in UniMath.Foundations.PartA]
H:113 [in UniMath.Bicategories.Colimits.Pullback]
h:113 [in UniMath.Induction.ImpredicativeInductiveSets]
H:113 [in UniMath.CategoryTheory.FunctorCategory]
h:113 [in UniMath.CategoryTheory.limits.equalizers]
h:113 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
h:113 [in UniMath.CategoryTheory.limits.coequalizers]
h:113 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h:1131 [in UniMath.Foundations.PartA]
H:114 [in UniMath.Combinatorics.ZFstructures]
H:114 [in UniMath.CategoryTheory.limits.equalizers]
H:114 [in UniMath.CategoryTheory.limits.coequalizers]
H:115 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
h:115 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
H:115 [in UniMath.CategoryTheory.whiskering]
H:115 [in UniMath.CategoryTheory.Adjunctions.Core]
h:115 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
h:1153 [in UniMath.Foundations.PartA]
h:1157 [in UniMath.Foundations.PartA]
H:116 [in UniMath.Combinatorics.ZFstructures]
h:116 [in UniMath.Induction.ImpredicativeInductiveSets]
h:116 [in UniMath.CategoryTheory.ShortExactSequences]
H:116 [in UniMath.CategoryTheory.Core.Univalence]
h:116 [in UniMath.Foundations.PartA]
h:116 [in UniMath.CategoryTheory.Core.Categories]
h:1161 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:1162 [in UniMath.Foundations.PartA]
h:1168 [in UniMath.Foundations.PartA]
H:117 [in UniMath.CategoryTheory.AdditiveFunctors]
h:117 [in UniMath.SyntheticHomotopyTheory.Circle]
h:117 [in UniMath.CategoryTheory.categories.abgrs]
h:117 [in UniMath.CategoryTheory.limits.graphs.pushouts]
H:117 [in UniMath.CategoryTheory.ShortExactSequences]
H:117 [in UniMath.HomologicalAlgebra.TranslationFunctors]
h:1173 [in UniMath.Foundations.PartA]
H:118 [in UniMath.Bicategories.Colimits.Pullback]
H:118 [in UniMath.CategoryTheory.Core.TransportMorphisms]
H:118 [in UniMath.CategoryTheory.Monads.KTriples]
h:1180 [in UniMath.Foundations.PartA]
h:1186 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:1187 [in UniMath.Foundations.PartA]
H:119 [in UniMath.CategoryTheory.whiskering]
H:119 [in UniMath.CategoryTheory.limits.graphs.pushouts]
h:119 [in UniMath.CategoryTheory.limits.pushouts]
h:119 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
H:119 [in UniMath.CategoryTheory.Adjunctions.Core]
H:119 [in UniMath.CategoryTheory.Core.Univalence]
h:119 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
H:12 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
H:12 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
h:12 [in UniMath.CategoryTheory.limits.pushouts]
H:12 [in UniMath.CategoryTheory.limits.graphs.equalizers]
H:12 [in UniMath.CategoryTheory.limits.zero]
h:12 [in UniMath.CategoryTheory.Subobjects]
h:12 [in UniMath.CategoryTheory.Adjunctions.Restriction]
H:12 [in UniMath.CategoryTheory.limits.Opp]
h:12 [in UniMath.Algebra.Free_Monoids_and_Groups]
h:12 [in UniMath.CategoryTheory.Core.TwoCategories]
h:120 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
h:120 [in UniMath.Induction.ImpredicativeInductiveSets]
H:120 [in UniMath.CategoryTheory.ShortExactSequences]
h:120 [in UniMath.CategoryTheory.precomp_ess_surj]
H:121 [in UniMath.CategoryTheory.AdditiveFunctors]
H:121 [in UniMath.CategoryTheory.limits.pushouts]
H:121 [in UniMath.CategoryTheory.limits.kernels]
H:121 [in UniMath.CategoryTheory.limits.equalizers]
H:121 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
H:121 [in UniMath.CategoryTheory.limits.coequalizers]
h:1211 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
H:122 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
h:122 [in UniMath.Bicategories.Core.Invertible_2cells]
H:122 [in UniMath.CategoryTheory.ShortExactSequences]
h:122 [in UniMath.CategoryTheory.Core.TwoCategories]
h:122 [in UniMath.CategoryTheory.limits.binproducts]
H:123 [in UniMath.Bicategories.Colimits.Pullback]
h:123 [in UniMath.Induction.ImpredicativeInductiveSets]
h:123 [in UniMath.CategoryTheory.limits.bincoproducts]
H:123 [in UniMath.CategoryTheory.Adjunctions.Core]
h:123 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
h:123 [in UniMath.CategoryTheory.limits.pullbacks]
h:123 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
h:124 [in UniMath.CategoryTheory.DisplayedCats.Core]
h:124 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
H:124 [in UniMath.CategoryTheory.Core.Univalence]
h:124 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
H:124 [in UniMath.Algebra.Free_Monoids_and_Groups]
h:124 [in UniMath.CategoryTheory.Core.Categories]
H:125 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
H:125 [in UniMath.CategoryTheory.limits.pullbacks]
h:125 [in UniMath.CategoryTheory.precomp_ess_surj]
H:1259 [in UniMath.Algebra.BinaryOperations]
H:126 [in UniMath.CategoryTheory.whiskering]
H:126 [in UniMath.CategoryTheory.FunctorCategory]
H:126 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:126 [in UniMath.CategoryTheory.Core.Categories]
H:1265 [in UniMath.Algebra.BinaryOperations]
H:127 [in UniMath.CategoryTheory.AdditiveFunctors]
H:127 [in UniMath.CategoryTheory.Adjunctions.Core]
H:127 [in UniMath.Topology.Topology]
H:1271 [in UniMath.Algebra.BinaryOperations]
H:128 [in UniMath.Bicategories.Colimits.Pullback]
h:128 [in UniMath.SyntheticHomotopyTheory.Circle]
h:128 [in UniMath.CategoryTheory.limits.graphs.pushouts]
H:128 [in UniMath.CategoryTheory.PseudoElements]
H:128 [in UniMath.CategoryTheory.slicecat]
H:128 [in UniMath.CategoryTheory.limits.Opp]
h:128 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:128 [in UniMath.CategoryTheory.Core.Categories]
H:129 [in UniMath.CategoryTheory.ShortExactSequences]
H:129 [in UniMath.CategoryTheory.Monads.KTriples]
h:13 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
h:13 [in UniMath.Bicategories.WkCatEnrichment.Cat]
h:13 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
h:13 [in UniMath.CategoryTheory.Monics]
h:13 [in UniMath.MoreFoundations.Univalence]
H:13 [in UniMath.CategoryTheory.categories.Graph]
h:13 [in UniMath.CategoryTheory.limits.pullbacks]
h:13 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
h:13 [in UniMath.SubstitutionSystems.LiftingInitial]
h:130 [in UniMath.Induction.ImpredicativeInductiveSets]
H:130 [in UniMath.CategoryTheory.limits.pushouts]
H:130 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
H:130 [in UniMath.CategoryTheory.slicecat]
h:130 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
h:130 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
h:130 [in UniMath.CategoryTheory.precomp_ess_surj]
h:1306 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:131 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
H:131 [in UniMath.HomologicalAlgebra.KA]
H:131 [in UniMath.CategoryTheory.Adjunctions.Core]
h:131 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
h:131 [in UniMath.CategoryTheory.Core.TwoCategories]
h:132 [in UniMath.Bicategories.Core.Invertible_2cells]
H:132 [in UniMath.HomologicalAlgebra.Triangulated]
H:132 [in UniMath.CategoryTheory.Core.Univalence]
h:1327 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
H:133 [in UniMath.Bicategories.Colimits.Pullback]
h:133 [in UniMath.CategoryTheory.limits.pullbacks]
H:133 [in UniMath.Algebra.Free_Monoids_and_Groups]
h:1334 [in UniMath.Foundations.PartA]
H:134 [in UniMath.CategoryTheory.AdditiveFunctors]
H:134 [in UniMath.Topology.Topology]
h:134 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
H:134 [in UniMath.CategoryTheory.Core.TransportMorphisms]
h:1348 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
H:135 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
H:135 [in UniMath.CategoryTheory.limits.cokernels]
h:135 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
H:135 [in UniMath.CategoryTheory.limits.pullbacks]
h:135 [in UniMath.CategoryTheory.precomp_ess_surj]
H:135 [in UniMath.CategoryTheory.Morphisms]
h:136 [in UniMath.CategoryTheory.PseudoElements]
H:136 [in UniMath.CategoryTheory.Adjunctions.Core]
H:136 [in UniMath.CategoryTheory.ShortExactSequences]
h:136 [in UniMath.CategoryTheory.Core.Categories]
H:137 [in UniMath.Topology.Topology]
h:137 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
H:138 [in UniMath.CategoryTheory.LocalizingClass]
h:138 [in UniMath.SyntheticHomotopyTheory.Circle]
H:138 [in UniMath.CategoryTheory.whiskering]
H:138 [in UniMath.Algebra.BinaryOperations]
H:138 [in UniMath.CategoryTheory.PseudoElements]
H:138 [in UniMath.CategoryTheory.limits.Opp]
h:139 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
H:139 [in UniMath.HomologicalAlgebra.Triangulated]
h:1394 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:1396 [in UniMath.Foundations.PartA]
H:14 [in UniMath.CategoryTheory.limits.pushouts]
h:14 [in UniMath.Bicategories.Core.Strictness]
h:14 [in UniMath.CategoryTheory.coslicecat]
h:14 [in UniMath.CategoryTheory.slicecat]
h:14 [in UniMath.SubstitutionSystems.SubstitutionSystems]
H:14 [in UniMath.CategoryTheory.ShortExactSequences]
H:14 [in UniMath.CategoryTheory.Monics]
H:14 [in UniMath.Combinatorics.Equivalence_Relations]
h:14 [in UniMath.CategoryTheory.Epis]
H:14 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
H:140 [in UniMath.CategoryTheory.limits.pushouts]
H:140 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:140 [in UniMath.CategoryTheory.Core.TwoCategories]
h:140 [in UniMath.CategoryTheory.precomp_ess_surj]
h:1402 [in UniMath.Foundations.PartA]
h:141 [in UniMath.CategoryTheory.AbelianToAdditive]
H:141 [in UniMath.Bicategories.Colimits.Products]
H:141 [in UniMath.CategoryTheory.Core.TransportMorphisms]
h:142 [in UniMath.MoreFoundations.Sets]
H:142 [in UniMath.CategoryTheory.Core.Functors]
h:142 [in UniMath.CategoryTheory.limits.pushouts]
h:142 [in UniMath.CategoryTheory.AbelianToAdditive]
h:142 [in UniMath.Bicategories.Core.Invertible_2cells]
H:142 [in UniMath.CategoryTheory.Adjunctions.Core]
h:142 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:143 [in UniMath.CategoryTheory.AdditiveFunctors]
h:143 [in UniMath.MoreFoundations.Sets]
H:143 [in UniMath.CategoryTheory.whiskering]
H:143 [in UniMath.Algebra.Archimedean]
h:143 [in UniMath.CategoryTheory.AbelianToAdditive]
H:143 [in UniMath.Algebra.Free_Monoids_and_Groups]
h:143 [in UniMath.SyntheticHomotopyTheory.Circle2]
h:144 [in UniMath.CategoryTheory.Abelian]
h:144 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
h:144 [in UniMath.CategoryTheory.AbelianToAdditive]
H:144 [in UniMath.CategoryTheory.limits.pullbacks]
h:144 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
h:145 [in UniMath.CategoryTheory.Abelian]
h:145 [in UniMath.CategoryTheory.precomp_ess_surj]
H:146 [in UniMath.CategoryTheory.LocalizingClass]
h:146 [in UniMath.Algebra.Free_Monoids_and_Groups]
H:147 [in UniMath.Bicategories.Colimits.Pullback]
h:147 [in UniMath.SyntheticHomotopyTheory.Circle]
H:148 [in UniMath.Algebra.Archimedean]
h:148 [in UniMath.Bicategories.Core.Strictness]
H:148 [in UniMath.CategoryTheory.FunctorCategory]
H:1488 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:149 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
h:15 [in UniMath.SubstitutionSystems.GenMendlerIteration]
H:15 [in UniMath.CategoryTheory.LocalizingClass]
H:15 [in UniMath.CategoryTheory.limits.graphs.pushouts]
H:15 [in UniMath.HomologicalAlgebra.KA]
H:15 [in UniMath.CategoryTheory.Core.Univalence]
h:15 [in UniMath.CategoryTheory.Adjunctions.Restriction]
H:15 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
H:15 [in UniMath.CategoryTheory.limits.pullbacks]
H:15 [in UniMath.CategoryTheory.UnderCategories]
H:15 [in UniMath.CategoryTheory.Epis]
H:150 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
h:150 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
h:150 [in UniMath.CategoryTheory.limits.graphs.equalizers]
H:150 [in UniMath.CategoryTheory.PreAdditive]
h:150 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
H:150 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
H:151 [in UniMath.CategoryTheory.AdditiveFunctors]
h:151 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
h:151 [in UniMath.Bicategories.Core.Strictness]
H:151 [in UniMath.CategoryTheory.limits.graphs.equalizers]
h:151 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
h:151 [in UniMath.Foundations.PartA]
H:152 [in UniMath.CategoryTheory.whiskering]
h:153 [in UniMath.CategoryTheory.Abelian]
h:153 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:1532 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:154 [in UniMath.CategoryTheory.Abelian]
H:154 [in UniMath.CategoryTheory.limits.pushouts]
h:154 [in UniMath.Bicategories.Core.Strictness]
h:154 [in UniMath.HomologicalAlgebra.Triangulated]
H:154 [in UniMath.CategoryTheory.limits.pullbacks]
H:154 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:1542 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
H:155 [in UniMath.CategoryTheory.AdditiveFunctors]
H:155 [in UniMath.CategoryTheory.FunctorCategory]
h:156 [in UniMath.SyntheticHomotopyTheory.Circle]
H:156 [in UniMath.CategoryTheory.whiskering]
h:156 [in UniMath.CategoryTheory.limits.pullbacks]
h:156 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:157 [in UniMath.Bicategories.Core.Bicat]
H:157 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
H:157 [in UniMath.CategoryTheory.limits.graphs.pushouts]
h:157 [in UniMath.Bicategories.Core.Strictness]
h:157 [in UniMath.CategoryTheory.limits.graphs.equalizers]
H:157 [in UniMath.CategoryTheory.Core.Isos]
h:158 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
H:158 [in UniMath.CategoryTheory.limits.graphs.equalizers]
h:158 [in UniMath.CategoryTheory.precomp_ess_surj]
H:159 [in UniMath.CategoryTheory.PseudoElements]
h:159 [in UniMath.CategoryTheory.Core.Isos]
H:159 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
H:159 [in UniMath.CategoryTheory.limits.equalizers]
h:159 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
H:159 [in UniMath.CategoryTheory.limits.coequalizers]
h:16 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
h:16 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
h:16 [in UniMath.SubstitutionSystems.Lam]
H:16 [in UniMath.Combinatorics.Graph]
H:16 [in UniMath.Algebra.Universal.EqAlgebras]
h:16 [in UniMath.CategoryTheory.Adjunctions.Restriction]
h:16 [in UniMath.Induction.M.Limits]
h:16 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
h:160 [in UniMath.MoreFoundations.Sets]
h:160 [in UniMath.CategoryTheory.limits.graphs.pushouts]
h:160 [in UniMath.CategoryTheory.AbelianToAdditive]
H:160 [in UniMath.CategoryTheory.FunctorCategory]
H:160 [in UniMath.CategoryTheory.Additive]
h:160 [in UniMath.CategoryTheory.Core.TwoCategories]
H:161 [in UniMath.Bicategories.Colimits.Pullback]
H:161 [in UniMath.CategoryTheory.LocalizingClass]
h:161 [in UniMath.CategoryTheory.AbelianToAdditive]
H:161 [in UniMath.CategoryTheory.Additive]
h:1619 [in UniMath.Foundations.PartA]
H:162 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
h:162 [in UniMath.CategoryTheory.precomp_ess_surj]
h:1626 [in UniMath.Foundations.PartA]
h:163 [in UniMath.MoreFoundations.Equivalences]
h:164 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
H:165 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
h:165 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:165 [in UniMath.CategoryTheory.ShortExactSequences]
h:165 [in UniMath.CategoryTheory.Core.Categories]
h:166 [in UniMath.SyntheticHomotopyTheory.Circle]
h:166 [in UniMath.CategoryTheory.AbelianToAdditive]
h:166 [in UniMath.CategoryTheory.Core.Isos]
H:166 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
H:167 [in UniMath.CategoryTheory.Core.Functors]
h:167 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
H:167 [in UniMath.CategoryTheory.Additive]
h:167 [in UniMath.CategoryTheory.precomp_ess_surj]
h:168 [in UniMath.CategoryTheory.limits.pullbacks]
H:168 [in UniMath.CategoryTheory.Additive]
H:168 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:169 [in UniMath.CategoryTheory.AdditiveFunctors]
h:169 [in UniMath.CategoryTheory.Core.TwoCategories]
h:17 [in UniMath.CategoryTheory.GrothendieckTopos]
h:17 [in UniMath.SubstitutionSystems.SubstitutionSystems]
H:17 [in UniMath.CategoryTheory.Equivalences.Core]
H:17 [in UniMath.CategoryTheory.limits.Opp]
h:17 [in UniMath.Bicategories.Core.TransportLaws]
h:17 [in UniMath.Induction.W.Naturals]
H:170 [in UniMath.CategoryTheory.limits.coproducts]
h:170 [in UniMath.CategoryTheory.Core.Isos]
H:170 [in UniMath.CategoryTheory.limits.pullbacks]
h:170 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:171 [in UniMath.CategoryTheory.AbelianToAdditive]
H:171 [in UniMath.CategoryTheory.Core.Isos]
h:171 [in UniMath.Bicategories.Core.Invertible_2cells]
h:1715 [in UniMath.Foundations.PartA]
H:172 [in UniMath.CategoryTheory.LocalizingClass]
H:173 [in UniMath.CategoryTheory.FunctorCategory]
h:173 [in UniMath.CategoryTheory.Core.Categories]
h:174 [in UniMath.CategoryTheory.limits.bincoproducts]
h:174 [in UniMath.CategoryTheory.AbelianToAdditive]
H:174 [in UniMath.RealNumbers.Sets]
H:174 [in UniMath.HomologicalAlgebra.Triangulated]
h:175 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
h:175 [in UniMath.SyntheticHomotopyTheory.Circle]
h:175 [in UniMath.CategoryTheory.AbelianToAdditive]
h:176 [in UniMath.CategoryTheory.categories.abgrs]
h:176 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
h:177 [in UniMath.Bicategories.Core.Bicat]
H:177 [in UniMath.CategoryTheory.categories.abgrs]
H:177 [in UniMath.MoreFoundations.Sets]
h:177 [in UniMath.CategoryTheory.limits.bincoproducts]
h:177 [in UniMath.Bicategories.Core.Univalence]
h:178 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
H:178 [in UniMath.CategoryTheory.limits.Opp]
h:178 [in UniMath.CategoryTheory.Core.TwoCategories]
H:179 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
h:179 [in UniMath.CategoryTheory.Core.Isos]
H:179 [in UniMath.CategoryTheory.FunctorCategory]
h:179 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
h:18 [in UniMath.SubstitutionSystems.GenMendlerIteration]
H:18 [in UniMath.CategoryTheory.LocalizingClass]
h:18 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
h:18 [in UniMath.CategoryTheory.limits.graphs.equalizers]
H:18 [in UniMath.CategoryTheory.limits.kernels]
H:18 [in UniMath.CategoryTheory.limits.cokernels]
H:18 [in UniMath.CategoryTheory.SubobjectClassifier]
h:18 [in UniMath.SubstitutionSystems.Lam]
h:18 [in UniMath.Bicategories.BicatOfBicategory]
h:18 [in UniMath.CategoryTheory.Subobjects]
H:18 [in UniMath.HomologicalAlgebra.Triangulated]
H:18 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:18 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
h:18 [in UniMath.Bicategories.Transformations.Examples.ApTransformation]
h:18 [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
H:18 [in UniMath.CategoryTheory.limits.terminal]
h:180 [in UniMath.CategoryTheory.limits.bincoproducts]
h:180 [in UniMath.CategoryTheory.DisplayedCats.Core]
h:180 [in UniMath.CategoryTheory.limits.pullbacks]
h:181 [in UniMath.Foundations.PartB]
H:181 [in UniMath.CategoryTheory.ShortExactSequences]
H:182 [in UniMath.CategoryTheory.LocalizingClass]
H:182 [in UniMath.CategoryTheory.limits.pullbacks]
H:182 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:183 [in UniMath.MoreFoundations.Equivalences]
h:183 [in UniMath.CategoryTheory.ShortExactSequences]
H:183 [in UniMath.MoreFoundations.PartA]
h:184 [in UniMath.CategoryTheory.Abelian]
h:184 [in UniMath.SyntheticHomotopyTheory.Circle]
h:184 [in UniMath.CategoryTheory.limits.bincoproducts]
h:184 [in UniMath.CategoryTheory.ShortExactSequences]
H:184 [in UniMath.CategoryTheory.limits.products]
h:184 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:185 [in UniMath.CategoryTheory.Abelian]
h:185 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
h:185 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
H:185 [in UniMath.CategoryTheory.PseudoElements]
h:185 [in UniMath.CategoryTheory.Core.Isos]
H:185 [in UniMath.CategoryTheory.FunctorCategory]
h:185 [in UniMath.CategoryTheory.ShortExactSequences]
H:185 [in UniMath.CategoryTheory.limits.Opp]
h:186 [in UniMath.Bicategories.Core.Bicat]
H:186 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
h:186 [in UniMath.CategoryTheory.ShortExactSequences]
h:187 [in UniMath.CategoryTheory.categories.abgrs]
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H:19 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
H:19 [in UniMath.CategoryTheory.limits.equalizers]
h:19 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
H:19 [in UniMath.CategoryTheory.limits.coequalizers]
h:19 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h:19 [in UniMath.Paradoxes.GirardsParadox]
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H:207 [in UniMath.CategoryTheory.limits.graphs.limits]
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H:21 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
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h:21 [in UniMath.CategoryTheory.limits.equalizers]
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H:239 [in UniMath.CategoryTheory.limits.Opp]
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h:24 [in UniMath.CategoryTheory.categories.flds]
H:24 [in UniMath.CategoryTheory.limits.graphs.pushouts]
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H:24 [in UniMath.HomologicalAlgebra.KA]
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H:24 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
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H:24 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
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h:24 [in UniMath.CategoryTheory.categories.commrings]
h:24 [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
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H:243 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
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H:247 [in UniMath.CategoryTheory.limits.graphs.colimits]
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H:25 [in UniMath.CategoryTheory.Core.Univalence]
H:25 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
H:25 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
H:25 [in UniMath.CategoryTheory.limits.pullbacks]
H:25 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
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H:254 [in UniMath.CategoryTheory.PreAdditive]
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H:259 [in UniMath.CategoryTheory.categories.abgrs]
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H:26 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
H:26 [in UniMath.Algebra.BinaryOperations]
H:26 [in UniMath.CategoryTheory.limits.graphs.equalizers]
H:26 [in UniMath.CategoryTheory.SubobjectClassifier]
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H:269 [in UniMath.Foundations.NaturalNumbers]
H:269 [in UniMath.CategoryTheory.PrecategoryBinProduct]
h:269 [in UniMath.Algebra.Free_Monoids_and_Groups]
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H:27 [in UniMath.CategoryTheory.PseudoElements]
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H:27 [in UniMath.Combinatorics.Graph]
h:27 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
H:27 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
H:27 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
H:27 [in UniMath.HomologicalAlgebra.TranslationFunctors]
H:27 [in UniMath.Bicategories.Core.Examples.StrictCats]
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H:271 [in UniMath.HomologicalAlgebra.Triangulated]
H:271 [in UniMath.CategoryTheory.limits.graphs.colimits]
H:271 [in UniMath.CategoryTheory.limits.Opp]
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H:272 [in UniMath.CategoryTheory.limits.graphs.limits]
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h:274 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
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H:274 [in UniMath.CategoryTheory.PseudoElements]
h:274 [in UniMath.CategoryTheory.Adjunctions.Core]
h:275 [in UniMath.CategoryTheory.limits.BinDirectSums]
h:275 [in UniMath.CategoryTheory.Core.TwoCategories]
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h:276 [in UniMath.CategoryTheory.limits.BinDirectSums]
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H:278 [in UniMath.CategoryTheory.PreAdditive]
H:278 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
H:278 [in UniMath.CategoryTheory.PrecategoryBinProduct]
H:278 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:279 [in UniMath.Foundations.PartA]
h:28 [in UniMath.SubstitutionSystems.GenMendlerIteration]
H:28 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
H:28 [in UniMath.CategoryTheory.whiskering]
h:28 [in UniMath.CategoryTheory.limits.kernels]
h:28 [in UniMath.CategoryTheory.limits.cokernels]
h:28 [in UniMath.Bicategories.BicatOfBicategory]
h:28 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
h:280 [in UniMath.CategoryTheory.limits.BinDirectSums]
h:280 [in UniMath.HomologicalAlgebra.TranslationFunctors]
H:281 [in UniMath.CategoryTheory.Monads.RelativeMonads]
H:281 [in UniMath.CategoryTheory.LocalizingClass]
H:281 [in UniMath.Bicategories.Core.Bicat]
H:281 [in UniMath.CategoryTheory.limits.pushouts]
h:281 [in UniMath.CategoryTheory.limits.BinDirectSums]
H:282 [in UniMath.Foundations.UnivalenceAxiom]
H:282 [in UniMath.CategoryTheory.Core.Isos]
H:282 [in UniMath.CategoryTheory.PreAdditive]
H:282 [in UniMath.HomologicalAlgebra.TranslationFunctors]
H:283 [in UniMath.CategoryTheory.Abelian]
H:283 [in UniMath.CategoryTheory.LocalizingClass]
H:283 [in UniMath.CategoryTheory.PseudoElements]
H:283 [in UniMath.CategoryTheory.Core.NaturalTransformations]
H:284 [in UniMath.CategoryTheory.Adjunctions.Core]
H:284 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:285 [in UniMath.CategoryTheory.limits.BinDirectSums]
h:286 [in UniMath.CategoryTheory.categories.abgrs]
h:286 [in UniMath.CategoryTheory.limits.BinDirectSums]
H:286 [in UniMath.CategoryTheory.PrecategoryBinProduct]
h:286 [in UniMath.HomologicalAlgebra.TranslationFunctors]
h:286 [in UniMath.Foundations.PartA]
H:287 [in UniMath.CategoryTheory.categories.abgrs]
H:288 [in UniMath.CategoryTheory.AdditiveFunctors]
h:288 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:288 [in UniMath.HomologicalAlgebra.TranslationFunctors]
H:289 [in UniMath.Algebra.Monoids]
H:29 [in UniMath.CategoryTheory.limits.initial]
h:29 [in UniMath.CategoryTheory.AbelianToAdditive]
h:29 [in UniMath.Folds.folds_isomorphism]
H:29 [in UniMath.CategoryTheory.Core.Univalence]
H:29 [in UniMath.SubstitutionSystems.SignatureCategory]
h:29 [in UniMath.SubstitutionSystems.LiftingInitial]
H:290 [in UniMath.Foundations.NaturalNumbers]
h:290 [in UniMath.CategoryTheory.limits.BinDirectSums]
H:291 [in UniMath.CategoryTheory.LocalizingClass]
H:291 [in UniMath.Foundations.UnivalenceAxiom]
h:291 [in UniMath.CategoryTheory.limits.BinDirectSums]
H:291 [in UniMath.CategoryTheory.Adjunctions.Core]
h:291 [in UniMath.CategoryTheory.Core.TwoCategories]
H:292 [in UniMath.CategoryTheory.limits.pushouts]
H:292 [in UniMath.CategoryTheory.PseudoElements]
H:292 [in UniMath.CategoryTheory.Core.NaturalTransformations]
H:292 [in UniMath.CategoryTheory.limits.graphs.colimits]
H:293 [in UniMath.CategoryTheory.Abelian]
H:293 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:293 [in UniMath.HomologicalAlgebra.TranslationFunctors]
H:294 [in UniMath.CategoryTheory.LocalizingClass]
H:294 [in UniMath.CategoryTheory.Core.Isos]
h:294 [in UniMath.CategoryTheory.PreAdditive]
H:294 [in UniMath.CategoryTheory.PrecategoryBinProduct]
h:295 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
h:295 [in UniMath.CategoryTheory.categories.abgrs]
H:296 [in UniMath.CategoryTheory.LocalizingClass]
h:296 [in UniMath.CategoryTheory.Adjunctions.Core]
H:297 [in UniMath.Algebra.Free_Monoids_and_Groups]
H:298 [in UniMath.CategoryTheory.AdditiveFunctors]
H:298 [in UniMath.CategoryTheory.LocalizingClass]
h:299 [in UniMath.Algebra.Modules.Core]
H:299 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:299 [in UniMath.HomologicalAlgebra.TranslationFunctors]
h:299 [in UniMath.CategoryTheory.Core.TwoCategories]
h:3 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
H:3 [in UniMath.SubstitutionSystems.SubstitutionSystems]
H:30 [in UniMath.CategoryTheory.Core.NaturalTransformations]
h:30 [in UniMath.CategoryTheory.opp_precat]
H:30 [in UniMath.CategoryTheory.limits.equalizers]
h:30 [in UniMath.SubstitutionSystems.SubstitutionSystems]
H:30 [in UniMath.Combinatorics.Graph]
H:30 [in UniMath.SubstitutionSystems.BindingSigToMonad]
H:30 [in UniMath.HomologicalAlgebra.KA]
H:30 [in UniMath.CategoryTheory.ShortExactSequences]
H:30 [in UniMath.SubstitutionSystems.SignatureCategory]
H:30 [in UniMath.CategoryTheory.limits.coequalizers]
h:30 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
h:300 [in UniMath.Bicategories.Core.Bicat]
H:301 [in UniMath.CategoryTheory.Adjunctions.Core]
H:301 [in UniMath.CategoryTheory.limits.Opp]
h:302 [in UniMath.Foundations.PartA]
h:303 [in UniMath.Algebra.GroupAction]
H:303 [in UniMath.CategoryTheory.PrecategoryBinProduct]
h:304 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
h:304 [in UniMath.CategoryTheory.categories.abgrs]
h:304 [in UniMath.CategoryTheory.PreAdditive]
h:304 [in UniMath.Algebra.GroupAction]
h:305 [in UniMath.Algebra.GroupAction]
H:305 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:305 [in UniMath.HomologicalAlgebra.TranslationFunctors]
h:306 [in UniMath.Algebra.GroupAction]
H:306 [in UniMath.Algebra.Free_Monoids_and_Groups]
h:307 [in UniMath.Algebra.GroupAction]
h:307 [in UniMath.CategoryTheory.Core.TwoCategories]
h:308 [in UniMath.Algebra.Monoids]
h:308 [in UniMath.Algebra.GroupAction]
H:308 [in UniMath.HomologicalAlgebra.Triangulated]
h:309 [in UniMath.CategoryTheory.categories.abgrs]
h:309 [in UniMath.Algebra.Monoids]
H:309 [in UniMath.CategoryTheory.PreAdditive]
h:309 [in UniMath.Algebra.GroupAction]
h:309 [in UniMath.Foundations.PartA]
H:31 [in UniMath.Algebra.Monoids]
h:31 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
h:31 [in UniMath.Ktheory.GrothendieckGroup]
h:31 [in UniMath.Algebra.Universal.Algebras]
h:310 [in UniMath.Algebra.GroupAction]
H:311 [in UniMath.CategoryTheory.Adjunctions.Core]
H:311 [in UniMath.CategoryTheory.limits.Opp]
H:311 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:312 [in UniMath.HomologicalAlgebra.TranslationFunctors]
h:313 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
H:313 [in UniMath.CategoryTheory.PrecategoryBinProduct]
h:314 [in UniMath.CategoryTheory.categories.abgrs]
H:315 [in UniMath.HomologicalAlgebra.Triangulated]
h:316 [in UniMath.Foundations.PartA]
H:316 [in UniMath.Algebra.Free_Monoids_and_Groups]
H:318 [in UniMath.HomologicalAlgebra.Triangulated]
H:319 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:32 [in UniMath.CategoryTheory.AdditiveFunctors]
H:32 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
h:32 [in UniMath.SubstitutionSystems.ModulesFromSignatures]
H:32 [in UniMath.Algebra.BinaryOperations]
H:32 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
h:32 [in UniMath.CategoryTheory.limits.cokernels]
h:32 [in UniMath.SubstitutionSystems.SumOfSignatures]
h:32 [in UniMath.CategoryTheory.precomp_ess_surj]
H:32 [in UniMath.CategoryTheory.Monads.KTriples]
h:32 [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
h:320 [in UniMath.Bicategories.Core.Bicat]
h:320 [in UniMath.CategoryTheory.categories.abgrs]
h:320 [in UniMath.CategoryTheory.Adjunctions.Core]
H:320 [in UniMath.Topology.Topology]
h:321 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
H:321 [in UniMath.CategoryTheory.categories.abgrs]
h:322 [in UniMath.Algebra.GroupAction]
h:324 [in UniMath.Algebra.Monoids]
h:326 [in UniMath.Algebra.GroupAction]
h:327 [in UniMath.CategoryTheory.categories.abgrs]
H:328 [in UniMath.CategoryTheory.categories.abgrs]
h:329 [in UniMath.Bicategories.Core.Bicat]
h:33 [in UniMath.Bicategories.Core.Bicat]
h:33 [in UniMath.SubstitutionSystems.ModulesFromSignatures]
H:33 [in UniMath.CategoryTheory.limits.graphs.pushouts]
H:33 [in UniMath.CategoryTheory.limits.pushouts]
h:33 [in UniMath.SubstitutionSystems.SubstitutionSystems]
H:33 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
H:33 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
H:330 [in UniMath.CategoryTheory.limits.pushouts]
h:330 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:331 [in UniMath.CategoryTheory.limits.pullbacks]
h:334 [in UniMath.CategoryTheory.categories.abgrs]
H:334 [in UniMath.CategoryTheory.Adjunctions.Core]
H:335 [in UniMath.CategoryTheory.categories.abgrs]
H:335 [in UniMath.CategoryTheory.Adjunctions.Core]
H:336 [in UniMath.CategoryTheory.Adjunctions.Core]
h:337 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:339 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
h:34 [in UniMath.SubstitutionSystems.GenMendlerIteration]
h:34 [in UniMath.Bicategories.Core.YonedaLemma]
h:34 [in UniMath.CategoryTheory.AbelianToAdditive]
H:34 [in UniMath.CategoryTheory.FunctorCategory]
h:34 [in UniMath.SubstitutionSystems.SubstitutionSystems]
H:34 [in UniMath.CategoryTheory.Monics]
h:34 [in UniMath.Folds.folds_isomorphism]
h:34 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
H:34 [in UniMath.CategoryTheory.Core.Univalence]
H:34 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
H:34 [in UniMath.CategoryTheory.limits.pullbacks]
h:34 [in UniMath.CategoryTheory.precomp_ess_surj]
h:34 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
h:340 [in UniMath.Foundations.PartB]
H:341 [in UniMath.CategoryTheory.Core.Isos]
H:343 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
h:343 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
h:345 [in UniMath.CategoryTheory.categories.abgrs]
H:346 [in UniMath.CategoryTheory.categories.abgrs]
H:347 [in UniMath.CategoryTheory.limits.graphs.colimits]
h:349 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
h:349 [in UniMath.Bicategories.Core.Bicat]
h:35 [in UniMath.MoreFoundations.NullHomotopies]
h:35 [in UniMath.Bicategories.Core.BicategoryLaws]
h:35 [in UniMath.CategoryTheory.limits.graphs.pushouts]
h:35 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
h:35 [in UniMath.SubstitutionSystems.SubstitutionSystems]
h:35 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
h:35 [in UniMath.MoreFoundations.Propositions]
H:35 [in UniMath.CategoryTheory.Epis]
h:35 [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
H:350 [in UniMath.CategoryTheory.limits.kernels]
h:350 [in UniMath.CategoryTheory.Adjunctions.Core]
h:352 [in UniMath.CategoryTheory.categories.abgrs]
H:353 [in UniMath.CategoryTheory.categories.abgrs]
h:358 [in UniMath.Bicategories.Core.Bicat]
h:359 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
H:36 [in UniMath.CategoryTheory.Presheaf]
H:36 [in UniMath.CategoryTheory.Abelian]
H:36 [in UniMath.CategoryTheory.whiskering]
h:36 [in UniMath.CategoryTheory.limits.pushouts]
h:36 [in UniMath.Bicategories.Core.Invertible_2cells]
h:36 [in UniMath.Algebra.GroupAction]
h:36 [in UniMath.CategoryTheory.precomp_ess_surj]
h:360 [in UniMath.CategoryTheory.categories.abgrs]
H:360 [in UniMath.CategoryTheory.limits.kernels]
H:361 [in UniMath.CategoryTheory.categories.abgrs]
h:362 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
H:363 [in UniMath.CategoryTheory.limits.graphs.colimits]
h:365 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
H:366 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
h:367 [in UniMath.Bicategories.Core.Bicat]
H:367 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
H:368 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
h:368 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h:369 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
H:37 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
H:37 [in UniMath.CategoryTheory.AbelianToAdditive]
h:37 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
h:37 [in UniMath.Algebra.Universal.Algebras]
h:37 [in UniMath.CategoryTheory.limits.pullbacks]
h:37 [in UniMath.Folds.from_precats_to_folds_and_back]
h:37 [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
H:37 [in UniMath.CategoryTheory.Monads.KTriples]
h:370 [in UniMath.CategoryTheory.Adjunctions.Core]
h:370 [in UniMath.HomologicalAlgebra.Complexes]
H:371 [in UniMath.HomologicalAlgebra.Complexes]
h:372 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:375 [in UniMath.Bicategories.Core.Bicat]
h:378 [in UniMath.CategoryTheory.Adjunctions.Core]
h:378 [in UniMath.Topology.Topology]
h:38 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
h:38 [in UniMath.Bicategories.BicategoryOfBicat]
h:38 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
H:38 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
H:38 [in UniMath.CategoryTheory.limits.equalizers]
h:38 [in UniMath.Bicategories.WkCatEnrichment.Cat]
H:38 [in UniMath.Combinatorics.Graph]
H:38 [in UniMath.CategoryTheory.Monics]
h:38 [in UniMath.Folds.folds_isomorphism]
h:38 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
H:38 [in UniMath.CategoryTheory.limits.Opp]
H:38 [in UniMath.CategoryTheory.limits.coequalizers]
h:38 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h:38 [in UniMath.CategoryTheory.precomp_ess_surj]
H:380 [in UniMath.CategoryTheory.categories.abgrs]
H:380 [in UniMath.HomologicalAlgebra.Complexes]
H:381 [in UniMath.CategoryTheory.Monads.RelativeMonads]
h:383 [in UniMath.CategoryTheory.limits.pullbacks]
h:385 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
h:386 [in UniMath.CategoryTheory.categories.abgrs]
h:386 [in UniMath.CategoryTheory.PreAdditive]
H:387 [in UniMath.CategoryTheory.categories.abgrs]
h:387 [in UniMath.HomologicalAlgebra.Complexes]
H:388 [in UniMath.HomologicalAlgebra.Complexes]
H:39 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
h:39 [in UniMath.Folds.folds_precat]
h:39 [in UniMath.CategoryTheory.PreAdditive]
h:39 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
H:39 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:39 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
H:39 [in UniMath.CategoryTheory.Epis]
h:391 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:392 [in UniMath.CategoryTheory.PreAdditive]
h:392 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
H:394 [in UniMath.CategoryTheory.Monads.RelativeMonads]
h:395 [in UniMath.Algebra.GroupAction]
h:397 [in UniMath.Bicategories.Core.Bicat]
H:397 [in UniMath.HomologicalAlgebra.Complexes]
h:398 [in UniMath.CategoryTheory.limits.pullbacks]
H:4 [in UniMath.SubstitutionSystems.Signatures]
H:4 [in UniMath.CategoryTheory.limits.graphs.eqdiag]
h:4 [in UniMath.CategoryTheory.yoneda]
h:4 [in UniMath.Ktheory.GrothendieckGroup]
H:4 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
H:4 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
H:40 [in UniMath.Bicategories.Colimits.Pullback]
h:40 [in UniMath.Bicategories.Core.Bicat]
h:40 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
h:40 [in UniMath.CategoryTheory.DisplayedCats.Core]
h:40 [in UniMath.CategoryTheory.limits.graphs.equalizers]
h:40 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
h:40 [in UniMath.CategoryTheory.ShortExactSequences]
H:40 [in UniMath.AlgebraicGeometry.Spec]
H:40 [in UniMath.HomologicalAlgebra.TranslationFunctors]
h:40 [in UniMath.CategoryTheory.Core.TwoCategories]
h:400 [in UniMath.CategoryTheory.categories.abgrs]
H:401 [in UniMath.CategoryTheory.categories.abgrs]
h:401 [in UniMath.Foundations.PartB]
H:402 [in UniMath.HomologicalAlgebra.Complexes]
h:404 [in UniMath.Bicategories.Core.Bicat]
h:405 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
h:408 [in UniMath.CategoryTheory.limits.pullbacks]
H:41 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
H:41 [in UniMath.CategoryTheory.limits.graphs.equalizers]
H:41 [in UniMath.HomologicalAlgebra.KA]
H:41 [in UniMath.CategoryTheory.ShortExactSequences]
h:41 [in UniMath.CategoryTheory.UnderCategories]
H:410 [in UniMath.CategoryTheory.limits.pullbacks]
H:412 [in UniMath.CategoryTheory.LocalizingClass]
h:412 [in UniMath.CategoryTheory.categories.abgrs]
H:413 [in UniMath.CategoryTheory.categories.abgrs]
h:413 [in UniMath.CategoryTheory.PreAdditive]
h:413 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
h:415 [in UniMath.CategoryTheory.Core.Functors]
h:417 [in UniMath.Bicategories.Core.Bicat]
h:417 [in UniMath.CategoryTheory.limits.pullbacks]
H:419 [in UniMath.CategoryTheory.limits.pullbacks]
h:42 [in UniMath.Bicategories.Core.BicategoryLaws]
h:42 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
H:42 [in UniMath.CategoryTheory.FunctorCategory]
h:42 [in UniMath.CategoryTheory.limits.cokernels]
h:42 [in UniMath.Folds.folds_isomorphism]
h:42 [in UniMath.MoreFoundations.Propositions]
H:42 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
H:42 [in UniMath.CategoryTheory.categories.HSET.Structures]
H:421 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
H:424 [in UniMath.CategoryTheory.LocalizingClass]
h:424 [in UniMath.CategoryTheory.categories.abgrs]
H:425 [in UniMath.CategoryTheory.categories.abgrs]
H:425 [in UniMath.CategoryTheory.limits.pullbacks]
h:426 [in UniMath.CategoryTheory.PreAdditive]
H:427 [in UniMath.CategoryTheory.LocalizingClass]
H:428 [in UniMath.Foundations.NaturalNumbers]
H:429 [in UniMath.CategoryTheory.Monads.RelativeMonads]
h:43 [in UniMath.Bicategories.Core.Strictness]
H:43 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
H:43 [in UniMath.CategoryTheory.limits.kernels]
H:43 [in UniMath.SubstitutionSystems.BindingSigToMonad]
H:43 [in UniMath.Bicategories.Colimits.Products]
h:431 [in UniMath.HomologicalAlgebra.Complexes]
h:433 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:436 [in UniMath.CategoryTheory.limits.pullbacks]
H:437 [in UniMath.CategoryTheory.Monads.RelativeMonads]
H:437 [in UniMath.CategoryTheory.LocalizingClass]
h:438 [in UniMath.HomologicalAlgebra.Complexes]
h:44 [in UniMath.Foundations.PartB]
H:44 [in UniMath.CategoryTheory.whiskering]
H:44 [in UniMath.Bicategories.Colimits.Products]
H:44 [in UniMath.HomologicalAlgebra.Complexes]
h:44 [in UniMath.CategoryTheory.UnderCategories]
h:440 [in UniMath.CategoryTheory.categories.abgrs]
h:440 [in UniMath.CategoryTheory.PreAdditive]
H:441 [in UniMath.CategoryTheory.categories.abgrs]
h:443 [in UniMath.CategoryTheory.limits.pullbacks]
H:444 [in UniMath.CategoryTheory.Monads.RelativeMonads]
h:447 [in UniMath.Bicategories.Core.Bicat]
h:45 [in UniMath.Bicategories.Core.Bicat]
h:45 [in UniMath.CategoryTheory.yoneda]
h:45 [in UniMath.Folds.folds_pre_2_cat]
h:45 [in UniMath.Folds.folds_precat]
H:45 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
h:45 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
H:45 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
H:45 [in UniMath.Algebra.Free_Monoids_and_Groups]
H:45 [in UniMath.SubstitutionSystems.MultiSorted]
h:45 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h:45 [in UniMath.CategoryTheory.Core.Categories]
h:450 [in UniMath.CategoryTheory.PreAdditive]
H:452 [in UniMath.CategoryTheory.Monads.RelativeMonads]
h:452 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:453 [in UniMath.CategoryTheory.categories.abgrs]
h:454 [in UniMath.Bicategories.Core.Bicat]
H:454 [in UniMath.CategoryTheory.categories.abgrs]
H:46 [in UniMath.Combinatorics.ZFstructures]
h:46 [in UniMath.CategoryTheory.slicecat]
H:46 [in UniMath.Combinatorics.Graph]
H:46 [in UniMath.HomologicalAlgebra.KA]
h:46 [in UniMath.Folds.folds_isomorphism]
H:46 [in UniMath.CategoryTheory.limits.Opp]
h:460 [in UniMath.Bicategories.Core.Bicat]
h:461 [in UniMath.CategoryTheory.categories.abgrs]
H:462 [in UniMath.CategoryTheory.categories.abgrs]
h:462 [in UniMath.HomologicalAlgebra.Complexes]
H:464 [in UniMath.CategoryTheory.Monads.RelativeMonads]
H:466 [in UniMath.CategoryTheory.limits.pullbacks]
h:467 [in UniMath.Foundations.PartB]
H:468 [in UniMath.CategoryTheory.Core.Isos]
h:468 [in UniMath.Foundations.PartC]
H:469 [in UniMath.Foundations.PartB]
h:469 [in UniMath.HomologicalAlgebra.Complexes]
h:47 [in UniMath.MoreFoundations.Equivalences]
h:47 [in UniMath.CategoryTheory.AbelianToAdditive]
H:47 [in UniMath.CategoryTheory.FunctorAlgebras]
H:47 [in UniMath.CategoryTheory.limits.equalizers]
H:47 [in UniMath.CategoryTheory.ShortExactSequences]
h:47 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
H:47 [in UniMath.AlgebraicGeometry.Spec]
H:47 [in UniMath.CategoryTheory.limits.coequalizers]
H:47 [in UniMath.SubstitutionSystems.MultiSorted]
h:47 [in UniMath.Folds.from_precats_to_folds_and_back]
h:470 [in UniMath.CategoryTheory.categories.abgrs]
h:470 [in UniMath.CategoryTheory.Core.Functors]
H:470 [in UniMath.HomologicalAlgebra.Complexes]
H:471 [in UniMath.CategoryTheory.categories.abgrs]
h:471 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
H:474 [in UniMath.CategoryTheory.Monads.RelativeMonads]
H:474 [in UniMath.CategoryTheory.limits.pullbacks]
h:478 [in UniMath.CategoryTheory.categories.abgrs]
H:479 [in UniMath.CategoryTheory.categories.abgrs]
h:48 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
H:48 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
H:48 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
h:48 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
h:483 [in UniMath.CategoryTheory.Core.Isos]
H:483 [in UniMath.CategoryTheory.limits.pullbacks]
H:484 [in UniMath.CategoryTheory.Core.Isos]
h:485 [in UniMath.Bicategories.Core.Bicat]
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H:8 [in UniMath.CategoryTheory.limits.coequalizers]
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h:8 [in UniMath.Bicategories.Core.Unitors]
h:80 [in UniMath.SyntheticHomotopyTheory.Circle]
h:80 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
h:80 [in UniMath.CategoryTheory.limits.graphs.equalizers]
H:80 [in UniMath.CategoryTheory.Core.Isos]
H:80 [in UniMath.CategoryTheory.limits.kernels]
h:80 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
h:80 [in UniMath.CategoryTheory.slicecat]
h:80 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
h:800 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
H:808 [in UniMath.Algebra.BinaryOperations]
H:81 [in UniMath.Combinatorics.ZFstructures]
H:81 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
h:81 [in UniMath.Folds.folds_pre_2_cat]
H:81 [in UniMath.CategoryTheory.limits.graphs.equalizers]
h:81 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
h:81 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:82 [in UniMath.CategoryTheory.slicecat]
H:82 [in UniMath.Bicategories.Colimits.Initial]
H:824 [in UniMath.HomologicalAlgebra.MappingCone]
H:83 [in UniMath.Combinatorics.ZFstructures]
h:83 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
h:83 [in UniMath.CategoryTheory.categories.abgrs]
H:83 [in UniMath.MoreFoundations.Sets]
H:83 [in UniMath.CategoryTheory.whiskering]
h:83 [in UniMath.CategoryTheory.slicecat]
h:83 [in UniMath.Combinatorics.Lists]
H:83 [in UniMath.AlgebraicGeometry.Spec]
H:830 [in UniMath.HomologicalAlgebra.MappingCone]
H:837 [in UniMath.HomologicalAlgebra.MappingCone]
H:84 [in UniMath.CategoryTheory.PseudoElements]
H:84 [in UniMath.CategoryTheory.FunctorCategory]
h:84 [in UniMath.Bicategories.Core.Invertible_2cells]
h:84 [in UniMath.MoreFoundations.Propositions]
h:84 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
H:841 [in UniMath.HomologicalAlgebra.MappingCone]
h:843 [in UniMath.Bicategories.Core.Bicat]
H:846 [in UniMath.HomologicalAlgebra.MappingCone]
h:848 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
H:85 [in UniMath.Combinatorics.ZFstructures]
H:85 [in UniMath.CategoryTheory.categories.abgrs]
h:85 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
h:85 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
h:852 [in UniMath.Bicategories.Core.Bicat]
H:852 [in UniMath.HomologicalAlgebra.MappingCone]
H:858 [in UniMath.HomologicalAlgebra.MappingCone]
h:86 [in UniMath.Bicategories.Core.BicategoryLaws]
H:86 [in UniMath.CategoryTheory.limits.kernels]
h:86 [in UniMath.CategoryTheory.limits.cokernels]
h:86 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
h:861 [in UniMath.Bicategories.Core.Bicat]
h:863 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
H:864 [in UniMath.HomologicalAlgebra.MappingCone]
h:87 [in UniMath.Induction.ImpredicativeInductiveSets]
h:87 [in UniMath.CategoryTheory.Core.Isos]
H:87 [in UniMath.CategoryTheory.limits.cokernels]
H:87 [in UniMath.HomologicalAlgebra.KA]
h:87 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
H:870 [in UniMath.HomologicalAlgebra.MappingCone]
h:871 [in UniMath.Bicategories.Core.Bicat]
H:876 [in UniMath.HomologicalAlgebra.MappingCone]
h:88 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
H:88 [in UniMath.CategoryTheory.Core.Functors]
h:88 [in UniMath.CategoryTheory.limits.graphs.equalizers]
H:88 [in UniMath.CategoryTheory.Core.Isos]
h:880 [in UniMath.Bicategories.Core.Bicat]
H:882 [in UniMath.HomologicalAlgebra.MappingCone]
H:888 [in UniMath.HomologicalAlgebra.MappingCone]
h:889 [in UniMath.Bicategories.Core.Bicat]
H:89 [in UniMath.Combinatorics.ZFstructures]
h:89 [in UniMath.Bicategories.Core.Bicat]
h:89 [in UniMath.Induction.ImpredicativeInductiveSets]
H:89 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
H:89 [in UniMath.CategoryTheory.whiskering]
h:89 [in UniMath.Folds.folds_pre_2_cat]
H:89 [in UniMath.CategoryTheory.limits.graphs.equalizers]
H:89 [in UniMath.CategoryTheory.Core.NaturalTransformations]
h:89 [in UniMath.CategoryTheory.limits.kernels]
h:89 [in UniMath.CategoryTheory.PreAdditive]
h:89 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
h:890 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
H:894 [in UniMath.HomologicalAlgebra.MappingCone]
H:9 [in UniMath.SubstitutionSystems.ModulesFromSignatures]
h:9 [in UniMath.Ktheory.GrothendieckGroup]
H:9 [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
H:9 [in UniMath.CategoryTheory.limits.zero]
H:9 [in UniMath.CategoryTheory.SubobjectClassifier]
h:9 [in UniMath.HomologicalAlgebra.Triangulated]
H:9 [in UniMath.CategoryTheory.limits.graphs.zero]
H:9 [in UniMath.Combinatorics.WellFoundedRelations]
h:9 [in UniMath.Algebra.Universal.FreeAlgebras]
h:9 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
h:90 [in UniMath.CategoryTheory.categories.abgrs]
H:90 [in UniMath.CategoryTheory.limits.BinDirectSums]
H:90 [in UniMath.CategoryTheory.Monads.KTriples]
h:90 [in UniMath.CategoryTheory.Morphisms]
H:900 [in UniMath.HomologicalAlgebra.MappingCone]
H:91 [in UniMath.Combinatorics.ZFstructures]
h:91 [in UniMath.Bicategories.Core.Strictness]
h:91 [in UniMath.CategoryTheory.slicecat]
H:91 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
h:91 [in UniMath.CategoryTheory.Core.Categories]
H:911 [in UniMath.HomologicalAlgebra.MappingCone]
H:92 [in UniMath.CategoryTheory.categories.abgrs]
h:92 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
h:92 [in UniMath.CategoryTheory.limits.graphs.equalizers]
h:92 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
h:92 [in UniMath.Bicategories.Core.Invertible_2cells]
h:92 [in UniMath.MoreFoundations.Propositions]
H:92 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
H:921 [in UniMath.HomologicalAlgebra.MappingCone]
h:926 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
h:927 [in UniMath.Bicategories.Core.Bicat]
H:93 [in UniMath.Combinatorics.ZFstructures]
h:93 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
h:93 [in UniMath.CategoryTheory.limits.graphs.equalizers]
h:93 [in UniMath.CategoryTheory.limits.cokernels]
h:93 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
h:93 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
H:932 [in UniMath.HomologicalAlgebra.MappingCone]
h:934 [in UniMath.Bicategories.Core.Bicat]
H:94 [in UniMath.CategoryTheory.limits.cokernels]
h:94 [in UniMath.CategoryTheory.slicecat]
h:94 [in UniMath.CategoryTheory.PreAdditive]
h:94 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
H:94 [in UniMath.CategoryTheory.Adjunctions.Core]
H:94 [in UniMath.HomologicalAlgebra.Complexes]
H:94 [in UniMath.CategoryTheory.Core.TransportMorphisms]
h:94 [in UniMath.MoreFoundations.Propositions]
h:94 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
h:94 [in UniMath.Foundations.PartC]
H:94 [in UniMath.CategoryTheory.Monads.KTriples]
h:941 [in UniMath.Bicategories.Core.Bicat]
H:942 [in UniMath.HomologicalAlgebra.MappingCone]
h:948 [in UniMath.Bicategories.Core.Bicat]
h:95 [in UniMath.Bicategories.Core.BicategoryLaws]
h:95 [in UniMath.CategoryTheory.Core.Isos]
H:95 [in UniMath.CategoryTheory.limits.BinDirectSums]
H:95 [in UniMath.HomologicalAlgebra.Triangulated]
H:95 [in UniMath.CategoryTheory.Monics]
h:95 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
H:952 [in UniMath.HomologicalAlgebra.MappingCone]
H:96 [in UniMath.HomologicalAlgebra.TranslationFunctors]
h:96 [in UniMath.Algebra.Free_Monoids_and_Groups]
h:97 [in UniMath.Bicategories.Core.Bicat]
h:97 [in UniMath.CategoryTheory.categories.abgrs]
h:97 [in UniMath.Induction.ImpredicativeInductiveSets]
h:97 [in UniMath.CategoryTheory.limits.graphs.pushouts]
H:97 [in UniMath.CategoryTheory.Core.Univalence]
H:98 [in UniMath.CategoryTheory.PseudoElements]
H:98 [in UniMath.CategoryTheory.limits.Opp]
H:98 [in UniMath.CategoryTheory.Epis]
H:99 [in UniMath.Bicategories.Colimits.Pullback]
H:99 [in UniMath.CategoryTheory.categories.abgrs]
H:99 [in UniMath.CategoryTheory.limits.graphs.pushouts]
h:99 [in UniMath.CategoryTheory.limits.pushouts]
H:99 [in UniMath.CategoryTheory.Adjunctions.Core]
H:99 [in UniMath.HomologicalAlgebra.Complexes]
h:99 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
h:99 [in UniMath.CategoryTheory.Core.Categories]
Hα:127 [in UniMath.Bicategories.Colimits.Products]
Hα:137 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
Hα:156 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
Hα:179 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
Hα:185 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:196 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:207 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:207 [in UniMath.Bicategories.Colimits.Products]
Hα:218 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:229 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:358 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hα:493 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:509 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:525 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hα:59 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
Hαα:108 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
Hαα:12 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Hαα:13 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
Hαα:13 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
Hαα:166 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hαα:28 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
Hαα:291 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hαα:30 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
Hαα:304 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hαα:349 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hαα:364 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hαα:386 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hαα:411 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hαα:448 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Hαα:499 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hαα:515 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Hαα:53 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
Hαα:65 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
Hβ:128 [in UniMath.Bicategories.Colimits.Products]
Hβ:13 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
Hβ:1397 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
Hβ:162 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
Hβ:184 [in UniMath.Bicategories.Core.FullyFaithful]
Hβ:185 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
Hβ:208 [in UniMath.Bicategories.Colimits.Products]
Hβ:24 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
Hβ:56 [in UniMath.Bicategories.Core.FullyFaithful]
Hββ:1406 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
Hββ:350 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hββ:387 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hδ:227 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hε:106 [in UniMath.Bicategories.Core.Invertible_2cells]
Hε:116 [in UniMath.Bicategories.Core.Invertible_2cells]
Hε:126 [in UniMath.Bicategories.Core.Invertible_2cells]
Hε:136 [in UniMath.Bicategories.Core.Invertible_2cells]
Hε:146 [in UniMath.Bicategories.Core.Invertible_2cells]
Hε:96 [in UniMath.Bicategories.Core.Invertible_2cells]
Hη:12 [in UniMath.Bicategories.Core.EquivToAdjequiv]
Hη:165 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Hη:23 [in UniMath.Bicategories.Core.EquivToAdjequiv]
Hη:35 [in UniMath.Bicategories.Core.EquivToAdjequiv]
Hη:54 [in UniMath.Bicategories.Transformations.PseudoTransformation]
Hθ:36 [in UniMath.Bicategories.Core.EquivToAdjequiv]
Hσσ:229 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hσσ:56 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hσσ:67 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hσσ:79 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hσσ:91 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Hφ:146 [in UniMath.CategoryTheory.Monads.RelativeModules]
H₀:10 [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
H₀:37 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
H₀:50 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
h₁':885 [in UniMath.MoreFoundations.PartA]
H₁:102 [in UniMath.Bicategories.Colimits.Pullback]
h₁:12 [in UniMath.Bicategories.Core.BicategoryLaws]
h₁:16 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
h₁:167 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h₁:183 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
H₁:19 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
h₁:350 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
H₁:42 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
H₁:50 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
H₁:51 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
H₁:55 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
H₁:73 [in UniMath.Bicategories.Colimits.Pullback]
H₁:83 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
h₁:884 [in UniMath.MoreFoundations.PartA]
h₂':888 [in UniMath.MoreFoundations.PartA]
H₂:103 [in UniMath.Bicategories.Colimits.Pullback]
h₂:15 [in UniMath.Bicategories.Core.BicategoryLaws]
h₂:170 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
h₂:184 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
H₂:20 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
h₂:21 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
h₂:354 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
H₂:43 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
H₂:51 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
H₂:52 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
H₂:74 [in UniMath.Bicategories.Colimits.Pullback]
H₂:84 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
h₂:887 [in UniMath.MoreFoundations.PartA]
h₃:890 [in UniMath.MoreFoundations.PartA]

I

ia:10 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
ia:107 [in UniMath.CategoryTheory.limits.bincoproducts]
ia:14 [in UniMath.CategoryTheory.limits.bincoproducts]
ia:16 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
ia:163 [in UniMath.CategoryTheory.limits.Opp]
ia:22 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
ia:336 [in UniMath.CategoryTheory.limits.Opp]
ia:4 [in UniMath.CategoryTheory.categories.HSET.Colimits]
IA:49 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
ia:5 [in UniMath.CategoryTheory.limits.bincoproducts]
ia:5 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
IA:57 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
ia:6 [in UniMath.CategoryTheory.limits.coproducts]
IA:65 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
iBCC:165 [in UniMath.CategoryTheory.limits.Opp]
iBCC:338 [in UniMath.CategoryTheory.limits.Opp]
iBCC:344 [in UniMath.CategoryTheory.limits.Opp]
iBPC:159 [in UniMath.CategoryTheory.limits.Opp]
iBPC:332 [in UniMath.CategoryTheory.limits.Opp]
iBPC:341 [in UniMath.CategoryTheory.limits.Opp]
ib:108 [in UniMath.CategoryTheory.limits.bincoproducts]
ib:11 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
ib:15 [in UniMath.CategoryTheory.limits.bincoproducts]
ib:164 [in UniMath.CategoryTheory.limits.Opp]
ib:17 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
ib:23 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
ib:337 [in UniMath.CategoryTheory.limits.Opp]
ib:6 [in UniMath.CategoryTheory.limits.bincoproducts]
ib:6 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
IC':31 [in UniMath.CategoryTheory.Subcategory.Limits]
IC:160 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
IC:185 [in UniMath.CategoryTheory.slicecat]
IC:2 [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
IC:3 [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
IC:30 [in UniMath.CategoryTheory.Subcategory.Limits]
iC:40 [in UniMath.CategoryTheory.limits.equalizers]
iC:40 [in UniMath.CategoryTheory.limits.coequalizers]
IC:41 [in UniMath.SubstitutionSystems.BindingSigToMonad]
IC:45 [in UniMath.SubstitutionSystems.BindingSigToMonad]
IC:46 [in UniMath.CategoryTheory.limits.initial]
IC:52 [in UniMath.SubstitutionSystems.BindingSigToMonad]
IC:56 [in UniMath.SubstitutionSystems.BindingSigToMonad]
IC:60 [in UniMath.SubstitutionSystems.BindingSigToMonad]
IC:66 [in UniMath.SubstitutionSystems.BindingSigToMonad]
idax:35 [in UniMath.CategoryTheory.Enriched.Enriched]
idB:96 [in UniMath.CategoryTheory.catiso]
identity:144 [in UniMath.CategoryTheory.Core.Categories]
identity:272 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
identity:61 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
identity:75 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
ids:21 [in UniMath.CategoryTheory.Enriched.Enriched]
id_right_disp:33 [in UniMath.CategoryTheory.DisplayedCats.Core]
id_left_disp:25 [in UniMath.CategoryTheory.DisplayedCats.Core]
id_disp:8 [in UniMath.CategoryTheory.DisplayedCats.Core]
id1:7 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
id:14 [in UniMath.CategoryTheory.Core.Categories]
id₁:434 [in UniMath.Bicategories.Core.Bicat]
id₂:442 [in UniMath.Bicategories.Core.Bicat]
iE:137 [in UniMath.CategoryTheory.ShortExactSequences]
iE:38 [in UniMath.CategoryTheory.ShortExactSequences]
iE:48 [in UniMath.CategoryTheory.ShortExactSequences]
iE:55 [in UniMath.CategoryTheory.ShortExactSequences]
ie:573 [in UniMath.Combinatorics.StandardFiniteSets]
iE:65 [in UniMath.CategoryTheory.ShortExactSequences]
iE:81 [in UniMath.CategoryTheory.Abelian]
iE:86 [in UniMath.CategoryTheory.Abelian]
ig:16 [in UniMath.MoreFoundations.Tactics]
IHv:4 [in UniMath.Algebra.Universal.HVectors]
IHv:6 [in UniMath.Algebra.Universal.HVectors]
IH':107 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH':113 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH':120 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH':15 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH':25 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH':6 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:105 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:11 [in UniMath.Combinatorics.MoreLists]
IH:111 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:118 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:12 [in UniMath.MoreFoundations.Nat]
IH:124 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:13 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:130 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:14 [in UniMath.Combinatorics.MoreLists]
IH:145 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:155 [in UniMath.Algebra.Universal.Terms]
IH:164 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:171 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:186 [in UniMath.Algebra.Universal.Terms]
IH:19 [in UniMath.MoreFoundations.Nat]
ih:191 [in UniMath.Algebra.FixedPointTheorems]
IH:196 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:202 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:208 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:214 [in UniMath.SyntheticHomotopyTheory.AffineLine]
ih:217 [in UniMath.Algebra.FixedPointTheorems]
IH:220 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:23 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:28 [in UniMath.MoreFoundations.Nat]
IH:319 [in UniMath.Combinatorics.StandardFiniteSets]
IH:35 [in UniMath.MoreFoundations.Nat]
IH:4 [in UniMath.Combinatorics.MoreLists]
IH:4 [in UniMath.SyntheticHomotopyTheory.AffineLine]
IH:4 [in UniMath.MoreFoundations.Nat]
IH:45 [in UniMath.MoreFoundations.Nat]
IH:7 [in UniMath.Combinatorics.MoreLists]
iii:132 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
iii:141 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
iii:150 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
II12:1025 [in UniMath.HomologicalAlgebra.Triangulated]
II12:1067 [in UniMath.HomologicalAlgebra.Triangulated]
II12:773 [in UniMath.HomologicalAlgebra.Triangulated]
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i:24 [in UniMath.SubstitutionSystems.LamFromBindingSig]
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i:240 [in UniMath.HomologicalAlgebra.Complexes]
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I:241 [in UniMath.Algebra.FixedPointTheorems]
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I:244 [in UniMath.Algebra.FixedPointTheorems]
I:244 [in UniMath.Combinatorics.WellOrderedSets]
i:246 [in UniMath.Combinatorics.WellOrderedSets]
i:246 [in UniMath.HomologicalAlgebra.MappingCone]
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i:248 [in UniMath.PAdics.z_mod_p]
I:248 [in UniMath.Algebra.FixedPointTheorems]
i:248 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
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I:249 [in UniMath.Combinatorics.WellOrderedSets]
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i:25 [in UniMath.Combinatorics.Lists]
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I:251 [in UniMath.Algebra.FixedPointTheorems]
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I:259 [in UniMath.Combinatorics.WellOrderedSets]
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I:26 [in UniMath.Algebra.Modules.Multimodules]
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I:265 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
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I:27 [in UniMath.CategoryTheory.ProductCategory]
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I:27 [in UniMath.CategoryTheory.limits.graphs.initial]
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I:28 [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
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i:28 [in UniMath.CategoryTheory.limits.products]
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I:280 [in UniMath.Combinatorics.WellOrderedSets]
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I:282 [in UniMath.Algebra.FixedPointTheorems]
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I:29 [in UniMath.CategoryTheory.categories.HSET.Limits]
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i:29 [in UniMath.CategoryTheory.limits.products]
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i:298 [in UniMath.CategoryTheory.limits.graphs.limits]
I:299 [in UniMath.CategoryTheory.Core.Isos]
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I:3 [in UniMath.CategoryTheory.categories.HSET.Slice]
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I:3 [in UniMath.Algebra.Modules.Examples]
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I:3 [in UniMath.CategoryTheory.Adjunctions.Examples]
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I:3 [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
I:3 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
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i:30 [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
i:30 [in UniMath.CategoryTheory.limits.terminal]
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i:300 [in UniMath.CategoryTheory.limits.graphs.limits]
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K:69 [in UniMath.CategoryTheory.whiskering]
k:7 [in UniMath.Foundations.Tests]
K:70 [in UniMath.CategoryTheory.limits.kernels]
k:70 [in UniMath.CategoryTheory.limits.graphs.binproducts]
k:70 [in UniMath.NumberSystems.Integers]
K:71 [in UniMath.CategoryTheory.ElementsOp]
K:71 [in UniMath.CategoryTheory.Additive]
k:711 [in UniMath.Bicategories.Core.Bicat]
k:72 [in UniMath.Combinatorics.Graph]
k:72 [in UniMath.CategoryTheory.limits.products]
k:72 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
k:722 [in UniMath.Bicategories.Core.Bicat]
k:73 [in UniMath.NumberSystems.RationalNumbers]
k:73 [in UniMath.PAdics.fps]
k:733 [in UniMath.Bicategories.Core.Bicat]
k:739 [in UniMath.MoreFoundations.PartA]
k:740 [in UniMath.MoreFoundations.PartA]
k:744 [in UniMath.Bicategories.Core.Bicat]
k:75 [in UniMath.Foundations.NaturalNumbers]
k:755 [in UniMath.MoreFoundations.PartA]
k:756 [in UniMath.MoreFoundations.PartA]
k:76 [in UniMath.Bicategories.Core.BicategoryLaws]
k:76 [in UniMath.PAdics.lemmas]
k:76 [in UniMath.NumberSystems.RationalNumbers]
K:77 [in UniMath.CategoryTheory.whiskering]
K:77 [in UniMath.CategoryTheory.limits.kernels]
k:780 [in UniMath.MoreFoundations.PartA]
k:79 [in UniMath.PAdics.fps]
K:8 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
k:80 [in UniMath.CategoryTheory.limits.coproducts]
K:81 [in UniMath.CategoryTheory.limits.Opp]
k:82 [in UniMath.Folds.folds_pre_2_cat]
k:82 [in UniMath.CategoryTheory.limits.binproducts]
k:83 [in UniMath.NumberSystems.Integers]
k:85 [in UniMath.Bicategories.Core.BicategoryLaws]
K:85 [in UniMath.CategoryTheory.whiskering]
k:85 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
k:85 [in UniMath.PAdics.fps]
k:86 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
k:86 [in UniMath.Foundations.NaturalNumbers]
k:86 [in UniMath.NumberSystems.Integers]
K:86 [in UniMath.CategoryTheory.limits.Opp]
k:88 [in UniMath.PAdics.fps]
K:9 [in UniMath.CategoryTheory.limits.graphs.kernels]
k:9 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
K:9 [in UniMath.CategoryTheory.RightKanExtension]
k:90 [in UniMath.CategoryTheory.limits.coproducts]
k:90 [in UniMath.PAdics.fps]
K:91 [in UniMath.CategoryTheory.limits.Opp]
k:91 [in UniMath.SyntheticHomotopyTheory.Circle2]
k:92 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
k:92 [in UniMath.PAdics.fps]
k:92 [in UniMath.Algebra.IteratedBinaryOperations]
k:92 [in UniMath.SyntheticHomotopyTheory.Circle2]
k:927 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
k:93 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
K:93 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
k:93 [in UniMath.SyntheticHomotopyTheory.Circle2]
k:94 [in UniMath.Bicategories.Core.BicategoryLaws]
k:94 [in UniMath.NumberSystems.RationalNumbers]
k:94 [in UniMath.PAdics.fps]
k:94 [in UniMath.Algebra.IteratedBinaryOperations]
k:94 [in UniMath.SyntheticHomotopyTheory.Circle2]
k:96 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
K:96 [in UniMath.CategoryTheory.limits.kernels]
k:96 [in UniMath.PAdics.fps]
k:96 [in UniMath.Algebra.IteratedBinaryOperations]
k:97 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
k:97 [in UniMath.NumberSystems.RationalNumbers]
k:98 [in UniMath.Induction.ImpredicativeInductiveSets]
k:98 [in UniMath.CategoryTheory.limits.coproducts]
k:98 [in UniMath.CategoryTheory.limits.graphs.pushouts]
k:98 [in UniMath.PAdics.fps]
k:98 [in UniMath.Algebra.IteratedBinaryOperations]
k:980 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:981 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
k:982 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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k₁:146 [in UniMath.Bicategories.Core.BicategoryLaws]
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k₁:161 [in UniMath.Bicategories.Core.BicategoryLaws]
k₁:171 [in UniMath.Bicategories.Core.BicategoryLaws]
k₁:181 [in UniMath.Bicategories.Core.BicategoryLaws]
k₁:24 [in UniMath.Bicategories.Core.EquivToAdjequiv]
k₁:37 [in UniMath.Bicategories.Core.EquivToAdjequiv]
k₁:8 [in UniMath.Bicategories.Core.EquivToAdjequiv]
k₂:124 [in UniMath.Bicategories.Core.BicategoryLaws]
k₂:133 [in UniMath.Bicategories.Core.BicategoryLaws]
k₂:140 [in UniMath.Bicategories.Core.BicategoryLaws]
k₂:147 [in UniMath.Bicategories.Core.BicategoryLaws]
k₂:154 [in UniMath.Bicategories.Core.BicategoryLaws]
k₂:162 [in UniMath.Bicategories.Core.BicategoryLaws]
k₂:172 [in UniMath.Bicategories.Core.BicategoryLaws]
k₂:182 [in UniMath.Bicategories.Core.BicategoryLaws]
k₂:25 [in UniMath.Bicategories.Core.EquivToAdjequiv]
k₂:38 [in UniMath.Bicategories.Core.EquivToAdjequiv]
k₂:9 [in UniMath.Bicategories.Core.EquivToAdjequiv]

L

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lambda:56 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lambda:65 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
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Lam_Initial:98 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Lam_Initial:90 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Lam_Initial:82 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
lassocor:486 [in UniMath.Bicategories.Core.Bicat]
latt:220 [in UniMath.Combinatorics.OrderedSets]
LA:10 [in UniMath.CategoryTheory.RightKanExtension]
LC:19 [in UniMath.SubstitutionSystems.LamSignature]
LC:27 [in UniMath.CategoryTheory.Subcategory.Limits]
LC:373 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
left:158 [in UniMath.CategoryTheory.Core.Categories]
lem:176 [in UniMath.Combinatorics.WellOrderedSets]
lenm1:177 [in UniMath.Algebra.Universal.Terms]
lenm2:178 [in UniMath.Algebra.Universal.Terms]
leq_BC:66 [in UniMath.Algebra.FixedPointTheorems]
leq_AB:65 [in UniMath.Algebra.FixedPointTheorems]
levels:44 [in UniMath.Algebra.Universal.HVectors]
le:145 [in UniMath.Combinatorics.WellOrderedSets]
le:147 [in UniMath.RealNumbers.Sets]
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le:83 [in UniMath.RealNumbers.Sets]
le:83 [in UniMath.Combinatorics.WellOrderedSets]
le:94 [in UniMath.RealNumbers.Sets]
le:97 [in UniMath.RealNumbers.Sets]
lf:380 [in UniMath.Topology.Topology]
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LGD₂:19 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
lg:1091 [in UniMath.Foundations.Sets]
lg:1110 [in UniMath.Algebra.BinaryOperations]
lg:1145 [in UniMath.Foundations.Sets]
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lg:1199 [in UniMath.Algebra.BinaryOperations]
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lg:1283 [in UniMath.Algebra.BinaryOperations]
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lg:370 [in UniMath.Foundations.Sets]
lg:377 [in UniMath.Foundations.Sets]
lg:381 [in UniMath.Topology.Topology]
lg:384 [in UniMath.Foundations.Sets]
lg:507 [in UniMath.Algebra.Groups]
lg:576 [in UniMath.Foundations.PartB]
lg:581 [in UniMath.Foundations.PartB]
lg:653 [in UniMath.Algebra.Monoids]
lg:824 [in UniMath.Foundations.Sets]
lg:868 [in UniMath.Foundations.Sets]
lg:876 [in UniMath.Foundations.Sets]
LG₁:253 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
LG₂:254 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
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Lh':127 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':138 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':231 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':33 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':45 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Lh':45 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':45 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
Lh':55 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':60 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
Lh':66 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':78 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh':90 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:110 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:126 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:137 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:18 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:23 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:230 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:32 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:44 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Lh:44 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:44 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
Lh:54 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:59 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
Lh:65 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:77 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Lh:89 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
lic:13 [in UniMath.Bicategories.DisplayedBicats.Fibration]
lid:108 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
lim:565 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
lim:575 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
lim:593 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
lj':563 [in UniMath.Foundations.NaturalNumbers]
lj:562 [in UniMath.Foundations.NaturalNumbers]
LL:11 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:15 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:179 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
LL:19 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:23 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:27 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:32 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:38 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:42 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
LL:7 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
lmF:23 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lmF:24 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lmF:25 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lmF:26 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lmF:27 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lmF:28 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lmF:38 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lmk:78 [in UniMath.NumberSystems.RationalNumbers]
lmk:88 [in UniMath.Foundations.NaturalNumbers]
lmk:88 [in UniMath.NumberSystems.Integers]
lmn:83 [in UniMath.NumberSystems.RationalNumbers]
lmn:96 [in UniMath.Foundations.NaturalNumbers]
lmn:96 [in UniMath.NumberSystems.Integers]
lmq:52 [in UniMath.CategoryTheory.CommaCategories]
lmq:59 [in UniMath.CategoryTheory.CommaCategories]
LM:317 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
lnm:134 [in UniMath.NumberSystems.RationalNumbers]
lnm:138 [in UniMath.NumberSystems.RationalNumbers]
lnm:147 [in UniMath.NumberSystems.Integers]
lnm:151 [in UniMath.NumberSystems.Integers]
lnm:175 [in UniMath.Foundations.NaturalNumbers]
lnm:179 [in UniMath.Foundations.NaturalNumbers]
lnm:77 [in UniMath.NumberSystems.RationalNumbers]
lnm:82 [in UniMath.NumberSystems.RationalNumbers]
lnm:87 [in UniMath.Foundations.NaturalNumbers]
lnm:87 [in UniMath.NumberSystems.Integers]
lnm:95 [in UniMath.Foundations.NaturalNumbers]
lnm:95 [in UniMath.NumberSystems.Integers]
loop':74 [in UniMath.SyntheticHomotopyTheory.Circle2]
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loop:73 [in UniMath.SyntheticHomotopyTheory.Circle2]
LSE:145 [in UniMath.CategoryTheory.ShortExactSequences]
LSE:147 [in UniMath.CategoryTheory.ShortExactSequences]
LSE:85 [in UniMath.CategoryTheory.ShortExactSequences]
LSE:86 [in UniMath.CategoryTheory.ShortExactSequences]
lstack:106 [in UniMath.Algebra.Universal.Terms]
lstack:72 [in UniMath.Algebra.Universal.Terms]
LS1:42 [in UniMath.CategoryTheory.LocalizingClass]
LS1:50 [in UniMath.CategoryTheory.LocalizingClass]
LS1:58 [in UniMath.CategoryTheory.LocalizingClass]
LS1:66 [in UniMath.CategoryTheory.LocalizingClass]
LS1:74 [in UniMath.CategoryTheory.LocalizingClass]
LS2:107 [in UniMath.CategoryTheory.LocalizingClass]
LS2:115 [in UniMath.CategoryTheory.LocalizingClass]
LS2:123 [in UniMath.CategoryTheory.LocalizingClass]
LS2:91 [in UniMath.CategoryTheory.LocalizingClass]
LS2:99 [in UniMath.CategoryTheory.LocalizingClass]
ltg':132 [in UniMath.Combinatorics.FiniteSequences]
ltg':141 [in UniMath.Combinatorics.FiniteSequences]
ltg:131 [in UniMath.Combinatorics.FiniteSequences]
ltg:140 [in UniMath.Combinatorics.FiniteSequences]
lt:124 [in UniMath.Combinatorics.WellFoundedRelations]
lt:126 [in UniMath.Combinatorics.WellFoundedRelations]
lt:148 [in UniMath.RealNumbers.Sets]
lt:15 [in UniMath.Combinatorics.WellFoundedRelations]
lt:153 [in UniMath.RealNumbers.Sets]
lt:17 [in UniMath.SubstitutionSystems.MultiSorted]
lt:19 [in UniMath.Combinatorics.WellFoundedRelations]
lt:199 [in UniMath.Combinatorics.OrderedSets]
lt:2 [in UniMath.Combinatorics.WellFoundedRelations]
lt:209 [in UniMath.Combinatorics.OrderedSets]
lt:214 [in UniMath.Combinatorics.OrderedSets]
lt:27 [in UniMath.SubstitutionSystems.MultiSorted]
lt:28 [in UniMath.Combinatorics.Tests]
lt:28 [in UniMath.SubstitutionSystems.MultiSorted]
lt:29 [in UniMath.SubstitutionSystems.MultiSorted_alt]
lt:3 [in UniMath.Paradoxes.GirardsParadox]
lt:39 [in UniMath.SubstitutionSystems.MultiSorted_alt]
lt:40 [in UniMath.SubstitutionSystems.MultiSorted_alt]
lt:7 [in UniMath.Combinatorics.WellFoundedRelations]
lt:84 [in UniMath.RealNumbers.Sets]
lt:95 [in UniMath.RealNumbers.Sets]
lt:98 [in UniMath.RealNumbers.Sets]
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lub:168 [in UniMath.RealNumbers.Sets]
lub:180 [in UniMath.RealNumbers.Sets]
lub:192 [in UniMath.Combinatorics.OrderedSets]
lunax:12 [in UniMath.Algebra.Matrix]
lunax:39 [in UniMath.Algebra.IteratedBinaryOperations]
lunax:45 [in UniMath.Algebra.IteratedBinaryOperations]
lunax:48 [in UniMath.Algebra.IteratedBinaryOperations]
lunax:50 [in UniMath.Algebra.Matrix]
lunitor_inv:470 [in UniMath.Bicategories.Core.Bicat]
lunitor:466 [in UniMath.Bicategories.Core.Bicat]
lun:11 [in UniMath.Algebra.Matrix]
lun:49 [in UniMath.Algebra.Matrix]
lu:117 [in UniMath.Algebra.Dcpo]
LU:32 [in UniMath.RealNumbers.DedekindCuts]
LU:38 [in UniMath.RealNumbers.DedekindCuts]
Lu:724 [in UniMath.RealNumbers.NonnegativeReals]
lv:118 [in UniMath.Algebra.Dcpo]
lwhisk:455 [in UniMath.Bicategories.Core.Bicat]
LX:1142 [in UniMath.Foundations.Sets]
LX:865 [in UniMath.Foundations.Sets]
LY:1151 [in UniMath.Foundations.Sets]
LY:874 [in UniMath.Foundations.Sets]
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l1:135 [in UniMath.Combinatorics.MoreLists]
l1:20 [in UniMath.CategoryTheory.Inductives.Trees]
l1:244 [in UniMath.Algebra.Free_Monoids_and_Groups]
l1:29 [in UniMath.CategoryTheory.Inductives.Trees]
l1:40 [in UniMath.CategoryTheory.Inductives.Trees]
l1:42 [in UniMath.Algebra.Universal.Terms]
l1:44 [in UniMath.Combinatorics.MoreLists]
l1:44 [in UniMath.CategoryTheory.Inductives.Trees]
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l1:50 [in UniMath.Combinatorics.MoreLists]
l1:51 [in UniMath.Algebra.Universal.Terms]
l1:53 [in UniMath.Combinatorics.MoreLists]
l1:71 [in UniMath.Algebra.Free_Monoids_and_Groups]
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l2:113 [in UniMath.Combinatorics.MoreLists]
l2:119 [in UniMath.Combinatorics.MoreLists]
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L:560 [in UniMath.Algebra.Monoids]
L:565 [in UniMath.Algebra.Monoids]
L:57 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
l:57 [in UniMath.Algebra.Universal.Terms]
l:57 [in UniMath.Combinatorics.MoreLists]
l:57 [in UniMath.RealNumbers.Sets]
L:570 [in UniMath.Algebra.Monoids]
L:583 [in UniMath.Algebra.Monoids]
l:59 [in UniMath.CategoryTheory.Inductives.Lists]
l:59 [in UniMath.RealNumbers.Sets]
L:59 [in UniMath.CategoryTheory.LatticeObject]
L:596 [in UniMath.Algebra.Monoids]
L:6 [in UniMath.CategoryTheory.DisplayedCats.Limits]
L:6 [in UniMath.Topology.Filters]
L:6 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
l:60 [in UniMath.Bicategories.Core.FullyFaithful]
l:60 [in UniMath.Combinatorics.WellFoundedRelations]
L:601 [in UniMath.Algebra.Monoids]
l:607 [in UniMath.Algebra.Monoids]
l:61 [in UniMath.RealNumbers.Sets]
L:61 [in UniMath.CategoryTheory.LatticeObject]
L:612 [in UniMath.Foundations.Sets]
L:617 [in UniMath.Foundations.Sets]
L:618 [in UniMath.Algebra.Monoids]
l:62 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
l:62 [in UniMath.CategoryTheory.Inductives.Lists]
l:62 [in UniMath.Algebra.Universal.Terms]
L:621 [in UniMath.Foundations.Sets]
l:624 [in UniMath.Algebra.Monoids]
L:625 [in UniMath.Foundations.Sets]
L:629 [in UniMath.Foundations.Sets]
L:63 [in UniMath.Topology.Prelim]
l:63 [in UniMath.PAdics.fps]
L:633 [in UniMath.Foundations.Sets]
L:635 [in UniMath.Algebra.Monoids]
L:637 [in UniMath.Foundations.Sets]
l:64 [in UniMath.SyntheticHomotopyTheory.Circle]
L:641 [in UniMath.Foundations.Sets]
L:645 [in UniMath.Foundations.Sets]
L:647 [in UniMath.Algebra.Monoids]
L:649 [in UniMath.Foundations.Sets]
l:65 [in UniMath.CategoryTheory.Inductives.Lists]
l:65 [in UniMath.Algebra.Lattice]
l:65 [in UniMath.RealNumbers.Sets]
L:65 [in UniMath.CategoryTheory.LatticeObject]
L:653 [in UniMath.Foundations.Sets]
l:655 [in UniMath.NumberSystems.Integers]
L:657 [in UniMath.Foundations.Sets]
L:658 [in UniMath.Algebra.Monoids]
l:66 [in UniMath.Combinatorics.MoreLists]
L:661 [in UniMath.Foundations.Sets]
L:663 [in UniMath.Algebra.Monoids]
L:665 [in UniMath.Foundations.Sets]
L:669 [in UniMath.Algebra.Monoids]
L:669 [in UniMath.Foundations.Sets]
l:67 [in UniMath.RealNumbers.Sets]
L:673 [in UniMath.Foundations.Sets]
L:677 [in UniMath.Foundations.Sets]
l:68 [in UniMath.SyntheticHomotopyTheory.Circle]
L:68 [in UniMath.Topology.Prelim]
l:68 [in UniMath.PAdics.fps]
l:68 [in UniMath.CategoryTheory.precomp_ess_surj]
l:69 [in UniMath.RealNumbers.Sets]
l:69 [in UniMath.PAdics.fps]
L:7 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
L:70 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
L:70 [in UniMath.CategoryTheory.LatticeObject]
L:70 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
l:705 [in UniMath.RealNumbers.NonnegativeReals]
l:71 [in UniMath.SyntheticHomotopyTheory.Circle]
l:71 [in UniMath.Algebra.Universal.Terms]
l:71 [in UniMath.Combinatorics.MoreLists]
l:71 [in UniMath.RealNumbers.Sets]
l:71 [in UniMath.CategoryTheory.LatticeObject]
l:714 [in UniMath.RealNumbers.NonnegativeReals]
l:717 [in UniMath.RealNumbers.NonnegativeReals]
L:72 [in UniMath.Topology.Prelim]
l:720 [in UniMath.RealNumbers.NonnegativeReals]
L:720 [in UniMath.Algebra.RigsAndRings]
l:722 [in UniMath.RealNumbers.NonnegativeReals]
l:73 [in UniMath.RealNumbers.Sets]
l:73 [in UniMath.Combinatorics.WellFoundedRelations]
l:74 [in UniMath.PAdics.fps]
L:75 [in UniMath.CategoryTheory.LatticeObject]
l:75 [in UniMath.PAdics.fps]
l:76 [in UniMath.SyntheticHomotopyTheory.Circle]
l:76 [in UniMath.Combinatorics.MoreLists]
l:76 [in UniMath.Algebra.IteratedBinaryOperations]
L:77 [in UniMath.Topology.Prelim]
l:77 [in UniMath.RealNumbers.Sets]
l:77 [in UniMath.CategoryTheory.Monads.Derivative]
l:78 [in UniMath.CategoryTheory.LatticeObject]
L:78 [in UniMath.CategoryTheory.Monads.Derivative]
L:79 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
L:79 [in UniMath.Topology.Prelim]
l:79 [in UniMath.RealNumbers.Sets]
L:79 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
l:8 [in UniMath.SyntheticHomotopyTheory.Circle]
l:80 [in UniMath.PAdics.fps]
l:80 [in UniMath.CategoryTheory.precomp_ess_surj]
l:81 [in UniMath.RealNumbers.Sets]
l:81 [in UniMath.PAdics.fps]
l:82 [in UniMath.Combinatorics.MoreLists]
L:823 [in UniMath.Foundations.Sets]
l:83 [in UniMath.SyntheticHomotopyTheory.Circle]
l:84 [in UniMath.CategoryTheory.Monads.Derivative]
L:85 [in UniMath.CategoryTheory.Monads.Derivative]
l:86 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
l:86 [in UniMath.PAdics.fps]
l:87 [in UniMath.PAdics.fps]
l:88 [in UniMath.SyntheticHomotopyTheory.Circle]
L:88 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
L:882 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
l:89 [in UniMath.Combinatorics.MoreLists]
l:89 [in UniMath.PAdics.fps]
l:9 [in UniMath.Algebra.Universal.Terms]
L:9 [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
l:9 [in UniMath.Induction.M.Limits]
L:90 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
L:91 [in UniMath.CategoryTheory.Monads.Derivative]
l:91 [in UniMath.PAdics.fps]
l:93 [in UniMath.PAdics.fps]
l:94 [in UniMath.Combinatorics.MoreLists]
l:95 [in UniMath.SyntheticHomotopyTheory.Circle]
l:95 [in UniMath.Combinatorics.MoreLists]
l:95 [in UniMath.PAdics.fps]
l:96 [in UniMath.Algebra.Universal.Terms]
l:96 [in UniMath.CategoryTheory.Monads.Derivative]
l:97 [in UniMath.Algebra.Universal.Terms]
L:97 [in UniMath.CategoryTheory.Monads.Derivative]
l:97 [in UniMath.PAdics.fps]
L:98 [in UniMath.Bicategories.Core.Adjunctions]
l:98 [in UniMath.Algebra.Universal.Terms]
l:99 [in UniMath.Algebra.Universal.Terms]
L:99 [in UniMath.CategoryTheory.LatticeObject]
l:99 [in UniMath.PAdics.fps]

M

massoc:112 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mat1:41 [in UniMath.Algebra.Matrix]
mat1:61 [in UniMath.Algebra.Matrix]
mat1:85 [in UniMath.Algebra.Matrix]
mat2:42 [in UniMath.Algebra.Matrix]
mat2:63 [in UniMath.Algebra.Matrix]
mat2:87 [in UniMath.Algebra.Matrix]
mat3:89 [in UniMath.Algebra.Matrix]
mat:102 [in UniMath.Algebra.Matrix]
mat:48 [in UniMath.Combinatorics.FiniteSequences]
mat:52 [in UniMath.Combinatorics.FiniteSequences]
mat:56 [in UniMath.Combinatorics.FiniteSequences]
mat:70 [in UniMath.Algebra.Matrix]
mat:74 [in UniMath.Algebra.Matrix]
mat:92 [in UniMath.Algebra.Matrix]
max:187 [in UniMath.Combinatorics.OrderedSets]
max:216 [in UniMath.Combinatorics.OrderedSets]
max:22 [in UniMath.Algebra.Lattice]
max:29 [in UniMath.Algebra.Lattice]
max:32 [in UniMath.Algebra.Lattice]
mbind:17 [in UniMath.CategoryTheory.Monads.RelativeModules]
MC:60 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MC:71 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MC:84 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MC:94 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MC₁:110 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MC₂:111 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MD:61 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MD:72 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MD:85 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
meet_mor_M:103 [in UniMath.CategoryTheory.LatticeObject]
meet_mor_M:79 [in UniMath.CategoryTheory.LatticeObject]
meet_mor:33 [in UniMath.CategoryTheory.LatticeObject]
meet_mor:30 [in UniMath.CategoryTheory.LatticeObject]
meet_mor:27 [in UniMath.CategoryTheory.LatticeObject]
ME:737 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ME:859 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ME:861 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
MFbind:81 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MFunit:77 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
mf_nat:144 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mf_nat:63 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mf':29 [in UniMath.CategoryTheory.RightKanExtension]
mf':31 [in UniMath.CategoryTheory.RightKanExtension]
mf':35 [in UniMath.CategoryTheory.RightKanExtension]
mf':39 [in UniMath.CategoryTheory.RightKanExtension]
mf:156 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mf:37 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mf:46 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mf:62 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
MF:64 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
mf:74 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
MF:75 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
mf:78 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
MF:87 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
mfη:146 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mfη:64 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mfμ:148 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mfμ:65 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
MF₁:112 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
MF₂:113 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
mg:157 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mg:47 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mg:75 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mg:79 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
minus:220 [in UniMath.Algebra.Lattice]
minus:225 [in UniMath.Algebra.Lattice]
minus:228 [in UniMath.Algebra.Lattice]
min:186 [in UniMath.Combinatorics.OrderedSets]
min:21 [in UniMath.Algebra.Lattice]
min:215 [in UniMath.Combinatorics.OrderedSets]
min:28 [in UniMath.Algebra.Lattice]
min:31 [in UniMath.Algebra.Lattice]
mi:158 [in UniMath.MoreFoundations.MoreEquivalences]
mi:175 [in UniMath.MoreFoundations.MoreEquivalences]
mmdata:16 [in UniMath.Bicategories.DisplayedBicats.DispModification]
mmdata:49 [in UniMath.Bicategories.DisplayedBicats.DispModification]
MM:102 [in UniMath.Algebra.Modules.Multimodules]
MM:107 [in UniMath.Algebra.Modules.Multimodules]
MM:113 [in UniMath.Algebra.Modules.Multimodules]
MM:118 [in UniMath.Algebra.Modules.Multimodules]
MM:124 [in UniMath.Algebra.Modules.Multimodules]
MM:129 [in UniMath.Algebra.Modules.Multimodules]
MM:13 [in UniMath.Algebra.Modules.Examples]
MM:134 [in UniMath.Algebra.Modules.Multimodules]
MM:140 [in UniMath.Algebra.Modules.Multimodules]
MM:146 [in UniMath.Algebra.Modules.Multimodules]
MM:150 [in UniMath.Algebra.Modules.Multimodules]
MM:154 [in UniMath.Algebra.Modules.Multimodules]
MM:159 [in UniMath.Algebra.Modules.Multimodules]
mm:18 [in UniMath.Bicategories.DisplayedBicats.DispModification]
MM:25 [in UniMath.Algebra.Modules.Multimodules]
mm:26 [in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:28 [in UniMath.Bicategories.DisplayedBicats.DispModification]
MM:28 [in UniMath.Algebra.Modules.Multimodules]
mm:29 [in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:30 [in UniMath.Bicategories.DisplayedBicats.DispModification]
MM:32 [in UniMath.Algebra.Modules.Multimodules]
MM:35 [in UniMath.Algebra.Modules.Multimodules]
MM:49 [in UniMath.Algebra.Modules.Multimodules]
MM:5 [in UniMath.Algebra.Modules.Examples]
mm:51 [in UniMath.Bicategories.DisplayedBicats.DispModification]
MM:55 [in UniMath.Algebra.Modules.Multimodules]
mm:59 [in UniMath.Bicategories.DisplayedBicats.DispModification]
MM:60 [in UniMath.Algebra.Modules.Multimodules]
mm:61 [in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:62 [in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:63 [in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:64 [in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:65 [in UniMath.Bicategories.DisplayedBicats.DispModification]
mm:66 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
MM:66 [in UniMath.Algebra.Modules.Multimodules]
MM:71 [in UniMath.Algebra.Modules.Multimodules]
mm:77 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
MM:77 [in UniMath.Algebra.Modules.Multimodules]
MM:85 [in UniMath.Algebra.Modules.Multimodules]
MM:92 [in UniMath.Algebra.Modules.Multimodules]
MM:97 [in UniMath.Algebra.Modules.Multimodules]
monich:58 [in UniMath.CategoryTheory.slicecat]
MonM:1 [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
monoidax:18 [in UniMath.Algebra.Matrix]
monoidax:56 [in UniMath.Algebra.Matrix]
Mon_V:42 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Mon_V:1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Mon_D:2 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Mon_C:1 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Mon_V:1 [in UniMath.CategoryTheory.Enriched.Enriched]
Mon_V:104 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Mon_W:103 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Mon_V:1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Mon_A:41 [in UniMath.CategoryTheory.Monoidal.Actions]
Mon_V:1 [in UniMath.CategoryTheory.Monoidal.Actions]
Mon_M:5 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Mon_V:37 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Mon_A:11 [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
Mon_V:10 [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
Mon_A:2 [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
Mon_V:1 [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
Mon_V:1 [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
Mon':37 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Mon:1 [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
Mon:36 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
mord:63 [in UniMath.CategoryTheory.DisplayedCats.Core]
morFF:13 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
morFF:15 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
morFF:44 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
Mors:78 [in UniMath.HomologicalAlgebra.Complexes]
mor_disp:5 [in UniMath.CategoryTheory.DisplayedCats.Core]
mor:139 [in UniMath.CategoryTheory.Core.Categories]
mor:19 [in UniMath.CategoryTheory.Enriched.Enriched]
mor:193 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
mor:2 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
mor:203 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Mor:204 [in UniMath.CategoryTheory.FiveLemma]
Mor:207 [in UniMath.CategoryTheory.FiveLemma]
Mor:210 [in UniMath.CategoryTheory.FiveLemma]
Mor:213 [in UniMath.CategoryTheory.FiveLemma]
mor:213 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Mor:216 [in UniMath.CategoryTheory.FiveLemma]
Mor:219 [in UniMath.CategoryTheory.FiveLemma]
Mor:222 [in UniMath.CategoryTheory.FiveLemma]
mor:223 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Mor:225 [in UniMath.CategoryTheory.FiveLemma]
Mor:228 [in UniMath.CategoryTheory.FiveLemma]
Mor:231 [in UniMath.CategoryTheory.FiveLemma]
Mor:234 [in UniMath.CategoryTheory.FiveLemma]
Mor:237 [in UniMath.CategoryTheory.FiveLemma]
Mor:240 [in UniMath.CategoryTheory.FiveLemma]
Mor:243 [in UniMath.CategoryTheory.FiveLemma]
mor:270 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
mor:3 [in UniMath.Folds.folds_pre_2_cat]
mor:3 [in UniMath.Folds.folds_precat]
mor:3 [in UniMath.CategoryTheory.Enriched.Enriched]
mor:3 [in UniMath.CategoryTheory.Core.Categories]
mor:40 [in UniMath.Induction.W.Naturals]
mor:429 [in UniMath.Bicategories.Core.Bicat]
mor:45 [in UniMath.CategoryTheory.Enriched.Enriched]
mor:55 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Mor:569 [in UniMath.HomologicalAlgebra.Triangulated]
Mor:574 [in UniMath.HomologicalAlgebra.Triangulated]
mor:59 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Mor:592 [in UniMath.HomologicalAlgebra.Triangulated]
Mor:595 [in UniMath.HomologicalAlgebra.Triangulated]
mor:73 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
mor:98 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
MPMC:50 [in UniMath.CategoryTheory.Morphisms]
MPMC:54 [in UniMath.CategoryTheory.Morphisms]
MPMC:61 [in UniMath.CategoryTheory.Morphisms]
MPM:32 [in UniMath.CategoryTheory.Morphisms]
MPM:35 [in UniMath.CategoryTheory.Morphisms]
MPM:38 [in UniMath.CategoryTheory.Morphisms]
MPM:41 [in UniMath.CategoryTheory.Morphisms]
MPM:44 [in UniMath.CategoryTheory.Morphisms]
MPM:49 [in UniMath.CategoryTheory.Morphisms]
MPM:53 [in UniMath.CategoryTheory.Morphisms]
MPM:57 [in UniMath.CategoryTheory.Morphisms]
MPM:60 [in UniMath.CategoryTheory.Morphisms]
MPM:64 [in UniMath.CategoryTheory.Morphisms]
MPM:67 [in UniMath.CategoryTheory.Morphisms]
MP1:23 [in UniMath.CategoryTheory.Morphisms]
MP1:25 [in UniMath.CategoryTheory.Morphisms]
MP1:30 [in UniMath.CategoryTheory.Morphisms]
MP1:33 [in UniMath.CategoryTheory.Morphisms]
MP1:36 [in UniMath.CategoryTheory.Morphisms]
MP1:39 [in UniMath.CategoryTheory.Morphisms]
MP1:42 [in UniMath.CategoryTheory.Morphisms]
MP1:47 [in UniMath.CategoryTheory.Morphisms]
MP1:51 [in UniMath.CategoryTheory.Morphisms]
MP1:55 [in UniMath.CategoryTheory.Morphisms]
MP1:58 [in UniMath.CategoryTheory.Morphisms]
MP1:62 [in UniMath.CategoryTheory.Morphisms]
MP1:65 [in UniMath.CategoryTheory.Morphisms]
MP2:24 [in UniMath.CategoryTheory.Morphisms]
MP2:26 [in UniMath.CategoryTheory.Morphisms]
MP2:31 [in UniMath.CategoryTheory.Morphisms]
MP2:34 [in UniMath.CategoryTheory.Morphisms]
MP2:37 [in UniMath.CategoryTheory.Morphisms]
MP2:40 [in UniMath.CategoryTheory.Morphisms]
MP2:43 [in UniMath.CategoryTheory.Morphisms]
MP2:48 [in UniMath.CategoryTheory.Morphisms]
MP2:52 [in UniMath.CategoryTheory.Morphisms]
MP2:56 [in UniMath.CategoryTheory.Morphisms]
MP2:59 [in UniMath.CategoryTheory.Morphisms]
MP2:63 [in UniMath.CategoryTheory.Morphisms]
MP2:66 [in UniMath.CategoryTheory.Morphisms]
mp:104 [in UniMath.Induction.M.ComputationalM]
MP:115 [in UniMath.CategoryTheory.Morphisms]
MP:117 [in UniMath.CategoryTheory.Morphisms]
MP:133 [in UniMath.CategoryTheory.Morphisms]
MP:134 [in UniMath.CategoryTheory.Morphisms]
MP:173 [in UniMath.CategoryTheory.ShortExactSequences]
mp:18 [in UniMath.Induction.M.ComputationalM]
MP:18 [in UniMath.CategoryTheory.Morphisms]
MP:19 [in UniMath.CategoryTheory.Morphisms]
MP:20 [in UniMath.CategoryTheory.Morphisms]
MP:21 [in UniMath.CategoryTheory.Morphisms]
MP:22 [in UniMath.CategoryTheory.Morphisms]
MP:3 [in UniMath.HomologicalAlgebra.Triangulated]
mp:99 [in UniMath.Induction.M.ComputationalM]
mr:4 [in UniMath.Algebra.Modules.Multimodules]
mr:40 [in UniMath.Algebra.Modules.Multimodules]
mr:62 [in UniMath.Algebra.Modules.Examples]
ms:22 [in UniMath.Algebra.Modules.Multimodules]
ms:41 [in UniMath.Algebra.Modules.Multimodules]
ms:5 [in UniMath.Algebra.Modules.Multimodules]
ms:63 [in UniMath.Algebra.Modules.Examples]
ms:68 [in UniMath.SubstitutionSystems.MultiSorted_alt]
mt_step:31 [in UniMath.Combinatorics.MetricTree]
mt_trans:30 [in UniMath.Combinatorics.MetricTree]
mt_symm:29 [in UniMath.Combinatorics.MetricTree]
mt_anti:28 [in UniMath.Combinatorics.MetricTree]
mt_refl:27 [in UniMath.Combinatorics.MetricTree]
mt_dist:26 [in UniMath.Combinatorics.MetricTree]
mt_set:25 [in UniMath.Combinatorics.MetricTree]
mt_trans:14 [in UniMath.Combinatorics.MetricTree]
mt_symm:10 [in UniMath.Combinatorics.MetricTree]
mt_anti:7 [in UniMath.Combinatorics.MetricTree]
mt_refl:4 [in UniMath.Combinatorics.MetricTree]
mt_dist:2 [in UniMath.Combinatorics.MetricTree]
mt_set:1 [in UniMath.Combinatorics.MetricTree]
mulr:64 [in UniMath.Algebra.Modules.Examples]
muls:65 [in UniMath.Algebra.Modules.Examples]
mx0:237 [in UniMath.Algebra.RigsAndRings]
mx0:34 [in UniMath.Algebra.RigsAndRings]
mx:141 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mx:151 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mx:34 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
mx:41 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
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m:16 [in UniMath.CategoryTheory.SubobjectClassifier]
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M:16 [in UniMath.Algebra.Modules.Submodule]
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M:18 [in UniMath.CategoryTheory.UnderCategories]
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M:183 [in UniMath.HomologicalAlgebra.Complexes]
M:183 [in UniMath.CategoryTheory.Core.TransportMorphisms]
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M:185 [in UniMath.CategoryTheory.ExactCategories.Tests]
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M:186 [in UniMath.CategoryTheory.Core.TransportMorphisms]
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M:19 [in UniMath.Algebra.Modules.Submodule]
m:19 [in UniMath.Foundations.Preamble]
M:19 [in UniMath.CategoryTheory.CommaCategories]
m:190 [in UniMath.PAdics.z_mod_p]
m:190 [in UniMath.Foundations.NaturalNumbers]
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M:2 [in UniMath.CategoryTheory.categories.modules]
M:2 [in UniMath.Algebra.Modules.Quotient]
M:2 [in UniMath.Algebra.Modules.Submodule]
m:2 [in UniMath.NumberSystems.Integers]
M:2 [in UniMath.Algebra.Modules.Examples]
m:2 [in UniMath.Combinatorics.StandardFiniteSets]
M:2 [in UniMath.CategoryTheory.Monads.LModules]
m:2 [in UniMath.CategoryTheory.SimplicialSets]
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M:20 [in UniMath.Algebra.Tests]
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m:20 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
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M:21 [in UniMath.CategoryTheory.categories.modules]
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M:22 [in UniMath.Algebra.Modules.Submodule]
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M:25 [in UniMath.Algebra.Modules.Submodule]
m:25 [in UniMath.CategoryTheory.Chains.Cochains]
m:25 [in UniMath.SubstitutionSystems.SubstitutionSystems]
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m:289 [in UniMath.NumberSystems.Integers]
M:29 [in UniMath.CategoryTheory.Abelian]
M:29 [in UniMath.CategoryTheory.Monads.RelativeModules]
M:29 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:29 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
M:29 [in UniMath.Ktheory.GrothendieckGroup]
m:29 [in UniMath.CategoryTheory.SubobjectClassifier]
m:29 [in UniMath.Foundations.Preamble]
m:290 [in UniMath.NumberSystems.RationalNumbers]
M:291 [in UniMath.Algebra.Modules.Core]
M:291 [in UniMath.CategoryTheory.limits.pullbacks]
m:292 [in UniMath.Foundations.NaturalNumbers]
M:292 [in UniMath.CategoryTheory.limits.kernels]
m:293 [in UniMath.NumberSystems.Integers]
m:294 [in UniMath.Foundations.NaturalNumbers]
m:294 [in UniMath.NumberSystems.RationalNumbers]
M:295 [in UniMath.Algebra.Modules.Core]
m:295 [in UniMath.Combinatorics.StandardFiniteSets]
m:296 [in UniMath.Foundations.NaturalNumbers]
M:297 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:297 [in UniMath.NumberSystems.Integers]
m:298 [in UniMath.Foundations.NaturalNumbers]
M:298 [in UniMath.CategoryTheory.limits.kernels]
m:298 [in UniMath.NumberSystems.RationalNumbers]
m:298 [in UniMath.Topology.Filters]
M:3 [in UniMath.Tactics.Abmonoids_Tactics]
M:3 [in UniMath.SubstitutionSystems.MultiSorted]
m:3 [in UniMath.NumberSystems.Tests]
M:30 [in UniMath.CategoryTheory.categories.modules]
m:30 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
m:30 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
m:30 [in UniMath.PAdics.lemmas]
m:30 [in UniMath.Combinatorics.FiniteSets]
M:30 [in UniMath.CategoryTheory.Monics]
m:30 [in UniMath.Bicategories.Modifications.Modification]
m:300 [in UniMath.Foundations.NaturalNumbers]
M:301 [in UniMath.Algebra.Modules.Core]
m:301 [in UniMath.NumberSystems.Integers]
m:301 [in UniMath.Combinatorics.StandardFiniteSets]
m:302 [in UniMath.NumberSystems.RationalNumbers]
m:303 [in UniMath.Foundations.NaturalNumbers]
M:304 [in UniMath.CategoryTheory.limits.kernels]
m:305 [in UniMath.NumberSystems.Integers]
m:305 [in UniMath.NumberSystems.RationalNumbers]
M:306 [in UniMath.Algebra.Modules.Core]
M:306 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:306 [in UniMath.Combinatorics.StandardFiniteSets]
m:306 [in UniMath.PAdics.fps]
m:309 [in UniMath.NumberSystems.Integers]
m:309 [in UniMath.NumberSystems.RationalNumbers]
m:31 [in UniMath.Algebra.Modules.Quotient]
m:31 [in UniMath.Algebra.Archimedean]
m:31 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
M:31 [in UniMath.Tactics.Abmonoids_Tactics]
M:31 [in UniMath.Algebra.Modules.Submodule]
M:31 [in UniMath.CategoryTheory.limits.cones]
m:310 [in UniMath.Foundations.NaturalNumbers]
M:311 [in UniMath.Algebra.Modules.Core]
m:313 [in UniMath.Foundations.NaturalNumbers]
m:313 [in UniMath.NumberSystems.Integers]
m:313 [in UniMath.NumberSystems.RationalNumbers]
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M:314 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:316 [in UniMath.Algebra.Modules.Core]
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m:316 [in UniMath.NumberSystems.Integers]
m:317 [in UniMath.NumberSystems.RationalNumbers]
m:318 [in UniMath.Foundations.NaturalNumbers]
m:318 [in UniMath.Topology.Filters]
M:319 [in UniMath.CategoryTheory.limits.pushouts]
M:32 [in UniMath.CategoryTheory.ExactCategories.Tests]
M:32 [in UniMath.CategoryTheory.categories.modules]
m:32 [in UniMath.Algebra.Modules.Quotient]
m:32 [in UniMath.CategoryTheory.SubobjectClassifier]
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m:320 [in UniMath.Foundations.NaturalNumbers]
m:320 [in UniMath.NumberSystems.Integers]
m:321 [in UniMath.NumberSystems.RationalNumbers]
m:322 [in UniMath.Foundations.NaturalNumbers]
M:324 [in UniMath.Algebra.Modules.Core]
m:324 [in UniMath.NumberSystems.Integers]
m:325 [in UniMath.Foundations.NaturalNumbers]
m:325 [in UniMath.NumberSystems.RationalNumbers]
M:326 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:328 [in UniMath.Algebra.Modules.Core]
m:328 [in UniMath.Foundations.NaturalNumbers]
m:328 [in UniMath.NumberSystems.Integers]
m:329 [in UniMath.NumberSystems.RationalNumbers]
M:33 [in UniMath.CategoryTheory.Monads.RelativeModules]
m:33 [in UniMath.Algebra.Modules.Quotient]
M:33 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
M:33 [in UniMath.Ktheory.GrothendieckGroup]
m:33 [in UniMath.PAdics.lemmas]
m:33 [in UniMath.Combinatorics.FiniteSequences]
M:33 [in UniMath.SubstitutionSystems.MultiSorted]
M:331 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:331 [in UniMath.Foundations.NaturalNumbers]
M:331 [in UniMath.CategoryTheory.limits.BinDirectSums]
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M:333 [in UniMath.Algebra.Modules.Core]
m:333 [in UniMath.NumberSystems.RationalNumbers]
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M:336 [in UniMath.Algebra.Modules.Core]
M:336 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:336 [in UniMath.Foundations.NaturalNumbers]
m:336 [in UniMath.NumberSystems.Integers]
M:337 [in UniMath.CategoryTheory.limits.BinDirectSums]
m:337 [in UniMath.NumberSystems.RationalNumbers]
m:338 [in UniMath.Foundations.NaturalNumbers]
m:339 [in UniMath.Algebra.Monoids]
m:34 [in UniMath.Algebra.Modules.Quotient]
M:34 [in UniMath.Algebra.Modules.Submodule]
m:34 [in UniMath.SubstitutionSystems.LiftingInitial]
m:340 [in UniMath.Algebra.Modules.Core]
m:340 [in UniMath.Foundations.NaturalNumbers]
M:340 [in UniMath.CategoryTheory.limits.BinDirectSums]
m:340 [in UniMath.NumberSystems.Integers]
m:341 [in UniMath.NumberSystems.RationalNumbers]
M:342 [in UniMath.Algebra.Modules.Core]
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M:349 [in UniMath.CategoryTheory.limits.BinDirectSums]
m:349 [in UniMath.NumberSystems.RationalNumbers]
M:35 [in UniMath.CategoryTheory.Abelian]
M:35 [in UniMath.CategoryTheory.categories.modules]
m:35 [in UniMath.Algebra.Modules.Quotient]
M:35 [in UniMath.Ktheory.GrothendieckGroup]
m:35 [in UniMath.CategoryTheory.SubobjectClassifier]
M:35 [in UniMath.CategoryTheory.limits.cones]
M:35 [in UniMath.CategoryTheory.Additive]
m:35 [in UniMath.SubstitutionSystems.LiftingInitial]
M:350 [in UniMath.Algebra.Modules.Core]
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M:352 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:352 [in UniMath.Foundations.NaturalNumbers]
m:352 [in UniMath.NumberSystems.Integers]
m:353 [in UniMath.NumberSystems.RationalNumbers]
M:354 [in UniMath.Algebra.Modules.Core]
m:354 [in UniMath.Foundations.NaturalNumbers]
M:354 [in UniMath.CategoryTheory.limits.BinDirectSums]
m:356 [in UniMath.Foundations.NaturalNumbers]
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m:357 [in UniMath.NumberSystems.RationalNumbers]
M:358 [in UniMath.Algebra.Modules.Core]
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M:358 [in UniMath.CategoryTheory.limits.BinDirectSums]
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M:36 [in UniMath.Ktheory.GrothendieckGroup]
m:36 [in UniMath.Foundations.NaturalNumbers]
m:36 [in UniMath.PAdics.lemmas]
m:36 [in UniMath.PAdics.padics]
m:36 [in UniMath.NumberSystems.Integers]
M:36 [in UniMath.SubstitutionSystems.MultiSorted_alt]
M:36 [in UniMath.SubstitutionSystems.MultiSorted]
m:36 [in UniMath.SubstitutionSystems.LiftingInitial]
M:360 [in UniMath.CategoryTheory.Abelian]
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m:361 [in UniMath.NumberSystems.RationalNumbers]
M:362 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:362 [in UniMath.Foundations.NaturalNumbers]
M:363 [in UniMath.Algebra.Modules.Core]
m:364 [in UniMath.Foundations.NaturalNumbers]
m:364 [in UniMath.PAdics.padics]
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m:365 [in UniMath.NumberSystems.RationalNumbers]
m:366 [in UniMath.Foundations.NaturalNumbers]
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M:366 [in UniMath.HomologicalAlgebra.Complexes]
M:367 [in UniMath.Algebra.Modules.Core]
m:367 [in UniMath.Foundations.NaturalNumbers]
m:368 [in UniMath.Foundations.NaturalNumbers]
m:368 [in UniMath.PAdics.padics]
m:368 [in UniMath.NumberSystems.Integers]
m:369 [in UniMath.Foundations.NaturalNumbers]
M:37 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
M:37 [in UniMath.Algebra.Modules.Submodule]
M:37 [in UniMath.CategoryTheory.limits.cones]
m:37 [in UniMath.SubstitutionSystems.LiftingInitial]
m:370 [in UniMath.Foundations.NaturalNumbers]
M:371 [in UniMath.Algebra.Modules.Core]
M:371 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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m:372 [in UniMath.NumberSystems.Integers]
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M:374 [in UniMath.HomologicalAlgebra.Complexes]
M:375 [in UniMath.Algebra.Modules.Core]
m:376 [in UniMath.NumberSystems.Integers]
m:377 [in UniMath.Topology.Filters]
m:378 [in UniMath.RealNumbers.NonnegativeReals]
M:379 [in UniMath.Algebra.Modules.Core]
M:38 [in UniMath.CategoryTheory.ExactCategories.Tests]
M:38 [in UniMath.CategoryTheory.categories.modules]
m:38 [in UniMath.Foundations.NaturalNumbers]
m:38 [in UniMath.CategoryTheory.SubobjectClassifier]
m:38 [in UniMath.NumberSystems.Integers]
m:38 [in UniMath.Bicategories.Modifications.Modification]
M:380 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:381 [in UniMath.NumberSystems.Integers]
M:382 [in UniMath.Algebra.Modules.Core]
m:382 [in UniMath.NumberSystems.RationalNumbers]
m:384 [in UniMath.Foundations.NaturalNumbers]
M:385 [in UniMath.Algebra.Modules.Core]
m:385 [in UniMath.NumberSystems.RationalNumbers]
m:387 [in UniMath.NumberSystems.RationalNumbers]
M:388 [in UniMath.Algebra.Modules.Core]
m:388 [in UniMath.Foundations.NaturalNumbers]
M:389 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:389 [in UniMath.NumberSystems.RationalNumbers]
M:39 [in UniMath.CategoryTheory.ExactCategories.Tests]
M:39 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
m:39 [in UniMath.Algebra.Modules.Quotient]
m:39 [in UniMath.Algebra.Matrix]
M:39 [in UniMath.Ktheory.GrothendieckGroup]
m:39 [in UniMath.PAdics.lemmas]
M:390 [in UniMath.CategoryTheory.Abelian]
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m:393 [in UniMath.PAdics.padics]
m:394 [in UniMath.PAdics.padics]
m:394 [in UniMath.NumberSystems.RationalNumbers]
m:395 [in UniMath.PAdics.padics]
M:396 [in UniMath.CategoryTheory.Abelian]
m:396 [in UniMath.RealNumbers.NonnegativeReals]
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m:397 [in UniMath.NumberSystems.RationalNumbers]
M:398 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:398 [in UniMath.Foundations.NaturalNumbers]
m:399 [in UniMath.NumberSystems.Integers]
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m:4 [in UniMath.NumberSystems.NaturalNumbersAlgebra]
M:4 [in UniMath.CategoryTheory.categories.modules]
m:4 [in UniMath.Foundations.NaturalNumbers]
m:4 [in UniMath.Combinatorics.StandardFiniteSets]
m:4 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
M:4 [in UniMath.SubstitutionSystems.MultiSorted]
M:40 [in UniMath.CategoryTheory.Monads.RelativeModules]
M:40 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
m:40 [in UniMath.Algebra.Modules.Submodule]
m:40 [in UniMath.PAdics.padics]
m:40 [in UniMath.NumberSystems.Integers]
M:40 [in UniMath.CategoryTheory.limits.cones]
m:40 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
m:40 [in UniMath.Algebra.IteratedBinaryOperations]
m:40 [in UniMath.CategoryTheory.categories.HSET.Structures]
m:40 [in UniMath.SubstitutionSystems.LiftingInitial]
m:400 [in UniMath.NumberSystems.RationalNumbers]
m:400 [in UniMath.Combinatorics.StandardFiniteSets]
m:401 [in UniMath.NumberSystems.Integers]
m:402 [in UniMath.Foundations.NaturalNumbers]
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m:403 [in UniMath.Combinatorics.StandardFiniteSets]
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M:407 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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m:407 [in UniMath.Combinatorics.StandardFiniteSets]
m:409 [in UniMath.Foundations.NaturalNumbers]
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m:41 [in UniMath.Algebra.Modules.Quotient]
m:41 [in UniMath.Algebra.Universal.HVectors]
M:41 [in UniMath.Ktheory.GrothendieckGroup]
m:41 [in UniMath.PAdics.lemmas]
m:41 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
m:41 [in UniMath.SubstitutionSystems.LiftingInitial]
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m:411 [in UniMath.Combinatorics.StandardFiniteSets]
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m:417 [in UniMath.Foundations.NaturalNumbers]
m:417 [in UniMath.NumberSystems.Integers]
m:419 [in UniMath.NumberSystems.Integers]
M:42 [in UniMath.CategoryTheory.ExactCategories.Tests]
M:42 [in UniMath.CategoryTheory.Monads.RelativeModules]
M:42 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
M:42 [in UniMath.Algebra.Modules.Submodule]
m:42 [in UniMath.NumberSystems.Integers]
M:42 [in UniMath.CategoryTheory.Additive]
m:42 [in UniMath.SubstitutionSystems.LiftingInitial]
m:420 [in UniMath.Foundations.NaturalNumbers]
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m:43 [in UniMath.SubstitutionSystems.LiftingInitial]
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M:44 [in UniMath.CategoryTheory.limits.cones]
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m:45 [in UniMath.Foundations.NaturalNumbers]
M:45 [in UniMath.CategoryTheory.opp_precat]
M:45 [in UniMath.Algebra.Modules.Submodule]
M:45 [in UniMath.SubstitutionSystems.MultiSorted_alt]
m:45 [in UniMath.Bicategories.Modifications.Modification]
M:45 [in UniMath.CategoryTheory.Additive]
M:450 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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M:50 [in UniMath.HomologicalAlgebra.Triangulated]
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M:506 [in UniMath.HomologicalAlgebra.Complexes]
M:507 [in UniMath.CategoryTheory.Core.Isos]
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M:51 [in UniMath.CategoryTheory.ExactCategories.Tests]
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M:51 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
M:51 [in UniMath.Ktheory.GrothendieckGroup]
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M:51 [in UniMath.SubstitutionSystems.MultiSorted]
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O

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PA:10 [in UniMath.CategoryTheory.PreAdditive]
PA:10 [in UniMath.CategoryTheory.Additive]
Pa:103 [in UniMath.CategoryTheory.limits.products]
PA:13 [in UniMath.CategoryTheory.Additive]
PA:2 [in UniMath.CategoryTheory.Additive]
pa:20 [in UniMath.CategoryTheory.limits.graphs.binproducts]
PA:21 [in UniMath.CategoryTheory.PreAdditive]
PA:240 [in UniMath.CategoryTheory.PseudoElements]
PA:250 [in UniMath.CategoryTheory.PseudoElements]
PA:5 [in UniMath.CategoryTheory.Additive]
pa:68 [in UniMath.CategoryTheory.limits.products]
PA:7 [in UniMath.CategoryTheory.Additive]
PA:70 [in UniMath.CategoryTheory.PreAdditive]
PA:72 [in UniMath.CategoryTheory.PreAdditive]
pa:77 [in UniMath.CategoryTheory.limits.binproducts]
PA:8 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
Pa:85 [in UniMath.CategoryTheory.limits.products]
PA:9 [in UniMath.CategoryTheory.Additive]
Pa:94 [in UniMath.CategoryTheory.limits.products]
Pbs:153 [in UniMath.CategoryTheory.limits.Opp]
Pbs:326 [in UniMath.CategoryTheory.limits.Opp]
pb_sqr:23 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
pb_B:14 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
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pb':130 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb':185 [in UniMath.CategoryTheory.limits.pushouts]
Pb':192 [in UniMath.CategoryTheory.limits.pushouts]
Pb':199 [in UniMath.CategoryTheory.limits.pushouts]
Pb':206 [in UniMath.CategoryTheory.limits.pushouts]
Pb':213 [in UniMath.CategoryTheory.limits.pushouts]
Pb':215 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb':222 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb':222 [in UniMath.CategoryTheory.limits.pullbacks]
Pb':229 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb':229 [in UniMath.CategoryTheory.limits.pullbacks]
Pb':236 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb':236 [in UniMath.CategoryTheory.limits.pullbacks]
Pb':243 [in UniMath.CategoryTheory.limits.pullbacks]
pb':250 [in UniMath.CategoryTheory.limits.pullbacks]
Pb':260 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb':277 [in UniMath.CategoryTheory.limits.pullbacks]
Pb':60 [in UniMath.CategoryTheory.AbelianPushoutPullback]
Pb':63 [in UniMath.CategoryTheory.AbelianPushoutPullback]
PB:1 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
PB:10 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
pb:1010 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:107 [in UniMath.CategoryTheory.limits.pushouts]
Pb:107 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
pb:1118 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:117 [in UniMath.CategoryTheory.limits.pushouts]
Pb:117 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
pb:121 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:121 [in UniMath.CategoryTheory.limits.pullbacks]
Pb:128 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
pb:129 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:131 [in UniMath.CategoryTheory.limits.pullbacks]
PB:1416 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:151 [in UniMath.CategoryTheory.limits.Opp]
Pb:166 [in UniMath.CategoryTheory.limits.pushouts]
Pb:173 [in UniMath.CategoryTheory.limits.pushouts]
Pb:177 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:179 [in UniMath.CategoryTheory.limits.pullbacks]
Pb:184 [in UniMath.CategoryTheory.limits.pushouts]
pb:19 [in UniMath.CategoryTheory.categories.HSET.Structures]
Pb:191 [in UniMath.CategoryTheory.limits.pushouts]
Pb:198 [in UniMath.CategoryTheory.limits.pushouts]
pb:200 [in UniMath.CategoryTheory.ExactCategories.Tests]
Pb:203 [in UniMath.CategoryTheory.limits.pullbacks]
Pb:205 [in UniMath.CategoryTheory.limits.pushouts]
Pb:205 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
pb:21 [in UniMath.CategoryTheory.limits.graphs.binproducts]
Pb:210 [in UniMath.CategoryTheory.limits.pullbacks]
Pb:212 [in UniMath.CategoryTheory.limits.pushouts]
Pb:214 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
pb:22 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Pb:221 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:221 [in UniMath.CategoryTheory.limits.pullbacks]
PB:222 [in UniMath.CategoryTheory.limits.pushouts]
Pb:228 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:228 [in UniMath.CategoryTheory.limits.pullbacks]
PB:230 [in UniMath.CategoryTheory.limits.pushouts]
Pb:235 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:235 [in UniMath.CategoryTheory.limits.pullbacks]
Pb:242 [in UniMath.CategoryTheory.limits.pullbacks]
PB:246 [in UniMath.CategoryTheory.slicecat]
pb:249 [in UniMath.CategoryTheory.limits.pullbacks]
Pb:259 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:262 [in UniMath.CategoryTheory.PseudoElements]
Pb:271 [in UniMath.CategoryTheory.PseudoElements]
pb:272 [in UniMath.CategoryTheory.PrecategoryBinProduct]
Pb:276 [in UniMath.CategoryTheory.limits.pullbacks]
Pb:280 [in UniMath.CategoryTheory.PseudoElements]
PB:284 [in UniMath.CategoryTheory.limits.pullbacks]
Pb:289 [in UniMath.CategoryTheory.PseudoElements]
PB:292 [in UniMath.CategoryTheory.limits.pullbacks]
Pb:324 [in UniMath.CategoryTheory.limits.Opp]
pb:331 [in UniMath.CategoryTheory.limits.pushouts]
pb:333 [in UniMath.CategoryTheory.limits.pushouts]
pb:371 [in UniMath.CategoryTheory.limits.pullbacks]
PB:4 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
pb:432 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pb:439 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Pb:44 [in UniMath.CategoryTheory.AbelianPushoutPullback]
pb:446 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Pb:449 [in UniMath.CategoryTheory.limits.pullbacks]
Pb:50 [in UniMath.CategoryTheory.AbelianPushoutPullback]
Pb:57 [in UniMath.CategoryTheory.PseudoElements]
pb:571 [in UniMath.CategoryTheory.limits.pullbacks]
pb:573 [in UniMath.CategoryTheory.limits.pullbacks]
pb:692 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:70 [in UniMath.CategoryTheory.AbelianPushoutPullback]
pb:719 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:73 [in UniMath.CategoryTheory.limits.pushouts]
Pb:74 [in UniMath.CategoryTheory.limits.pullbacks]
pb:75 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:76 [in UniMath.CategoryTheory.AbelianPushoutPullback]
pb:78 [in UniMath.CategoryTheory.limits.binproducts]
Pb:79 [in UniMath.CategoryTheory.limits.pushouts]
Pb:79 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
PB:8 [in UniMath.CategoryTheory.Subobjects]
Pb:80 [in UniMath.CategoryTheory.limits.pullbacks]
PB:813 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PB:842 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:85 [in UniMath.CategoryTheory.limits.pushouts]
Pb:85 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:86 [in UniMath.CategoryTheory.limits.pullbacks]
PB:9 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
Pb:91 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
PB:918 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pb:97 [in UniMath.CategoryTheory.limits.pushouts]
Pb:97 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pb:98 [in UniMath.CategoryTheory.limits.pullbacks]
Pcd:102 [in UniMath.CategoryTheory.limits.graphs.binproducts]
Pcd:106 [in UniMath.CategoryTheory.limits.binproducts]
Pcd:113 [in UniMath.CategoryTheory.limits.graphs.binproducts]
Pcd:114 [in UniMath.CategoryTheory.limits.binproducts]
Pcd:125 [in UniMath.CategoryTheory.limits.binproducts]
Pcd:78 [in UniMath.CategoryTheory.limits.graphs.binproducts]
Pcd:86 [in UniMath.CategoryTheory.limits.graphs.binproducts]
Pcd:90 [in UniMath.CategoryTheory.limits.binproducts]
Pcd:94 [in UniMath.CategoryTheory.limits.graphs.binproducts]
Pcd:98 [in UniMath.CategoryTheory.limits.binproducts]
Pcomp:12 [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
PC:10 [in UniMath.CategoryTheory.Adjunctions.Examples]
Pc:100 [in UniMath.CategoryTheory.limits.products]
Pc:112 [in UniMath.CategoryTheory.limits.products]
PC:114 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
PC:117 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
PC:118 [in UniMath.CategoryTheory.limits.coproducts]
PC:120 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
PC:121 [in UniMath.CategoryTheory.limits.coproducts]
PC:123 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
PC:126 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
PC:142 [in UniMath.CategoryTheory.limits.products]
PC:144 [in UniMath.CategoryTheory.slicecat]
PC:164 [in UniMath.CategoryTheory.limits.binproducts]
PC:190 [in UniMath.CategoryTheory.slicecat]
PC:2 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
PC:2 [in UniMath.CategoryTheory.YonedaBinproducts]
PC:2 [in UniMath.CategoryTheory.Adjunctions.Examples]
PC:2 [in UniMath.CategoryTheory.exponentials]
PC:220 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:223 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:225 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:228 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:235 [in UniMath.CategoryTheory.limits.bincoproducts]
PC:237 [in UniMath.CategoryTheory.limits.bincoproducts]
PC:239 [in UniMath.CategoryTheory.limits.bincoproducts]
PC:252 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:257 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:262 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:281 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:29 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
PC:290 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:341 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PC:5 [in UniMath.CategoryTheory.Adjunctions.Examples]
PC:68 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
PC:7 [in UniMath.CategoryTheory.Adjunctions.Examples]
PC:71 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
Pc:82 [in UniMath.CategoryTheory.limits.products]
Pc:91 [in UniMath.CategoryTheory.limits.products]
PD:217 [in UniMath.CategoryTheory.PseudoElements]
PD:224 [in UniMath.CategoryTheory.PseudoElements]
PD:231 [in UniMath.CategoryTheory.PseudoElements]
PD:342 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
PD:4 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
PE1:16 [in UniMath.CategoryTheory.PseudoElements]
PE1:22 [in UniMath.CategoryTheory.PseudoElements]
PE1:29 [in UniMath.CategoryTheory.PseudoElements]
PE1:33 [in UniMath.CategoryTheory.PseudoElements]
PE1:37 [in UniMath.CategoryTheory.PseudoElements]
PE1:41 [in UniMath.CategoryTheory.PseudoElements]
PE1:45 [in UniMath.CategoryTheory.PseudoElements]
PE2:17 [in UniMath.CategoryTheory.PseudoElements]
PE2:23 [in UniMath.CategoryTheory.PseudoElements]
PE2:30 [in UniMath.CategoryTheory.PseudoElements]
PE2:34 [in UniMath.CategoryTheory.PseudoElements]
PE2:38 [in UniMath.CategoryTheory.PseudoElements]
PE2:42 [in UniMath.CategoryTheory.PseudoElements]
PE2:46 [in UniMath.CategoryTheory.PseudoElements]
PE:143 [in UniMath.CategoryTheory.PseudoElements]
PE:145 [in UniMath.CategoryTheory.PseudoElements]
PE:158 [in UniMath.CategoryTheory.PseudoElements]
PE:161 [in UniMath.CategoryTheory.PseudoElements]
PE:31 [in UniMath.CategoryTheory.PseudoElements]
PE:35 [in UniMath.CategoryTheory.PseudoElements]
PE:39 [in UniMath.CategoryTheory.PseudoElements]
PE:43 [in UniMath.CategoryTheory.PseudoElements]
pfg:50 [in UniMath.CategoryTheory.limits.pushouts]
pfg:51 [in UniMath.CategoryTheory.limits.pullbacks]
pgpd:20 [in UniMath.CategoryTheory.Groupoids]
pgpd:27 [in UniMath.CategoryTheory.Groupoids]
pgpd:28 [in UniMath.CategoryTheory.Groupoids]
pgpd:31 [in UniMath.CategoryTheory.Groupoids]
pgpd:33 [in UniMath.CategoryTheory.Groupoids]
phi:43 [in UniMath.Foundations.PartA]
phi:79 [in UniMath.Foundations.PartA]
PhSet:63 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
Pid:6 [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
pi:56 [in UniMath.CategoryTheory.Profunctors.Core]
pi:65 [in UniMath.CategoryTheory.Profunctors.Core]
pi:68 [in UniMath.CategoryTheory.Profunctors.Core]
pi:7 [in UniMath.CategoryTheory.limits.products]
pl1:68 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl1:71 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl1:74 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl1:80 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl1:82 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl1:84 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl2:69 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl2:72 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl2:75 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl2:81 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl2:83 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl2:85 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl:66 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl:77 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pl:79 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pn:47 [in UniMath.Combinatorics.MetricTree]
poasymm:15 [in UniMath.CategoryTheory.categories.preorder_categories]
poasymm:20 [in UniMath.CategoryTheory.categories.preorder_categories]
poasymm:24 [in UniMath.CategoryTheory.categories.preorder_categories]
pointover:102 [in UniMath.Foundations.PartD]
pointover:105 [in UniMath.Foundations.PartD]
pointover:108 [in UniMath.Foundations.PartD]
pointover:111 [in UniMath.Foundations.PartD]
pointover:114 [in UniMath.Foundations.PartD]
pointover:117 [in UniMath.Foundations.PartD]
pointover:119 [in UniMath.Foundations.PartD]
pointover:129 [in UniMath.Foundations.PartD]
pointover:131 [in UniMath.Foundations.PartD]
pointover:132 [in UniMath.Foundations.PartD]
pointover:134 [in UniMath.Foundations.PartD]
pointover:136 [in UniMath.Foundations.PartD]
pointover:138 [in UniMath.Foundations.PartD]
pointover:140 [in UniMath.Foundations.PartD]
pointover:142 [in UniMath.Foundations.PartD]
pointover:153 [in UniMath.Foundations.PartD]
pointover:154 [in UniMath.Foundations.PartD]
pointover:174 [in UniMath.Foundations.PartD]
pointover:180 [in UniMath.Foundations.PartD]
pointover:183 [in UniMath.Foundations.PartD]
pointover:185 [in UniMath.Foundations.PartD]
pointover:186 [in UniMath.Foundations.PartD]
pointover:187 [in UniMath.Foundations.PartD]
pointover:99 [in UniMath.Foundations.PartD]
Postfixedpoint:7 [in UniMath.Algebra.FixedPointTheorems]
PostS:224 [in UniMath.CategoryTheory.LocalizingClass]
PostS:234 [in UniMath.CategoryTheory.LocalizingClass]
PostS:244 [in UniMath.CategoryTheory.LocalizingClass]
PostS:254 [in UniMath.CategoryTheory.LocalizingClass]
Pos:152 [in UniMath.CategoryTheory.limits.Opp]
Pos:325 [in UniMath.CategoryTheory.limits.Opp]
Po':187 [in UniMath.CategoryTheory.limits.graphs.pushouts]
Po':194 [in UniMath.CategoryTheory.limits.graphs.pushouts]
Po':201 [in UniMath.CategoryTheory.limits.graphs.pushouts]
Po':208 [in UniMath.CategoryTheory.limits.graphs.pushouts]
Po':23 [in UniMath.CategoryTheory.AbelianPushoutPullback]
Po':232 [in UniMath.CategoryTheory.limits.graphs.pushouts]
Po':26 [in UniMath.CategoryTheory.AbelianPushoutPullback]
PO:10 [in UniMath.CategoryTheory.categories.preorder_categories]
Po:105 [in UniMath.CategoryTheory.limits.graphs.pushouts]
po:1095 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:115 [in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:12 [in UniMath.CategoryTheory.categories.preorder_categories]
Po:126 [in UniMath.CategoryTheory.limits.graphs.pushouts]
po:129 [in UniMath.Combinatorics.OrderedSets]
Po:13 [in UniMath.CategoryTheory.AbelianPushoutPullback]
po:136 [in UniMath.Combinatorics.OrderedSets]
PO:1427 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:145 [in UniMath.CategoryTheory.limits.Opp]
Po:147 [in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:17 [in UniMath.CategoryTheory.categories.preorder_categories]
Po:175 [in UniMath.CategoryTheory.limits.graphs.pushouts]
Po:186 [in UniMath.CategoryTheory.limits.graphs.pushouts]
po:188 [in UniMath.Combinatorics.OrderedSets]
Po:193 [in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:2 [in UniMath.CategoryTheory.categories.preorder_categories]
Po:200 [in UniMath.CategoryTheory.limits.graphs.pushouts]
Po:207 [in UniMath.CategoryTheory.limits.graphs.pushouts]
po:210 [in UniMath.CategoryTheory.ExactCategories.Tests]
PO:22 [in UniMath.CategoryTheory.categories.preorder_categories]
PO:23 [in UniMath.CategoryTheory.categories.preorder_categories]
Po:231 [in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:3 [in UniMath.CategoryTheory.categories.preorder_categories]
Po:318 [in UniMath.CategoryTheory.limits.Opp]
Po:32 [in UniMath.CategoryTheory.AbelianPushoutPullback]
Po:38 [in UniMath.CategoryTheory.AbelianPushoutPullback]
PO:4 [in UniMath.CategoryTheory.categories.preorder_categories]
po:459 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
po:466 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
po:473 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
po:68 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
po:681 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:7 [in UniMath.CategoryTheory.AbelianPushoutPullback]
PO:7 [in UniMath.CategoryTheory.categories.preorder_categories]
po:703 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:77 [in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:8 [in UniMath.CategoryTheory.categories.preorder_categories]
PO:819 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:83 [in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:848 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:89 [in UniMath.CategoryTheory.limits.graphs.pushouts]
PO:9 [in UniMath.CategoryTheory.categories.preorder_categories]
PO:924 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Po:95 [in UniMath.CategoryTheory.limits.graphs.pushouts]
ppp:211 [in UniMath.MoreFoundations.PathsOver]
Pprop:227 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ppr1:120 [in UniMath.Bicategories.Colimits.Products]
ppr2:121 [in UniMath.Bicategories.Colimits.Products]
pp':42 [in UniMath.Foundations.UnivalenceAxiom]
pp1p2:17 [in UniMath.CategoryTheory.limits.products]
pp1p2:19 [in UniMath.CategoryTheory.limits.binproducts]
pp:1066 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
pp:1095 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
pp:1118 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
pp:1178 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
pp:1203 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
pp:1228 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
PP:13 [in UniMath.Foundations.PartD]
pp:13 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
pp:151 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
pp:1834 [in UniMath.Foundations.PartA]
pp:1835 [in UniMath.Foundations.PartA]
pp:1836 [in UniMath.Foundations.PartA]
pp:1837 [in UniMath.Foundations.PartA]
PP:26 [in UniMath.Foundations.PartD]
pp:262 [in UniMath.MoreFoundations.PathsOver]
PP:30 [in UniMath.Foundations.PartD]
pp:33 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
PP:34 [in UniMath.Foundations.PartD]
pp:383 [in UniMath.MoreFoundations.PathsOver]
pp:386 [in UniMath.Foundations.PartA]
PP:4 [in UniMath.Foundations.PartD]
pp:401 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
pp:424 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
PP:43 [in UniMath.Foundations.PartD]
pp:471 [in UniMath.CategoryTheory.Core.Functors]
pp:472 [in UniMath.CategoryTheory.Core.Functors]
pp:473 [in UniMath.CategoryTheory.Core.Functors]
pp:474 [in UniMath.CategoryTheory.Core.Functors]
pp:50 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
pp:551 [in UniMath.CategoryTheory.DisplayedCats.Core]
pp:592 [in UniMath.MoreFoundations.PathsOver]
pp:603 [in UniMath.MoreFoundations.PathsOver]
pp:705 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pp:721 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PP:79 [in UniMath.Algebra.Modules.Multimodules]
pp:83 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
PP:87 [in UniMath.Algebra.Modules.Multimodules]
pp:94 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
pq:1263 [in UniMath.Foundations.PartA]
pq:1264 [in UniMath.Foundations.PartA]
pq:393 [in UniMath.MoreFoundations.PathsOver]
pq:483 [in UniMath.MoreFoundations.PathsOver]
pq:505 [in UniMath.MoreFoundations.PathsOver]
pq:506 [in UniMath.MoreFoundations.PathsOver]
pq:518 [in UniMath.MoreFoundations.PathsOver]
pq:519 [in UniMath.MoreFoundations.PathsOver]
prejoin:87 [in UniMath.SubstitutionSystems.SubstitutionSystems]
prestrength_in_first_arg:14 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
PreS:173 [in UniMath.CategoryTheory.LocalizingClass]
PreS:183 [in UniMath.CategoryTheory.LocalizingClass]
PreS:193 [in UniMath.CategoryTheory.LocalizingClass]
PreS:203 [in UniMath.CategoryTheory.LocalizingClass]
prod':258 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:219 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:223 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:227 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:234 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:241 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:248 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:257 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:331 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:336 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:343 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:618 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:625 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
prod:631 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Progressive_map:5 [in UniMath.Algebra.FixedPointTheorems]
prop:32 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
prop:39 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
pr1:138 [in UniMath.CategoryTheory.Monads.Monads]
pr1:139 [in UniMath.CategoryTheory.Monads.Monads]
pr1:140 [in UniMath.CategoryTheory.Monads.Monads]
pr1:141 [in UniMath.CategoryTheory.Monads.Monads]
pr1:142 [in UniMath.CategoryTheory.Monads.Monads]
pr1:143 [in UniMath.CategoryTheory.Monads.Monads]
pr1:144 [in UniMath.CategoryTheory.Monads.Monads]
pr1:145 [in UniMath.CategoryTheory.Monads.Monads]
pr1:146 [in UniMath.CategoryTheory.Monads.Monads]
pr1:147 [in UniMath.CategoryTheory.Monads.Monads]
pr1:148 [in UniMath.CategoryTheory.Monads.Monads]
pr1:149 [in UniMath.CategoryTheory.Monads.Monads]
pr:1093 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:1103 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:1116 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:1126 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:198 [in UniMath.CategoryTheory.ExactCategories.Tests]
pr:208 [in UniMath.CategoryTheory.ExactCategories.Tests]
pr:679 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:690 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:701 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr:717 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
psF:9 [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
ps:109 [in UniMath.MoreFoundations.Sets]
ps:36 [in UniMath.Algebra.Universal.HVectors]
ps:58 [in UniMath.MoreFoundations.Sets]
ps:70 [in UniMath.MoreFoundations.Sets]
ps:87 [in UniMath.MoreFoundations.Sets]
ps:897 [in UniMath.Foundations.Sets]
PTD:175 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:176 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:177 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:179 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:184 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:235 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:251 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:273 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:276 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:279 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:284 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:287 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:290 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:293 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:296 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:302 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:309 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:316 [in UniMath.HomologicalAlgebra.Triangulated]
PTD:317 [in UniMath.HomologicalAlgebra.Triangulated]
pt':155 [in UniMath.MoreFoundations.Propositions]
pt':161 [in UniMath.MoreFoundations.Propositions]
pt':72 [in UniMath.SyntheticHomotopyTheory.Circle2]
PT:1029 [in UniMath.HomologicalAlgebra.Triangulated]
pt:13 [in UniMath.SyntheticHomotopyTheory.Circle2]
pt:23 [in UniMath.SyntheticHomotopyTheory.Circle2]
pt:31 [in UniMath.SyntheticHomotopyTheory.Circle2]
PT:319 [in UniMath.HomologicalAlgebra.Triangulated]
PT:320 [in UniMath.HomologicalAlgebra.Triangulated]
PT:321 [in UniMath.HomologicalAlgebra.Triangulated]
PT:340 [in UniMath.HomologicalAlgebra.Triangulated]
PT:365 [in UniMath.HomologicalAlgebra.Triangulated]
PT:384 [in UniMath.HomologicalAlgebra.Triangulated]
pt:4 [in UniMath.SyntheticHomotopyTheory.Circle2]
pt:40 [in UniMath.SyntheticHomotopyTheory.Circle2]
PT:403 [in UniMath.HomologicalAlgebra.Triangulated]
PT:422 [in UniMath.HomologicalAlgebra.Triangulated]
PT:441 [in UniMath.HomologicalAlgebra.Triangulated]
PT:460 [in UniMath.HomologicalAlgebra.Triangulated]
PT:479 [in UniMath.HomologicalAlgebra.Triangulated]
pt:49 [in UniMath.SyntheticHomotopyTheory.Circle2]
PT:498 [in UniMath.HomologicalAlgebra.Triangulated]
PT:516 [in UniMath.HomologicalAlgebra.Triangulated]
PT:554 [in UniMath.HomologicalAlgebra.Triangulated]
pt:56 [in UniMath.SyntheticHomotopyTheory.Circle2]
pt:59 [in UniMath.SyntheticHomotopyTheory.Circle2]
PT:611 [in UniMath.HomologicalAlgebra.Triangulated]
PT:615 [in UniMath.HomologicalAlgebra.Triangulated]
PT:636 [in UniMath.HomologicalAlgebra.Triangulated]
pt:64 [in UniMath.SyntheticHomotopyTheory.Circle2]
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PT:696 [in UniMath.HomologicalAlgebra.Triangulated]
PT:709 [in UniMath.HomologicalAlgebra.Triangulated]
pt:71 [in UniMath.SyntheticHomotopyTheory.Circle2]
PT:722 [in UniMath.HomologicalAlgebra.Triangulated]
PT:735 [in UniMath.HomologicalAlgebra.Triangulated]
PT:777 [in UniMath.HomologicalAlgebra.Triangulated]
PT:819 [in UniMath.HomologicalAlgebra.Triangulated]
PT:861 [in UniMath.HomologicalAlgebra.Triangulated]
PT:903 [in UniMath.HomologicalAlgebra.Triangulated]
PT:945 [in UniMath.HomologicalAlgebra.Triangulated]
PT:987 [in UniMath.HomologicalAlgebra.Triangulated]
PWA:46 [in UniMath.CategoryTheory.PreAdditive]
PWA:52 [in UniMath.CategoryTheory.PreAdditive]
PWA:58 [in UniMath.CategoryTheory.PreAdditive]
PWA:64 [in UniMath.CategoryTheory.PreAdditive]
pw0:104 [in UniMath.MoreFoundations.Univalence]
pX':45 [in UniMath.Foundations.HLevels]
pX:44 [in UniMath.Foundations.HLevels]
Px:56 [in UniMath.CategoryTheory.elems_slice_equiv]
Px:61 [in UniMath.CategoryTheory.elems_slice_equiv]
Px:62 [in UniMath.CategoryTheory.elems_slice_equiv]
pyx:104 [in UniMath.Combinatorics.WellFoundedRelations]
pyx:107 [in UniMath.Combinatorics.WellFoundedRelations]
pyx:71 [in UniMath.Combinatorics.WellFoundedRelations]
pyx:94 [in UniMath.Combinatorics.WellFoundedRelations]
pyx:99 [in UniMath.Combinatorics.WellFoundedRelations]
PZ:14 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
PZ:33 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
P_impl:76 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
P_or:73 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
P_and:70 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
P_not:67 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
P_vars:65 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
P_dir:572 [in UniMath.Algebra.FixedPointTheorems]
P_DC:563 [in UniMath.Algebra.FixedPointTheorems]
P_complete:518 [in UniMath.Algebra.FixedPointTheorems]
P_complete:488 [in UniMath.Algebra.FixedPointTheorems]
P_CC:402 [in UniMath.Algebra.FixedPointTheorems]
p_directed:377 [in UniMath.Algebra.FixedPointTheorems]
P_DC:374 [in UniMath.Algebra.FixedPointTheorems]
P_DC:371 [in UniMath.Algebra.FixedPointTheorems]
P_CC:365 [in UniMath.Algebra.FixedPointTheorems]
P_CC:362 [in UniMath.Algebra.FixedPointTheorems]
P_complete:356 [in UniMath.Algebra.FixedPointTheorems]
p_directed:324 [in UniMath.Algebra.FixedPointTheorems]
P_dir:14 [in UniMath.Algebra.FixedPointTheorems]
P_complete:11 [in UniMath.Algebra.FixedPointTheorems]
P_inhab:5 [in UniMath.Combinatorics.BoundedSearch]
P_dec:3 [in UniMath.Combinatorics.BoundedSearch]
p'':202 [in UniMath.MoreFoundations.PathsOver]
P'':37 [in UniMath.Algebra.FixedPointTheorems]
p':101 [in UniMath.CategoryTheory.Core.Univalence]
p':107 [in UniMath.MoreFoundations.PathsOver]
p':1108 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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p':12 [in UniMath.Foundations.HLevels]
p':13 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
p':131 [in UniMath.Foundations.UnivalenceAxiom]
p':145 [in UniMath.Foundations.UnivalenceAxiom]
p':154 [in UniMath.PAdics.lemmas]
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p':1758 [in UniMath.Foundations.PartA]
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p':183 [in UniMath.PAdics.fps]
p':19 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
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p':201 [in UniMath.MoreFoundations.PathsOver]
P':226 [in UniMath.Foundations.Propositions]
P':229 [in UniMath.Foundations.Propositions]
P':232 [in UniMath.Foundations.Propositions]
P':235 [in UniMath.Foundations.Propositions]
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P':261 [in UniMath.Foundations.Propositions]
P':263 [in UniMath.Foundations.Propositions]
p':268 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p':31 [in UniMath.CategoryTheory.elems_slice_equiv]
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p':34 [in UniMath.CategoryTheory.elems_slice_equiv]
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P':36 [in UniMath.Algebra.FixedPointTheorems]
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p':426 [in UniMath.MoreFoundations.PathsOver]
p':438 [in UniMath.MoreFoundations.PathsOver]
p':44 [in UniMath.Algebra.FixedPointTheorems]
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p':5 [in UniMath.Foundations.HLevels]
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p':584 [in UniMath.MoreFoundations.PathsOver]
p':599 [in UniMath.MoreFoundations.PathsOver]
P':60 [in UniMath.CategoryTheory.Core.TransportMorphisms]
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p':661 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P':71 [in UniMath.CategoryTheory.Morphisms]
p':714 [in UniMath.MoreFoundations.PartA]
p':719 [in UniMath.MoreFoundations.PartA]
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P':73 [in UniMath.CategoryTheory.Core.TransportMorphisms]
p':730 [in UniMath.MoreFoundations.PartA]
P':80 [in UniMath.CategoryTheory.Morphisms]
p':82 [in UniMath.SyntheticHomotopyTheory.Circle2]
p0:10 [in UniMath.Combinatorics.Lists]
p0:10 [in UniMath.MoreFoundations.Nat]
p0:103 [in UniMath.MoreFoundations.Univalence]
p0:103 [in UniMath.SyntheticHomotopyTheory.AffineLine]
p0:114 [in UniMath.CategoryTheory.catiso]
p0:128 [in UniMath.CategoryTheory.catiso]
p0:158 [in UniMath.Combinatorics.FiniteSequences]
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p0:17 [in UniMath.MoreFoundations.Nat]
p0:181 [in UniMath.Combinatorics.FiniteSequences]
p0:2 [in UniMath.SyntheticHomotopyTheory.AffineLine]
p0:2 [in UniMath.MoreFoundations.Nat]
p0:21 [in UniMath.SyntheticHomotopyTheory.AffineLine]
p0:216 [in UniMath.Combinatorics.FiniteSequences]
p0:223 [in UniMath.Combinatorics.FiniteSequences]
p0:231 [in UniMath.Combinatorics.FiniteSequences]
p0:24 [in UniMath.Combinatorics.FiniteSequences]
p0:26 [in UniMath.MoreFoundations.Nat]
p0:317 [in UniMath.Combinatorics.StandardFiniteSets]
p0:33 [in UniMath.MoreFoundations.Nat]
p0:44 [in UniMath.Combinatorics.MetricTree]
p0:91 [in UniMath.CategoryTheory.catiso]
p11:548 [in UniMath.CategoryTheory.limits.pullbacks]
p12:550 [in UniMath.CategoryTheory.limits.pullbacks]
P1:101 [in UniMath.CategoryTheory.PseudoElements]
P1:107 [in UniMath.CategoryTheory.PseudoElements]
p1:11 [in UniMath.CategoryTheory.limits.BinDirectSums]
p1:118 [in UniMath.CategoryTheory.catiso]
p1:131 [in UniMath.CategoryTheory.catiso]
p1:136 [in UniMath.CategoryTheory.limits.Opp]
p1:14 [in UniMath.CategoryTheory.limits.graphs.binproducts]
p1:14 [in UniMath.CategoryTheory.categories.HSET.Structures]
p1:14 [in UniMath.CategoryTheory.limits.binproducts]
p1:142 [in UniMath.CategoryTheory.limits.pullbacks]
p1:148 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
p1:15 [in UniMath.Induction.M.Chains]
p1:152 [in UniMath.CategoryTheory.limits.pullbacks]
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p1:32 [in UniMath.CategoryTheory.limits.pullbacks]
p1:328 [in UniMath.CategoryTheory.limits.pushouts]
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p1:54 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
P1:55 [in UniMath.CategoryTheory.PseudoElements]
p1:56 [in UniMath.CategoryTheory.limits.BinDirectSums]
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p1:60 [in UniMath.Induction.W.Naturals]
p1:614 [in UniMath.Foundations.Sets]
P1:62 [in UniMath.CategoryTheory.PseudoElements]
p1:64 [in UniMath.CategoryTheory.limits.BinDirectSums]
P1:71 [in UniMath.CategoryTheory.PseudoElements]
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p1:94 [in UniMath.CategoryTheory.catiso]
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p2:10 [in UniMath.CategoryTheory.limits.pullbacks]
P2:102 [in UniMath.CategoryTheory.PseudoElements]
P2:108 [in UniMath.CategoryTheory.PseudoElements]
p2:12 [in UniMath.CategoryTheory.limits.BinDirectSums]
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p2:143 [in UniMath.CategoryTheory.limits.pullbacks]
p2:149 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
p2:15 [in UniMath.CategoryTheory.limits.graphs.binproducts]
p2:15 [in UniMath.CategoryTheory.categories.HSET.Structures]
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p2:155 [in UniMath.CategoryTheory.ExactCategories.Tests]
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P2:56 [in UniMath.CategoryTheory.PseudoElements]
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P:1 [in UniMath.Foundations.HLevels]
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P:1 [in UniMath.MoreFoundations.Nat]
P:1 [in UniMath.MoreFoundations.Notations]
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P:10 [in UniMath.MoreFoundations.DecidablePropositions]
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P:10 [in UniMath.Algebra.FixedPointTheorems]
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P:10 [in UniMath.MoreFoundations.AxiomOfChoice]
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p:10 [in UniMath.Bicategories.Modifications.Examples.ApModification]
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p:10 [in UniMath.Combinatorics.VectorsTests]
P:10 [in UniMath.CategoryTheory.categories.HSET.Structures]
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P:100 [in UniMath.CategoryTheory.Morphisms]
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P:102 [in UniMath.Combinatorics.OrderedSets]
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P:102 [in UniMath.MoreFoundations.Univalence]
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P:106 [in UniMath.Topology.Topology]
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P:108 [in UniMath.Topology.Topology]
P:108 [in UniMath.CategoryTheory.limits.pullbacks]
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p:11 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
P:11 [in UniMath.Foundations.PartD]
p:11 [in UniMath.Folds.folds_pre_2_cat]
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p:11 [in UniMath.Bicategories.Core.Examples.TwoType]
P:11 [in UniMath.Combinatorics.Tests]
p:11 [in UniMath.CategoryTheory.SetValuedFunctors]
p:11 [in UniMath.Bicategories.Colimits.Products]
p:11 [in UniMath.MoreFoundations.PathsOver]
p:11 [in UniMath.CategoryTheory.limits.cones]
p:11 [in UniMath.Induction.PolynomialFunctors]
P:11 [in UniMath.MoreFoundations.NegativePropositions]
P:11 [in UniMath.SyntheticHomotopyTheory.AffineLine]
P:110 [in UniMath.MoreFoundations.MoreEquivalences]
p:110 [in UniMath.CategoryTheory.Core.Functors]
p:1102 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:111 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
p:111 [in UniMath.PAdics.z_mod_p]
p:111 [in UniMath.Algebra.Universal.HVectors]
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p:1115 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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p:88 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
p:89 [in UniMath.PAdics.z_mod_p]
P:89 [in UniMath.CategoryTheory.PseudoElements]
p:89 [in UniMath.PAdics.lemmas]
p:89 [in UniMath.CategoryTheory.Core.Univalence]
p:89 [in UniMath.Combinatorics.GraphPaths]
p:89 [in UniMath.AlgebraicGeometry.Spec]
P:890 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:892 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:895 [in UniMath.Foundations.Sets]
P:898 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:899 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:9 [in UniMath.MoreFoundations.DecidablePropositions]
p:9 [in UniMath.Bicategories.Core.Examples.TwoType]
p:9 [in UniMath.MoreFoundations.StructureIdentity]
P:9 [in UniMath.Combinatorics.Lists]
p:9 [in UniMath.PAdics.fps]
P:9 [in UniMath.MoreFoundations.NegativePropositions]
P:9 [in UniMath.MoreFoundations.Nat]
p:9 [in UniMath.SubstitutionSystems.MultiSorted]
P:90 [in UniMath.MoreFoundations.DecidablePropositions]
p:90 [in UniMath.CategoryTheory.limits.cones]
p:90 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
P:901 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:901 [in UniMath.MoreFoundations.PartA]
P:901 [in UniMath.Foundations.Sets]
p:902 [in UniMath.Bicategories.Core.Bicat]
p:903 [in UniMath.Bicategories.Core.Bicat]
p:91 [in UniMath.PAdics.z_mod_p]
P:91 [in UniMath.Foundations.PartD]
p:91 [in UniMath.MoreFoundations.DecidablePropositions]
P:91 [in UniMath.MoreFoundations.MoreEquivalences]
P:91 [in UniMath.CategoryTheory.limits.pushouts]
P:91 [in UniMath.Foundations.UnivalenceAxiom]
P:91 [in UniMath.CategoryTheory.Morphisms]
P:915 [in UniMath.Foundations.Sets]
p:92 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
P:92 [in UniMath.CategoryTheory.limits.pullbacks]
p:926 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:927 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:927 [in UniMath.MoreFoundations.PartA]
p:93 [in UniMath.PAdics.z_mod_p]
p:93 [in UniMath.MoreFoundations.MoreEquivalences]
P:93 [in UniMath.Topology.Topology]
p:930 [in UniMath.CategoryTheory.DisplayedCats.Core]
p:934 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
P:935 [in UniMath.Foundations.Sets]
p:937 [in UniMath.MoreFoundations.PartA]
P:94 [in UniMath.Algebra.Universal.HVectors]
P:94 [in UniMath.CategoryTheory.PseudoElements]
p:94 [in UniMath.Bicategories.Modifications.Modification]
p:94 [in UniMath.MoreFoundations.PathsOver]
p:94 [in UniMath.CategoryTheory.Core.Univalence]
P:94 [in UniMath.CategoryTheory.Morphisms]
p:940 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:945 [in UniMath.MoreFoundations.PartA]
p:946 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:95 [in UniMath.PAdics.z_mod_p]
p:951 [in UniMath.MoreFoundations.PartA]
p:952 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
p:97 [in UniMath.PAdics.z_mod_p]
p:97 [in UniMath.PAdics.lemmas]
P:97 [in UniMath.CategoryTheory.Morphisms]
p:98 [in UniMath.CategoryTheory.Monads.RelativeMonads]
p:99 [in UniMath.PAdics.z_mod_p]
P:99 [in UniMath.MoreFoundations.Sets]
p:99 [in UniMath.Bicategories.Core.Univalence]
P:99 [in UniMath.Topology.Topology]
Pδδ₁:95 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Pδδ₂:97 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
pε:104 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
pε:115 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
pη:102 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
pη:113 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
p₀:47 [in UniMath.Combinatorics.Graph]
p₁':51 [in UniMath.Combinatorics.Graph]
P₁:230 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
p₁:362 [in UniMath.Bicategories.Colimits.Products]
p₁:42 [in UniMath.CategoryTheory.IsoCommaCategory]
p₁:50 [in UniMath.Combinatorics.Graph]
p₁:55 [in UniMath.Bicategories.Core.Examples.TwoType]
p₁:840 [in UniMath.MoreFoundations.PartA]
p₁:850 [in UniMath.MoreFoundations.PartA]
p₁:862 [in UniMath.MoreFoundations.PartA]
P₂:231 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
p₂:363 [in UniMath.Bicategories.Colimits.Products]
p₂:43 [in UniMath.CategoryTheory.IsoCommaCategory]
p₂:56 [in UniMath.Bicategories.Core.Examples.TwoType]
p₂:841 [in UniMath.MoreFoundations.PartA]
p₂:851 [in UniMath.MoreFoundations.PartA]
p₂:863 [in UniMath.MoreFoundations.PartA]
p₃:842 [in UniMath.MoreFoundations.PartA]
p₃:852 [in UniMath.MoreFoundations.PartA]
p₃:864 [in UniMath.MoreFoundations.PartA]

Q

ql:1413 [in UniMath.Foundations.Sets]
ql:499 [in UniMath.Algebra.Groups]
ql:644 [in UniMath.Algebra.Monoids]
QPC:315 [in UniMath.CategoryTheory.PreAdditive]
QPC:321 [in UniMath.CategoryTheory.PreAdditive]
qq:593 [in UniMath.MoreFoundations.PathsOver]
qr:24 [in UniMath.PAdics.z_mod_p]
qr:28 [in UniMath.PAdics.z_mod_p]
qr:307 [in UniMath.PAdics.z_mod_p]
qr:308 [in UniMath.PAdics.z_mod_p]
qr:45 [in UniMath.PAdics.z_mod_p]
qr:75 [in UniMath.PAdics.z_mod_p]
qr:76 [in UniMath.PAdics.z_mod_p]
q_cone:174 [in UniMath.Bicategories.Colimits.Pullback]
q_cone:160 [in UniMath.Bicategories.Colimits.Pullback]
q_cone:146 [in UniMath.Bicategories.Colimits.Pullback]
q'':210 [in UniMath.MoreFoundations.PathsOver]
q':129 [in UniMath.PAdics.lemmas]
q':1762 [in UniMath.Foundations.PartA]
q':209 [in UniMath.MoreFoundations.PathsOver]
q':397 [in UniMath.MoreFoundations.PartA]
q':407 [in UniMath.MoreFoundations.PartA]
q':419 [in UniMath.MoreFoundations.PartA]
q':45 [in UniMath.Algebra.FixedPointTheorems]
q':49 [in UniMath.Algebra.FixedPointTheorems]
q':577 [in UniMath.MoreFoundations.PathsOver]
q':586 [in UniMath.MoreFoundations.PathsOver]
Q':72 [in UniMath.CategoryTheory.Morphisms]
Q':81 [in UniMath.CategoryTheory.Morphisms]
q':95 [in UniMath.RealNumbers.NonnegativeReals]
q':97 [in UniMath.RealNumbers.NonnegativeReals]
q':99 [in UniMath.RealNumbers.NonnegativeReals]
q1:23 [in UniMath.Induction.M.Chains]
q:10 [in UniMath.RealNumbers.DedekindCuts]
q:10 [in UniMath.Bicategories.Core.Examples.TwoType]
Q:101 [in UniMath.CategoryTheory.Morphisms]
q:102 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
q:103 [in UniMath.RealNumbers.NonnegativeRationals]
q:104 [in UniMath.MoreFoundations.MoreEquivalences]
q:104 [in UniMath.MoreFoundations.PartA]
q:1055 [in UniMath.Foundations.PartA]
q:1056 [in UniMath.Foundations.PartA]
q:106 [in UniMath.Bicategories.Colimits.Pullback]
Q:106 [in UniMath.Algebra.Universal.HVectors]
q:106 [in UniMath.RealNumbers.NonnegativeRationals]
Q:106 [in UniMath.CategoryTheory.Morphisms]
q:1064 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
q:108 [in UniMath.SyntheticHomotopyTheory.Circle]
Q:108 [in UniMath.CategoryTheory.Morphisms]
q:109 [in UniMath.Bicategories.Colimits.Pullback]
Q:109 [in UniMath.Topology.Topology]
q:109 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
q:1092 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
q:11 [in UniMath.RealNumbers.NonnegativeReals]
Q:11 [in UniMath.MoreFoundations.DecidablePropositions]
q:11 [in UniMath.CategoryTheory.NNO]
Q:11 [in UniMath.MoreFoundations.Propositions]
q:11 [in UniMath.Combinatorics.VectorsTests]
q:11 [in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
q:111 [in UniMath.CategoryTheory.Core.Functors]
q:1114 [in UniMath.Foundations.PartA]
q:1115 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
q:1119 [in UniMath.Foundations.PartA]
q:113 [in UniMath.MoreFoundations.MoreEquivalences]
q:114 [in UniMath.Bicategories.Colimits.Pullback]
q:114 [in UniMath.MoreFoundations.Equivalences]
q:1176 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
q:119 [in UniMath.Bicategories.Colimits.Pullback]
q:119 [in UniMath.SyntheticHomotopyTheory.Circle]
q:119 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
q:12 [in UniMath.Folds.folds_pre_2_cat]
q:12 [in UniMath.PAdics.frac]
q:12 [in UniMath.Bicategories.Core.Examples.TwoType]
q:12 [in UniMath.Bicategories.Colimits.Products]
q:12 [in UniMath.CategoryTheory.limits.cones]
q:1200 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
q:121 [in UniMath.MoreFoundations.Equivalences]
Q:122 [in UniMath.Foundations.PartD]
q:1225 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
q:124 [in UniMath.Bicategories.Colimits.Pullback]
Q:125 [in UniMath.Algebra.Universal.HVectors]
Q:125 [in UniMath.Topology.Topology]
q:126 [in UniMath.MoreFoundations.MoreEquivalences]
Q:126 [in UniMath.CategoryTheory.Morphisms]
q:127 [in UniMath.RealNumbers.NonnegativeRationals]
q:127 [in UniMath.MoreFoundations.PathsOver]
q:1270 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:1271 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:128 [in UniMath.MoreFoundations.Equivalences]
q:128 [in UniMath.PAdics.lemmas]
q:1284 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:1285 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:129 [in UniMath.Bicategories.Colimits.Pullback]
q:129 [in UniMath.RealNumbers.NonnegativeRationals]
Q:129 [in UniMath.CategoryTheory.Morphisms]
q:13 [in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
q:130 [in UniMath.SyntheticHomotopyTheory.Circle]
q:131 [in UniMath.SyntheticHomotopyTheory.Circle2]
q:1319 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:133 [in UniMath.Algebra.Universal.HVectors]
q:133 [in UniMath.PAdics.lemmas]
q:134 [in UniMath.Bicategories.Colimits.Pullback]
q:134 [in UniMath.Induction.ImpredicativeInductiveSets]
q:134 [in UniMath.Folds.folds_pre_2_cat]
q:135 [in UniMath.MoreFoundations.Equivalences]
q:135 [in UniMath.RealNumbers.NonnegativeRationals]
q:136 [in UniMath.Bicategories.Core.Univalence]
q:137 [in UniMath.RealNumbers.NonnegativeRationals]
Q:1373 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:138 [in UniMath.Foundations.Propositions]
q:138 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
q:139 [in UniMath.MoreFoundations.MoreEquivalences]
q:139 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
q:14 [in UniMath.Bicategories.Core.Examples.TwoType]
q:14 [in UniMath.PAdics.lemmas]
q:140 [in UniMath.MoreFoundations.Equivalences]
q:140 [in UniMath.Folds.folds_pre_2_cat]
Q:140 [in UniMath.Foundations.Propositions]
q:1409 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:141 [in UniMath.RealNumbers.NonnegativeRationals]
q:1414 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:142 [in UniMath.Foundations.Propositions]
q:142 [in UniMath.RealNumbers.NonnegativeRationals]
q:143 [in UniMath.MoreFoundations.PathsOver]
Q:144 [in UniMath.Foundations.Propositions]
q:144 [in UniMath.RealNumbers.NonnegativeRationals]
q:145 [in UniMath.MoreFoundations.Equivalences]
q:145 [in UniMath.PAdics.lemmas]
Q:146 [in UniMath.Algebra.Universal.HVectors]
Q:146 [in UniMath.Foundations.Propositions]
q:146 [in UniMath.PAdics.fps]
Q:1474 [in UniMath.Foundations.Sets]
q:148 [in UniMath.Bicategories.Colimits.Pullback]
Q:148 [in UniMath.Foundations.PartD]
q:148 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Q:149 [in UniMath.Foundations.Propositions]
q:149 [in UniMath.PAdics.lemmas]
q:149 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Q:1490 [in UniMath.Foundations.PartA]
Q:1495 [in UniMath.Foundations.PartA]
q:15 [in UniMath.Bicategories.Colimits.Products]
Q:1500 [in UniMath.Foundations.PartA]
Q:1509 [in UniMath.Foundations.PartA]
q:151 [in UniMath.MoreFoundations.PathsOver]
q:153 [in UniMath.MoreFoundations.Equivalences]
Q:1547 [in UniMath.Foundations.PartA]
Q:157 [in UniMath.Foundations.PartD]
Q:16 [in UniMath.Combinatorics.ZFstructures]
q:16 [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
q:16 [in UniMath.RealNumbers.DedekindCuts]
q:16 [in UniMath.RealNumbers.Prelim]
q:16 [in UniMath.Combinatorics.VectorsTests]
q:160 [in UniMath.PAdics.fps]
q:162 [in UniMath.Bicategories.Colimits.Pullback]
q:162 [in UniMath.MoreFoundations.Equivalences]
q:163 [in UniMath.SyntheticHomotopyTheory.Circle]
Q:163 [in UniMath.Foundations.Propositions]
q:163 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
q:164 [in UniMath.Bicategories.Core.Univalence]
q:164 [in UniMath.MoreFoundations.PathsOver]
Q:165 [in UniMath.Foundations.PartD]
Q:165 [in UniMath.Algebra.Universal.HVectors]
Q:165 [in UniMath.Foundations.Propositions]
q:166 [in UniMath.MoreFoundations.MoreEquivalences]
q:166 [in UniMath.PAdics.fps]
Q:168 [in UniMath.Topology.Topology]
q:17 [in UniMath.PAdics.frac]
q:17 [in UniMath.Bicategories.Transformations.Examples.ApTransformation]
q:171 [in UniMath.RealNumbers.NonnegativeReals]
q:172 [in UniMath.SyntheticHomotopyTheory.Circle]
q:173 [in UniMath.RealNumbers.NonnegativeReals]
q:173 [in UniMath.MoreFoundations.Equivalences]
Q:1740 [in UniMath.Foundations.PartA]
Q:1744 [in UniMath.Foundations.PartA]
q:1749 [in UniMath.Foundations.PartA]
q:175 [in UniMath.MoreFoundations.PathsOver]
q:1750 [in UniMath.Foundations.PartA]
Q:1752 [in UniMath.Foundations.PartA]
Q:1756 [in UniMath.Foundations.PartA]
Q:176 [in UniMath.Algebra.Universal.HVectors]
q:176 [in UniMath.Foundations.PartA]
Q:1760 [in UniMath.Foundations.PartA]
q:1761 [in UniMath.Foundations.PartA]
q:18 [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
q:18 [in UniMath.MoreFoundations.Equivalences]
q:18 [in UniMath.Bicategories.Colimits.Products]
q:181 [in UniMath.SyntheticHomotopyTheory.Circle]
q:181 [in UniMath.MoreFoundations.Equivalences]
q:183 [in UniMath.Foundations.PartA]
q:185 [in UniMath.MoreFoundations.PathsOver]
Q:188 [in UniMath.Foundations.Propositions]
q:19 [in UniMath.Bicategories.Colimits.Pullback]
q:19 [in UniMath.MoreFoundations.NoInjectivePairing]
Q:190 [in UniMath.Foundations.PartD]
q:193 [in UniMath.MoreFoundations.PathsOver]
Q:198 [in UniMath.Foundations.PartD]
q:198 [in UniMath.Algebra.GroupAction]
Q:199 [in UniMath.Topology.Topology]
Q:2 [in UniMath.MoreFoundations.NegativePropositions]
Q:2 [in UniMath.MoreFoundations.Notations]
Q:20 [in UniMath.MoreFoundations.Propositions]
q:200 [in UniMath.Algebra.Universal.Terms]
Q:202 [in UniMath.Foundations.Propositions]
q:202 [in UniMath.Algebra.GroupAction]
Q:207 [in UniMath.Foundations.PartD]
q:208 [in UniMath.MoreFoundations.PathsOver]
q:21 [in UniMath.Bicategories.Colimits.Products]
q:211 [in UniMath.SyntheticHomotopyTheory.Circle]
Q:2167 [in UniMath.Foundations.PartA]
Q:2175 [in UniMath.Foundations.PartA]
q:218 [in UniMath.SyntheticHomotopyTheory.Circle]
Q:2191 [in UniMath.Foundations.PartA]
Q:2198 [in UniMath.Foundations.PartA]
Q:2209 [in UniMath.Foundations.PartA]
Q:2214 [in UniMath.Foundations.PartA]
Q:224 [in UniMath.Foundations.Propositions]
q:228 [in UniMath.SyntheticHomotopyTheory.Circle]
q:23 [in UniMath.PAdics.lemmas]
q:23 [in UniMath.CategoryTheory.limits.cones]
Q:23 [in UniMath.SyntheticHomotopyTheory.Test]
Q:233 [in UniMath.CategoryTheory.slicecat]
Q:2377 [in UniMath.Foundations.PartA]
q:238 [in UniMath.RealNumbers.NonnegativeRationals]
Q:2387 [in UniMath.Foundations.PartA]
Q:2398 [in UniMath.Foundations.PartA]
q:24 [in UniMath.Bicategories.Colimits.Pullback]
q:24 [in UniMath.Bicategories.Colimits.Products]
Q:24 [in UniMath.CategoryTheory.IsoCommaCategory]
q:240 [in UniMath.RealNumbers.NonnegativeRationals]
Q:240 [in UniMath.Topology.Topology]
q:244 [in UniMath.PAdics.lemmas]
q:26 [in UniMath.AlgebraicGeometry.Spec]
q:261 [in UniMath.SyntheticHomotopyTheory.Circle]
q:261 [in UniMath.MoreFoundations.PathsOver]
q:264 [in UniMath.RealNumbers.NonnegativeRationals]
q:27 [in UniMath.Bicategories.Colimits.Pullback]
Q:27 [in UniMath.Algebra.FixedPointTheorems]
q:27 [in UniMath.Bicategories.Core.Examples.TwoType]
q:270 [in UniMath.RealNumbers.NonnegativeRationals]
Q:272 [in UniMath.Foundations.Propositions]
Q:277 [in UniMath.MoreFoundations.PartA]
q:28 [in UniMath.Ktheory.GrothendieckGroup]
q:29 [in UniMath.Bicategories.Colimits.Products]
Q:291 [in UniMath.Algebra.FixedPointTheorems]
q:293 [in UniMath.CategoryTheory.Core.TwoCategories]
Q:296 [in UniMath.Algebra.FixedPointTheorems]
q:299 [in UniMath.MoreFoundations.PathsOver]
q:3 [in UniMath.RealNumbers.DedekindCuts]
q:30 [in UniMath.Bicategories.Colimits.Pullback]
q:30 [in UniMath.Bicategories.Core.Examples.TwoType]
Q:30 [in UniMath.MoreFoundations.Univalence]
q:30 [in UniMath.AlgebraicGeometry.Spec]
Q:30 [in UniMath.SyntheticHomotopyTheory.Test]
q:301 [in UniMath.CategoryTheory.Core.TwoCategories]
Q:308 [in UniMath.Foundations.PartB]
q:309 [in UniMath.MoreFoundations.PathsOver]
q:309 [in UniMath.CategoryTheory.Core.TwoCategories]
q:315 [in UniMath.PAdics.z_mod_p]
q:32 [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
Q:32 [in UniMath.Algebra.FixedPointTheorems]
q:324 [in UniMath.PAdics.z_mod_p]
Q:326 [in UniMath.Algebra.FixedPointTheorems]
q:326 [in UniMath.Foundations.PartA]
q:33 [in UniMath.Bicategories.Colimits.Pullback]
Q:33 [in UniMath.MoreFoundations.MoreEquivalences]
Q:331 [in UniMath.Algebra.FixedPointTheorems]
q:332 [in UniMath.MoreFoundations.PathsOver]
Q:333 [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
q:334 [in UniMath.Foundations.PartA]
Q:336 [in UniMath.Foundations.PartB]
q:338 [in UniMath.SyntheticHomotopyTheory.AffineLine]
Q:34 [in UniMath.MoreFoundations.NegativePropositions]
q:34 [in UniMath.SyntheticHomotopyTheory.Test]
Q:342 [in UniMath.Foundations.PartB]
q:343 [in UniMath.MoreFoundations.PathsOver]
Q:344 [in UniMath.Foundations.PartB]
q:347 [in UniMath.SyntheticHomotopyTheory.AffineLine]
q:351 [in UniMath.MoreFoundations.PathsOver]
q:352 [in UniMath.MoreFoundations.PartA]
q:357 [in UniMath.MoreFoundations.PartA]
q:359 [in UniMath.Bicategories.Colimits.Products]
q:36 [in UniMath.Bicategories.Colimits.Pullback]
q:36 [in UniMath.Bicategories.Colimits.Products]
Q:36 [in UniMath.MoreFoundations.NegativePropositions]
q:362 [in UniMath.MoreFoundations.PathsOver]
q:363 [in UniMath.MoreFoundations.PartA]
q:367 [in UniMath.RealNumbers.NonnegativeReals]
q:373 [in UniMath.MoreFoundations.PathsOver]
q:380 [in UniMath.RealNumbers.NonnegativeReals]
q:381 [in UniMath.MoreFoundations.PathsOver]
q:382 [in UniMath.RealNumbers.NonnegativeReals]
q:384 [in UniMath.MoreFoundations.PartA]
Q:387 [in UniMath.Foundations.PartD]
q:388 [in UniMath.MoreFoundations.PathsOver]
Q:39 [in UniMath.MoreFoundations.MoreEquivalences]
Q:396 [in UniMath.Foundations.PartD]
q:396 [in UniMath.MoreFoundations.PartA]
Q:396 [in UniMath.Topology.Filters]
q:4 [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
q:4 [in UniMath.CategoryTheory.categories.Graph]
q:402 [in UniMath.MoreFoundations.PathsOver]
Q:403 [in UniMath.Topology.Filters]
q:405 [in UniMath.MoreFoundations.PartA]
Q:409 [in UniMath.Topology.Filters]
q:41 [in UniMath.Combinatorics.Graph]
q:413 [in UniMath.MoreFoundations.PathsOver]
q:417 [in UniMath.MoreFoundations.PartA]
q:42 [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
q:42 [in UniMath.Bicategories.Colimits.Pullback]
q:42 [in UniMath.Bicategories.Core.Examples.TwoType]
q:43 [in UniMath.Algebra.FixedPointTheorems]
q:433 [in UniMath.MoreFoundations.PathsOver]
q:44 [in UniMath.PAdics.lemmas]
q:44 [in UniMath.CategoryTheory.Core.Univalence]
q:441 [in UniMath.MoreFoundations.PartA]
q:444 [in UniMath.MoreFoundations.PathsOver]
q:45 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
Q:45 [in UniMath.MoreFoundations.MoreEquivalences]
q:45 [in UniMath.Bicategories.Core.Examples.TwoType]
Q:45 [in UniMath.MoreFoundations.Propositions]
q:451 [in UniMath.MoreFoundations.PartA]
q:457 [in UniMath.MoreFoundations.PartA]
q:46 [in UniMath.MoreFoundations.DecidablePropositions]
q:46 [in UniMath.MoreFoundations.Equivalences]
Q:461 [in UniMath.Foundations.PartA]
q:466 [in UniMath.MoreFoundations.PartA]
q:467 [in UniMath.MoreFoundations.PathsOver]
q:47 [in UniMath.Algebra.FixedPointTheorems]
Q:47 [in UniMath.MoreFoundations.Propositions]
q:474 [in UniMath.MoreFoundations.PartA]
q:477 [in UniMath.Foundations.PartB]
q:479 [in UniMath.MoreFoundations.PathsOver]
q:48 [in UniMath.Bicategories.Core.Examples.TwoType]
q:48 [in UniMath.Bicategories.Core.TransportLaws]
q:483 [in UniMath.Foundations.PartB]
q:49 [in UniMath.Bicategories.Colimits.Pullback]
Q:49 [in UniMath.Foundations.PartB]
q:49 [in UniMath.PAdics.lemmas]
q:49 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
q:491 [in UniMath.MoreFoundations.PathsOver]
q:499 [in UniMath.MoreFoundations.PartA]
q:5 [in UniMath.RealNumbers.DedekindCuts]
Q:5 [in UniMath.MoreFoundations.Propositions]
Q:50 [in UniMath.Topology.Topology]
Q:50 [in UniMath.Algebra.Dcpo]
q:501 [in UniMath.MoreFoundations.PathsOver]
q:51 [in UniMath.Combinatorics.Vectors]
Q:51 [in UniMath.Foundations.PartD]
q:51 [in UniMath.Algebra.FixedPointTheorems]
Q:51 [in UniMath.MoreFoundations.MoreEquivalences]
q:51 [in UniMath.Bicategories.Core.Examples.TwoType]
q:51 [in UniMath.Bicategories.Core.Examples.StrictCats]
q:514 [in UniMath.MoreFoundations.PathsOver]
q:52 [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
Q:52 [in UniMath.Foundations.Propositions]
q:527 [in UniMath.MoreFoundations.PathsOver]
Q:53 [in UniMath.MoreFoundations.DecidablePropositions]
Q:53 [in UniMath.MoreFoundations.Propositions]
q:539 [in UniMath.MoreFoundations.PathsOver]
q:539 [in UniMath.Foundations.PartA]
q:54 [in UniMath.Bicategories.Colimits.Pullback]
q:54 [in UniMath.Algebra.FixedPointTheorems]
Q:54 [in UniMath.Foundations.Propositions]
q:549 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
q:549 [in UniMath.MoreFoundations.PathsOver]
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Q:556 [in UniMath.Foundations.PartB]
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Q:558 [in UniMath.Foundations.PartB]
Q:56 [in UniMath.Foundations.UnivalenceAxiom]
Q:56 [in UniMath.MoreFoundations.Propositions]
Q:56 [in UniMath.Algebra.Dcpo]
q:56 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
q:56 [in UniMath.PAdics.fps]
q:56 [in UniMath.Bicategories.Core.TransportLaws]
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q:561 [in UniMath.Foundations.PartA]
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q:589 [in UniMath.Foundations.PartA]
q:59 [in UniMath.Bicategories.Colimits.Pullback]
q:59 [in UniMath.RealNumbers.DedekindCuts]
Q:59 [in UniMath.MoreFoundations.MoreEquivalences]
q:597 [in UniMath.Foundations.PartA]
Q:6 [in UniMath.MoreFoundations.NegativePropositions]
q:605 [in UniMath.Foundations.PartA]
Q:61 [in UniMath.MoreFoundations.Propositions]
q:610 [in UniMath.Foundations.PartA]
q:62 [in UniMath.RealNumbers.DedekindCuts]
Q:627 [in UniMath.MoreFoundations.PartA]
Q:63 [in UniMath.MoreFoundations.DecidablePropositions]
q:63 [in UniMath.RealNumbers.DedekindCuts]
Q:63 [in UniMath.CategoryTheory.Enriched.Enriched]
q:63 [in UniMath.Combinatorics.GraphPaths]
Q:63 [in UniMath.MoreFoundations.Propositions]
q:631 [in UniMath.Foundations.PartA]
q:637 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
q:638 [in UniMath.Foundations.PartA]
q:64 [in UniMath.Bicategories.Colimits.Pullback]
Q:64 [in UniMath.MoreFoundations.MoreEquivalences]
q:65 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Q:65 [in UniMath.Topology.Topology]
q:65 [in UniMath.Bicategories.Core.TransportLaws]
q:659 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
q:66 [in UniMath.Combinatorics.ZFstructures]
q:66 [in UniMath.RealNumbers.DedekindCuts]
q:66 [in UniMath.Algebra.GroupAction]
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q:665 [in UniMath.MoreFoundations.PartA]
q:67 [in UniMath.RealNumbers.DedekindCuts]
q:67 [in UniMath.Combinatorics.Graph]
Q:67 [in UniMath.MoreFoundations.Propositions]
q:674 [in UniMath.MoreFoundations.PartA]
q:682 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:69 [in UniMath.Bicategories.Colimits.Pullback]
q:69 [in UniMath.RealNumbers.DedekindCuts]
Q:69 [in UniMath.Algebra.Universal.HVectors]
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q:724 [in UniMath.Foundations.PartA]
q:725 [in UniMath.Foundations.PartA]
q:73 [in UniMath.PAdics.z_mod_p]
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q:74 [in UniMath.RealNumbers.DedekindCuts]
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Q:78 [in UniMath.CategoryTheory.elems_slice_equiv]
q:79 [in UniMath.MoreFoundations.PathsOver]
Q:79 [in UniMath.MoreFoundations.Propositions]
Q:79 [in UniMath.CategoryTheory.Morphisms]
Q:792 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:794 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
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q:80 [in UniMath.PAdics.z_mod_p]
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q:82 [in UniMath.RealNumbers.DedekindCuts]
Q:822 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:83 [in UniMath.Bicategories.Colimits.Pullback]
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q:83 [in UniMath.CategoryTheory.limits.cones]
q:84 [in UniMath.MoreFoundations.MoreEquivalences]
q:84 [in UniMath.Algebra.GroupAction]
q:84 [in UniMath.CategoryTheory.Core.Univalence]
Q:85 [in UniMath.CategoryTheory.ExactCategories.Tests]
q:86 [in UniMath.PAdics.z_mod_p]
q:86 [in UniMath.RealNumbers.NonnegativeReals]
q:86 [in UniMath.RealNumbers.DedekindCuts]
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q:87 [in UniMath.MoreFoundations.PathsOver]
q:87 [in UniMath.HomologicalAlgebra.TranslationFunctors]
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q:88 [in UniMath.RealNumbers.NonnegativeReals]
q:88 [in UniMath.Algebra.Matrix]
Q:89 [in UniMath.CategoryTheory.ExactCategories.Tests]
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Q:891 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Q:893 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
q:9 [in UniMath.RealNumbers.DedekindCuts]
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Q:9 [in UniMath.MoreFoundations.Propositions]
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q:90 [in UniMath.Bicategories.Colimits.Pullback]
q:90 [in UniMath.RealNumbers.NonnegativeReals]
q:90 [in UniMath.PAdics.lemmas]
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Q:91 [in UniMath.MoreFoundations.Propositions]
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q:92 [in UniMath.RealNumbers.DedekindCuts]
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q₂:18 [in UniMath.Bicategories.Core.Examples.TwoType]
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R:170 [in UniMath.Algebra.Modules.Core]
R:170 [in UniMath.PAdics.lemmas]
R:170 [in UniMath.Algebra.Groups]
r:171 [in UniMath.CategoryTheory.Adjunctions.Core]
R:172 [in UniMath.PAdics.lemmas]
R:173 [in UniMath.Foundations.Sets]
R:174 [in UniMath.Algebra.Modules.Core]
R:174 [in UniMath.MoreFoundations.Sets]
R:175 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:175 [in UniMath.Foundations.Sets]
R:176 [in UniMath.CategoryTheory.Monads.RelativeModules]
R:176 [in UniMath.Algebra.Archimedean]
r:176 [in UniMath.MoreFoundations.PathsOver]
R:177 [in UniMath.Foundations.Sets]
R:178 [in UniMath.Algebra.Modules.Core]
R:178 [in UniMath.Algebra.Archimedean]
R:178 [in UniMath.PAdics.lemmas]
R:178 [in UniMath.PAdics.fps]
r:179 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
R:179 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R:18 [in UniMath.CategoryTheory.Monads.RelativeModules]
R:18 [in UniMath.Algebra.Modules.Submodule]
R:180 [in UniMath.Algebra.Archimedean]
R:181 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:181 [in UniMath.MoreFoundations.Sets]
R:182 [in UniMath.Foundations.Sets]
R:183 [in UniMath.Algebra.RigsAndRings]
R:184 [in UniMath.Algebra.Modules.Core]
R:184 [in UniMath.PAdics.lemmas]
R:185 [in UniMath.Algebra.RigsAndRings]
R:185 [in UniMath.Foundations.Sets]
R:186 [in UniMath.Algebra.Archimedean]
R:187 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:187 [in UniMath.Combinatorics.WellOrderedSets]
R:187 [in UniMath.Algebra.RigsAndRings]
R:188 [in UniMath.CategoryTheory.Monads.RelativeModules]
R:188 [in UniMath.Combinatorics.WellOrderedSets]
r:188 [in UniMath.CategoryTheory.Adjunctions.Core]
R:189 [in UniMath.PAdics.lemmas]
R:189 [in UniMath.Foundations.Sets]
R:190 [in UniMath.Algebra.Modules.Core]
R:190 [in UniMath.Algebra.Archimedean]
r:191 [in UniMath.Bicategories.Core.FullyFaithful]
r:192 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
R:192 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R:193 [in UniMath.CategoryTheory.Monads.Monads]
R:193 [in UniMath.PAdics.lemmas]
R:193 [in UniMath.Foundations.Sets]
R:194 [in UniMath.Algebra.Modules.Core]
R:194 [in UniMath.Algebra.Archimedean]
R:195 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:195 [in UniMath.Algebra.Universal.Terms]
R:196 [in UniMath.Algebra.Archimedean]
R:197 [in UniMath.Foundations.Sets]
R:197 [in UniMath.PAdics.fps]
R:198 [in UniMath.CategoryTheory.Monads.Monads]
R:198 [in UniMath.Algebra.Archimedean]
R:198 [in UniMath.PAdics.lemmas]
r:199 [in UniMath.CategoryTheory.ExactCategories.Tests]
R:199 [in UniMath.Algebra.Modules.Core]
R:2 [in UniMath.Combinatorics.OrderedSets]
R:2 [in UniMath.Ktheory.GrothendieckGroup]
r:2 [in UniMath.RealNumbers.DecidableDedekindCuts]
r:2 [in UniMath.RealNumbers.NonnegativeRationals]
R:2 [in UniMath.Algebra.Lattice]
R:2 [in UniMath.Combinatorics.WellOrderedSets]
R:2 [in UniMath.Combinatorics.Equivalence_Relations]
R:2 [in UniMath.Algebra.ConstructiveStructures]
R:20 [in UniMath.Algebra.RigsAndRings.Ideals]
R:20 [in UniMath.CategoryTheory.Monads.RelativeModules]
r:20 [in UniMath.Algebra.Modules.Examples]
r:20 [in UniMath.SyntheticHomotopyTheory.Circle2]
R:200 [in UniMath.Algebra.Archimedean]
R:200 [in UniMath.PAdics.lemmas]
R:200 [in UniMath.PAdics.padics]
R:201 [in UniMath.Algebra.Domains_and_Fields]
R:201 [in UniMath.Foundations.Sets]
R:202 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:202 [in UniMath.Algebra.Archimedean]
R:203 [in UniMath.Algebra.Modules.Core]
R:203 [in UniMath.CategoryTheory.Monads.Monads]
R:204 [in UniMath.PAdics.padics]
R:204 [in UniMath.PAdics.fps]
R:205 [in UniMath.Algebra.RigsAndRings]
R:205 [in UniMath.PAdics.fps]
R:205 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R:206 [in UniMath.Foundations.Sets]
R:206 [in UniMath.PAdics.fps]
R:208 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:209 [in UniMath.CategoryTheory.ExactCategories.Tests]
R:209 [in UniMath.Algebra.Modules.Core]
R:209 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:21 [in UniMath.Ktheory.GrothendieckGroup]
R:21 [in UniMath.Algebra.Modules.Submodule]
R:210 [in UniMath.Algebra.Monoids]
R:210 [in UniMath.PAdics.fps]
R:211 [in UniMath.Foundations.Sets]
R:211 [in UniMath.Algebra.Free_Monoids_and_Groups]
r:212 [in UniMath.SyntheticHomotopyTheory.Circle]
R:213 [in UniMath.Algebra.Modules.Core]
R:213 [in UniMath.Algebra.Archimedean]
R:213 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:214 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:215 [in UniMath.Foundations.Sets]
R:215 [in UniMath.PAdics.fps]
R:215 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:217 [in UniMath.Algebra.Modules.Core]
R:217 [in UniMath.PAdics.fps]
R:218 [in UniMath.Algebra.Monoids]
R:218 [in UniMath.PAdics.fps]
R:219 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:219 [in UniMath.SyntheticHomotopyTheory.Circle]
R:219 [in UniMath.Foundations.Sets]
R:219 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R:22 [in UniMath.Algebra.RigsAndRings.Ideals]
r:22 [in UniMath.Bicategories.Core.Examples.TwoType]
R:22 [in UniMath.RealNumbers.Sets]
R:220 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:221 [in UniMath.PAdics.fps]
R:222 [in UniMath.Algebra.Modules.Core]
R:222 [in UniMath.Algebra.Archimedean]
R:223 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:223 [in UniMath.Foundations.Sets]
R:224 [in UniMath.Algebra.Monoids]
R:224 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:225 [in UniMath.Foundations.Sets]
R:226 [in UniMath.Algebra.Modules.Core]
R:226 [in UniMath.Algebra.Monoids]
R:226 [in UniMath.Algebra.Archimedean]
R:228 [in UniMath.Algebra.Monoids]
r:229 [in UniMath.SyntheticHomotopyTheory.Circle]
R:229 [in UniMath.Foundations.Sets]
R:229 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:23 [in UniMath.Algebra.RigsAndRings.Ideals]
r:23 [in UniMath.RealNumbers.DedekindCuts]
R:23 [in UniMath.Algebra.Modules.Quotient]
R:23 [in UniMath.Algebra.Modules.Examples]
R:23 [in UniMath.AlgebraicGeometry.Spec]
R:230 [in UniMath.Algebra.Monoids]
R:230 [in UniMath.PAdics.fps]
R:231 [in UniMath.Algebra.Archimedean]
R:231 [in UniMath.PAdics.fps]
R:232 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:232 [in UniMath.Algebra.Modules.Core]
R:233 [in UniMath.Algebra.Monoids]
R:233 [in UniMath.Foundations.Sets]
R:233 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R:234 [in UniMath.Algebra.Archimedean]
R:234 [in UniMath.CategoryTheory.slicecat]
R:234 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:236 [in UniMath.PAdics.fps]
R:237 [in UniMath.Foundations.Sets]
R:238 [in UniMath.Algebra.Modules.Core]
R:238 [in UniMath.Algebra.Monoids]
r:239 [in UniMath.SyntheticHomotopyTheory.Circle]
r:239 [in UniMath.RealNumbers.NonnegativeRationals]
R:239 [in UniMath.Foundations.Sets]
r:24 [in UniMath.Combinatorics.ZFstructures]
R:24 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
R:24 [in UniMath.Algebra.Modules.Submodule]
R:24 [in UniMath.RealNumbers.Sets]
R:24 [in UniMath.Algebra.Modules.Examples]
r:24 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
r:240 [in UniMath.SyntheticHomotopyTheory.Circle]
r:241 [in UniMath.SyntheticHomotopyTheory.Circle]
r:241 [in UniMath.RealNumbers.NonnegativeRationals]
R:241 [in UniMath.Foundations.Sets]
R:242 [in UniMath.Algebra.Modules.Core]
r:242 [in UniMath.SyntheticHomotopyTheory.Circle]
r:242 [in UniMath.Algebra.Archimedean]
R:243 [in UniMath.Algebra.Monoids]
R:243 [in UniMath.Foundations.Sets]
R:244 [in UniMath.Algebra.Modules.Core]
r:244 [in UniMath.Algebra.Archimedean]
r:244 [in UniMath.Combinatorics.StandardFiniteSets]
R:245 [in UniMath.Foundations.Sets]
R:246 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R:247 [in UniMath.PAdics.lemmas]
R:247 [in UniMath.Foundations.Sets]
R:248 [in UniMath.Algebra.Modules.Core]
r:25 [in UniMath.CategoryTheory.Elements]
R:25 [in UniMath.Ktheory.GrothendieckGroup]
r:25 [in UniMath.Bicategories.Core.Examples.TwoType]
R:250 [in UniMath.Algebra.Archimedean]
R:250 [in UniMath.Foundations.Sets]
r:251 [in UniMath.Algebra.Monoids]
r:252 [in UniMath.RealNumbers.NonnegativeReals]
R:253 [in UniMath.Algebra.Modules.Core]
R:254 [in UniMath.Algebra.Archimedean]
R:254 [in UniMath.Foundations.Sets]
R:257 [in UniMath.Foundations.Sets]
r:257 [in UniMath.CategoryTheory.Core.Categories]
R:259 [in UniMath.Algebra.Modules.Core]
R:259 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R:26 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:26 [in UniMath.Algebra.RigsAndRings.Ideals]
r:26 [in UniMath.Algebra.Modules.Quotient]
R:26 [in UniMath.RealNumbers.Sets]
R:26 [in UniMath.PAdics.fps]
R:260 [in UniMath.Algebra.Archimedean]
R:260 [in UniMath.Foundations.Sets]
R:261 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:261 [in UniMath.CategoryTheory.Core.Categories]
R:262 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:262 [in UniMath.Algebra.RigsAndRings]
R:264 [in UniMath.Foundations.Sets]
R:265 [in UniMath.Algebra.Modules.Core]
r:265 [in UniMath.RealNumbers.NonnegativeRationals]
r:265 [in UniMath.Combinatorics.FiniteSequences]
r:265 [in UniMath.CategoryTheory.Core.Categories]
r:266 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
r:266 [in UniMath.Combinatorics.FiniteSequences]
r:267 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
R:268 [in UniMath.Algebra.Modules.Core]
r:268 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
r:268 [in UniMath.Foundations.Sets]
r:269 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
r:27 [in UniMath.Algebra.Modules.Examples]
R:27 [in UniMath.MoreFoundations.QuotientSet]
R:270 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:270 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
r:271 [in UniMath.RealNumbers.NonnegativeRationals]
R:271 [in UniMath.Foundations.Sets]
R:271 [in UniMath.CategoryTheory.limits.graphs.limits]
R:273 [in UniMath.Algebra.RigsAndRings]
R:274 [in UniMath.Algebra.Modules.Core]
R:275 [in UniMath.Algebra.RigsAndRings]
R:276 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:276 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
R:276 [in UniMath.Foundations.Sets]
r:277 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
R:279 [in UniMath.Algebra.Modules.Core]
R:28 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:28 [in UniMath.Combinatorics.ZFstructures]
r:28 [in UniMath.CategoryTheory.ElementsOp]
r:28 [in UniMath.Bicategories.Core.Examples.TwoType]
R:28 [in UniMath.Algebra.Apartness]
R:28 [in UniMath.RealNumbers.Sets]
r:281 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
R:283 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:283 [in UniMath.Algebra.Modules.Core]
R:283 [in UniMath.Foundations.Sets]
R:286 [in UniMath.Algebra.Modules.Core]
r:288 [in UniMath.Combinatorics.FiniteSets]
R:288 [in UniMath.Algebra.Free_Monoids_and_Groups]
r:29 [in UniMath.Combinatorics.WellOrderedSets]
r:29 [in UniMath.Combinatorics.Lists]
r:29 [in UniMath.SyntheticHomotopyTheory.Circle2]
R:290 [in UniMath.Algebra.Modules.Core]
r:290 [in UniMath.Combinatorics.FiniteSets]
R:290 [in UniMath.Foundations.Sets]
R:290 [in UniMath.Algebra.Free_Monoids_and_Groups]
r:292 [in UniMath.RealNumbers.NonnegativeReals]
R:292 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:294 [in UniMath.Algebra.Modules.Core]
R:294 [in UniMath.Algebra.Free_Monoids_and_Groups]
r:295 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
R:297 [in UniMath.Foundations.Sets]
R:299 [in UniMath.Algebra.Free_Monoids_and_Groups]
r:3 [in UniMath.Algebra.RigsAndRings.Ideals]
r:30 [in UniMath.MoreFoundations.NullHomotopies]
r:30 [in UniMath.RealNumbers.NonnegativeReals]
R:30 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
R:30 [in UniMath.Algebra.Modules.Submodule]
R:30 [in UniMath.RealNumbers.Sets]
r:30 [in UniMath.Algebra.Modules.Examples]
R:300 [in UniMath.Algebra.Modules.Core]
r:300 [in UniMath.MoreFoundations.PathsOver]
R:303 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:304 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:304 [in UniMath.Foundations.Sets]
R:305 [in UniMath.Algebra.Modules.Core]
R:305 [in UniMath.PAdics.fps]
R:308 [in UniMath.Algebra.Domains_and_Fields]
R:308 [in UniMath.PAdics.fps]
R:308 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:31 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:31 [in UniMath.Combinatorics.ZFstructures]
R:31 [in UniMath.Algebra.RigsAndRings.Ideals]
r:31 [in UniMath.Bicategories.Core.Examples.TwoType]
r:31 [in UniMath.Combinatorics.Lists]
R:310 [in UniMath.Algebra.Modules.Core]
r:310 [in UniMath.MoreFoundations.PathsOver]
R:311 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:311 [in UniMath.Foundations.Sets]
R:313 [in UniMath.CategoryTheory.LocalizingClass]
R:313 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:315 [in UniMath.Algebra.Modules.Core]
R:315 [in UniMath.Algebra.Groups]
R:315 [in UniMath.Algebra.Domains_and_Fields]
R:316 [in UniMath.CategoryTheory.LocalizingClass]
R:317 [in UniMath.Algebra.Groups]
R:318 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:318 [in UniMath.Foundations.Sets]
R:319 [in UniMath.Algebra.Modules.Core]
R:319 [in UniMath.CategoryTheory.LocalizingClass]
R:32 [in UniMath.PAdics.fps]
R:322 [in UniMath.CategoryTheory.LocalizingClass]
R:323 [in UniMath.Algebra.Modules.Core]
R:325 [in UniMath.Foundations.Sets]
R:326 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:327 [in UniMath.Algebra.Modules.Core]
R:327 [in UniMath.PAdics.z_mod_p]
r:327 [in UniMath.Foundations.PartA]
r:328 [in UniMath.RealNumbers.NonnegativeReals]
R:329 [in UniMath.PAdics.fps]
R:33 [in UniMath.Algebra.Modules.Submodule]
R:33 [in UniMath.RealNumbers.Sets]
r:33 [in UniMath.Algebra.Modules.Examples]
r:33 [in UniMath.Combinatorics.Lists]
R:330 [in UniMath.Algebra.Domains_and_Fields]
R:332 [in UniMath.Algebra.Modules.Core]
R:332 [in UniMath.Foundations.Sets]
R:333 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:333 [in UniMath.MoreFoundations.PathsOver]
R:335 [in UniMath.Algebra.Modules.Core]
r:335 [in UniMath.Foundations.PartA]
R:336 [in UniMath.Algebra.Domains_and_Fields]
R:336 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
r:338 [in UniMath.Algebra.Modules.Core]
R:339 [in UniMath.Foundations.Sets]
r:34 [in UniMath.Combinatorics.ZFstructures]
R:34 [in UniMath.Combinatorics.OrderedSets]
R:340 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:341 [in UniMath.Algebra.Modules.Core]
R:342 [in UniMath.Algebra.Domains_and_Fields]
R:342 [in UniMath.CategoryTheory.Adjunctions.Core]
r:342 [in UniMath.MoreFoundations.PathsOver]
r:344 [in UniMath.Algebra.Modules.Core]
R:346 [in UniMath.Algebra.Modules.Core]
R:346 [in UniMath.CategoryTheory.limits.graphs.colimits]
R:346 [in UniMath.Foundations.Sets]
R:347 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:347 [in UniMath.CategoryTheory.LocalizingClass]
R:348 [in UniMath.Algebra.Domains_and_Fields]
R:349 [in UniMath.Algebra.Modules.Core]
R:35 [in UniMath.RealNumbers.Sets]
r:35 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
R:352 [in UniMath.PAdics.fps]
R:353 [in UniMath.Algebra.Modules.Core]
R:353 [in UniMath.Foundations.Sets]
R:354 [in UniMath.Algebra.Domains_and_Fields]
R:355 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:355 [in UniMath.RealNumbers.NonnegativeReals]
R:357 [in UniMath.Algebra.Modules.Core]
R:358 [in UniMath.Algebra.RigsAndRings]
R:359 [in UniMath.CategoryTheory.Adjunctions.Core]
R:359 [in UniMath.Algebra.RigsAndRings]
R:36 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:36 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
R:36 [in UniMath.Algebra.Modules.Submodule]
R:36 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:360 [in UniMath.Foundations.Sets]
R:362 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:362 [in UniMath.Algebra.Modules.Core]
r:364 [in UniMath.MoreFoundations.PartA]
R:366 [in UniMath.Algebra.Modules.Core]
R:366 [in UniMath.Algebra.Monoids]
R:367 [in UniMath.Foundations.Sets]
R:369 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:369 [in UniMath.MoreFoundations.PartA]
r:37 [in UniMath.Combinatorics.ZFstructures]
R:37 [in UniMath.Algebra.Archimedean]
R:37 [in UniMath.Algebra.Modules.Multimodules]
r:37 [in UniMath.Algebra.Modules.Examples]
R:37 [in UniMath.PAdics.fps]
R:370 [in UniMath.Algebra.Modules.Core]
R:372 [in UniMath.Algebra.Monoids]
R:374 [in UniMath.Algebra.Modules.Core]
R:374 [in UniMath.Algebra.Monoids]
R:374 [in UniMath.Algebra.Domains_and_Fields]
R:374 [in UniMath.Foundations.Sets]
R:376 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:376 [in UniMath.PAdics.fps]
R:378 [in UniMath.Algebra.Modules.Core]
r:379 [in UniMath.RealNumbers.NonnegativeReals]
R:38 [in UniMath.Algebra.Free_Monoids_and_Groups]
r:38 [in UniMath.SyntheticHomotopyTheory.Circle2]
R:381 [in UniMath.Algebra.Modules.Core]
r:381 [in UniMath.RealNumbers.NonnegativeReals]
R:381 [in UniMath.Foundations.Sets]
R:383 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:384 [in UniMath.Algebra.Modules.Core]
r:384 [in UniMath.RealNumbers.NonnegativeReals]
r:386 [in UniMath.MoreFoundations.PartA]
R:387 [in UniMath.Algebra.Modules.Core]
R:387 [in UniMath.Foundations.Sets]
r:388 [in UniMath.MoreFoundations.PartA]
R:389 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:389 [in UniMath.Foundations.Sets]
r:39 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
r:39 [in UniMath.Algebra.Modules.Submodule]
R:394 [in UniMath.Foundations.Sets]
R:396 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:397 [in UniMath.Foundations.Sets]
R:399 [in UniMath.Foundations.Sets]
r:4 [in UniMath.RealNumbers.DedekindCuts]
R:4 [in UniMath.Combinatorics.OrderedSets]
r:4 [in UniMath.Algebra.Modules.Quotient]
R:4 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
R:4 [in UniMath.Algebra.Lattice]
R:4 [in UniMath.Algebra.ConstructiveStructures]
R:4 [in UniMath.PAdics.fps]
R:40 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:400 [in UniMath.PAdics.fps]
R:401 [in UniMath.PAdics.fps]
R:402 [in UniMath.PAdics.fps]
R:403 [in UniMath.PAdics.fps]
R:404 [in UniMath.Foundations.Sets]
R:406 [in UniMath.PAdics.fps]
r:408 [in UniMath.MoreFoundations.PartA]
R:41 [in UniMath.MoreFoundations.Sets]
R:41 [in UniMath.Algebra.Modules.Submodule]
r:41 [in UniMath.Algebra.Modules.Examples]
R:410 [in UniMath.Algebra.RigsAndRings]
R:412 [in UniMath.Algebra.Domains_and_Fields]
R:415 [in UniMath.Algebra.RigsAndRings]
R:415 [in UniMath.PAdics.fps]
R:419 [in UniMath.PAdics.fps]
r:42 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
R:42 [in UniMath.Algebra.Archimedean]
R:42 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
R:42 [in UniMath.PAdics.fps]
R:42 [in UniMath.Algebra.Free_Monoids_and_Groups]
r:42 [in UniMath.SyntheticHomotopyTheory.Circle2]
R:420 [in UniMath.Algebra.Domains_and_Fields]
R:420 [in UniMath.Algebra.RigsAndRings]
r:420 [in UniMath.MoreFoundations.PartA]
r:422 [in UniMath.RealNumbers.NonnegativeReals]
R:423 [in UniMath.CategoryTheory.LocalizingClass]
R:424 [in UniMath.Combinatorics.WellOrderedSets]
R:424 [in UniMath.PAdics.fps]
R:425 [in UniMath.Algebra.RigsAndRings]
R:426 [in UniMath.CategoryTheory.LocalizingClass]
r:428 [in UniMath.Algebra.Domains_and_Fields]
R:428 [in UniMath.PAdics.fps]
R:429 [in UniMath.PAdics.fps]
R:43 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:43 [in UniMath.Bicategories.Core.Examples.TwoType]
r:43 [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
r:43 [in UniMath.SyntheticHomotopyTheory.Circle2]
R:430 [in UniMath.Algebra.RigsAndRings]
R:430 [in UniMath.PAdics.fps]
R:431 [in UniMath.Algebra.Domains_and_Fields]
R:431 [in UniMath.PAdics.fps]
r:432 [in UniMath.MoreFoundations.PathsOver]
R:434 [in UniMath.Algebra.RigsAndRings]
r:436 [in UniMath.RealNumbers.NonnegativeReals]
R:437 [in UniMath.Combinatorics.WellOrderedSets]
R:439 [in UniMath.Algebra.Domains_and_Fields]
R:44 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:44 [in UniMath.Algebra.Modules.Submodule]
R:440 [in UniMath.CategoryTheory.LocalizingClass]
R:442 [in UniMath.Algebra.RigsAndRings]
R:445 [in UniMath.CategoryTheory.LocalizingClass]
r:445 [in UniMath.MoreFoundations.PathsOver]
R:446 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:447 [in UniMath.Algebra.Domains_and_Fields]
R:449 [in UniMath.CategoryTheory.LocalizingClass]
R:449 [in UniMath.PAdics.fps]
R:45 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:45 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
r:45 [in UniMath.RealNumbers.DedekindCuts]
R:45 [in UniMath.Algebra.Modules.Quotient]
r:45 [in UniMath.Algebra.Modules.Examples]
R:450 [in UniMath.Algebra.RigsAndRings]
R:450 [in UniMath.PAdics.fps]
R:451 [in UniMath.PAdics.fps]
R:452 [in UniMath.PAdics.fps]
R:455 [in UniMath.Algebra.Domains_and_Fields]
R:458 [in UniMath.Algebra.RigsAndRings]
R:458 [in UniMath.PAdics.fps]
R:46 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:46 [in UniMath.Algebra.RigsAndRings.Ideals]
R:46 [in UniMath.MoreFoundations.Sets]
R:46 [in UniMath.Foundations.UnivalenceAxiom]
r:46 [in UniMath.Bicategories.Core.Examples.TwoType]
r:46 [in UniMath.SyntheticHomotopyTheory.Circle2]
r:462 [in UniMath.RealNumbers.NonnegativeReals]
R:463 [in UniMath.Algebra.Domains_and_Fields]
R:463 [in UniMath.PAdics.fps]
R:465 [in UniMath.Algebra.RigsAndRings]
R:466 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:467 [in UniMath.Foundations.Sets]
R:469 [in UniMath.Foundations.Sets]
R:47 [in UniMath.Algebra.Archimedean]
R:47 [in UniMath.PAdics.fps]
R:47 [in UniMath.Algebra.Free_Monoids_and_Groups]
r:47 [in UniMath.SyntheticHomotopyTheory.Circle2]
R:471 [in UniMath.Algebra.Domains_and_Fields]
R:471 [in UniMath.Algebra.RigsAndRings]
R:471 [in UniMath.Foundations.Sets]
R:473 [in UniMath.Foundations.Sets]
R:476 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:478 [in UniMath.Algebra.RigsAndRings]
R:479 [in UniMath.Algebra.Domains_and_Fields]
R:479 [in UniMath.Foundations.Sets]
R:48 [in UniMath.Algebra.Modules.Core]
R:48 [in UniMath.AlgebraicGeometry.Spec]
r:481 [in UniMath.MoreFoundations.PathsOver]
R:481 [in UniMath.Foundations.Sets]
R:483 [in UniMath.Foundations.Sets]
R:484 [in UniMath.Algebra.RigsAndRings]
r:487 [in UniMath.Algebra.Domains_and_Fields]
R:488 [in UniMath.Algebra.RigsAndRings]
r:489 [in UniMath.Algebra.Domains_and_Fields]
R:49 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:49 [in UniMath.Algebra.Archimedean]
r:49 [in UniMath.Foundations.UnivalenceAxiom]
R:49 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
r:49 [in UniMath.Bicategories.Core.Examples.TwoType]
r:491 [in UniMath.Algebra.Domains_and_Fields]
R:492 [in UniMath.Algebra.RigsAndRings]
r:493 [in UniMath.Algebra.Domains_and_Fields]
R:495 [in UniMath.Algebra.RigsAndRings]
r:496 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
R:496 [in UniMath.Algebra.Domains_and_Fields]
R:5 [in UniMath.CategoryTheory.Monads.RelativeModules]
r:5 [in UniMath.RealNumbers.DecidableDedekindCuts]
r:5 [in UniMath.Algebra.Modules.Submodule]
R:5 [in UniMath.CategoryTheory.Subcategory.Reflective]
r:5 [in UniMath.CategoryTheory.SplitMonicsAndEpis]
R:50 [in UniMath.Algebra.RigsAndRings.Ideals]
R:50 [in UniMath.Algebra.Modules.Core]
r:50 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
r:50 [in UniMath.RealNumbers.NonnegativeReals]
R:501 [in UniMath.Algebra.RigsAndRings]
r:508 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
R:508 [in UniMath.Algebra.RigsAndRings]
R:509 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:51 [in UniMath.Algebra.Archimedean]
R:51 [in UniMath.Algebra.Free_Monoids_and_Groups]
r:51 [in UniMath.SyntheticHomotopyTheory.Circle2]
r:512 [in UniMath.Algebra.Domains_and_Fields]
r:514 [in UniMath.Algebra.Domains_and_Fields]
R:515 [in UniMath.Algebra.RigsAndRings]
R:516 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:52 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:52 [in UniMath.Algebra.Modules.Core]
r:52 [in UniMath.Algebra.FixedPointTheorems]
r:52 [in UniMath.RealNumbers.DedekindCuts]
r:52 [in UniMath.Bicategories.Core.Examples.TwoType]
R:52 [in UniMath.Algebra.Modules.Submodule]
R:52 [in UniMath.PAdics.fps]
r:52 [in UniMath.SyntheticHomotopyTheory.Circle2]
R:522 [in UniMath.Foundations.Sets]
R:523 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:525 [in UniMath.Algebra.RigsAndRings]
R:526 [in UniMath.Foundations.Sets]
R:529 [in UniMath.Algebra.RigsAndRings]
R:529 [in UniMath.Foundations.Sets]
R:53 [in UniMath.MoreFoundations.Sets]
R:53 [in UniMath.Algebra.Modules.Examples]
R:530 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:532 [in UniMath.Foundations.Sets]
R:535 [in UniMath.Algebra.RigsAndRings]
R:535 [in UniMath.Foundations.Sets]
R:536 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:538 [in UniMath.Foundations.Sets]
R:54 [in UniMath.Algebra.Modules.Core]
r:54 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
r:54 [in UniMath.RealNumbers.DedekindCuts]
R:54 [in UniMath.Algebra.Modules.Examples]
R:54 [in UniMath.MoreFoundations.Propositions]
R:540 [in UniMath.Foundations.Sets]
R:542 [in UniMath.Algebra.RigsAndRings]
R:545 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:549 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:55 [in UniMath.RealNumbers.NonnegativeReals]
R:55 [in UniMath.Algebra.Archimedean]
R:55 [in UniMath.Algebra.Modules.Submodule]
R:553 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:553 [in UniMath.Algebra.RigsAndRings]
R:557 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:56 [in UniMath.Algebra.Modules.Core]
r:56 [in UniMath.RealNumbers.DedekindCuts]
R:56 [in UniMath.Algebra.Free_Monoids_and_Groups]
R:561 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:561 [in UniMath.Foundations.Sets]
R:564 [in UniMath.Foundations.Sets]
R:565 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:566 [in UniMath.MoreFoundations.PathsOver]
R:567 [in UniMath.Foundations.Sets]
R:57 [in UniMath.Algebra.Modules.Examples]
R:57 [in UniMath.PAdics.fps]
R:570 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:575 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:575 [in UniMath.Foundations.Sets]
r:58 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
R:58 [in UniMath.Algebra.Matrix]
R:58 [in UniMath.Algebra.Modules.Submodule]
R:580 [in UniMath.Foundations.Sets]
r:583 [in UniMath.Foundations.Sets]
R:585 [in UniMath.Foundations.Sets]
R:586 [in UniMath.Algebra.RigsAndRings]
R:588 [in UniMath.Algebra.RigsAndRings]
R:59 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:59 [in UniMath.Algebra.Modules.Core]
R:59 [in UniMath.Algebra.Modules.Examples]
R:59 [in UniMath.MoreFoundations.Propositions]
R:590 [in UniMath.Algebra.RigsAndRings]
R:590 [in UniMath.Foundations.Sets]
R:595 [in UniMath.Foundations.Sets]
r:6 [in UniMath.RealNumbers.DedekindCuts]
R:6 [in UniMath.Algebra.Lattice]
R:6 [in UniMath.Combinatorics.Equivalence_Relations]
R:604 [in UniMath.Algebra.RigsAndRings]
R:61 [in UniMath.Algebra.Modules.Core]
r:61 [in UniMath.RealNumbers.DedekindCuts]
R:61 [in UniMath.Algebra.Free_Monoids_and_Groups]
r:614 [in UniMath.MoreFoundations.PathsOver]
r:615 [in UniMath.MoreFoundations.PathsOver]
r:62 [in UniMath.Combinatorics.ZFstructures]
R:62 [in UniMath.Algebra.Archimedean]
R:62 [in UniMath.Algebra.Modules.Submodule]
r:624 [in UniMath.MoreFoundations.PathsOver]
r:625 [in UniMath.MoreFoundations.PathsOver]
r:63 [in UniMath.Algebra.Modules.Core]
r:63 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
R:63 [in UniMath.MoreFoundations.Sets]
R:64 [in UniMath.CategoryTheory.Monads.RelativeModules]
R:64 [in UniMath.CategoryTheory.Enriched.Enriched]
R:65 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:65 [in UniMath.Algebra.Modules.Core]
R:65 [in UniMath.AlgebraicGeometry.Spec]
R:659 [in UniMath.CategoryTheory.LocalizingClass]
R:66 [in UniMath.Algebra.Modules.Submodule]
r:66 [in UniMath.Algebra.Modules.Examples]
r:666 [in UniMath.MoreFoundations.PathsOver]
R:67 [in UniMath.Algebra.Matrix]
R:671 [in UniMath.Algebra.RigsAndRings]
R:672 [in UniMath.CategoryTheory.LocalizingClass]
R:674 [in UniMath.Algebra.RigsAndRings]
r:674 [in UniMath.MoreFoundations.PathsOver]
R:68 [in UniMath.Algebra.Modules.Core]
r:68 [in UniMath.Combinatorics.Graph]
R:68 [in UniMath.Algebra.Modules.Examples]
R:68 [in UniMath.MoreFoundations.Propositions]
r:680 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
R:681 [in UniMath.Foundations.Sets]
r:683 [in UniMath.MoreFoundations.PathsOver]
R:688 [in UniMath.Foundations.Sets]
R:69 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:69 [in UniMath.Combinatorics.ZFstructures]
r:69 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
r:691 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
R:694 [in UniMath.Algebra.RigsAndRings]
r:694 [in UniMath.MoreFoundations.PathsOver]
r:698 [in UniMath.RealNumbers.NonnegativeReals]
R:698 [in UniMath.Foundations.Sets]
R:699 [in UniMath.Algebra.RigsAndRings]
R:7 [in UniMath.Ktheory.GrothendieckGroup]
r:7 [in UniMath.RealNumbers.DecidableDedekindCuts]
R:7 [in UniMath.Algebra.Modules.Submodule]
R:7 [in UniMath.Algebra.ConstructiveStructures]
R:7 [in UniMath.Algebra.Modules.Examples]
R:7 [in UniMath.CategoryTheory.Subcategory.Reflective]
r:70 [in UniMath.Algebra.Modules.Core]
r:702 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
R:702 [in UniMath.CategoryTheory.LocalizingClass]
R:702 [in UniMath.Foundations.Sets]
R:708 [in UniMath.Foundations.Sets]
R:71 [in UniMath.CategoryTheory.Enriched.Enriched]
R:71 [in UniMath.Algebra.Modules.Submodule]
R:71 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
r:710 [in UniMath.MoreFoundations.PathsOver]
R:714 [in UniMath.Foundations.Sets]
r:718 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
R:718 [in UniMath.CategoryTheory.LocalizingClass]
R:718 [in UniMath.Foundations.Sets]
R:72 [in UniMath.Algebra.Modules.Examples]
r:726 [in UniMath.MoreFoundations.PathsOver]
R:73 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:73 [in UniMath.Algebra.Modules.Core]
R:73 [in UniMath.Algebra.Archimedean]
R:73 [in UniMath.MoreFoundations.Propositions]
r:738 [in UniMath.MoreFoundations.PartA]
R:74 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
r:74 [in UniMath.PAdics.z_mod_p]
r:744 [in UniMath.MoreFoundations.PathsOver]
r:747 [in UniMath.MoreFoundations.PartA]
r:75 [in UniMath.Algebra.Modules.Core]
R:75 [in UniMath.CategoryTheory.Monads.RelativeModules]
r:75 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
R:75 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
R:75 [in UniMath.Algebra.Modules.Submodule]
R:75 [in UniMath.AlgebraicGeometry.Spec]
r:754 [in UniMath.MoreFoundations.PartA]
R:76 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
r:763 [in UniMath.MoreFoundations.PartA]
R:77 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:77 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
R:770 [in UniMath.Algebra.RigsAndRings]
r:770 [in UniMath.MoreFoundations.PartA]
r:771 [in UniMath.MoreFoundations.PartA]
R:772 [in UniMath.Algebra.RigsAndRings]
r:772 [in UniMath.MoreFoundations.PartA]
r:779 [in UniMath.MoreFoundations.PartA]
r:78 [in UniMath.Algebra.Modules.Core]
r:78 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
R:78 [in UniMath.MoreFoundations.Sets]
r:78 [in UniMath.RealNumbers.DedekindCuts]
r:781 [in UniMath.MoreFoundations.PartA]
R:784 [in UniMath.Foundations.Sets]
R:787 [in UniMath.Foundations.Sets]
r:79 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
r:79 [in UniMath.Algebra.Modules.Core]
R:79 [in UniMath.Algebra.Modules.Submodule]
r:79 [in UniMath.SyntheticHomotopyTheory.Circle2]
R:791 [in UniMath.Foundations.Sets]
r:794 [in UniMath.MoreFoundations.PartA]
R:794 [in UniMath.Foundations.Sets]
R:796 [in UniMath.Foundations.Sets]
R:798 [in UniMath.Foundations.Sets]
R:8 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:8 [in UniMath.Algebra.RigsAndRings.Ideals]
R:8 [in UniMath.Combinatorics.OrderedSets]
R:8 [in UniMath.Algebra.Lattice]
R:8 [in UniMath.Combinatorics.Equivalence_Relations]
R:80 [in UniMath.Algebra.Modules.Core]
R:80 [in UniMath.CategoryTheory.Monads.RelativeModules]
R:80 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R:800 [in UniMath.Foundations.Sets]
r:804 [in UniMath.MoreFoundations.PartA]
R:804 [in UniMath.Foundations.Sets]
r:806 [in UniMath.MoreFoundations.PartA]
R:808 [in UniMath.Foundations.Sets]
r:81 [in UniMath.PAdics.z_mod_p]
r:810 [in UniMath.MoreFoundations.PartA]
R:810 [in UniMath.Foundations.Sets]
R:816 [in UniMath.Foundations.Sets]
r:82 [in UniMath.Algebra.Modules.Core]
R:82 [in UniMath.Algebra.Groups]
R:822 [in UniMath.Foundations.Sets]
R:828 [in UniMath.Foundations.Sets]
R:83 [in UniMath.PAdics.padics]
R:83 [in UniMath.CategoryTheory.Monads.LModules]
R:835 [in UniMath.Foundations.Sets]
r:84 [in UniMath.RealNumbers.DedekindCuts]
R:84 [in UniMath.Algebra.Archimedean]
R:84 [in UniMath.Algebra.Universal.HVectors]
R:845 [in UniMath.Foundations.Sets]
r:85 [in UniMath.Algebra.Modules.Core]
R:85 [in UniMath.Algebra.Groups]
R:85 [in UniMath.Algebra.ConstructiveStructures]
r:85 [in UniMath.SyntheticHomotopyTheory.Circle2]
R:851 [in UniMath.Foundations.Sets]
R:86 [in UniMath.CategoryTheory.Monads.RelativeMonads]
r:86 [in UniMath.Algebra.Modules.Core]
R:86 [in UniMath.CategoryTheory.Monads.RelativeModules]
r:86 [in UniMath.Algebra.Modules.Submodule]
R:87 [in UniMath.Algebra.Modules.Core]
r:87 [in UniMath.PAdics.z_mod_p]
r:87 [in UniMath.RealNumbers.NonnegativeReals]
r:87 [in UniMath.RealNumbers.NonnegativeRationals]
r:87 [in UniMath.Combinatorics.StandardFiniteSets]
r:88 [in UniMath.RealNumbers.NonnegativeRationals]
R:88 [in UniMath.Algebra.Groups]
r:88 [in UniMath.SyntheticHomotopyTheory.Circle2]
r:89 [in UniMath.Algebra.Modules.Core]
r:89 [in UniMath.RealNumbers.NonnegativeReals]
R:89 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
R:894 [in UniMath.Foundations.Sets]
R:9 [in UniMath.CategoryTheory.Monads.RelativeModules]
R:9 [in UniMath.Algebra.Modules.Examples]
R:90 [in UniMath.Algebra.Modules.Core]
R:90 [in UniMath.Algebra.Archimedean]
R:900 [in UniMath.Foundations.Sets]
R:91 [in UniMath.CategoryTheory.Monads.RelativeModules]
r:91 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
r:91 [in UniMath.RealNumbers.NonnegativeReals]
R:914 [in UniMath.Foundations.Sets]
r:92 [in UniMath.CategoryTheory.DisplayedCats.Examples]
r:92 [in UniMath.RealNumbers.NonnegativeRationals]
R:92 [in UniMath.AlgebraicGeometry.Spec]
r:93 [in UniMath.Algebra.Modules.Core]
r:93 [in UniMath.RealNumbers.NonnegativeReals]
r:93 [in UniMath.RealNumbers.NonnegativeRationals]
R:93 [in UniMath.Algebra.Groups]
R:934 [in UniMath.Foundations.Sets]
r:94 [in UniMath.Algebra.Modules.Core]
R:943 [in UniMath.Algebra.RigsAndRings]
R:95 [in UniMath.Algebra.Modules.Core]
R:950 [in UniMath.Algebra.RigsAndRings]
R:957 [in UniMath.Algebra.RigsAndRings]
R:96 [in UniMath.CategoryTheory.Monads.RelativeMonads]
R:96 [in UniMath.CategoryTheory.Monads.RelativeModules]
R:96 [in UniMath.Algebra.Archimedean]
r:96 [in UniMath.Combinatorics.Lists]
r:97 [in UniMath.Algebra.Modules.Core]
r:98 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
R:98 [in UniMath.MoreFoundations.Sets]
R:98 [in UniMath.Algebra.Archimedean]
R:98 [in UniMath.Algebra.Groups]
R:984 [in UniMath.Algebra.RigsAndRings]
R:99 [in UniMath.Algebra.Modules.Core]
r₁:32 [in UniMath.Bicategories.Colimits.Products]
r₁:45 [in UniMath.Bicategories.Colimits.Pullback]
r₁:82 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
r₁:903 [in UniMath.MoreFoundations.PartA]
r₂:33 [in UniMath.Bicategories.Colimits.Products]
r₂:46 [in UniMath.Bicategories.Colimits.Pullback]
r₂:83 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
r₂:904 [in UniMath.MoreFoundations.PartA]
r₃:34 [in UniMath.Bicategories.Colimits.Products]
r₃:47 [in UniMath.Bicategories.Colimits.Pullback]

S

Schain:329 [in UniMath.Combinatorics.WellOrderedSets]
Schain:333 [in UniMath.Combinatorics.WellOrderedSets]
Schain:347 [in UniMath.Combinatorics.WellOrderedSets]
Schain:361 [in UniMath.Combinatorics.WellOrderedSets]
Schain:365 [in UniMath.Combinatorics.WellOrderedSets]
sd:19 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
sd:36 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
sd:800 [in UniMath.CategoryTheory.DisplayedCats.Core]
sd:805 [in UniMath.CategoryTheory.DisplayedCats.Core]
sd:808 [in UniMath.CategoryTheory.DisplayedCats.Core]
sd:811 [in UniMath.CategoryTheory.DisplayedCats.Core]
sec:116 [in UniMath.MoreFoundations.MoreEquivalences]
sec:129 [in UniMath.MoreFoundations.MoreEquivalences]
sec:142 [in UniMath.MoreFoundations.MoreEquivalences]
sec:169 [in UniMath.MoreFoundations.MoreEquivalences]
sec:87 [in UniMath.MoreFoundations.MoreEquivalences]
sec:97 [in UniMath.MoreFoundations.MoreEquivalences]
sets:24 [in UniMath.CategoryTheory.coslicecat]
sets:26 [in UniMath.CategoryTheory.coslicecat]
set_iso:63 [in UniMath.CategoryTheory.Presheaf]
set_iso:53 [in UniMath.CategoryTheory.Presheaf]
SE:153 [in UniMath.CategoryTheory.ShortExactSequences]
SE:155 [in UniMath.CategoryTheory.ShortExactSequences]
se:19 [in UniMath.Foundations.UnivalenceAxiom]
SE:96 [in UniMath.CategoryTheory.ShortExactSequences]
SE:97 [in UniMath.CategoryTheory.ShortExactSequences]
sig1:53 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
sig2:54 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
sig:145 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
sig:15 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
sig:153 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
sig:166 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
sig:33 [in UniMath.SubstitutionSystems.BindingSigToMonad]
sig:39 [in UniMath.SubstitutionSystems.BindingSigToMonad]
sig:50 [in UniMath.SubstitutionSystems.BindingSigToMonad]
sig:51 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
sig:57 [in UniMath.SubstitutionSystems.MultiSorted]
sig:58 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
sig:58 [in UniMath.SubstitutionSystems.MultiSorted]
sig:59 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
sig:59 [in UniMath.SubstitutionSystems.MultiSorted]
sig:63 [in UniMath.SubstitutionSystems.MultiSorted_alt]
sig:64 [in UniMath.SubstitutionSystems.MultiSorted_alt]
sig:65 [in UniMath.SubstitutionSystems.MultiSorted_alt]
sig:70 [in UniMath.SubstitutionSystems.BindingSigToMonad]
sig:72 [in UniMath.SubstitutionSystems.BindingSigToMonad]
sig:73 [in UniMath.SubstitutionSystems.BindingSigToMonad]
sig:76 [in UniMath.SubstitutionSystems.Signatures]
smF:29 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
smF:3 [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
smF:30 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
smF:31 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
smF:32 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
smF:33 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
smF:34 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
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s:6 [in UniMath.SyntheticHomotopyTheory.Halfline]
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T

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xx:286 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
xx:287 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:288 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:289 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
xx:29 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
xx:29 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:29 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
xx:290 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
xx:291 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
xx:292 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:293 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
xx:293 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:293 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
xx:294 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:297 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
xx:298 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:298 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
xx:299 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:299 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
xx:299 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
xx:30 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
xx:301 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
xx:302 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:303 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
xx:304 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
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xx:307 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:309 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
xx:31 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
xx:31 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
xx:310 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:311 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
xx:312 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
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xx:319 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:32 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
xx:322 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
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xx:327 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
xx:327 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:33 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
xx:33 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
xx:33 [in UniMath.Bicategories.DisplayedBicats.DispModification]
xx:330 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
xx:335 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:339 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:34 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
xx:340 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:340 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
xx:341 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
xx:342 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
xx:344 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:344 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:352 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:353 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:359 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
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xx:360 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:362 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:370 [in UniMath.CategoryTheory.DisplayedCats.Core]
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xx:376 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:377 [in UniMath.CategoryTheory.DisplayedCats.Core]
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xx:388 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:393 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:394 [in UniMath.Foundations.PartC]
xx:395 [in UniMath.Foundations.PartC]
xx:396 [in UniMath.CategoryTheory.DisplayedCats.Core]
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xx:408 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:41 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:416 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:416 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:42 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:42 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
xx:42 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
xx:423 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:425 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:435 [in UniMath.CategoryTheory.DisplayedCats.Core]
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xx:447 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:447 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:450 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:451 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:457 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:459 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
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xx:46 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
xx:461 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:463 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:463 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:466 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:471 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:473 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:478 [in UniMath.Foundations.PartD]
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xx:480 [in UniMath.Foundations.PartD]
xx:480 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:481 [in UniMath.Foundations.PartD]
xx:482 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
xx:485 [in UniMath.CategoryTheory.DisplayedCats.Core]
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xx:50 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
xx:50 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
xx:503 [in UniMath.CategoryTheory.DisplayedCats.Core]
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xx:518 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:52 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
xx:526 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:53 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
xx:53 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:53 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
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xx:542 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:55 [in UniMath.Bicategories.DisplayedBicats.DispModification]
xx:557 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:558 [in UniMath.NumberSystems.Integers]
xx:559 [in UniMath.NumberSystems.Integers]
xx:56 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
xX:561 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
xx:565 [in UniMath.CategoryTheory.DisplayedCats.Core]
xX:575 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
xx:58 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
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xx:583 [in UniMath.NumberSystems.Integers]
xx:59 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
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xx:604 [in UniMath.NumberSystems.Integers]
xx:607 [in UniMath.NumberSystems.Integers]
xx:608 [in UniMath.NumberSystems.Integers]
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xx:610 [in UniMath.NumberSystems.Integers]
xx:620 [in UniMath.Algebra.RigsAndRings]
xx:63 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
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xx:656 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:664 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:67 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
xx:670 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:675 [in UniMath.CategoryTheory.DisplayedCats.Core]
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xx:680 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:687 [in UniMath.CategoryTheory.DisplayedCats.Core]
xx:692 [in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:171 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
yy:176 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
yy:178 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:18 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
yy:182 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:183 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:184 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:189 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:189 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:19 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
yy:197 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:198 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:20 [in UniMath.CategoryTheory.DisplayedCats.Projection]
yy:20 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
yy:200 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:201 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
yy:205 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:207 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:210 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:211 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:211 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:216 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
yy:218 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:22 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
yy:22 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:221 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:221 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:222 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:222 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:227 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:23 [in UniMath.Bicategories.DisplayedBicats.DispModification]
yy:234 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:237 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:237 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:238 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:243 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:246 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:247 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:252 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:253 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:259 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
yy:259 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:259 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:26 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:260 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
yy:262 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
yy:263 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:265 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
yy:266 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:266 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:267 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
yy:269 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:27 [in UniMath.CategoryTheory.DisplayedCats.Projection]
yy:272 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:273 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
yy:275 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:275 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
yy:278 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
yy:278 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
yy:279 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:281 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
yy:281 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
yy:282 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:283 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:283 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:285 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
yy:286 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:287 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:288 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:289 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:290 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:292 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
yy:294 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:294 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:299 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:30 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:30 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
yy:300 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:300 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
yy:303 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:304 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
yy:305 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
yy:305 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
yy:308 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:310 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
yy:311 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:313 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
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yy:32 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
yy:320 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:320 [in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:328 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
yy:328 [in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:336 [in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:345 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:346 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
yy:35 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
yy:353 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:354 [in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:362 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
yy:363 [in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:371 [in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:377 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
yy:378 [in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:389 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:394 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
yy:397 [in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:409 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:417 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:417 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
yy:42 [in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:426 [in UniMath.CategoryTheory.DisplayedCats.Core]
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yy:43 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
yy:436 [in UniMath.CategoryTheory.DisplayedCats.Core]
yy:444 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
yy:45 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
yy:460 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
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yy:54 [in UniMath.CategoryTheory.DisplayedCats.Core]
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z:99 [in UniMath.Algebra.Matrix]
z:99 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
z:99 [in UniMath.Bicategories.Colimits.Initial]
z:99 [in UniMath.MoreFoundations.Subtypes]
z:99 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
z:990 [in UniMath.HomologicalAlgebra.MappingCone]
z:991 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
z:996 [in UniMath.HomologicalAlgebra.MappingCone]
z₁:69 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
z₁:71 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
z₂:70 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
z₂:72 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]

other

ΓA:54 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
ΓA:57 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
ΓAπt:63 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
ΓAπt:67 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ':10 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
Γ':16 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
Γ':22 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
Γ1:105 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:131 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:133 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:135 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:138 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:143 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:148 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:151 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:154 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:157 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:161 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:165 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:171 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ1:7 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:104 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:132 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:134 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:136 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:139 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:144 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:149 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:152 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:155 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:158 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:16 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:162 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:166 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:172 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:22 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:29 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:40 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ2:8 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:153 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:156 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:159 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:163 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:167 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:173 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:61 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:78 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ3:90 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:101 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:107 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:11 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:110 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:113 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:116 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:12 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:121 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:126 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:15 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
Γ:177 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:180 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:21 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
Γ:34 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:36 [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Γ:52 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ:55 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ:61 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ:65 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ:68 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ:78 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Γ:9 [in UniMath.CategoryTheory.DisplayedCats.Codomain]
Φ:21 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Φ₁:36 [in UniMath.CategoryTheory.IsoCommaCategory]
Φ₂:37 [in UniMath.CategoryTheory.IsoCommaCategory]
αd:13 [in UniMath.Bicategories.Core.Adjunctions]
αd:14 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:17 [in UniMath.Bicategories.Core.Adjunctions]
αd:21 [in UniMath.Bicategories.Core.Adjunctions]
αd:22 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:28 [in UniMath.Bicategories.Core.Adjunctions]
αd:30 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:355 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:358 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:368 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:372 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:40 [in UniMath.Bicategories.Core.Adjunctions]
αd:44 [in UniMath.Bicategories.Core.Adjunctions]
αd:56 [in UniMath.Bicategories.Core.Adjunctions]
αd:6 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αd:9 [in UniMath.Bicategories.Core.Adjunctions]
αe:107 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αe:115 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αe:123 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αe:367 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αe:48 [in UniMath.Bicategories.Core.Adjunctions]
αe:52 [in UniMath.Bicategories.Core.Adjunctions]
αe:60 [in UniMath.Bicategories.Core.Adjunctions]
αe:64 [in UniMath.Bicategories.Core.Adjunctions]
αe:68 [in UniMath.Bicategories.Core.Adjunctions]
αe:72 [in UniMath.Bicategories.Core.Adjunctions]
αe:99 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αf:102 [in UniMath.Bicategories.Core.FullyFaithful]
αf:128 [in UniMath.Bicategories.Core.FullyFaithful]
αf:137 [in UniMath.Bicategories.Core.FullyFaithful]
αf:146 [in UniMath.Bicategories.Core.FullyFaithful]
αf:197 [in UniMath.Bicategories.Core.FullyFaithful]
αf:201 [in UniMath.Bicategories.Core.FullyFaithful]
αiso:164 [in UniMath.CategoryTheory.Adjunctions.Core]
αiso:9 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
α_pr2:49 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
α_pr1:48 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
α_invertible:122 [in UniMath.Bicategories.Core.Adjunctions]
α_nat:76 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
α':144 [in UniMath.CategoryTheory.Monads.KTriples]
α':164 [in UniMath.CategoryTheory.Monads.KTriples]
α':171 [in UniMath.CategoryTheory.Monads.KTriples]
α':227 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α':236 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α':28 [in UniMath.CategoryTheory.PointedFunctors]
α':36 [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α':41 [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α':42 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':44 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':47 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':50 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':58 [in UniMath.CategoryTheory.Monads.LModules]
α':60 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':64 [in UniMath.CategoryTheory.Monads.LModules]
α':66 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':72 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':73 [in UniMath.CategoryTheory.Monads.Monads]
α':77 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
α':79 [in UniMath.CategoryTheory.Monads.Monads]
α1:39 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
α2:40 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
α:10 [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
α:10 [in UniMath.Bicategories.Core.EquivToAdjequiv]
α:10 [in UniMath.Bicategories.DisplayedBicats.Fibration]
α:10 [in UniMath.Bicategories.Core.Examples.Final]
α:10 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
α:100 [in UniMath.Induction.ImpredicativeInductiveSets]
α:100 [in UniMath.Bicategories.Core.TransportLaws]
α:101 [in UniMath.Induction.ImpredicativeInductiveSets]
α:101 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:102 [in UniMath.Induction.ImpredicativeInductiveSets]
α:102 [in UniMath.Bicategories.Colimits.Products]
α:102 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
α:1025 [in UniMath.Bicategories.Core.Bicat]
α:1028 [in UniMath.Bicategories.Core.Bicat]
α:103 [in UniMath.Bicategories.Core.FullyFaithful]
α:1048 [in UniMath.Bicategories.Core.Bicat]
α:105 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:1051 [in UniMath.Bicategories.Core.Bicat]
α:107 [in UniMath.Bicategories.Colimits.Products]
α:108 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
α:109 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:11 [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
α:11 [in UniMath.Induction.ImpredicativeInductiveSets]
α:11 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:11 [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
α:11 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
α:11 [in UniMath.CategoryTheory.PointedFunctors]
α:110 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
α:110 [in UniMath.Bicategories.Core.TransportLaws]
α:111 [in UniMath.CategoryTheory.PrecategoryBinProduct]
α:112 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
α:113 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:113 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
α:114 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
α:114 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
α:117 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:119 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
α:12 [in UniMath.Induction.ImpredicativeInductiveSets]
α:120 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:121 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:121 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
α:121 [in UniMath.Bicategories.Core.Adjunctions]
α:121 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:122 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:1240 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:1241 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:1242 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:1243 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:1244 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:125 [in UniMath.Bicategories.Core.BicategoryLaws]
α:125 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
α:125 [in UniMath.Bicategories.Colimits.Products]
α:127 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:129 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:13 [in UniMath.Induction.ImpredicativeInductiveSets]
α:1319 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:132 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
α:132 [in UniMath.SyntheticHomotopyTheory.Circle2]
α:1320 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:1321 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:133 [in UniMath.CategoryTheory.Core.NaturalTransformations]
α:134 [in UniMath.Bicategories.Core.BicategoryLaws]
α:134 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:1340 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:1341 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:1342 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:135 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
α:135 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:135 [in UniMath.CategoryTheory.Monads.KTriples]
α:136 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:136 [in UniMath.CategoryTheory.Core.NaturalTransformations]
α:136 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
α:1361 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:1362 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:1363 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:1374 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:1375 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:1376 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:138 [in UniMath.Bicategories.Transformations.PseudoTransformation]
α:1387 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:139 [in UniMath.CategoryTheory.Monads.KTriples]
α:1395 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:14 [in UniMath.Bicategories.Core.YonedaLemma]
α:14 [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α:14 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
α:140 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
α:141 [in UniMath.Bicategories.Core.BicategoryLaws]
α:141 [in UniMath.CategoryTheory.Core.NaturalTransformations]
α:141 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:142 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
α:142 [in UniMath.Bicategories.Core.Univalence]
α:143 [in UniMath.Bicategories.Transformations.PseudoTransformation]
α:143 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:143 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:143 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
α:143 [in UniMath.CategoryTheory.Monads.KTriples]
α:144 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:144 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
α:145 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:145 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
α:146 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:146 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:147 [in UniMath.Bicategories.Core.FullyFaithful]
α:147 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
α:148 [in UniMath.Bicategories.Core.BicategoryLaws]
α:148 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:148 [in UniMath.CategoryTheory.Core.NaturalTransformations]
α:15 [in UniMath.SubstitutionSystems.Signatures]
α:150 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:151 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
α:151 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:151 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:1516 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:152 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:152 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
α:152 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:1521 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:153 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:153 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:153 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:153 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
α:153 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
α:1533 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:154 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:154 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:1543 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:155 [in UniMath.Bicategories.Core.BicategoryLaws]
α:155 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
α:155 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
α:159 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:159 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
α:159 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:16 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
α:16 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:16 [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
α:160 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:161 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:161 [in UniMath.CategoryTheory.Core.NaturalTransformations]
α:161 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
α:162 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:163 [in UniMath.Bicategories.Core.BicategoryLaws]
α:163 [in UniMath.CategoryTheory.Monads.KTriples]
α:164 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:165 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
α:166 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:166 [in UniMath.Bicategories.Core.Strictness]
α:167 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:167 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:167 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:168 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:168 [in UniMath.Bicategories.Core.Strictness]
α:169 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:17 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
α:17 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
α:17 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
α:17 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
α:17 [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α:17 [in UniMath.Bicategories.Core.Examples.StrictCats]
α:170 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:170 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
α:170 [in UniMath.CategoryTheory.Monads.KTriples]
α:171 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:171 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:171 [in UniMath.Bicategories.Core.Strictness]
α:172 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:172 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:173 [in UniMath.Bicategories.Core.BicategoryLaws]
α:173 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:173 [in UniMath.Bicategories.Core.Strictness]
α:174 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:175 [in UniMath.Bicategories.Transformations.PseudoTransformation]
α:175 [in UniMath.Bicategories.Core.Strictness]
α:177 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:177 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:177 [in UniMath.Bicategories.Core.Strictness]
α:178 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
α:178 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:179 [in UniMath.Bicategories.Core.Invertible_2cells]
α:179 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:18 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:18 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
α:18 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
α:180 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
α:180 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:181 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:183 [in UniMath.Bicategories.Core.BicategoryLaws]
α:183 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:183 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:186 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:186 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
α:187 [in UniMath.Bicategories.Core.Invertible_2cells]
α:187 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
α:187 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:188 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
α:188 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:189 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
α:189 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:19 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
α:19 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
α:19 [in UniMath.SubstitutionSystems.SignatureCategory]
α:19 [in UniMath.CategoryTheory.Adjunctions.Examples]
α:19 [in UniMath.Bicategories.Core.Examples.StrictCats]
α:191 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:192 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:194 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:196 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
α:196 [in UniMath.Bicategories.Colimits.Products]
α:197 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:197 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:198 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
α:20 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
α:20 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
α:20 [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α:203 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
α:204 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:204 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
α:205 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:205 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:205 [in UniMath.Bicategories.Colimits.Products]
α:21 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
α:21 [in UniMath.Bicategories.DisplayedBicats.Fibration]
α:21 [in UniMath.CategoryTheory.PointedFunctors]
α:21 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
α:21 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
α:210 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:212 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
α:213 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:214 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
α:214 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:215 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:216 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:216 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:216 [in UniMath.Bicategories.Colimits.Products]
α:22 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
α:22 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
α:22 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
α:22 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
α:22 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
α:22 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
α:22 [in UniMath.Bicategories.Core.Examples.StrictCats]
α:220 [in UniMath.Bicategories.Core.FullyFaithful]
α:221 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:222 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:223 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:224 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
α:224 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:225 [in UniMath.Bicategories.Colimits.Products]
α:226 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:227 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:229 [in UniMath.Bicategories.Core.FullyFaithful]
α:23 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
α:23 [in UniMath.Bicategories.Colimits.Final]
α:232 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:233 [in UniMath.CategoryTheory.FunctorCategory]
α:234 [in UniMath.Bicategories.Colimits.Products]
α:235 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:236 [in UniMath.Bicategories.Core.Strictness]
α:237 [in UniMath.Bicategories.Core.FullyFaithful]
α:239 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:239 [in UniMath.CategoryTheory.FunctorCategory]
α:24 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
α:24 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
α:24 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
α:24 [in UniMath.Bicategories.Core.Examples.StrictCats]
α:243 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
α:243 [in UniMath.Bicategories.Colimits.Products]
α:244 [in UniMath.Bicategories.Core.Strictness]
α:244 [in UniMath.CategoryTheory.Core.NaturalTransformations]
α:245 [in UniMath.CategoryTheory.FunctorCategory]
α:247 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:248 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:249 [in UniMath.Bicategories.Core.Univalence]
α:25 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
α:250 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
α:251 [in UniMath.CategoryTheory.FunctorCategory]
α:252 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:253 [in UniMath.Bicategories.Colimits.Products]
α:255 [in UniMath.Bicategories.Core.Univalence]
α:257 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
α:259 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:26 [in UniMath.Bicategories.Core.EquivToAdjequiv]
α:26 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:26 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
α:26 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
α:26 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
α:26 [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α:26 [in UniMath.Bicategories.Core.Examples.StrictCats]
α:260 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:263 [in UniMath.Bicategories.Colimits.Products]
α:267 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:267 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:268 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:269 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:27 [in UniMath.SubstitutionSystems.Signatures]
α:27 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
α:27 [in UniMath.CategoryTheory.PointedFunctors]
α:27 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
α:270 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:270 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:273 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:273 [in UniMath.Bicategories.Colimits.Products]
α:275 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:276 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
α:276 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:277 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:278 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:278 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:28 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
α:28 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
α:28 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
α:28 [in UniMath.Bicategories.Core.Examples.StrictCats]
α:283 [in UniMath.Bicategories.Colimits.Products]
α:285 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:29 [in UniMath.CategoryTheory.Elements]
α:29 [in UniMath.Bicategories.Core.Univalence]
α:29 [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α:29 [in UniMath.CategoryTheory.Monads.LModules]
α:290 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:293 [in UniMath.Bicategories.Colimits.Products]
α:294 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:295 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:296 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:296 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
α:296 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:297 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:297 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
α:298 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:298 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:30 [in UniMath.CategoryTheory.HorizontalComposition]
α:30 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
α:30 [in UniMath.Bicategories.Colimits.Initial]
α:302 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:303 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:304 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:305 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:306 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:31 [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
α:31 [in UniMath.SubstitutionSystems.Signatures]
α:31 [in UniMath.Bicategories.DisplayedBicats.Fibration]
α:311 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:313 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:314 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:316 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
α:32 [in UniMath.CategoryTheory.Elements]
α:32 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
α:32 [in UniMath.Bicategories.Core.Adjunctions]
α:32 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:32 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
α:320 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:321 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:322 [in UniMath.CategoryTheory.PrecategoryBinProduct]
α:322 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:323 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:324 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:325 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:326 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
α:329 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:33 [in UniMath.CategoryTheory.Elements]
α:33 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:33 [in UniMath.Bicategories.Core.Examples.OpMorBicat]
α:330 [in UniMath.CategoryTheory.PrecategoryBinProduct]
α:330 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:331 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:332 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
α:335 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:335 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
α:338 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:339 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:340 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:342 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:342 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
α:343 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
α:344 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:345 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:347 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:349 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:35 [in UniMath.SubstitutionSystems.Signatures]
α:35 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
α:35 [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α:35 [in UniMath.CategoryTheory.Monads.LModules]
α:355 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:357 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:357 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:36 [in UniMath.Bicategories.Core.BicategoryLaws]
α:36 [in UniMath.Algebra.Universal.VTerms]
α:36 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
α:36 [in UniMath.Bicategories.Core.Adjunctions]
α:364 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:366 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:369 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:37 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
α:37 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:371 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:371 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:375 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:378 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:38 [in UniMath.CategoryTheory.Monads.Monads]
α:38 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
α:382 [in UniMath.MoreFoundations.PathsOver]
α:385 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:389 [in UniMath.MoreFoundations.PathsOver]
α:39 [in UniMath.Bicategories.Core.EquivToAdjequiv]
α:39 [in UniMath.CategoryTheory.Monads.LModules]
α:4 [in UniMath.SubstitutionSystems.GenMendlerIteration]
α:4 [in UniMath.Induction.ImpredicativeInductiveSets]
α:4 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
α:4 [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
α:40 [in UniMath.Bicategories.DisplayedBicats.DispModification]
α:40 [in UniMath.Bicategories.Colimits.Products]
α:40 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
α:40 [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α:404 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:405 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
α:41 [in UniMath.Algebra.Universal.VTerms]
α:41 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:41 [in UniMath.CategoryTheory.PrecategoryBinProduct]
α:415 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:417 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:418 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:42 [in UniMath.Bicategories.Transformations.PseudoTransformation]
α:42 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
α:42 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
α:421 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:426 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:427 [in UniMath.MoreFoundations.PathsOver]
α:43 [in UniMath.Bicategories.Core.BicategoryLaws]
α:43 [in UniMath.Bicategories.Core.YonedaLemma]
α:43 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
α:43 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
α:434 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:436 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
α:439 [in UniMath.MoreFoundations.PathsOver]
α:44 [in UniMath.Bicategories.Core.Examples.Initial]
α:44 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
α:44 [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α:440 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:441 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:445 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:448 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:45 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
α:45 [in UniMath.CategoryTheory.Monads.Monads]
α:45 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:45 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
α:45 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
α:457 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:459 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
α:46 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
α:46 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
α:46 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:46 [in UniMath.CategoryTheory.Monads.KTriples]
α:464 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:467 [in UniMath.CategoryTheory.limits.pullbacks]
α:468 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:468 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:468 [in UniMath.MoreFoundations.PathsOver]
α:469 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:47 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
α:47 [in UniMath.CategoryTheory.Monads.LModules]
α:470 [in UniMath.MoreFoundations.PathsOver]
α:471 [in UniMath.MoreFoundations.PathsOver]
α:473 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:474 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:475 [in UniMath.CategoryTheory.limits.pullbacks]
α:477 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:478 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:478 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:479 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:48 [in UniMath.Algebra.Universal.VTerms]
α:48 [in UniMath.Bicategories.Colimits.Products]
α:48 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
α:480 [in UniMath.MoreFoundations.PathsOver]
α:483 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:483 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:484 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:484 [in UniMath.CategoryTheory.limits.pullbacks]
α:488 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:489 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:489 [in UniMath.CategoryTheory.limits.pullbacks]
α:49 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
α:49 [in UniMath.CategoryTheory.Monads.Monads]
α:49 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
α:492 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:492 [in UniMath.MoreFoundations.PathsOver]
α:495 [in UniMath.CategoryTheory.limits.pullbacks]
α:5 [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
α:5 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
α:5 [in UniMath.Algebra.Universal.EqAlgebras]
α:5 [in UniMath.Algebra.Universal.Examples.Bool]
α:50 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
α:500 [in UniMath.CategoryTheory.limits.pullbacks]
α:502 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:502 [in UniMath.MoreFoundations.PathsOver]
α:506 [in UniMath.CategoryTheory.limits.pullbacks]
α:508 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:509 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:51 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
α:51 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
α:511 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:511 [in UniMath.CategoryTheory.limits.pullbacks]
α:515 [in UniMath.MoreFoundations.PathsOver]
α:516 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:52 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
α:52 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
α:523 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:524 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:525 [in UniMath.CategoryTheory.Monads.RelativeMonads]
α:528 [in UniMath.MoreFoundations.PathsOver]
α:53 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
α:53 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:53 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
α:530 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:54 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
α:54 [in UniMath.Bicategories.Colimits.Products]
α:540 [in UniMath.MoreFoundations.PathsOver]
α:545 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:548 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:549 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:55 [in UniMath.CategoryTheory.Monads.KTriples]
α:56 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
α:560 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:567 [in UniMath.MoreFoundations.PathsOver]
α:57 [in UniMath.CategoryTheory.Monads.Monads]
α:57 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
α:57 [in UniMath.CategoryTheory.Monads.LModules]
α:571 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:58 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
α:58 [in UniMath.Bicategories.Core.Invertible_2cells]
α:587 [in UniMath.MoreFoundations.PathsOver]
α:59 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:590 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:594 [in UniMath.Bicategories.Core.Bicat]
α:6 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
α:6 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
α:6 [in UniMath.Algebra.Universal.FreeAlgebras]
α:6 [in UniMath.Bicategories.Core.Examples.Groupoids]
α:60 [in UniMath.SubstitutionSystems.SubstitutionSystems]
α:60 [in UniMath.Bicategories.Colimits.Products]
α:60 [in UniMath.CategoryTheory.Monads.KTriples]
α:600 [in UniMath.MoreFoundations.PathsOver]
α:604 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:61 [in UniMath.Induction.ImpredicativeInductiveSets]
α:615 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:62 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
α:62 [in UniMath.CategoryTheory.Monads.Monads]
α:62 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:63 [in UniMath.CategoryTheory.Monads.LModules]
α:63 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
α:634 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:64 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:64 [in UniMath.Bicategories.Transformations.PseudoTransformation]
α:64 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
α:65 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:65 [in UniMath.Bicategories.Colimits.Products]
α:653 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:66 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:66 [in UniMath.SubstitutionSystems.SubstitutionSystems]
α:666 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:67 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:67 [in UniMath.Induction.ImpredicativeInductiveSets]
α:677 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:68 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:68 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
α:68 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:68 [in UniMath.Induction.ImpredicativeInductiveSets]
α:69 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:69 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:69 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
α:69 [in UniMath.Induction.ImpredicativeInductiveSets]
α:69 [in UniMath.CategoryTheory.Monads.LModules]
α:69 [in UniMath.CategoryTheory.Monads.KTriples]
α:696 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:7 [in UniMath.SubstitutionSystems.GenMendlerIteration]
α:7 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
α:7 [in UniMath.Bicategories.DisplayedBicats.DispModification]
α:7 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
α:7 [in UniMath.CategoryTheory.PointedFunctors]
α:7 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
α:70 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:70 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:70 [in UniMath.SubstitutionSystems.SubstitutionSystems]
α:71 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:715 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:72 [in UniMath.CategoryTheory.Monads.Monads]
α:726 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:73 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
α:737 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:74 [in UniMath.Bicategories.Transformations.PseudoTransformation]
α:74 [in UniMath.CategoryTheory.Monads.KTriples]
α:75 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:75 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
α:75 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:75 [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
α:756 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:76 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:76 [in UniMath.Bicategories.Core.TransportLaws]
α:77 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:77 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
α:775 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:78 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:78 [in UniMath.CategoryTheory.ElementsOp]
α:78 [in UniMath.CategoryTheory.Monads.Monads]
α:78 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:79 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
α:794 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:8 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
α:8 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
α:8 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
α:80 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
α:80 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α:81 [in UniMath.CategoryTheory.ElementsOp]
α:81 [in UniMath.CategoryTheory.Monads.KTriples]
α:813 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:82 [in UniMath.CategoryTheory.ElementsOp]
α:820 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:827 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:83 [in UniMath.CategoryTheory.Monads.Monads]
α:83 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
α:83 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
α:834 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:84 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:841 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:85 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:85 [in UniMath.CategoryTheory.PrecategoryBinProduct]
α:856 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:86 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:86 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:87 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
α:871 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:882 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:89 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:9 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
α:9 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
α:9 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
α:9 [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
α:90 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
α:901 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:91 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
α:91 [in UniMath.Bicategories.Core.TransportLaws]
α:910 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:92 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:92 [in UniMath.Induction.ImpredicativeInductiveSets]
α:92 [in UniMath.Bicategories.Core.Univalence]
α:92 [in UniMath.Bicategories.Colimits.Products]
α:93 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:93 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:93 [in UniMath.Bicategories.Colimits.Final]
α:93 [in UniMath.CategoryTheory.PrecategoryBinProduct]
α:93 [in UniMath.CategoryTheory.Monics]
α:94 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:940 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:95 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
α:950 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:955 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:956 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:957 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:96 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
α:96 [in UniMath.CategoryTheory.Epis]
α:963 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:964 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:965 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:969 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:97 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
α:97 [in UniMath.Bicategories.Colimits.Products]
α:97 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
α:973 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:977 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:981 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:982 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
α:986 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ααdata:39 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ααd:103 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:111 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:18 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:26 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:34 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:42 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:55 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:64 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααd:79 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααe:119 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ααe:127 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αα:10 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
αα:10 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
αα:107 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
αα:11 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
αα:11 [in UniMath.Bicategories.DisplayedBicats.DispModification]
αα:12 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
αα:130 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:149 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:1538 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα:1548 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα:155 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:164 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:165 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:184 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:192 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:195 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:202 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
αα:206 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:206 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:216 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
αα:217 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:228 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:228 [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
αα:245 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
αα:246 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
αα:254 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:27 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
αα:27 [in UniMath.Bicategories.DisplayedBicats.DispModification]
αα:27 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
αα:278 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:280 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:281 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
αα:29 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:290 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:303 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:316 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:32 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:321 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
αα:331 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
αα:347 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:363 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:384 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:40 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα:410 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
αα:429 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:44 [in UniMath.Bicategories.DisplayedBicats.DispModification]
αα:444 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
αα:449 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:465 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:48 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
αα:485 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:498 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:50 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
αα:514 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:52 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
αα:530 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
αα:58 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
αα:60 [in UniMath.Bicategories.DisplayedBicats.DispModification]
αα:61 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
αα:64 [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
αα:66 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα:73 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
αα:74 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:75 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:76 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:77 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:78 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα:82 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα:87 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αα:88 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
αα:919 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα:95 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
αα:96 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα₁:12 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα₁:1403 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα₁:21 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα₁:47 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
αα₂:1404 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
αα₂:28 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
αα₂:54 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
αβ:59 [in UniMath.CategoryTheory.HorizontalComposition]
α₁:117 [in UniMath.Bicategories.Core.FullyFaithful]
α₁:171 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α₁:18 [in UniMath.Bicategories.Core.FullyFaithful]
α₁:185 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α₁:349 [in UniMath.Bicategories.Colimits.Products]
α₁:8 [in UniMath.Bicategories.Core.FullyFaithful]
α₁:97 [in UniMath.Bicategories.Core.FullyFaithful]
α₂:118 [in UniMath.Bicategories.Core.FullyFaithful]
α₂:172 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α₂:186 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
α₂:19 [in UniMath.Bicategories.Core.FullyFaithful]
α₂:351 [in UniMath.Bicategories.Colimits.Products]
α₂:9 [in UniMath.Bicategories.Core.FullyFaithful]
α₂:98 [in UniMath.Bicategories.Core.FullyFaithful]
α₃:187 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β':24 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
β1:41 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
β2:42 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
β:100 [in UniMath.SubstitutionSystems.SubstitutionSystems]
β:103 [in UniMath.SubstitutionSystems.SubstitutionSystems]
β:103 [in UniMath.Bicategories.Colimits.Products]
β:108 [in UniMath.SubstitutionSystems.SubstitutionSystems]
β:108 [in UniMath.Bicategories.Colimits.Products]
β:11 [in UniMath.Bicategories.Core.EquivToAdjequiv]
β:111 [in UniMath.SubstitutionSystems.SubstitutionSystems]
β:111 [in UniMath.Bicategories.Core.TransportLaws]
β:112 [in UniMath.CategoryTheory.PrecategoryBinProduct]
β:114 [in UniMath.SubstitutionSystems.SubstitutionSystems]
β:117 [in UniMath.SubstitutionSystems.SubstitutionSystems]
β:12 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:12 [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
β:12 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
β:120 [in UniMath.SubstitutionSystems.SubstitutionSystems]
β:123 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:126 [in UniMath.Bicategories.Colimits.Products]
β:128 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:132 [in UniMath.SubstitutionSystems.SubstitutionSystems]
β:133 [in UniMath.SyntheticHomotopyTheory.Circle2]
β:136 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:137 [in UniMath.SubstitutionSystems.SubstitutionSystems]
β:1396 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:142 [in UniMath.CategoryTheory.Core.NaturalTransformations]
β:142 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:143 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
β:144 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:148 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
β:149 [in UniMath.CategoryTheory.Core.NaturalTransformations]
β:15 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
β:15 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:151 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:152 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
β:152 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:153 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
β:1534 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:1544 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:160 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
β:161 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
β:167 [in UniMath.Bicategories.Core.Strictness]
β:169 [in UniMath.Bicategories.Core.Strictness]
β:17 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:17 [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
β:174 [in UniMath.Bicategories.Core.BicategoryLaws]
β:18 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
β:18 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
β:18 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
β:18 [in UniMath.Bicategories.Core.Examples.StrictCats]
β:181 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
β:183 [in UniMath.Bicategories.Core.FullyFaithful]
β:184 [in UniMath.Bicategories.Core.BicategoryLaws]
β:184 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
β:19 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:197 [in UniMath.Bicategories.Colimits.Products]
β:198 [in UniMath.CategoryTheory.Monads.RelativeMonads]
β:20 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
β:20 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
β:20 [in UniMath.SubstitutionSystems.SignatureCategory]
β:20 [in UniMath.Bicategories.Core.Examples.StrictCats]
β:206 [in UniMath.Bicategories.Colimits.Products]
β:217 [in UniMath.Bicategories.Colimits.Products]
β:22 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:226 [in UniMath.Bicategories.Colimits.Products]
β:23 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
β:23 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
β:23 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
β:235 [in UniMath.Bicategories.Colimits.Products]
β:24 [in UniMath.Bicategories.Colimits.Final]
β:244 [in UniMath.Bicategories.Colimits.Products]
β:25 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:253 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
β:254 [in UniMath.Bicategories.Colimits.Products]
β:264 [in UniMath.Bicategories.Colimits.Products]
β:27 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:274 [in UniMath.Bicategories.Colimits.Products]
β:279 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
β:28 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
β:284 [in UniMath.Bicategories.Colimits.Products]
β:294 [in UniMath.Bicategories.Colimits.Products]
β:297 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:299 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:31 [in UniMath.Bicategories.Colimits.Initial]
β:33 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:34 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:341 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
β:346 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:348 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:370 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:372 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:376 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
β:38 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
β:39 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:41 [in UniMath.Bicategories.DisplayedBicats.DispModification]
β:41 [in UniMath.Bicategories.Colimits.Products]
β:42 [in UniMath.CategoryTheory.PrecategoryBinProduct]
β:43 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:437 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
β:45 [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
β:46 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:46 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:468 [in UniMath.CategoryTheory.limits.pullbacks]
β:469 [in UniMath.MoreFoundations.PathsOver]
β:47 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:476 [in UniMath.CategoryTheory.limits.pullbacks]
β:485 [in UniMath.CategoryTheory.limits.pullbacks]
β:49 [in UniMath.Bicategories.Colimits.Products]
β:49 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
β:490 [in UniMath.CategoryTheory.limits.pullbacks]
β:496 [in UniMath.CategoryTheory.limits.pullbacks]
β:5 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
β:501 [in UniMath.CategoryTheory.limits.pullbacks]
β:507 [in UniMath.CategoryTheory.limits.pullbacks]
β:512 [in UniMath.CategoryTheory.limits.pullbacks]
β:54 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:55 [in UniMath.Bicategories.Core.FullyFaithful]
β:55 [in UniMath.Bicategories.Colimits.Products]
β:568 [in UniMath.MoreFoundations.PathsOver]
β:58 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
β:588 [in UniMath.MoreFoundations.PathsOver]
β:6 [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
β:60 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:61 [in UniMath.Bicategories.Colimits.Products]
β:63 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:66 [in UniMath.Bicategories.Colimits.Products]
β:69 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
β:70 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
β:70 [in UniMath.CategoryTheory.Monads.LModules]
β:71 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:71 [in UniMath.Bicategories.Core.Invertible_2cells]
β:76 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:78 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
β:79 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:8 [in UniMath.Bicategories.DisplayedBicats.DispModification]
β:81 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β:82 [in UniMath.CategoryTheory.Monads.KTriples]
β:84 [in UniMath.CategoryTheory.Monads.Monads]
β:86 [in UniMath.CategoryTheory.PrecategoryBinProduct]
β:87 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
β:90 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:911 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
β:92 [in UniMath.SubstitutionSystems.SubstitutionSystems]
β:93 [in UniMath.Bicategories.Colimits.Products]
β:94 [in UniMath.Bicategories.Colimits.Final]
β:94 [in UniMath.CategoryTheory.PrecategoryBinProduct]
β:97 [in UniMath.SubstitutionSystems.SubstitutionSystems]
β:98 [in UniMath.Bicategories.Colimits.Products]
ββ:12 [in UniMath.Bicategories.DisplayedBicats.DispModification]
ββ:1405 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:153 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ββ:1539 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:1549 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:255 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ββ:281 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
ββ:348 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ββ:385 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
ββ:445 [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ββ:45 [in UniMath.Bicategories.DisplayedBicats.DispModification]
ββ:53 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:62 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
ββ:67 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:74 [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
ββ:83 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:920 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ββ:97 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
β₁:173 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β₁:350 [in UniMath.Bicategories.Colimits.Products]
β₂:174 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
β₂:352 [in UniMath.Bicategories.Colimits.Products]
γF:11 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
γG:12 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
γpr1:111 [in UniMath.Bicategories.Colimits.Products]
γpr1:69 [in UniMath.Bicategories.Colimits.Products]
γpr2:112 [in UniMath.Bicategories.Colimits.Products]
γpr2:70 [in UniMath.Bicategories.Colimits.Products]
γ:10 [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
γ:109 [in UniMath.Bicategories.Colimits.Products]
γ:118 [in UniMath.Bicategories.Colimits.Products]
γ:129 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:13 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
γ:133 [in UniMath.SubstitutionSystems.SubstitutionSystems]
γ:137 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:138 [in UniMath.SubstitutionSystems.SubstitutionSystems]
γ:143 [in UniMath.CategoryTheory.Core.NaturalTransformations]
γ:143 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
γ:145 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:150 [in UniMath.CategoryTheory.Core.NaturalTransformations]
γ:152 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
γ:152 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
γ:153 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:270 [in UniMath.CategoryTheory.PrecategoryBinProduct]
γ:279 [in UniMath.CategoryTheory.PrecategoryBinProduct]
γ:287 [in UniMath.CategoryTheory.PrecategoryBinProduct]
γ:295 [in UniMath.CategoryTheory.PrecategoryBinProduct]
γ:304 [in UniMath.CategoryTheory.PrecategoryBinProduct]
γ:314 [in UniMath.CategoryTheory.PrecategoryBinProduct]
γ:42 [in UniMath.Bicategories.Colimits.Products]
γ:42 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
γ:45 [in UniMath.CategoryTheory.whiskering]
γ:47 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:55 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:64 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:67 [in UniMath.Bicategories.Colimits.Products]
γ:7 [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
γ:72 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:80 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
γ:84 [in UniMath.CategoryTheory.whiskering]
γ:88 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
γγ:154 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δpe_eq:105 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
δpr1:113 [in UniMath.Bicategories.Colimits.Products]
δpr1:71 [in UniMath.Bicategories.Colimits.Products]
δpr2:114 [in UniMath.Bicategories.Colimits.Products]
δpr2:72 [in UniMath.Bicategories.Colimits.Products]
δtr_eq:104 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
δtr:117 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
δ:10 [in UniMath.CategoryTheory.DisplayedCats.Limits]
δ:101 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
δ:108 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:110 [in UniMath.Bicategories.Colimits.Products]
δ:119 [in UniMath.Bicategories.Colimits.Products]
δ:124 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:135 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:14 [in UniMath.SubstitutionSystems.SignatureExamples]
δ:226 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:30 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:42 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
δ:42 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:43 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
δ:52 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:63 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:68 [in UniMath.Bicategories.Colimits.Products]
δ:75 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:75 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
δ:77 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
δ:87 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δ:98 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
δ:99 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
δδ:34 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δδ₁:92 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
δδ₂:93 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
εinv:101 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
εinv:112 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
ε_iso:114 [in UniMath.Bicategories.Core.Adjunctions]
ε:100 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
ε:105 [in UniMath.Bicategories.Core.Invertible_2cells]
ε:110 [in UniMath.Bicategories.Core.Adjunctions]
ε:115 [in UniMath.Bicategories.Core.Invertible_2cells]
ε:120 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε:125 [in UniMath.Bicategories.Core.Invertible_2cells]
ε:128 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε:129 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε:135 [in UniMath.Bicategories.Core.Invertible_2cells]
ε:138 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε:145 [in UniMath.Bicategories.Core.Invertible_2cells]
ε:158 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
ε:166 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
ε:176 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
ε:182 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
ε:187 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
ε:192 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
ε:193 [in UniMath.Bicategories.Core.FullyFaithful]
ε:195 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε:22 [in UniMath.CategoryTheory.Adjunctions.Core]
ε:24 [in UniMath.Bicategories.Core.Adjunctions]
ε:26 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
ε:27 [in UniMath.CategoryTheory.Equivalences.Core]
ε:29 [in UniMath.CategoryTheory.Adjunctions.Core]
ε:5 [in UniMath.CategoryTheory.Equivalences.Core]
ε:95 [in UniMath.Bicategories.Core.Invertible_2cells]
εε:45 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
εε:57 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
εε:68 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
εε:72 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
εε:83 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ε₁:133 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₁:143 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₁:18 [in UniMath.Bicategories.Core.BicategoryLaws]
ε₁:39 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₁:52 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₁:64 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₁:76 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₁:88 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₂:19 [in UniMath.Bicategories.Core.BicategoryLaws]
ε₂:44 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₂:57 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₂:69 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₂:81 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ε₂:93 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ζ':17 [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
ζ:16 [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
ζ:68 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
ηf:122 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
ηf:133 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
ηg:121 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
ηg:132 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
ηinv:99 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
η_iso:113 [in UniMath.Bicategories.Core.Adjunctions]
η':14 [in UniMath.Bicategories.Core.AdjointUnique]
η':21 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
η':21 [in UniMath.Bicategories.Core.AdjointUnique]
η':87 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:100 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
η:101 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:105 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
η:109 [in UniMath.Bicategories.Core.Adjunctions]
η:11 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η:11 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
η:11 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
η:111 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:111 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
η:119 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
η:119 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η:12 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:127 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η:128 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η:13 [in UniMath.Bicategories.Core.AdjointUnique]
η:13 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η:13 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:13 [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
η:1308 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:1329 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:1350 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:137 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η:137 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
η:138 [in UniMath.Bicategories.Core.BicategoryLaws]
η:1381 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:14 [in UniMath.Bicategories.Core.Examples.Final]
η:14 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:1417 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:145 [in UniMath.Bicategories.Core.BicategoryLaws]
η:145 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
η:148 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
η:15 [in UniMath.Bicategories.Core.Examples.Final]
η:15 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:152 [in UniMath.Bicategories.Core.BicategoryLaws]
η:153 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
η:157 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:16 [in UniMath.Bicategories.Core.Examples.Final]
η:16 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:160 [in UniMath.Bicategories.Core.BicategoryLaws]
η:164 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
η:165 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:167 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
η:17 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
η:17 [in UniMath.Bicategories.Colimits.Pullback]
η:17 [in UniMath.Bicategories.Core.Examples.Final]
η:17 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:17 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
η:17 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
η:170 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:175 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:18 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:181 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:186 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:186 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:19 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
η:19 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
η:190 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
η:191 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:191 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:192 [in UniMath.Bicategories.Core.FullyFaithful]
η:194 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η:197 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:20 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
η:20 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
η:20 [in UniMath.Bicategories.Core.AdjointUnique]
η:20 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
η:205 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
η:205 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:21 [in UniMath.Bicategories.Core.EquivToAdjequiv]
η:21 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η:21 [in UniMath.CategoryTheory.Adjunctions.Core]
η:213 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
η:22 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η:22 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
η:222 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
η:224 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η:23 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:23 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
η:23 [in UniMath.Bicategories.Core.Adjunctions]
η:23 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
η:230 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η:24 [in UniMath.Bicategories.Core.BicategoryLaws]
η:25 [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
η:25 [in UniMath.CategoryTheory.IsoCommaCategory]
η:26 [in UniMath.CategoryTheory.Equivalences.Core]
η:27 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
η:28 [in UniMath.CategoryTheory.Adjunctions.Core]
η:29 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
η:29 [in UniMath.Bicategories.Core.BicategoryLaws]
η:29 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:29 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
η:308 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:31 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:319 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:32 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:33 [in UniMath.Bicategories.Core.EquivToAdjequiv]
η:33 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:332 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:34 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:35 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:36 [in UniMath.CategoryTheory.GrothendieckTopos]
η:36 [in UniMath.Bicategories.Core.YonedaLemma]
η:37 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:374 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:38 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
η:39 [in UniMath.Bicategories.Core.YonedaLemma]
η:393 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:4 [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
η:4 [in UniMath.CategoryTheory.Equivalences.Core]
η:40 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
η:409 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:41 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
η:41 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
η:41 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
η:42 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
η:420 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:435 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:44 [in UniMath.Bicategories.Core.YonedaLemma]
η:45 [in UniMath.Bicategories.Core.YonedaLemma]
η:45 [in UniMath.Bicategories.Core.Univalence]
η:454 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:46 [in UniMath.Bicategories.Core.YonedaLemma]
η:473 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:491 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:5 [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
η:50 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
η:50 [in UniMath.Bicategories.Core.Examples.BicatOfCats]
η:506 [in UniMath.Bicategories.Core.Bicat]
η:513 [in UniMath.Bicategories.Core.Bicat]
η:52 [in UniMath.Bicategories.Colimits.Pullback]
η:52 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
η:52 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
η:522 [in UniMath.Bicategories.Core.Bicat]
η:528 [in UniMath.Bicategories.Core.Bicat]
η:53 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:53 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
η:535 [in UniMath.Bicategories.Core.Bicat]
η:542 [in UniMath.Bicategories.Core.Bicat]
η:57 [in UniMath.Bicategories.Colimits.Pullback]
η:58 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
η:59 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:59 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
η:598 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:601 [in UniMath.Bicategories.Core.Bicat]
η:607 [in UniMath.Bicategories.Core.Bicat]
η:609 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:61 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
η:61 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
η:614 [in UniMath.Bicategories.Core.Bicat]
η:62 [in UniMath.Bicategories.Colimits.Pullback]
η:620 [in UniMath.Bicategories.Core.Bicat]
η:622 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:641 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:67 [in UniMath.Bicategories.Colimits.Pullback]
η:68 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
η:685 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:69 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:7 [in UniMath.Bicategories.Core.EquivToAdjequiv]
η:704 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:72 [in UniMath.Bicategories.Colimits.Pullback]
η:72 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
η:720 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:73 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
η:731 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:746 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:765 [in UniMath.Bicategories.Core.Bicat]
η:765 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:784 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:79 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:80 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
η:802 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:82 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
η:85 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:85 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
η:85 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
η:89 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
η:9 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
η:928 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
η:93 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
η:95 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η:98 [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
ηη:1317 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:1338 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:1359 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:1386 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:144 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ηη:152 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ηη:174 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ηη:197 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ηη:212 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ηη:229 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ηη:24 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
ηη:313 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:324 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:341 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:383 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:402 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:414 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:425 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:44 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
ηη:444 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:463 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:482 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:500 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:56 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ηη:58 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ηη:603 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:614 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:631 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:650 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:67 [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ηη:694 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:71 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ηη:713 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:725 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:736 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:755 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:774 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:793 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:811 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη:82 [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
ηη:937 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ηη₁:101 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ηη₂:102 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
ημ:54 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
ημ:87 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
ηφ:515 [in UniMath.Bicategories.Core.Bicat]
η₁:10 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η₁:103 [in UniMath.Bicategories.Core.Invertible_2cells]
η₁:113 [in UniMath.Bicategories.Core.Invertible_2cells]
η₁:123 [in UniMath.Bicategories.Core.Invertible_2cells]
η₁:132 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:133 [in UniMath.Bicategories.Core.Invertible_2cells]
η₁:142 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:143 [in UniMath.Bicategories.Core.Invertible_2cells]
η₁:152 [in UniMath.Bicategories.Core.Invertible_2cells]
η₁:153 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η₁:16 [in UniMath.Bicategories.Core.BicategoryLaws]
η₁:25 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
η₁:27 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η₁:33 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
η₁:38 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:39 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η₁:45 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η₁:47 [in UniMath.Bicategories.Core.Invertible_2cells]
η₁:5 [in UniMath.Bicategories.Core.YonedaLemma]
η₁:51 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:63 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:75 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:87 [in UniMath.Bicategories.Colimits.Pullback]
η₁:87 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₁:93 [in UniMath.Bicategories.Core.Invertible_2cells]
η₁:94 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
η₁:97 [in UniMath.Bicategories.Colimits.Pullback]
η₂:104 [in UniMath.Bicategories.Core.Invertible_2cells]
η₂:114 [in UniMath.Bicategories.Core.Invertible_2cells]
η₂:124 [in UniMath.Bicategories.Core.Invertible_2cells]
η₂:134 [in UniMath.Bicategories.Core.Invertible_2cells]
η₂:14 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η₂:144 [in UniMath.Bicategories.Core.Invertible_2cells]
η₂:153 [in UniMath.Bicategories.Core.Invertible_2cells]
η₂:157 [in UniMath.Bicategories.Transformations.PseudoTransformation]
η₂:17 [in UniMath.Bicategories.Core.BicategoryLaws]
η₂:26 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
η₂:28 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η₂:34 [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
η₂:40 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η₂:43 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₂:46 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
η₂:48 [in UniMath.Bicategories.Core.Invertible_2cells]
η₂:56 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₂:6 [in UniMath.Bicategories.Core.YonedaLemma]
η₂:68 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₂:80 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₂:88 [in UniMath.Bicategories.Colimits.Pullback]
η₂:92 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η₂:94 [in UniMath.Bicategories.Core.Invertible_2cells]
η₂:95 [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
η₂:98 [in UniMath.Bicategories.Colimits.Pullback]
θwithlaws:54 [in UniMath.SubstitutionSystems.Signatures]
θ:11 [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
θ:12 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
θ:12 [in UniMath.SubstitutionSystems.LiftingInitial]
θ:16 [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
θ:22 [in UniMath.Bicategories.Core.EquivToAdjequiv]
θ:22 [in UniMath.Bicategories.Colimits.Pullback]
θ:27 [in UniMath.Bicategories.Colimits.Products]
θ:32 [in UniMath.SubstitutionSystems.SubstitutionSystems]
θ:34 [in UniMath.Bicategories.Core.EquivToAdjequiv]
θ:37 [in UniMath.SubstitutionSystems.SubstitutionSystems]
θ:39 [in UniMath.Bicategories.Colimits.Pullback]
θ:43 [in UniMath.SubstitutionSystems.SubstitutionSystems]
θ:48 [in UniMath.SubstitutionSystems.Signatures]
θ:51 [in UniMath.SubstitutionSystems.Signatures]
θ:53 [in UniMath.SubstitutionSystems.Signatures]
θ:6 [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
θ:8 [in UniMath.SubstitutionSystems.SubstitutionSystems]
θ₁:40 [in UniMath.CategoryTheory.IsoCommaCategory]
θ₂:41 [in UniMath.CategoryTheory.IsoCommaCategory]
λ':33 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
λ':35 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
λ':45 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
λ':56 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
λ':64 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
λ':70 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
μDD_Initial:340 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
μF_Initial:11 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
μF_Initial:3 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
μ:106 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
μ:13 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
μ:13 [in UniMath.CategoryTheory.Monoidal.Actions]
μ:15 [in UniMath.CategoryTheory.Monoidal.Actions]
μ:155 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:165 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:17 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
μ:171 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:176 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:182 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:20 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
μ:200 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:238 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:249 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:254 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:260 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:265 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:271 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:278 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:284 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:293 [in UniMath.CategoryTheory.Core.NaturalTransformations]
μ:4 [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
μ:53 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
μ:6 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
μ:8 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
μ:86 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
μη:55 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
μη:88 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
μμ:56 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
μμ:89 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
ν:211 [in UniMath.CategoryTheory.Core.NaturalTransformations]
ν:216 [in UniMath.CategoryTheory.Core.NaturalTransformations]
ν:229 [in UniMath.CategoryTheory.Core.NaturalTransformations]
ν:285 [in UniMath.CategoryTheory.Core.NaturalTransformations]
ν:294 [in UniMath.CategoryTheory.Core.NaturalTransformations]
ν:300 [in UniMath.CategoryTheory.Core.NaturalTransformations]
π':88 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
π:20 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
π:58 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
π:62 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
π:86 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
π₁:115 [in UniMath.Bicategories.Colimits.Pullback]
π₁:120 [in UniMath.Bicategories.Colimits.Pullback]
π₁:125 [in UniMath.Bicategories.Colimits.Pullback]
π₁:130 [in UniMath.Bicategories.Colimits.Pullback]
π₁:135 [in UniMath.Bicategories.Colimits.Pullback]
π₁:149 [in UniMath.Bicategories.Colimits.Pullback]
π₁:15 [in UniMath.Bicategories.Colimits.Pullback]
π₁:163 [in UniMath.Bicategories.Colimits.Pullback]
π₁:8 [in UniMath.Bicategories.Colimits.Pullback]
π₁:9 [in UniMath.Bicategories.Colimits.Products]
π₂:10 [in UniMath.Bicategories.Colimits.Products]
π₂:116 [in UniMath.Bicategories.Colimits.Pullback]
π₂:121 [in UniMath.Bicategories.Colimits.Pullback]
π₂:126 [in UniMath.Bicategories.Colimits.Pullback]
π₂:131 [in UniMath.Bicategories.Colimits.Pullback]
π₂:136 [in UniMath.Bicategories.Colimits.Pullback]
π₂:150 [in UniMath.Bicategories.Colimits.Pullback]
π₂:16 [in UniMath.Bicategories.Colimits.Pullback]
π₂:164 [in UniMath.Bicategories.Colimits.Pullback]
π₂:9 [in UniMath.Bicategories.Colimits.Pullback]
ρ':37 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
ρ':39 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
ρ':46 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
ρ':58 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
ρ':65 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
ρ':71 [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
ρ:11 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
ρ:11 [in UniMath.SubstitutionSystems.LiftingInitial]
ρ:35 [in UniMath.CategoryTheory.ElementsOp]
ρ:57 [in UniMath.CategoryTheory.ElementsOp]
ρ:59 [in UniMath.CategoryTheory.ElementsOp]
ρ:65 [in UniMath.Induction.W.Naturals]
ρ:66 [in UniMath.CategoryTheory.ElementsOp]
ρ:72 [in UniMath.CategoryTheory.ElementsOp]
σ:1 [in UniMath.Algebra.Universal.Equations]
σ:1 [in UniMath.Algebra.Universal.VTerms]
σ:1 [in UniMath.Algebra.Universal.Terms]
σ:1 [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
σ:1 [in UniMath.Algebra.Universal.TermAlgebras]
σ:1 [in UniMath.Algebra.Universal.EqAlgebras]
σ:1 [in UniMath.CategoryTheory.categories.Universal_Algebra.EqAlgebras]
σ:1 [in UniMath.Algebra.Universal.Algebras]
σ:1 [in UniMath.Algebra.Universal.FreeAlgebras]
σ:10 [in UniMath.Algebra.Universal.Equations]
σ:10 [in UniMath.Algebra.Universal.Algebras]
σ:100 [in UniMath.Bicategories.Modifications.Modification]
σ:107 [in UniMath.Bicategories.Modifications.Modification]
σ:11 [in UniMath.Algebra.Universal.EqAlgebras]
σ:11 [in UniMath.Bicategories.Modifications.Modification]
σ:113 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:114 [in UniMath.Bicategories.Modifications.Modification]
σ:12 [in UniMath.Algebra.Universal.VTerms]
σ:12 [in UniMath.Algebra.Universal.EqAlgebras]
σ:123 [in UniMath.Bicategories.Modifications.Modification]
σ:13 [in UniMath.Algebra.Universal.Equations]
σ:130 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:131 [in UniMath.Bicategories.Transformations.PseudoTransformation]
σ:134 [in UniMath.Bicategories.Modifications.Modification]
σ:14 [in UniMath.Algebra.Universal.EqAlgebras]
σ:14 [in UniMath.Algebra.Universal.Algebras]
σ:142 [in UniMath.Bicategories.Modifications.Modification]
σ:144 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:150 [in UniMath.Algebra.Universal.Terms]
σ:150 [in UniMath.Bicategories.Modifications.Modification]
σ:157 [in UniMath.Bicategories.Modifications.Modification]
σ:158 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:16 [in UniMath.Algebra.Universal.Equations]
σ:167 [in UniMath.Bicategories.Modifications.Modification]
σ:17 [in UniMath.Algebra.Universal.VTerms]
σ:17 [in UniMath.Algebra.Universal.Algebras]
σ:17 [in UniMath.Algebra.Universal.SortedTypes]
σ:170 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:174 [in UniMath.Bicategories.Modifications.Modification]
σ:18 [in UniMath.Algebra.Universal.Equations]
σ:18 [in UniMath.Bicategories.Modifications.Modification]
σ:180 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:19 [in UniMath.Algebra.Universal.VTerms]
σ:19 [in UniMath.Algebra.Universal.Signatures]
σ:191 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:2 [in UniMath.Algebra.Universal.Terms]
σ:2 [in UniMath.Algebra.Universal.TermAlgebras]
σ:20 [in UniMath.Algebra.Universal.Algebras]
σ:20 [in UniMath.Algebra.Universal.SortedTypes]
σ:200 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:21 [in UniMath.Algebra.Universal.Equations]
σ:21 [in UniMath.Algebra.Universal.Signatures]
σ:212 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:223 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:226 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:23 [in UniMath.Algebra.Universal.Equations]
σ:231 [in UniMath.Algebra.Universal.Terms]
σ:232 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:24 [in UniMath.Algebra.Universal.Equations]
σ:24 [in UniMath.Algebra.Universal.Algebras]
σ:240 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:241 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
σ:253 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:26 [in UniMath.Algebra.Universal.VTerms]
σ:267 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:28 [in UniMath.Bicategories.Modifications.Modification]
σ:28 [in UniMath.Algebra.Universal.Algebras]
σ:3 [in UniMath.Algebra.Universal.VTerms]
σ:3 [in UniMath.Algebra.Universal.Terms]
σ:3 [in UniMath.Algebra.Universal.Signatures]
σ:3 [in UniMath.Algebra.Universal.FreeAlgebras]
σ:34 [in UniMath.Algebra.Universal.Algebras]
σ:341 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ:36 [in UniMath.Bicategories.Modifications.Modification]
σ:38 [in UniMath.Algebra.Universal.Algebras]
σ:4 [in UniMath.Algebra.Universal.Equations]
σ:4 [in UniMath.Algebra.Universal.Terms]
σ:4 [in UniMath.Algebra.Universal.Signatures]
σ:4 [in UniMath.Algebra.Universal.Algebras]
σ:43 [in UniMath.Bicategories.Modifications.Modification]
σ:43 [in UniMath.Algebra.Universal.Algebras]
σ:47 [in UniMath.Algebra.Universal.Algebras]
σ:5 [in UniMath.Algebra.Universal.Terms]
σ:5 [in UniMath.Algebra.Universal.Signatures]
σ:5 [in UniMath.Bicategories.Modifications.Modification]
σ:52 [in UniMath.Algebra.Universal.Algebras]
σ:53 [in UniMath.Bicategories.Modifications.Modification]
σ:56 [in UniMath.Algebra.Universal.Algebras]
σ:59 [in UniMath.Algebra.Universal.Algebras]
σ:6 [in UniMath.Algebra.Universal.VTerms]
σ:6 [in UniMath.Algebra.Universal.Signatures]
σ:6 [in UniMath.Algebra.Universal.EqAlgebras]
σ:6 [in UniMath.Algebra.Universal.Algebras]
σ:61 [in UniMath.Bicategories.Modifications.Modification]
σ:61 [in UniMath.Algebra.Universal.Algebras]
σ:63 [in UniMath.Algebra.Universal.Algebras]
σ:66 [in UniMath.Algebra.Universal.Terms]
σ:67 [in UniMath.Combinatorics.ZFstructures]
σ:69 [in UniMath.Algebra.Universal.Terms]
σ:69 [in UniMath.Algebra.Universal.Algebras]
σ:7 [in UniMath.Algebra.Universal.Equations]
σ:7 [in UniMath.Algebra.Universal.VTerms]
σ:71 [in UniMath.Bicategories.Modifications.Modification]
σ:73 [in UniMath.Algebra.Universal.Terms]
σ:75 [in UniMath.Algebra.Universal.Terms]
σ:75 [in UniMath.Algebra.Universal.Algebras]
σ:76 [in UniMath.Algebra.Universal.Algebras]
σ:77 [in UniMath.Bicategories.Modifications.Modification]
σ:78 [in UniMath.Algebra.Universal.Terms]
σ:78 [in UniMath.Algebra.Universal.Algebras]
σ:8 [in UniMath.Algebra.Universal.Signatures]
σ:8 [in UniMath.Algebra.Universal.Algebras]
σ:80 [in UniMath.Algebra.Universal.Terms]
σ:80 [in UniMath.Algebra.Universal.Algebras]
σ:82 [in UniMath.Algebra.Universal.Terms]
σ:84 [in UniMath.Bicategories.Modifications.Modification]
σ:9 [in UniMath.Algebra.Universal.VTerms]
σ:9 [in UniMath.Algebra.Universal.EqAlgebras]
σ:90 [in UniMath.Bicategories.Modifications.Modification]
σ:96 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σσ:109 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:125 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:136 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:228 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:31 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:43 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
σσ:43 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:53 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:64 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:76 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σσ:88 [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
σ₁:125 [in UniMath.Bicategories.Transformations.PseudoTransformation]
σ₂:126 [in UniMath.Bicategories.Transformations.PseudoTransformation]
τ:101 [in UniMath.Bicategories.Modifications.Modification]
τ:108 [in UniMath.Bicategories.Modifications.Modification]
τ:114 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:115 [in UniMath.Bicategories.Modifications.Modification]
τ:12 [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
τ:12 [in UniMath.Bicategories.Modifications.Modification]
τ:124 [in UniMath.Bicategories.Modifications.Modification]
τ:131 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:135 [in UniMath.Bicategories.Modifications.Modification]
τ:143 [in UniMath.Bicategories.Modifications.Modification]
τ:145 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:151 [in UniMath.Bicategories.Modifications.Modification]
τ:158 [in UniMath.Bicategories.Modifications.Modification]
τ:159 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:168 [in UniMath.Bicategories.Modifications.Modification]
τ:17 [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
τ:171 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:172 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:175 [in UniMath.Bicategories.Modifications.Modification]
τ:181 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:186 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:19 [in UniMath.Bicategories.Modifications.Modification]
τ:192 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:199 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:201 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:21 [in UniMath.Bicategories.Colimits.Pullback]
τ:213 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:213 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:224 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:233 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:242 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
τ:26 [in UniMath.Bicategories.Colimits.Products]
τ:29 [in UniMath.Bicategories.Modifications.Modification]
τ:342 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ:35 [in UniMath.CategoryTheory.GrothendieckTopos]
τ:37 [in UniMath.Bicategories.Modifications.Modification]
τ:38 [in UniMath.Bicategories.Colimits.Pullback]
τ:44 [in UniMath.Bicategories.Modifications.Modification]
τ:54 [in UniMath.Bicategories.Modifications.Modification]
τ:6 [in UniMath.Bicategories.Modifications.Modification]
τ:62 [in UniMath.Bicategories.Modifications.Modification]
τ:72 [in UniMath.Bicategories.Modifications.Modification]
τ:78 [in UniMath.Bicategories.Modifications.Modification]
τ:85 [in UniMath.Bicategories.Modifications.Modification]
τ:91 [in UniMath.Bicategories.Modifications.Modification]
τ:97 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ₁:38 [in UniMath.CategoryTheory.IsoCommaCategory]
τ₂:39 [in UniMath.CategoryTheory.IsoCommaCategory]
υ:50 [in UniMath.Bicategories.Colimits.Products]
υ:56 [in UniMath.Bicategories.Colimits.Products]
υ₁:73 [in UniMath.Bicategories.Colimits.Products]
υ₂pr1:75 [in UniMath.Bicategories.Colimits.Products]
υ₂pr2:76 [in UniMath.Bicategories.Colimits.Products]
υ₂:74 [in UniMath.Bicategories.Colimits.Products]
υ₃:77 [in UniMath.Bicategories.Colimits.Products]
φ_mor:163 [in UniMath.CategoryTheory.Monads.RelativeModules]
φ':122 [in UniMath.CategoryTheory.limits.kernels]
φ':123 [in UniMath.CategoryTheory.limits.kernels]
φ':136 [in UniMath.CategoryTheory.limits.cokernels]
φ':137 [in UniMath.CategoryTheory.limits.cokernels]
φ':160 [in UniMath.CategoryTheory.limits.equalizers]
φ':160 [in UniMath.CategoryTheory.limits.coequalizers]
φ':161 [in UniMath.CategoryTheory.limits.equalizers]
φ':161 [in UniMath.CategoryTheory.limits.coequalizers]
φ1:103 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:108 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:112 [in UniMath.CategoryTheory.limits.cokernels]
φ1:116 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:121 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:124 [in UniMath.CategoryTheory.limits.equalizers]
φ1:124 [in UniMath.CategoryTheory.limits.coequalizers]
φ1:133 [in UniMath.CategoryTheory.limits.equalizers]
φ1:133 [in UniMath.CategoryTheory.limits.coequalizers]
φ1:146 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:149 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:157 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:160 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ1:358 [in UniMath.HomologicalAlgebra.Triangulated]
φ1:98 [in UniMath.CategoryTheory.limits.kernels]
φ2:104 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:109 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:113 [in UniMath.CategoryTheory.limits.cokernels]
φ2:117 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:122 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:125 [in UniMath.CategoryTheory.limits.equalizers]
φ2:125 [in UniMath.CategoryTheory.limits.coequalizers]
φ2:134 [in UniMath.CategoryTheory.limits.equalizers]
φ2:134 [in UniMath.CategoryTheory.limits.coequalizers]
φ2:147 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:150 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:158 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:161 [in UniMath.HomologicalAlgebra.CohomologyComplex]
φ2:359 [in UniMath.HomologicalAlgebra.Triangulated]
φ2:99 [in UniMath.CategoryTheory.limits.kernels]
φ:100 [in UniMath.Bicategories.Colimits.Products]
φ:105 [in UniMath.CategoryTheory.limits.cokernels]
φ:105 [in UniMath.Bicategories.Colimits.Products]
φ:107 [in UniMath.Bicategories.Colimits.Pullback]
φ:110 [in UniMath.Bicategories.Colimits.Pullback]
φ:115 [in UniMath.CategoryTheory.limits.kernels]
φ:116 [in UniMath.Bicategories.Colimits.Products]
φ:118 [in UniMath.CategoryTheory.Monads.RelativeModules]
φ:12 [in UniMath.CategoryTheory.limits.kernels]
φ:12 [in UniMath.CategoryTheory.limits.cokernels]
φ:12 [in UniMath.CategoryTheory.limits.equalizers]
φ:12 [in UniMath.CategoryTheory.limits.coequalizers]
φ:120 [in UniMath.CategoryTheory.limits.kernels]
φ:123 [in UniMath.Bicategories.Colimits.Products]
φ:126 [in UniMath.CategoryTheory.Monads.RelativeModules]
φ:129 [in UniMath.CategoryTheory.limits.cokernels]
φ:13 [in UniMath.Bicategories.Colimits.Products]
φ:130 [in UniMath.CategoryTheory.Monads.RelativeModules]
φ:1309 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:133 [in UniMath.CategoryTheory.Monads.RelativeModules]
φ:1330 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:134 [in UniMath.CategoryTheory.limits.cokernels]
φ:1351 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:137 [in UniMath.CategoryTheory.Monads.RelativeModules]
φ:14 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
φ:145 [in UniMath.CategoryTheory.Monads.RelativeModules]
φ:146 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
φ:150 [in UniMath.CategoryTheory.Monads.RelativeModules]
φ:152 [in UniMath.CategoryTheory.limits.equalizers]
φ:152 [in UniMath.CategoryTheory.limits.coequalizers]
φ:154 [in UniMath.CategoryTheory.Monads.RelativeModules]
φ:158 [in UniMath.CategoryTheory.limits.equalizers]
φ:158 [in UniMath.CategoryTheory.limits.coequalizers]
φ:16 [in UniMath.Bicategories.Colimits.Products]
φ:162 [in UniMath.CategoryTheory.Monads.RelativeModules]
φ:169 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:170 [in UniMath.CategoryTheory.Monads.RelativeModules]
φ:170 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:171 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:172 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:180 [in UniMath.CategoryTheory.Monads.RelativeModules]
φ:19 [in UniMath.Bicategories.Colimits.Products]
φ:196 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
φ:20 [in UniMath.Bicategories.Colimits.Pullback]
φ:20 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
φ:207 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:208 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:209 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:210 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
φ:22 [in UniMath.Bicategories.Colimits.Products]
φ:223 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
φ:226 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
φ:25 [in UniMath.Bicategories.Colimits.Pullback]
φ:25 [in UniMath.Bicategories.Colimits.Products]
φ:256 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
φ:28 [in UniMath.Bicategories.Colimits.Pullback]
φ:296 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
φ:30 [in UniMath.Bicategories.Colimits.Products]
φ:305 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
φ:31 [in UniMath.Bicategories.Colimits.Pullback]
φ:333 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:34 [in UniMath.Bicategories.Colimits.Pullback]
φ:37 [in UniMath.Bicategories.Colimits.Pullback]
φ:375 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:38 [in UniMath.Bicategories.Colimits.Products]
φ:394 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:41 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
φ:43 [in UniMath.Bicategories.Colimits.Pullback]
φ:46 [in UniMath.Bicategories.Colimits.Products]
φ:492 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:50 [in UniMath.Bicategories.Colimits.Pullback]
φ:507 [in UniMath.Bicategories.Core.Bicat]
φ:514 [in UniMath.Bicategories.Core.Bicat]
φ:52 [in UniMath.CategoryTheory.limits.equalizers]
φ:52 [in UniMath.Bicategories.Colimits.Products]
φ:52 [in UniMath.CategoryTheory.limits.coequalizers]
φ:53 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
φ:540 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
φ:55 [in UniMath.Bicategories.Colimits.Pullback]
φ:58 [in UniMath.Bicategories.Colimits.Products]
φ:60 [in UniMath.Bicategories.Colimits.Pullback]
φ:62 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
φ:623 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:63 [in UniMath.Bicategories.Colimits.Products]
φ:64 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
φ:642 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:65 [in UniMath.Bicategories.Colimits.Pullback]
φ:66 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
φ:686 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:70 [in UniMath.Bicategories.Colimits.Pullback]
φ:705 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:73 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
φ:73 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
φ:766 [in UniMath.Bicategories.Core.Bicat]
φ:77 [in UniMath.Bicategories.Colimits.Pullback]
φ:803 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:81 [in UniMath.Bicategories.Colimits.Pullback]
φ:82 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
φ:84 [in UniMath.Bicategories.Colimits.Pullback]
φ:90 [in UniMath.Bicategories.Colimits.Products]
φ:91 [in UniMath.CategoryTheory.limits.kernels]
φ:91 [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
φ:92 [in UniMath.Bicategories.Colimits.Pullback]
φ:929 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ:95 [in UniMath.Bicategories.Colimits.Pullback]
φ:95 [in UniMath.Bicategories.Colimits.Products]
φη:516 [in UniMath.Bicategories.Core.Bicat]
φφ:1318 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:1339 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:1360 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:153 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
φφ:230 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
φφ:342 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:384 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:403 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:501 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:632 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:651 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:695 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:714 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:812 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φφ:938 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
φ₁:132 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₁:141 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₁:149 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₁:157 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₁:165 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₁:63 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
φ₂:133 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₂:142 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₂:150 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₂:158 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₂:166 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
φ₂:64 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
χ:18 [in UniMath.CategoryTheory.Monoidal.Actions]
χ:20 [in UniMath.CategoryTheory.Monoidal.Actions]
χ:22 [in UniMath.CategoryTheory.Monoidal.Actions]
χ:26 [in UniMath.CategoryTheory.Monoidal.Actions]
χ:29 [in UniMath.CategoryTheory.Monoidal.Actions]
χ:36 [in UniMath.CategoryTheory.Monoidal.Actions]
χ:86 [in UniMath.Bicategories.Colimits.Pullback]
ψ_mor:165 [in UniMath.CategoryTheory.Monads.RelativeModules]
ψ':20 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
ψ:101 [in UniMath.Bicategories.Colimits.Products]
ψ:106 [in UniMath.Bicategories.Colimits.Products]
ψ:108 [in UniMath.Bicategories.Colimits.Pullback]
ψ:111 [in UniMath.Bicategories.Colimits.Pullback]
ψ:112 [in UniMath.CategoryTheory.categories.abgrs]
ψ:117 [in UniMath.Bicategories.Colimits.Products]
ψ:124 [in UniMath.Bicategories.Colimits.Products]
ψ:151 [in UniMath.CategoryTheory.Monads.RelativeModules]
ψ:164 [in UniMath.CategoryTheory.Monads.RelativeModules]
ψ:17 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
ψ:171 [in UniMath.CategoryTheory.Monads.RelativeModules]
ψ:181 [in UniMath.CategoryTheory.Monads.RelativeModules]
ψ:216 [in UniMath.CategoryTheory.categories.abgrs]
ψ:223 [in UniMath.CategoryTheory.categories.abgrs]
ψ:23 [in UniMath.CategoryTheory.limits.equalizers]
ψ:23 [in UniMath.CategoryTheory.limits.coequalizers]
ψ:257 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ψ:29 [in UniMath.CategoryTheory.limits.cokernels]
ψ:30 [in UniMath.CategoryTheory.limits.kernels]
ψ:31 [in UniMath.Bicategories.Colimits.Products]
ψ:334 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψ:354 [in UniMath.CategoryTheory.categories.abgrs]
ψ:362 [in UniMath.CategoryTheory.categories.abgrs]
ψ:39 [in UniMath.Bicategories.Colimits.Products]
ψ:44 [in UniMath.Bicategories.Colimits.Pullback]
ψ:44 [in UniMath.CategoryTheory.limits.cokernels]
ψ:47 [in UniMath.Bicategories.Colimits.Products]
ψ:498 [in UniMath.CategoryTheory.categories.abgrs]
ψ:506 [in UniMath.CategoryTheory.categories.abgrs]
ψ:51 [in UniMath.Bicategories.Colimits.Pullback]
ψ:53 [in UniMath.Bicategories.Colimits.Products]
ψ:54 [in UniMath.CategoryTheory.limits.equalizers]
ψ:54 [in UniMath.CategoryTheory.limits.coequalizers]
ψ:55 [in UniMath.CategoryTheory.limits.equalizers]
ψ:55 [in UniMath.CategoryTheory.limits.coequalizers]
ψ:56 [in UniMath.Bicategories.Colimits.Pullback]
ψ:59 [in UniMath.Bicategories.Colimits.Products]
ψ:61 [in UniMath.Bicategories.Colimits.Pullback]
ψ:623 [in UniMath.CategoryTheory.categories.abgrs]
ψ:624 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψ:638 [in UniMath.CategoryTheory.categories.abgrs]
ψ:64 [in UniMath.Bicategories.Colimits.Products]
ψ:643 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψ:66 [in UniMath.Bicategories.Colimits.Pullback]
ψ:67 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
ψ:7 [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
ψ:71 [in UniMath.Bicategories.Colimits.Pullback]
ψ:78 [in UniMath.Bicategories.Colimits.Pullback]
ψ:85 [in UniMath.Bicategories.Colimits.Pullback]
ψ:91 [in UniMath.Bicategories.Colimits.Products]
ψ:93 [in UniMath.Bicategories.Colimits.Pullback]
ψ:930 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψ:96 [in UniMath.Bicategories.Colimits.Pullback]
ψ:96 [in UniMath.Bicategories.Colimits.Products]
ψψ:262 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
ψψ:343 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψψ:633 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψψ:652 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψψ:939 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
ψ₁:134 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₁:143 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₁:151 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₁:159 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₁:167 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₂:135 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₂:144 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₂:152 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₂:160 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ψ₂:168 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
ϕ:47 [in UniMath.CategoryTheory.categories.StandardCategories]
ϛ:109 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:11 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:111 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:113 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:118 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:13 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:17 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:21 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:25 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:26 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:27 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:28 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:29 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:30 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:32 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϛ:9 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϱ:21 [in UniMath.CategoryTheory.Monoidal.Actions]
ϱ:25 [in UniMath.CategoryTheory.Monoidal.Actions]
ϱ:35 [in UniMath.CategoryTheory.Monoidal.Actions]
ϵ:12 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
ϵ:16 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
ϵ:19 [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]

---

Module Index

A

AddNotation [in UniMath.Algebra.Monoids]
Algebra [in UniMath.Algebra.Universal.Examples.Group]
AltList [in UniMath.CategoryTheory.Inductives.Lists]

C

co [in UniMath.CategoryTheory.limits.graphs.limits]

D

Discern [in UniMath.MoreFoundations.Nat]

E

Eqspec [in UniMath.Algebra.Universal.Examples.Group]
Eqspec [in UniMath.Algebra.Universal.Examples.Monoid]

G

group [in UniMath.CategoryTheory.DisplayedCats.Examples]
GTerm [in UniMath.Algebra.Universal.Examples.Bool]

N

Notation [in UniMath.Tactics.Utilities]
Notations [in UniMath.Bicategories.Core.Bicat]
Notations [in UniMath.Bicategories.DisplayedBicats.DispBicat]
Notations [in UniMath.Bicategories.Colimits.Products]
Notations [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Notations [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]

P

PathsOverNotations [in UniMath.MoreFoundations.PathsOver]

T

Term [in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests [in UniMath.Algebra.Universal.Examples.Bool]
Test_assoc [in UniMath.Algebra.Tests]
Test_rat [in UniMath.NumberSystems.Tests]
Test_int [in UniMath.NumberSystems.Tests]
Test_finsum [in UniMath.NumberSystems.Tests]
Test_nat [in UniMath.NumberSystems.Tests]
Test_sets [in UniMath.Foundations.Tests]

U

Uniqueness [in UniMath.MoreFoundations.Nat]

---

Variable Index

A

abelian_kernel_cokernel.A [in UniMath.CategoryTheory.Abelian]
abelian_factorization.A [in UniMath.CategoryTheory.Abelian]
abelian_MonicToKernels.A [in UniMath.CategoryTheory.Abelian]
abelian_pushouts.hs [in UniMath.CategoryTheory.Abelian]
abelian_pushouts.A [in UniMath.CategoryTheory.Abelian]
abelian_equalizers.hs [in UniMath.CategoryTheory.Abelian]
abelian_equalizers.A [in UniMath.CategoryTheory.Abelian]
abelian_monic_pullbacks.hs [in UniMath.CategoryTheory.Abelian]
abelian_monic_pullbacks.A [in UniMath.CategoryTheory.Abelian]
abelian_monic_epi_iso.hs [in UniMath.CategoryTheory.Abelian]
abelian_monic_epi_iso.A [in UniMath.CategoryTheory.Abelian]
abelian_is_additive.hs [in UniMath.CategoryTheory.AbelianToAdditive]
abelian_is_additive.A [in UniMath.CategoryTheory.AbelianToAdditive]
acyclic_complexes.A [in UniMath.HomologicalAlgebra.Complexes]
additive_minus_monic.A [in UniMath.CategoryTheory.Additive]
additive_kernel_equalizers.A [in UniMath.CategoryTheory.Additive]
additive_quot_additive.PAC [in UniMath.CategoryTheory.Additive]
additive_quot_additive.PAS [in UniMath.CategoryTheory.Additive]
additive_quot_additive.A [in UniMath.CategoryTheory.Additive]
Add2Cell.D [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
Add2Cell.l [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
Add2Cell.r [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
Add2Cell.S [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
Add2Cell.T [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
AdjointEquivPregroupoid.HB [in UniMath.Bicategories.Core.Univalence]
AdjointFolds.AF [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
AdjointFolds.inDD [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
AdjointFolds.μDD [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
adjointification.F [in UniMath.CategoryTheory.Equivalences.Core]
adjointification.FF [in UniMath.CategoryTheory.Equivalences.Core]
adjointification.G [in UniMath.CategoryTheory.Equivalences.Core]
adjointification.GG [in UniMath.CategoryTheory.Equivalences.Core]
adjointification.εntiso [in UniMath.CategoryTheory.Equivalences.Core]
adjointification.ηntiso [in UniMath.CategoryTheory.Equivalences.Core]
AdjointUniqueMapCompose.A₁ [in UniMath.Bicategories.Core.AdjointUnique]
AdjointUniqueMapCompose.A₂ [in UniMath.Bicategories.Core.AdjointUnique]
AdjointUniqueMapCompose.l [in UniMath.Bicategories.Core.AdjointUnique]
AdjunctionLemmas.Fη [in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.Gε [in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.post_whisker_functor_cat [in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.pre_whisker_functor_cat [in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.ε [in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.εF [in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.η [in UniMath.CategoryTheory.Adjunctions.Core]
AdjunctionLemmas.ηG [in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.postcomp.G [in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.postcomp.H [in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.postcomp.H1 [in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.postcomp.H2 [in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.postcomp.ε [in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.postcomp.η [in UniMath.CategoryTheory.Adjunctions.Core]
aint.A [in UniMath.PAdics.frac]
Algebra.DispAdjointEquivalenceToInvertible2cell.aa [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.DispAdjointEquivalenceToInvertible2cell.bb [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.DispAdjointEquivalenceToInvertible2cell.x [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.F [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.Invertible2CellToDispAdjointEquivalence.aa [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.Invertible2CellToDispAdjointEquivalence.bb [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.Invertible2CellToDispAdjointEquivalence.x [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
AltList.constcoprod_functor.PC [in UniMath.CategoryTheory.Inductives.Lists]
AltList.constcoprod_functor.x [in UniMath.CategoryTheory.Inductives.Lists]
AltList.constcoprod_functor.C [in UniMath.CategoryTheory.Inductives.Lists]
AltList.constprod_functor.x [in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.A [in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.Pc' [in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.P0' [in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.P' [in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.Pc [in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.P0 [in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.PhSet [in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction.P [in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.List_alg [in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.List_mor [in UniMath.CategoryTheory.Inductives.Lists]
ApFunctor.f [in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
around_δ.iter1_dl.DL [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.iter1_dl.G [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.option_sig.opt [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.option_sig.CC [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.option_sig.TC [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.genoption_sig.genopt [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.genoption_sig.CC [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.genoption_sig.A [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.δ_mul.DL2 [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.δ_mul.G2 [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.δ_mul.DL1 [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.δ_mul.G1 [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.θ_from_δ.precompG [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.θ_from_δ.DL [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.θ_from_δ.G [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.def_of_δ.δ_laws.D' [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.def_of_δ.δ_laws.δ [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.def_of_δ.G [in UniMath.SubstitutionSystems.SignatureExamples]
arrow.C [in UniMath.CategoryTheory.DisplayedCats.Examples]
Associativity.F₁ [in UniMath.Bicategories.Transformations.Examples.Associativity]
Associativity.F₁ [in UniMath.Bicategories.Modifications.Examples.Associativity]
Associativity.F₂ [in UniMath.Bicategories.Transformations.Examples.Associativity]
Associativity.F₂ [in UniMath.Bicategories.Modifications.Examples.Associativity]
Associativity.F₃ [in UniMath.Bicategories.Transformations.Examples.Associativity]
Associativity.F₃ [in UniMath.Bicategories.Modifications.Examples.Associativity]
A.Actions_Definition.Alternative_Definition.FFassoc [in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.FFunital [in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.μ_is_nat_z_iso [in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.ϵ_is_z_iso [in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.μ [in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.ϵ_inv [in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.ϵ [in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Alternative_Definition.Mon_EndA [in UniMath.CategoryTheory.Monoidal.Actions]
A.Alternative_Definition.Param_Distr.actionA' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition.Param_Distr.actionA [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition.Param_Distr.δ_pentagon_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition.Param_Distr.δ_triangle_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition.Mon_EndA' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition.Mon_EndA [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.D1 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.D2 [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.F [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.G [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.GG [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.I [in UniMath.CategoryTheory.Enriched.Enriched]
A.is [in UniMath.PAdics.padics]
A.l_unitor [in UniMath.CategoryTheory.Enriched.Enriched]
A.p [in UniMath.PAdics.padics]
A.r_unitor [in UniMath.CategoryTheory.Enriched.Enriched]
A.tensor [in UniMath.CategoryTheory.Enriched.Enriched]
A.α [in UniMath.CategoryTheory.Enriched.Enriched]
A.ε [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.εinv [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.η [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A.ηinv [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]

B

BasePseudoFunctor.C [in UniMath.Bicategories.PseudoFunctors.Display.Base]
BasePseudoFunctor.D [in UniMath.Bicategories.PseudoFunctors.Display.Base]
base_change.dependent_product.BPC [in UniMath.CategoryTheory.slicecat]
base_change.dependent_product.dependent_product_functor [in UniMath.CategoryTheory.slicecat]
BiadjunctionDataProjections.R [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionProjections.R [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionTriangleLaws.R [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
Bicat_From_Monoidal_Cat.pentagon_equation [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.triangle_equality [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.ρ [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.l [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.α [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.tensor [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.I [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Bicat_From_Monoidal_Cat.pM [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
BinaryCoproduct.A [in UniMath.Induction.ImpredicativeInductiveSets]
BinaryCoproduct.B [in UniMath.Induction.ImpredicativeInductiveSets]
BinaryProduct.A [in UniMath.Induction.ImpredicativeInductiveSets]
BinaryProduct.B [in UniMath.Induction.ImpredicativeInductiveSets]
BinCoproducts_from_Colims.C [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.a [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.b [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.c [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.C [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.CC [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.d [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.x [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts.y [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_from_iso.C [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_zeroarrow.Z [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_zeroarrow.C [in UniMath.CategoryTheory.limits.bincoproducts]
bincoproduct_def.C [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BindingSigToMonad.BPC2 [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad.constprod_functor1 [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad.HSS [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad.Id_H [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad.InitialHSS [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad.Monad_from_hss [in UniMath.SubstitutionSystems.BindingSigToMonad]
bindirectsums_in_quot.PAC [in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_in_quot.PAS [in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_in_quot.BD [in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_in_quot.Z [in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_in_quot.A [in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_criteria.Z [in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_criteria.hs [in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_criteria.A [in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_monics_and_epis.A [in UniMath.CategoryTheory.limits.BinDirectSums]
BinProducts_from_Lims.C [in UniMath.CategoryTheory.limits.binproducts]
BinProducts.a [in UniMath.CategoryTheory.limits.binproducts]
BinProducts.b [in UniMath.CategoryTheory.limits.binproducts]
BinProducts.BC [in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts.BD [in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts.C [in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts.c [in UniMath.CategoryTheory.limits.binproducts]
BinProducts.C [in UniMath.CategoryTheory.limits.binproducts]
BinProducts.CC [in UniMath.CategoryTheory.limits.binproducts]
BinProducts.D [in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts.d [in UniMath.CategoryTheory.limits.binproducts]
BinProducts.D' [in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts.x [in UniMath.CategoryTheory.limits.binproducts]
BinProducts.y [in UniMath.CategoryTheory.limits.binproducts]
binproduct_of_signatures.construction.S22' [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S21' [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S12' [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S11' [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S22 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S21 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S12 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.S11 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.θ2 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.θ1 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.H2 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures.construction.H1 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_def.C [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProduct_from_iso.C [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_zeroarrow.Z [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_zeroarrow.C [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_unique.b [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_unique.a [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_unique.CC [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_unique.C [in UniMath.CategoryTheory.limits.binproducts]
binproduct_def.C [in UniMath.CategoryTheory.limits.binproducts]
binsum_of_signatures.construction.S22' [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S21' [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S12' [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S11' [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S22 [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S21 [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S12 [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.S11 [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.θ2 [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.θ1 [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.H2 [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.construction.H1 [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.CD [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.D' [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.D [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures.C [in UniMath.SubstitutionSystems.BinSumOfSignatures]
bintrees.A [in UniMath.CategoryTheory.Inductives.Trees]
bintrees.is_omega_cocont_treeFunctor [in UniMath.CategoryTheory.Inductives.Trees]
bintrees.treeFunctor [in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.Pc' [in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.P0' [in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.P' [in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.Pc [in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.P0 [in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.PhSet [in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction.P [in UniMath.CategoryTheory.Inductives.Trees]
bintrees.Tree_alg [in UniMath.CategoryTheory.Inductives.Trees]
bintrees.Tree_mor [in UniMath.CategoryTheory.Inductives.Trees]
Build_Bicategory.sc [in UniMath.Bicategories.BicategoryOfBicat]
Build_Bicategory.C [in UniMath.Bicategories.BicategoryOfBicat]

C

carry.is [in UniMath.PAdics.padics]
carry.m [in UniMath.PAdics.padics]
cartesian_product.C' [in UniMath.CategoryTheory.DisplayedCats.Examples]
cartesian_product.C [in UniMath.CategoryTheory.DisplayedCats.Examples]
cartesian_product_pb.C' [in UniMath.CategoryTheory.DisplayedCats.Examples]
cartesian_product_pb.C [in UniMath.CategoryTheory.DisplayedCats.Examples]
category_Algebra.IA [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.Yon [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.ptdInitAlg [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.InitAlg [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.θ [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.Id_H [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.fix_an_H.Alg [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.Colims_of_shape_nat_graph_EndC [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.InitialEndC [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.CPEndEndC [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.EndEndC [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.CPEndC [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.CC [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.IC [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.CP [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.C [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.Yon [in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.IA [in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.Alg [in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.θ [in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.H [in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.KanExt [in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.CPEndEndC [in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.EndEndC [in UniMath.SubstitutionSystems.LiftingInitial]
category_Algebra.CPEndC [in UniMath.SubstitutionSystems.LiftingInitial]
CatIso_To_LeftAdjEquiv.HF [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
CatIso_To_LeftAdjEquiv.F [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
cats_limits.D [in UniMath.CategoryTheory.categories.HSET.Limits]
cats_limits.J [in UniMath.CategoryTheory.categories.HSET.Limits]
ccs.CCS_M_alg [in UniMath.SubstitutionSystems.CCS_alt]
ccs.CCS_M_mor [in UniMath.SubstitutionSystems.CCS_alt]
ccs.CCS_alg [in UniMath.SubstitutionSystems.CCS]
ccs.CCS_mor [in UniMath.SubstitutionSystems.CCS]
ccs.HSET_over_sort2 [in UniMath.SubstitutionSystems.CCS]
ccs.Id_H [in UniMath.SubstitutionSystems.CCS]
ccs.sortToSet [in UniMath.SubstitutionSystems.CCS_alt]
ccs.sortToSet2 [in UniMath.SubstitutionSystems.CCS_alt]
chaotic_bicat.C [in UniMath.Bicategories.Core.Bicat]
CochainCone.Cone0 [in UniMath.Induction.M.Chains]
CochainCone.Cone0' [in UniMath.Induction.M.Chains]
CochainCone.W [in UniMath.Induction.M.Chains]
CochainCone.π [in UniMath.Induction.M.Chains]
CochainLimit.X [in UniMath.Induction.M.Limits]
CochainLimit.π [in UniMath.Induction.M.Limits]
CochainLimit.π' [in UniMath.Induction.M.Limits]
cocont_functors.BinProduct_of_functors.omega_cocont_constprod_functor1 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.ccAiB_K [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.HAiM [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.CCAiB [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.HAiB [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.HB [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.HA [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.cB [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.cA [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.M [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct.L [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_constprod_functor2 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_constprod_functor1 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.family_functor.HI [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.cocont_iso.preserves_colimit_iso.Hα [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.cocont_iso.preserves_colimit_iso.α [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.cocont_iso.preserves_colimit_iso.αinv [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CodomainArrow.B [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
CodomainCleaving.CartesianToPullback.pb [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.CartesianToPullback.PbUMP2AndEq.g [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.CartesianToPullback.PbUMP2AndEq.lift_ψ [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.CartesianToPullback.PbUMP2AndEq.lift_φ [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.CartesianToPullback.PbUMP2AndEq.χ [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.PullbackToCartesian.Lift1CellConeMor.other_cone [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.PullbackToCartesian.Lift2CellConeCell.cell₂ [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.PullbackToCartesian.Lift2CellConeCell.cone [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
coequalizers_coincide.C [in UniMath.CategoryTheory.limits.graphs.coequalizers]
Cofunctormaps.K [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
cokernels_epis.Z [in UniMath.CategoryTheory.limits.cokernels]
cokernels_epis.hs [in UniMath.CategoryTheory.limits.cokernels]
cokernels_epis.C [in UniMath.CategoryTheory.limits.cokernels]
cokernels_iso.Z [in UniMath.CategoryTheory.limits.cokernels]
cokernels_iso.hs [in UniMath.CategoryTheory.limits.cokernels]
cokernels_iso.C [in UniMath.CategoryTheory.limits.cokernels]
cokernels_coequalizers.Z [in UniMath.CategoryTheory.limits.cokernels]
cokernels_coequalizers.hs [in UniMath.CategoryTheory.limits.cokernels]
cokernel_out_paths.Z [in UniMath.CategoryTheory.limits.cokernels]
cokernel_out_paths.hs [in UniMath.CategoryTheory.limits.cokernels]
cokernel_out_paths.C [in UniMath.CategoryTheory.limits.cokernels]
ColimFunctor.HCg [in UniMath.CategoryTheory.limits.graphs.colimits]
colimits.D [in UniMath.CategoryTheory.categories.HSET.Colimits]
colimits.from_colim.cc [in UniMath.CategoryTheory.categories.HSET.Colimits]
colimits.from_colim.c [in UniMath.CategoryTheory.categories.HSET.Colimits]
colimits.g [in UniMath.CategoryTheory.categories.HSET.Colimits]
Colims.Universal_Unique.H [in UniMath.CategoryTheory.limits.graphs.colimits]
Colims.Universal_Unique.C [in UniMath.CategoryTheory.limits.graphs.colimits]
colim_initial_algebra.algebra_mor.Aa [in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.α_alg [in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.α_inv [in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.α [in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.FHC [in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.FHC' [in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.Fa [in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.FFchain [in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.L [in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.CC [in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra.Fchain [in UniMath.CategoryTheory.Chains.Adamek]
complexes_homotopies.A [in UniMath.HomologicalAlgebra.KA]
complexes_abelian.hs [in UniMath.HomologicalAlgebra.Complexes]
complexes_abelian.A [in UniMath.HomologicalAlgebra.Complexes]
complexes_additive.A [in UniMath.HomologicalAlgebra.Complexes]
complexes_precat.A [in UniMath.HomologicalAlgebra.Complexes]
CompositionEquivalence.A₁ [in UniMath.Bicategories.Core.EquivToAdjequiv]
CompositionEquivalence.A₂ [in UniMath.Bicategories.Core.EquivToAdjequiv]
CompositionEquivalence.f [in UniMath.Bicategories.Core.EquivToAdjequiv]
CompositionEquivalence.g [in UniMath.Bicategories.Core.EquivToAdjequiv]
Compositor.C [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
Compositor.D [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
CONE_category.is_cat_C [in UniMath.CategoryTheory.limits.cones]
CONE_category.F [in UniMath.CategoryTheory.limits.cones]
CONE_category.C [in UniMath.CategoryTheory.limits.cones]
CONE_category.J [in UniMath.CategoryTheory.limits.cones]
Cone.C [in UniMath.CategoryTheory.limits.cones]
Cone.F [in UniMath.CategoryTheory.limits.cones]
Cone.J [in UniMath.CategoryTheory.limits.cones]
ConstantCleaving.B₁ [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
ConstantCleaving.B₂ [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
ConstantCleaving.Cartesian1CellToAdjEquiv.inv [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
ConstantCleaving.Cartesian1CellToAdjEquiv.ε [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
ConstantCleaving.Cartesian1CellToAdjEquiv.εinv [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
constantly_constant_signature.H [in UniMath.SubstitutionSystems.SignatureExamples]
constantly_constant_signature.d [in UniMath.SubstitutionSystems.SignatureExamples]
constantly_constant_signature.D' [in UniMath.SubstitutionSystems.SignatureExamples]
constantly_constant_signature.D [in UniMath.SubstitutionSystems.SignatureExamples]
constantly_constant_signature.C [in UniMath.SubstitutionSystems.SignatureExamples]
coproducts_from_colimits.C [in UniMath.CategoryTheory.limits.coproducts]
coproducts_from_colimits.I [in UniMath.CategoryTheory.limits.coproducts]
Coproducts.C [in UniMath.CategoryTheory.limits.coproducts]
Coproducts.C [in UniMath.SubstitutionSystems.SignatureCategory]
Coproducts.CC [in UniMath.CategoryTheory.limits.coproducts]
Coproducts.CD [in UniMath.SubstitutionSystems.SignatureCategory]
Coproducts.D [in UniMath.SubstitutionSystems.SignatureCategory]
Coproducts.D' [in UniMath.SubstitutionSystems.SignatureCategory]
Coproducts.I [in UniMath.CategoryTheory.limits.coproducts]
Coproducts.I [in UniMath.SubstitutionSystems.SignatureCategory]
coproduct_def.C [in UniMath.CategoryTheory.limits.coproducts]
coproduct_def.I [in UniMath.CategoryTheory.limits.coproducts]
coproduct_unique.b [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_unique.a [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_unique.H [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_unique.C [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_def.C [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_unique.b [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
coproduct_unique.a [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
coproduct_unique.H [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
coproduct_unique.C [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CorestrictImage.CorestrictFullImageLocalEquivalence.B₁_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
CorestrictImage.CorestrictFullImageLocalEquivalence.B₂_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
CorestrictImage.CorestrictFullImageLocalEquivalence.FI_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
CorestrictImage.CorestrictFullImageLocalEquivalence.F_local_equiv [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
Currying.L [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
Currying.R [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]

D

def_grothendiecktopos.C [in UniMath.CategoryTheory.GrothendieckTopos]
def_grothendiecktopology.C [in UniMath.CategoryTheory.GrothendieckTopos]
def_additive_quot_functor.PAC [in UniMath.CategoryTheory.AdditiveFunctors]
def_additive_quot_functor.PAS [in UniMath.CategoryTheory.AdditiveFunctors]
def_additive_quot_functor.A [in UniMath.CategoryTheory.AdditiveFunctors]
def_roofs.iLC [in UniMath.CategoryTheory.LocalizingClass]
def_roofs.SOM [in UniMath.CategoryTheory.LocalizingClass]
def_roofs.hs [in UniMath.CategoryTheory.LocalizingClass]
def_roofs.C [in UniMath.CategoryTheory.LocalizingClass]
def_kernels.Z [in UniMath.CategoryTheory.limits.graphs.kernels]
def_kernels.hs [in UniMath.CategoryTheory.limits.graphs.kernels]
def_kernels.C [in UniMath.CategoryTheory.limits.graphs.kernels]
def_cokernels.Z [in UniMath.CategoryTheory.limits.graphs.cokernels]
def_cokernels.hs [in UniMath.CategoryTheory.limits.graphs.cokernels]
def_cokernels.C [in UniMath.CategoryTheory.limits.graphs.cokernels]
def_coequalizers.C [in UniMath.CategoryTheory.limits.graphs.coequalizers]
def_functor_pointwise_coprod.coproduct_of_functors.vertex.f [in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.coproduct_of_functors.vertex.A [in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.coproduct_of_functors.F [in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.HD [in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.D [in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.C [in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.I [in UniMath.CategoryTheory.limits.coproducts]
def_ptd.C [in UniMath.CategoryTheory.PointedFunctorsComposition]
def_po.pushout_lemma.P2 [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.P1 [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.H2 [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.H1 [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.m [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.j [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.i [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.k [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.h [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.g [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.f [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.x [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.e [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.d [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.c [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.b [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.pushout_lemma.a [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po.C [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_functor_pointwise_coprod.BinCoproduct_of_functors.vertex.g [in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.BinCoproduct_of_functors.vertex.f [in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.BinCoproduct_of_functors.vertex.A [in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.BinCoproduct_of_functors.G [in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.BinCoproduct_of_functors.F [in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.HD [in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.D [in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.C [in UniMath.CategoryTheory.limits.bincoproducts]
def_quotobjects.hpo [in UniMath.CategoryTheory.Quotobjects]
def_quotobjects.C [in UniMath.CategoryTheory.Quotobjects]
def_equalizers.hs [in UniMath.CategoryTheory.limits.graphs.equalizers]
def_equalizers.C [in UniMath.CategoryTheory.limits.graphs.equalizers]
def_kernels.Z [in UniMath.CategoryTheory.limits.kernels]
def_kernels.hs [in UniMath.CategoryTheory.limits.kernels]
def_functor_pointwise_coprod.coproduct_functor.G [in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_functor_pointwise_coprod.coproduct_functor.F [in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_functor_pointwise_coprod.HD [in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_functor_pointwise_coprod.D [in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_functor_pointwise_coprod.C [in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_zero.C [in UniMath.CategoryTheory.limits.zero]
def_cokernels.Z [in UniMath.CategoryTheory.limits.cokernels]
def_cokernels.hs [in UniMath.CategoryTheory.limits.cokernels]
def_FinOrdCoproducts.C [in UniMath.CategoryTheory.limits.FinOrdCoproducts]
def_bindirectsums.A [in UniMath.CategoryTheory.limits.BinDirectSums]
def_additive_kernel_cokernel.Z [in UniMath.CategoryTheory.PreAdditive]
def_additive_kernel_cokernel.A [in UniMath.CategoryTheory.PreAdditive]
def_preadditive.A [in UniMath.CategoryTheory.PreAdditive]
def_subobjects.hsC [in UniMath.CategoryTheory.Subobjects]
def_kernel_cokernel_complex.A [in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_homotopy.A [in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_functor_additive.A [in UniMath.HomologicalAlgebra.CohomologyComplex]
def_quasi_isomorphisms.A [in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology'_complex.A [in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_complex.hs [in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_complex.A [in UniMath.HomologicalAlgebra.CohomologyComplex]
def_shortexactseqs.hs [in UniMath.CategoryTheory.ShortExactSequences]
def_shortexactseqs.A [in UniMath.CategoryTheory.ShortExactSequences]
def_monic.hs [in UniMath.CategoryTheory.Monics]
def_monic.C [in UniMath.CategoryTheory.Monics]
def_functor_pointwise_prod.product_of_functors.vertex.f [in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.product_of_functors.vertex.A [in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.product_of_functors.F [in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.HD [in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.D [in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.C [in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.I [in UniMath.CategoryTheory.limits.products]
def_opposites'.hs [in UniMath.CategoryTheory.limits.Opp]
def_opposites'.C [in UniMath.CategoryTheory.limits.Opp]
def_opposites.hs [in UniMath.CategoryTheory.limits.Opp]
def_opposites.C [in UniMath.CategoryTheory.limits.Opp]
def_FinOrdProducts.C [in UniMath.CategoryTheory.limits.FinOrdProducts]
def_complexes.A [in UniMath.HomologicalAlgebra.Complexes]
def_pb.pullback_lemma.P2 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.P1 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.H2 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.H1 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.m [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.j [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.i [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.k [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.h [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.g [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.f [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.x [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.e [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.d [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.c [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.b [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.a [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.C [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma.P2 [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.P1 [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.H2 [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.H1 [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.m [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.j [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.i [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.k [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.h [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.g [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.f [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.x [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.e [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.d [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.c [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.b [in UniMath.CategoryTheory.limits.pullbacks]
def_pb.pullback_lemma.a [in UniMath.CategoryTheory.limits.pullbacks]
def_precategory_with_abgrops.PA [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
def_underprecategories.c [in UniMath.CategoryTheory.UnderCategories]
def_underprecategories.hs [in UniMath.CategoryTheory.UnderCategories]
def_underprecategories.C [in UniMath.CategoryTheory.UnderCategories]
def_epi.hs [in UniMath.CategoryTheory.Epis]
def_epi.C [in UniMath.CategoryTheory.Epis]
def_shortshortexactdata.Z [in UniMath.CategoryTheory.Morphisms]
def_shortshortexactdata.hs [in UniMath.CategoryTheory.Morphisms]
def_shortshortexactdata.C [in UniMath.CategoryTheory.Morphisms]
def_functor_pointwise_binprod.BinProduct_of_functors.vertex.g [in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.BinProduct_of_functors.vertex.f [in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.BinProduct_of_functors.vertex.A [in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.BinProduct_of_functors.G [in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.BinProduct_of_functors.F [in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.HD [in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.D [in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.C [in UniMath.CategoryTheory.limits.binproducts]
diagram_def.diagram_from_functor.F [in UniMath.CategoryTheory.limits.graphs.colimits]
diagram_def.diagram_from_functor.C [in UniMath.CategoryTheory.limits.graphs.colimits]
diagram_def.diagram_from_functor.J [in UniMath.CategoryTheory.limits.graphs.colimits]
discrete_bicat.C [in UniMath.Bicategories.Core.Bicat]
Discrete_Fiber.c [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber.h [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber.HD_2_1 [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber.HD [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber.D [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber_Precategory.c [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber_Precategory.h [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber_Precategory.D [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fibrations.Equivalence_disc_fibs_presheaves.C [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
DispDepprod.DepProdBicatDispGloballyUnivalent.HD_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DispDepprod.DepProdBicatDispLocallyUnivalent.HD_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DispDepprod.HB [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DispDepprod.HD_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
Displayed_Global_Univalence.D [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Displayed_Local_Univalence.D [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Displayed_Equiv_Inv.ε [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Displayed_Equiv_Inv.η [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Displayed_Equiv_Inv.GG [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
DispPseudofunctor.DispPseudofunctorLaws.FFdata [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispPseudofunctor.Projections.FFdata [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispTransformation.DispPstransLaws.ααdata [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_prebicat.total_prebicat.D [in UniMath.Bicategories.DisplayedBicats.DispBicat]
Disp_Dirprod.D2 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
Disp_Dirprod.D1 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
Disp_PreDirprod.D2 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
Disp_PreDirprod.D1 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
DomainArrow.a [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
DomainArrow.B [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]

E

EffectiveEpi.f [in UniMath.CategoryTheory.EpiFacts]
elems_slice_equiv.P [in UniMath.CategoryTheory.elems_slice_equiv]
elems_slice_equiv.C [in UniMath.CategoryTheory.elems_slice_equiv]
epis_subcategory.C [in UniMath.CategoryTheory.Epis]
epi_po.C [in UniMath.CategoryTheory.limits.pushouts]
Eqspec.Make_Monoid_Eqalgebra.M [in UniMath.Algebra.Universal.Examples.Monoid]
equalizers_coincide.hs [in UniMath.CategoryTheory.limits.graphs.equalizers]
equalizers_coincide.C [in UniMath.CategoryTheory.limits.graphs.equalizers]
EquivToAdjEquiv.f [in UniMath.Bicategories.Core.EquivToAdjequiv]
EquivToAdjEquiv.Hf [in UniMath.Bicategories.Core.EquivToAdjequiv]
Equiv_from_ff_plus_ess_split.FFinv [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Equiv_from_ff_plus_ess_split.FFweq [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Equiv_from_ff_plus_ess_split.FFinv [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Equiv_from_ff_plus_ess_split.FFweq [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
eqv_comp.HF' [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
eqv_comp.HF [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
exponentials_functor_cat.cy [in UniMath.CategoryTheory.categories.HSET.Structures]
exponentials_functor_cat.CP [in UniMath.CategoryTheory.categories.HSET.Structures]
exponentials.a [in UniMath.CategoryTheory.exponentials]
exponentials.eps [in UniMath.CategoryTheory.exponentials]
exponentials.eta [in UniMath.CategoryTheory.exponentials]
exponentials.G [in UniMath.CategoryTheory.exponentials]
exponentials.H [in UniMath.CategoryTheory.exponentials]
exponentials.HF [in UniMath.CategoryTheory.exponentials]
exponentials.H1 [in UniMath.CategoryTheory.exponentials]
exponentials.H2 [in UniMath.CategoryTheory.exponentials]

F

facts.C [in UniMath.CategoryTheory.limits.zero]
fiber_functor_from_cleaving.lift_f [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fiber_ext.A [in UniMath.HomologicalAlgebra.MappingCone]
Fiber.H [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Fiber.idto1 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Fiber.idto2 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Final.C_is_univalent_2_1 [in UniMath.Bicategories.Colimits.Final]
FinOrdCoproduct_criteria.C [in UniMath.CategoryTheory.limits.FinOrdCoproducts]
FinOrdProduct_criteria.C [in UniMath.CategoryTheory.limits.FinOrdProducts]
FixAMonoidalCategory.CAT [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
FixDispTensor.al [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
FixDispTensor.ar [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
fix_a_category.K [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
fix_a_category.about_signatures.fix_a_θ.θ [in UniMath.SubstitutionSystems.Signatures]
fix_a_category.def_hss.hssMor_equality.β' [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.hssMor_equality.β [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.hssMor_equality.T' [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.hssMor_equality.T [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.from_identity_to_hss.T0 [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.Id_H [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.θ [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.CPEndC [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_disp_adjunction.εε [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.ηη [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.ε [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.η [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.GG [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.FF [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.G [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction.F [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
folds_precat_implies_univalent.standardness [in UniMath.Folds.folds_pre_2_cat]
folds_precat_implies_univalent.H [in UniMath.Folds.folds_pre_2_cat]
folds_precat_implies_univalent.C [in UniMath.Folds.folds_pre_2_cat]
folds_iso_def.iso_from_folds_from_iso.i' [in UniMath.Folds.folds_isomorphism]
folds_iso_def.iso_from_folds_from_iso.hs [in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_folds_iso_to_iso.i'inv [in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_folds_iso_to_iso.i' [in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_folds_iso_to_iso.i [in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_folds_iso_to_iso.b [in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_folds_iso_to_iso.a [in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_iso_to_folds_iso.f [in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_iso_to_folds_iso.b [in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_iso_to_folds_iso.a [in UniMath.Folds.folds_isomorphism]
folds_iso_def.about_folds_isos.H [in UniMath.Folds.folds_isomorphism]
folds_iso_def.about_folds_isos.i' [in UniMath.Folds.folds_isomorphism]
folds_iso_def.about_folds_isos.i [in UniMath.Folds.folds_isomorphism]
folds_iso_def.about_folds_isos.fix_a_folds_iso.i [in UniMath.Folds.folds_isomorphism]
folds_iso_def.C [in UniMath.Folds.folds_isomorphism]
from_fully_faithful_and_ess_surj_to_equivalence.HS [in UniMath.CategoryTheory.Equivalences.Core]
from_fully_faithful_and_ess_surj_to_equivalence.HF [in UniMath.CategoryTheory.Equivalences.Core]
from_fully_faithful_and_ess_surj_to_equivalence.F [in UniMath.CategoryTheory.Equivalences.Core]
from_fully_faithful_and_ess_surj_to_equivalence.HA [in UniMath.CategoryTheory.Equivalences.Core]
from_fully_faithful_and_ess_surj_to_equivalence.B [in UniMath.CategoryTheory.Equivalences.Core]
from_fully_faithful_and_ess_surj_to_equivalence.A [in UniMath.CategoryTheory.Equivalences.Core]
from_equiv_to_fully_faithful.H [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
from_equiv_to_fully_faithful.F [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
from_equiv_to_fully_faithful.B [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
from_equiv_to_fully_faithful.A [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
from_folds_to_precats.C [in UniMath.Folds.from_precats_to_folds_and_back]
from_precats_to_folds.hs [in UniMath.Folds.from_precats_to_folds_and_back]
from_precats_to_folds.C [in UniMath.Folds.from_precats_to_folds_and_back]
from_precats_to_folds.data.hsC [in UniMath.Folds.from_precats_to_folds_and_back]
from_precats_to_folds.data.C [in UniMath.Folds.from_precats_to_folds_and_back]
FullSubBicat.C [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
FullSubBicat.P [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
full_sub_cat.C' [in UniMath.CategoryTheory.Subcategory.Full]
full_sub_cat.C [in UniMath.CategoryTheory.Subcategory.Full]
FunctorComposition.F [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
FunctorComposition.G [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
FunctorLaws.F [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
FunctorLaws.F [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
functors.Constant_Functor.d [in UniMath.CategoryTheory.Core.Functors]
functors.Constant_Functor.D [in UniMath.CategoryTheory.Core.Functors]
functors.Constant_Functor.C [in UniMath.CategoryTheory.Core.Functors]
functors.functors_and_idtoiso.HD [in UniMath.CategoryTheory.Core.Functors]
functors.functors_and_idtoiso.HC [in UniMath.CategoryTheory.Core.Functors]
functors.functors_and_idtoiso.F [in UniMath.CategoryTheory.Core.Functors]
functors.functors_and_idtoiso.D [in UniMath.CategoryTheory.Core.Functors]
functors.functors_and_idtoiso.C [in UniMath.CategoryTheory.Core.Functors]
functor_fix_snd_arg.d [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg.F [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg.E [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg.D [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg.C [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg.c [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg.F [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg.E [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg.D [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg.C [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_on_square.ff_es_functor_preserves_pb.X [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.ff_es_functor_preserves_pb.H [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.ff_es_functor_preserves_pb.FF [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.ff_es_functor_preserves_pb.Fes [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.ff_es_functor_preserves_pb.Fff [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.ff_es_functor_preserves_pb.hsD [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.isPullback_if_functor_on_square_is.X [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.isPullback_if_functor_on_square_is.H [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.isPullback_if_functor_on_square_is.Fff [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.F [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.hsC [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.D [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.C [in UniMath.CategoryTheory.limits.pullbacks]
Functor.C [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Functor.C' [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Functor.D [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Functor.D' [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Functor.FunctorsC'C [in UniMath.CategoryTheory.DisplayedCats.Constructions]

G

generalized_option_functors.option_functor.one [in UniMath.CategoryTheory.limits.bincoproducts]
general_comma_categories.T [in UniMath.CategoryTheory.CommaCategories]
general_comma_categories.S [in UniMath.CategoryTheory.CommaCategories]
GenMenIt.AF [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.AF [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.chnF [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.cocone_μF [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.e [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.H [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.fusion_law.H [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.Φ [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.ψ' [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.IL' [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.HL' [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.L' [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.ψ [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.IL [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.HL [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.L [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.Yon' [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.Yon [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.X' [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law.X [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.inF [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.inF [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.is_left_adj_L' [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.is_left_adj_L [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.iter [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.L [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.L' [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.special_case.θ [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.special_case.ρ [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.special_case.G [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.general_case.ψ [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.ε [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.η [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.R [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.φ_inv [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.φ [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.is_left_adj_L [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.L [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.Yon [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.X [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.special_case.θ [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.special_case.ρ [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.special_case.G [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.general_case.inF_inv [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.general_case.inF_iso [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.general_case.z [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.general_case.LchnF [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.general_case.ψ [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.Yon [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.ILD [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.HL [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.IL [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.L [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.X [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.X [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.X' [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.Yon [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.Yon' [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.Φ [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.μF [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.μF [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.μF_Initial [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.μF_Initial [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.ψ [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.ψ' [in UniMath.SubstitutionSystems.GenMendlerIteration]
girard.Flse [in UniMath.Paradoxes.GirardsParadox]

H

HomSetIso_from_Adjunction.ε [in UniMath.CategoryTheory.Adjunctions.Core]
HomSetIso_from_Adjunction.η [in UniMath.CategoryTheory.Adjunctions.Core]
horizontal_composition.β [in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.α [in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.G' [in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.G [in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.F' [in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.F [in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.E [in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.D [in UniMath.CategoryTheory.HorizontalComposition]
horizontal_composition.C [in UniMath.CategoryTheory.HorizontalComposition]

I

Identitor.C [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
Identitor.D [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
IdentityFunctor.C [in UniMath.Bicategories.PseudoFunctors.Examples.Identity]
Inclusion.B₁ [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
Inclusion.B₂ [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
InitialFunctorCat.C [in UniMath.CategoryTheory.limits.initial]
InitialFunctorCat.D [in UniMath.CategoryTheory.limits.initial]
InitialFunctorCat.ID [in UniMath.CategoryTheory.limits.initial]
InitialRep.Alg [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.C [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.CC [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.CP [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.CPEndC [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.j_ptd [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.τT [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.isInitial_precomp' [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.X [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.L [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.is_omega_cocont_Id_H' [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.Colims_of_shape_nat_graph_EndC [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.InitialEndC [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.j [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.τ_M [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation.M [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.H [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.HH [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.IC [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.Id_H [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.T [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.TauModuleMorphism.T [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.θ [in UniMath.SubstitutionSystems.ModulesFromSignatures]
Initial_Unique.H [in UniMath.CategoryTheory.limits.initial]
Initial_Unique.C [in UniMath.CategoryTheory.limits.initial]
Initial.C_is_univalent_2_1 [in UniMath.Bicategories.Colimits.Initial]
interface.C [in UniMath.CategoryTheory.RepresentableFunctors.Test]
interface.coproduct_unique.b [in UniMath.CategoryTheory.RepresentableFunctors.Test]
interface.coproduct_unique.a [in UniMath.CategoryTheory.RepresentableFunctors.Test]
interface.coproduct_unique.H [in UniMath.CategoryTheory.RepresentableFunctors.Test]
inv_rotation_mapping_cone.A [in UniMath.HomologicalAlgebra.MappingCone]
IsCartesianFromReindexDispCat.m [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
IsCartesianFromReindexDispCat.minv [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
IsCartesianFromReindexDispCat.minv' [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
IsCartesianFromReindexDispCat.ℓ [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
IsoInvertible2Cells.C_is_univalent_2_1 [in UniMath.Bicategories.Core.Univalence]
IsoLModPb.F_data2 [in UniMath.CategoryTheory.Monads.LModules]
IsoLModPb.F_data1 [in UniMath.CategoryTheory.Monads.LModules]
IsoLModPb.M1 [in UniMath.CategoryTheory.Monads.LModules]
IsoLModPb.M2 [in UniMath.CategoryTheory.Monads.LModules]
iso_yoneda_binproducts.yon [in UniMath.CategoryTheory.YonedaBinproducts]
is_univalent_implies_folds_precat.H [in UniMath.Folds.folds_pre_2_cat]
is_univalent_implies_folds_precat.C [in UniMath.Folds.folds_pre_2_cat]

J

J20.HB [in UniMath.Bicategories.Core.Univalence]
J20.r [in UniMath.Bicategories.Core.Univalence]
J20.Y [in UniMath.Bicategories.Core.Univalence]
J21.HB [in UniMath.Bicategories.Core.Univalence]
J21.r [in UniMath.Bicategories.Core.Univalence]
J21.Y [in UniMath.Bicategories.Core.Univalence]

K

kelly_left_pieces.h [in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.g [in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.f [in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.d [in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.c [in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.b [in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.a [in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_pieces.C [in UniMath.Bicategories.WkCatEnrichment.whiskering]
kernels_monics.Z [in UniMath.CategoryTheory.limits.kernels]
kernels_monics.hs [in UniMath.CategoryTheory.limits.kernels]
kernels_monics.C [in UniMath.CategoryTheory.limits.kernels]
kernels_iso.Z [in UniMath.CategoryTheory.limits.kernels]
kernels_iso.hs [in UniMath.CategoryTheory.limits.kernels]
kernels_iso.C [in UniMath.CategoryTheory.limits.kernels]
kernel_in_paths.Z [in UniMath.CategoryTheory.limits.kernels]
kernel_in_paths.hs [in UniMath.CategoryTheory.limits.kernels]
kernel_in_paths.C [in UniMath.CategoryTheory.limits.kernels]
kernel_equalizers.Z [in UniMath.CategoryTheory.limits.kernels]
kernel_equalizers.hs [in UniMath.CategoryTheory.limits.kernels]
kernel_pair_Set.f [in UniMath.CategoryTheory.categories.HSET.Structures]

L

lambdacalculus.is_omega_cocont_lambdaFunctor [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambdacalculus.LambdaCalculus_alg [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambdacalculus.LambdaCalculus_mor [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambdacalculus.lambdaFunctor [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambdacalculus.precomp_option [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
Lambda.C [in UniMath.SubstitutionSystems.LamSignature]
Lambda.CC [in UniMath.SubstitutionSystems.Lam]
Lambda.CC [in UniMath.SubstitutionSystems.LamSignature]
Lambda.CP [in UniMath.SubstitutionSystems.Lam]
Lambda.CP [in UniMath.SubstitutionSystems.LamSignature]
Lambda.CPEndC [in UniMath.SubstitutionSystems.Lam]
Lambda.CPEndEndC [in UniMath.SubstitutionSystems.Lam]
Lambda.EndEndC [in UniMath.SubstitutionSystems.Lam]
Lambda.KanExt [in UniMath.SubstitutionSystems.Lam]
Lambda.Lam [in UniMath.SubstitutionSystems.Lam]
Lambda.LamEHSS [in UniMath.SubstitutionSystems.Lam]
Lambda.LamE_Initial [in UniMath.SubstitutionSystems.Lam]
Lambda.LamE_S [in UniMath.SubstitutionSystems.Lam]
Lambda.LamHSS [in UniMath.SubstitutionSystems.Lam]
Lambda.Lam_Initial [in UniMath.SubstitutionSystems.Lam]
Lambda.Lam_S [in UniMath.SubstitutionSystems.Lam]
Lambda.one [in UniMath.SubstitutionSystems.Lam]
Lambda.one [in UniMath.SubstitutionSystems.LamSignature]
Lambda.terminal [in UniMath.SubstitutionSystems.Lam]
Lambda.terminal [in UniMath.SubstitutionSystems.LamSignature]
Lambeks_lemma.AaIsInitial [in UniMath.CategoryTheory.FunctorAlgebras]
Lambeks_lemma.Aa [in UniMath.CategoryTheory.FunctorAlgebras]
Lambeks_lemma.F [in UniMath.CategoryTheory.FunctorAlgebras]
Lambeks_lemma.C [in UniMath.CategoryTheory.FunctorAlgebras]
LamHSET.Lam_S [in UniMath.SubstitutionSystems.LamHSET]
Lam.arr [in UniMath.SubstitutionSystems.STLC]
Lam.arr [in UniMath.SubstitutionSystems.STLC_alt]
Lam.HSET_over_sort2 [in UniMath.SubstitutionSystems.STLC]
Lam.Id_H [in UniMath.SubstitutionSystems.STLC]
Lam.Id_H [in UniMath.SubstitutionSystems.LamFromBindingSig]
Lam.LC_alg [in UniMath.SubstitutionSystems.LamFromBindingSig]
Lam.LC_mor [in UniMath.SubstitutionSystems.LamFromBindingSig]
Lam.precomp_option [in UniMath.SubstitutionSystems.LamFromBindingSig]
Lam.sort [in UniMath.SubstitutionSystems.STLC]
Lam.sort [in UniMath.SubstitutionSystems.STLC_alt]
Lam.sortToSet [in UniMath.SubstitutionSystems.STLC_alt]
Lam.sortToSet2 [in UniMath.SubstitutionSystems.STLC_alt]
Lam.STLC [in UniMath.SubstitutionSystems.STLC_alt]
Lam.STLC_alg [in UniMath.SubstitutionSystems.STLC]
Lam.STLC_mor [in UniMath.SubstitutionSystems.STLC]
Lam.STLC_M_alg [in UniMath.SubstitutionSystems.STLC_alt]
Lam.STLC_M_mor [in UniMath.SubstitutionSystems.STLC_alt]
LatticeObject_def.ι [in UniMath.CategoryTheory.LatticeObject]
LatticeObject_def.τ [in UniMath.CategoryTheory.LatticeObject]
LatticeObject_def.δ [in UniMath.CategoryTheory.LatticeObject]
LatticeObject_def.α [in UniMath.CategoryTheory.LatticeObject]
LatticeObject_def.π2 [in UniMath.CategoryTheory.LatticeObject]
LatticeObject_def.π1 [in UniMath.CategoryTheory.LatticeObject]
LaxFunctorBicat.C [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
LaxFunctorBicat.D [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
leastupperbound.f [in UniMath.Algebra.Dcpo]
LeftUnitality.F [in UniMath.Bicategories.Transformations.Examples.Unitality]
LeftUnitality.F [in UniMath.Bicategories.Modifications.Examples.Unitality]
LeftWhisker.G [in UniMath.Bicategories.Transformations.Examples.Whiskering]
LeftWhisker.η [in UniMath.Bicategories.Transformations.Examples.Whiskering]
left_right_shortexact_and_pullbacks_pushouts.A [in UniMath.CategoryTheory.ShortExactSequences]
lemmas_on_pushouts.H [in UniMath.CategoryTheory.limits.pushouts]
lemmas_on_pullbacks.H [in UniMath.CategoryTheory.limits.pullbacks]
LiftEpiNatTrans.comp_epi [in UniMath.CategoryTheory.SetValuedFunctors]
LiftEpiNatTrans.surjectivep [in UniMath.CategoryTheory.SetValuedFunctors]
LiftSurjection.comp_f_epi [in UniMath.Foundations.Sets]
LiftSurjection.f [in UniMath.Foundations.Sets]
LiftSurjection.hsc [in UniMath.Foundations.Sets]
LiftSurjection.p [in UniMath.Foundations.Sets]
LiftSurjection.surjectivep [in UniMath.Foundations.Sets]
Lift2CellInvertible.inv [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
LimFunctor.A [in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor.C [in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor.D [in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor.HCg [in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor.HCg [in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctor.hsC [in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor.J [in UniMath.CategoryTheory.limits.cats.limits]
limits.D [in UniMath.CategoryTheory.categories.HSET.Limits]
limits.g [in UniMath.CategoryTheory.categories.HSET.Limits]
Lims.Universal_Unique.H [in UniMath.CategoryTheory.limits.cats.limits]
Lims.Universal_Unique.H [in UniMath.CategoryTheory.limits.graphs.limits]
Lims.Universal_Unique.C [in UniMath.CategoryTheory.limits.graphs.limits]
lists.A [in UniMath.CategoryTheory.Inductives.Lists]
lists.is_omega_cocont_listFunctor [in UniMath.CategoryTheory.Inductives.Lists]
lists.listFunctor [in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.Pc' [in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.P0' [in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.P' [in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.Pc [in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.P0 [in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.PhSet [in UniMath.CategoryTheory.Inductives.Lists]
lists.list_induction.P [in UniMath.CategoryTheory.Inductives.Lists]
lists.List_alg [in UniMath.CategoryTheory.Inductives.Lists]
lists.List_mor [in UniMath.CategoryTheory.Inductives.Lists]
lists.Test.x [in UniMath.Combinatorics.Lists]
LocalIsoFibration.c [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.D [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.h [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.a₁ [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.a₂ [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.a₃ [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.a₄ [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.a₅ [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.f₁ [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.f₂ [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.f₃ [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator.f₄ [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]

M

MainResult.Colims_of_shape_nat_graph_EndC [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
MainResult.Const_plus_H [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
MainResult.CPEndC [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
MainResult.CPEndEndC [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
MainResult.EndEndC [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
MainResult.Id_H [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
MainResult.InitialEndC [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Main.Functor.H [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Main.Functor.H' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
mapping_cylinder_KA_iso.A [in UniMath.HomologicalAlgebra.MappingCylinder]
mapping_cylinder.A [in UniMath.HomologicalAlgebra.MappingCylinder]
mapping_cone_ext.A [in UniMath.HomologicalAlgebra.MappingCone]
mapping_cone_of_id.A [in UniMath.HomologicalAlgebra.MappingCone]
mapping_cone.A [in UniMath.HomologicalAlgebra.MappingCone]
Map1Cells.AllInvertible2CellToDispAdjEquiv.F₀ [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells.AllInvertible2CellToDispAdjEquiv.F₁ [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells.AllInvertible2CellToDispAdjEquiv.F₁' [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells.AllInvertible2CellToDispAdjEquiv.η [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells.C [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells.D [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map2Cells.C [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
Map2Cells.D [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
MBindingSigMonadHSET.sortToSet [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.BC [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.BC [in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.BCsortToC [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.BP [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.BPC [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.C [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.CC [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.expSortToCC [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.HC [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.Hsort [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.IC [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.make_sortToC [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.monad.HSS [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.monad.HSS [in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.monad.Id_H [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.monad.Id_H [in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.PC [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.sort [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.sort [in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.sortToC [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.sort_cat [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.TC [in UniMath.SubstitutionSystems.MultiSorted_alt]
MLTT79.Id_H [in UniMath.SubstitutionSystems.MLTT79]
MLTT79.MLTT79_alg [in UniMath.SubstitutionSystems.MLTT79]
MLTT79.MLTT79_mor [in UniMath.SubstitutionSystems.MLTT79]
MLTT79.SigHSET [in UniMath.SubstitutionSystems.MLTT79]
MonadInSortToC.BC [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadInSortToC.C [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadInSortToC.Hsort [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadInSortToC.sort [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadInSortToC.sortToC [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadInSortToC.TC [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadsInHSET_over_sort.BC [in UniMath.SubstitutionSystems.MonadsMultiSorted]
MonadsInHSET_over_sort.hs [in UniMath.SubstitutionSystems.MonadsMultiSorted]
MonadsInHSET_over_sort.sort [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Monad_def.pointfree.μ' [in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree.η' [in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree.T0' [in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree.T0 [in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree.μ [in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree.η [in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree.EndC [in UniMath.CategoryTheory.Monads.Monads]
monad_algebras.FAlg [in UniMath.CategoryTheory.DisplayedCats.Examples]
monad_algebras.T' [in UniMath.CategoryTheory.DisplayedCats.Examples]
monad_from_hss.mu_from_fbracket.T [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.Id_H [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.θ_strength2_int [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.θ_strength1_int [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.θ [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.H [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.CPEndC [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monics_and_epis_in_preadditive.PA [in UniMath.CategoryTheory.PreAdditive]
monics_subcategory.hs [in UniMath.CategoryTheory.Monics]
monics_subcategory.C [in UniMath.CategoryTheory.Monics]
monics_and_epis_in_additive.A [in UniMath.CategoryTheory.Additive]
monic_pb.C [in UniMath.CategoryTheory.limits.pullbacks]
Monoids.oo [in UniMath.Algebra.IteratedBinaryOperations]
Monoids.uu [in UniMath.Algebra.IteratedBinaryOperations]
Monoids2.op [in UniMath.Algebra.IteratedBinaryOperations]
Monoids2.unel [in UniMath.Algebra.IteratedBinaryOperations]

N

Nats.F [in UniMath.CategoryTheory.FunctorAlgebras]
nat_trans.nat_trans_eq.beta [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans.nat_trans_eq.alpha [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans.nat_trans_eq.hsD [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_fix_snd_arg.d [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg.α [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg.F' [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg.F [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg.E [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg.D [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg.C [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.f [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.d' [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.d [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.F [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.E [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.D [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg.C [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.c [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.α [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.F' [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.F [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.E [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.D [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg.C [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.g [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.c' [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.c [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.F [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.E [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.D [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg.C [in UniMath.CategoryTheory.PrecategoryBinProduct]
NiceBuilders.HD₁ [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
NiceBuilders.HD₂ [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
NotationTest.A [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]

O

opp_abelian.hs [in UniMath.CategoryTheory.Abelian]
opp_abelian.C [in UniMath.CategoryTheory.Abelian]
opp_rezk_universal_property.fix_a_category.Ccat [in UniMath.CategoryTheory.rezk_completion]
opp_rezk_universal_property.fix_a_category.C [in UniMath.CategoryTheory.rezk_completion]
opp_rezk_universal_property.hsRAop [in UniMath.CategoryTheory.rezk_completion]
opp_rezk_universal_property.hsAop [in UniMath.CategoryTheory.rezk_completion]
opp_rezk_universal_property.hsA [in UniMath.CategoryTheory.rezk_completion]
opp_rezk_universal_property.A [in UniMath.CategoryTheory.rezk_completion]
opp_functor_properties.F [in UniMath.CategoryTheory.opp_precat]
opp_functor_properties.D [in UniMath.CategoryTheory.opp_precat]
opp_functor_properties.C [in UniMath.CategoryTheory.opp_precat]
op2.C [in UniMath.Bicategories.Core.Examples.OpCellBicat]
OtherProperties.apart [in UniMath.Combinatorics.OrderedSets]
OtherProperties.ClassicalProperties.lem [in UniMath.Combinatorics.OrderedSets]
OtherProperties.ic [in UniMath.Combinatorics.OrderedSets]
OtherProperties.le [in UniMath.Combinatorics.OrderedSets]
OtherProperties.lt [in UniMath.Combinatorics.OrderedSets]
OtherProperties.max [in UniMath.Combinatorics.OrderedSets]
OtherProperties.min [in UniMath.Combinatorics.OrderedSets]
OtherProperties.X [in UniMath.Combinatorics.OrderedSets]
over_terminal_category.C [in UniMath.CategoryTheory.DisplayedCats.Examples]

P

PbmFunctor.MOD [in UniMath.CategoryTheory.Monads.LModules]
pb_criteria.hs [in UniMath.CategoryTheory.limits.pullbacks]
pb_criteria.C [in UniMath.CategoryTheory.limits.pullbacks]
pcf.arr [in UniMath.SubstitutionSystems.PCF_alt]
pcf.Bool [in UniMath.SubstitutionSystems.PCF_alt]
pcf.Nat [in UniMath.SubstitutionSystems.PCF_alt]
pcf.PCF_M_alg [in UniMath.SubstitutionSystems.PCF_alt]
pcf.PCF_M_mor [in UniMath.SubstitutionSystems.PCF_alt]
pcf.type [in UniMath.SubstitutionSystems.PCF_alt]
pcf.typeToSet [in UniMath.SubstitutionSystems.PCF_alt]
pcf.typeToSet2 [in UniMath.SubstitutionSystems.PCF_alt]
PL.FoldComputationLemmas.comm [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.FoldComputationLemmas.fold [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.FoldComputationLemmas.mor [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.is_omega_cocont_PL_functor' [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind.P'_impl [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind.P'_or [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind.P'_and [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind.P'_not [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind.P'_vars [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind.P' [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_alg [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.times [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.vars [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
po_criteria.C [in UniMath.CategoryTheory.limits.pushouts]
preadditive_quotient.Z [in UniMath.CategoryTheory.PreAdditive]
preadditive_quotient.PAC [in UniMath.CategoryTheory.PreAdditive]
preadditive_quotient.PAS [in UniMath.CategoryTheory.PreAdditive]
preadditive_quotient.PA [in UniMath.CategoryTheory.PreAdditive]
preadditive_inv_comp.A [in UniMath.CategoryTheory.PreAdditive]
preadditive_with_zero.A [in UniMath.CategoryTheory.PreAdditive]
precategory_binproduct.D [in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct.C [in UniMath.CategoryTheory.PrecategoryBinProduct]
precomp_w_ess_surj_ff_is_ess_surj.essentially_surjective.F [in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.fH [in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.p [in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.H [in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.Ccat [in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.C [in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.B [in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.A [in UniMath.CategoryTheory.precomp_ess_surj]
Preparations.C [in UniMath.SubstitutionSystems.LamSignature]
Preparations.CC [in UniMath.SubstitutionSystems.LamSignature]
Preparations.CP [in UniMath.SubstitutionSystems.LamSignature]
pre_composition.precomp_with_ess_surj_full_functor_is_full.full.gamma [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.precomp_with_ess_surj_full_functor_is_full.full.G [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.precomp_with_ess_surj_full_functor_is_full.full.F [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.precomp_with_ess_surj_full_functor_is_full.Hf [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.precomp_with_ess_surj_full_functor_is_full.p [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.H [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.C [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.B [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.A [in UniMath.CategoryTheory.precomp_fully_faithful]
products_from_limits.C [in UniMath.CategoryTheory.limits.products]
products_from_limits.I [in UniMath.CategoryTheory.limits.products]
Products.C [in UniMath.CategoryTheory.limits.products]
Products.CC [in UniMath.CategoryTheory.limits.products]
Products.I [in UniMath.CategoryTheory.limits.products]
Product_unique.a [in UniMath.CategoryTheory.limits.products]
Product_unique.CC [in UniMath.CategoryTheory.limits.products]
Product_unique.C [in UniMath.CategoryTheory.limits.products]
Product_unique.I [in UniMath.CategoryTheory.limits.products]
product_def.C [in UniMath.CategoryTheory.limits.products]
product_def.I [in UniMath.CategoryTheory.limits.products]
Product.UniversalMappingPropertyStatements.p [in UniMath.Bicategories.Colimits.Products]
ProjectionsBinop.m [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
ProjectionsPointedBinop.m [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
Projections.A [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Projections.R [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Projections.Γ [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Projection.D [in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
Projection.F [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
PseudoFunctorBicat.C [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
PseudoFunctorBicat.D [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
PseudoFunctorData.C [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
PseudoFunctorData.D [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
PseudoFunctorDerivedLaws.F [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
PseudoFunctorLocalFunctor.F [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
PseudoFunctorLocalFunctor.X [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
PseudoFunctorLocalFunctor.Y [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
pullbacks_functor_category.hpb [in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_functor_category.C [in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_functor_category.D [in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_pointwise.Hcommx [in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_pointwise.Hcomm [in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_pointwise.CD [in UniMath.CategoryTheory.limits.pullbacks]
pullback_deriv.MOD [in UniMath.CategoryTheory.Monads.Derivative]
Pullback_module.T [in UniMath.CategoryTheory.Monads.LModules]
Pullback.UniversalMappingPropertyStatements.p [in UniMath.Bicategories.Colimits.Pullback]
pushout_coincide.C [in UniMath.CategoryTheory.limits.graphs.pushouts]
pushout_monic_pullback_epi.hs [in UniMath.CategoryTheory.AbelianPushoutPullback]

Q

QuotientFunctor.congru [in UniMath.CategoryTheory.SetValuedFunctors]
QuotientFunctor.hequiv [in UniMath.CategoryTheory.SetValuedFunctors]
QuotientFunctor.R [in UniMath.CategoryTheory.SetValuedFunctors]

R

Refinement.finalM0 [in UniMath.Induction.M.ComputationalM]
Refinement.M0 [in UniMath.Induction.M.ComputationalM]
RepresentableFunctor.C_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableModification.C_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableModification.η [in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableTransformation.C_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableTransformation.f [in UniMath.Bicategories.PseudoFunctors.Representable]
Restriction.ε [in UniMath.CategoryTheory.Adjunctions.Restriction]
Restriction.η [in UniMath.CategoryTheory.Adjunctions.Restriction]
rezk_universal_property.fix_a_category.Ccat [in UniMath.CategoryTheory.rezk_completion]
rezk_universal_property.fix_a_category.C [in UniMath.CategoryTheory.rezk_completion]
rezk_universal_property.hsA [in UniMath.CategoryTheory.rezk_completion]
rezk_universal_property.A [in UniMath.CategoryTheory.rezk_completion]
rezk.A [in UniMath.CategoryTheory.rezk_completion]
rezk.hsA [in UniMath.CategoryTheory.rezk_completion]
RightKanExtensionFromLims.fix_T.T [in UniMath.CategoryTheory.RightKanExtension]
RightKanExtension.PrecompWithF [in UniMath.CategoryTheory.RightKanExtension]
RightUnitality.F [in UniMath.Bicategories.Transformations.Examples.Unitality]
RightUnitality.F [in UniMath.Bicategories.Modifications.Examples.Unitality]
RightWhisker.F [in UniMath.Bicategories.Transformations.Examples.Whiskering]
RightWhisker.η [in UniMath.Bicategories.Transformations.Examples.Whiskering]
RMonad_transfer.RelMonad_transfer_radj_object.TH [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_radj_object.T [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_object.TH [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_object.T [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.ηinv_is_natural [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.ηinv [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.corefl [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.φinv [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.φ [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.NHW [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.R [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
rotation_mapping_cone.A [in UniMath.HomologicalAlgebra.MappingCone]

S

set_slice_fam_equiv.X [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
shortexact_correspondence.A [in UniMath.CategoryTheory.ShortExactSequences]
shortshortexact_iskernel_iscokernel.A [in UniMath.CategoryTheory.ShortExactSequences]
shortshortexact_to_leftshortexact.A [in UniMath.CategoryTheory.ShortExactSequences]
shortshortexact_cokernel.hs [in UniMath.CategoryTheory.ShortExactSequences]
shortshortexact_cokernel.A [in UniMath.CategoryTheory.ShortExactSequences]
SigmaDisplayedUnivalent.HC [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaDisplayedUnivalent.HD₁ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaDisplayedUnivalent.HD₁_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaDisplayedUnivalent.HD₂ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaDisplayedUnivalent.HD₂_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaDisplayedUnivalent.LG₁ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaDisplayedUnivalent.LG₂ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
Sigma.C [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
Sigma.D [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
Sigma.E [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SignatureCategory.C [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.D [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.D' [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram.g2 [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram.g1 [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram.f2 [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram.f1 [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram.Y [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram.X [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.α [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.θ' [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.θ [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.H' [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.H [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Ht' [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Ht [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureLiftModule.M [in UniMath.SubstitutionSystems.ModulesFromSignatures]
SignatureLiftModule.strength_law1_pw [in UniMath.SubstitutionSystems.ModulesFromSignatures]
SignatureLiftModule.T [in UniMath.SubstitutionSystems.ModulesFromSignatures]
SignatureLiftModule.T2 [in UniMath.SubstitutionSystems.ModulesFromSignatures]
SIP.C [in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.H [in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.Hcomp [in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.Hid [in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.Hisprop [in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.Hstandard [in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.P [in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.Pisset [in UniMath.CategoryTheory.DisplayedCats.SIP]
SIP.univC [in UniMath.CategoryTheory.DisplayedCats.SIP]
slicecat_colimits.U [in UniMath.CategoryTheory.slicecat]
some_lemmas_about_folds_precats.C [in UniMath.Folds.folds_precat]
StrictCompositor.C [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
StrictCompositor.D [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
StrictIdentitor.C [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
StrictIdentitor.D [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
Strictify.B₁ [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
Strictify.B₂ [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
Strictify.HB₂_2_1 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
StrictProjection.F [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
StrictPseudoFunctorBicat.C [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
StrictPseudoFunctorBicat.D [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
StrictPseudoFunctorData.C [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
StrictPseudoFunctorData.D [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
StrictPseudoFunctorDerivedLaws.F [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
struct_hom.Hcomp [in UniMath.CategoryTheory.DisplayedCats.Constructions]
struct_hom.Hid [in UniMath.CategoryTheory.DisplayedCats.Constructions]
struct_hom.Hisprop [in UniMath.CategoryTheory.DisplayedCats.Constructions]
struct_hom.H [in UniMath.CategoryTheory.DisplayedCats.Constructions]
struct_hom.P [in UniMath.CategoryTheory.DisplayedCats.Constructions]
struct_hom.C [in UniMath.CategoryTheory.DisplayedCats.Constructions]
sum_of_signatures.construction.S12' [in UniMath.SubstitutionSystems.SumOfSignatures]
sum_of_signatures.construction.S11' [in UniMath.SubstitutionSystems.SumOfSignatures]
sum_of_signatures.construction.θ1 [in UniMath.SubstitutionSystems.SumOfSignatures]
sum_of_signatures.construction.H1 [in UniMath.SubstitutionSystems.SumOfSignatures]

T

TerminalFunctorCat.C [in UniMath.CategoryTheory.limits.terminal]
TerminalFunctorCat.D [in UniMath.CategoryTheory.limits.terminal]
TerminalFunctorCat.ID [in UniMath.CategoryTheory.limits.terminal]
Terminal_Unique.H [in UniMath.CategoryTheory.limits.terminal]
Terminal_Unique.C [in UniMath.CategoryTheory.limits.terminal]
Tests_el.f [in UniMath.Combinatorics.VectorsTests]
Tests_el.v [in UniMath.Combinatorics.VectorsTests]
Test_search.P_inhab' [in UniMath.Combinatorics.Tests]
Test_ord.TestLex2.y [in UniMath.Combinatorics.Tests]
Test_ord.TestLex2.x [in UniMath.Combinatorics.Tests]
Test_ord.TestLex2.X [in UniMath.Combinatorics.Tests]
Test_ord.TestLex2.j [in UniMath.Combinatorics.Tests]
Test_ord.TestLex2.i [in UniMath.Combinatorics.Tests]
Test_ord.TestLex.t' [in UniMath.Combinatorics.Tests]
Test_ord.TestLex.t [in UniMath.Combinatorics.Tests]
Test_ord.TestLex.y2 [in UniMath.Combinatorics.Tests]
Test_ord.TestLex.y1 [in UniMath.Combinatorics.Tests]
Test_ord.TestLex.x3 [in UniMath.Combinatorics.Tests]
Test_ord.TestLex.x2 [in UniMath.Combinatorics.Tests]
Test_ord.TestLex.T [in UniMath.Combinatorics.Tests]
Test_ord.TestLex.Z [in UniMath.Combinatorics.Tests]
Test_ord.TestLex.S [in UniMath.Combinatorics.Tests]
Test_ord.TestLex.Y [in UniMath.Combinatorics.Tests]
Test_ord.TestLex.R [in UniMath.Combinatorics.Tests]
Test_ord.TestLex.X [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.eqT [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.T [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.eqW [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.W [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.Y' [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.eqV [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.V [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.finY [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.y' [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.y [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.Y [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.c'' [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.c' [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.c [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.eqQ [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.C [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.eqbool [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.decide [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.x' [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.x [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.eqX [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.finX [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq.X [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqfromprodofstn.f' [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqfromprodofstn.f [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqstnsum.f' [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqstnsum.f [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqstnsum.W [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqstnsum.Y [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqstnsum.X [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.jni [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.j [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.v [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.Y [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.i [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.X [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl.n [in UniMath.Combinatorics.Tests]
Test_vec_append.w [in UniMath.Combinatorics.VectorsTests]
Test_vec_append.v [in UniMath.Combinatorics.VectorsTests]
Test_vec_append.u [in UniMath.Combinatorics.VectorsTests]
Test_vec_foldr1.v [in UniMath.Combinatorics.VectorsTests]
Test_vec_foldr.v [in UniMath.Combinatorics.VectorsTests]
Test_nat.Test_weqdicompl.w [in UniMath.NumberSystems.Tests]
Test_nat.Test_A.f' [in UniMath.NumberSystems.Tests]
Test_nat.Test_A.f [in UniMath.NumberSystems.Tests]
Test_nat.Test_A.cn' [in UniMath.NumberSystems.Tests]
Test_nat.Test_A.cn [in UniMath.NumberSystems.Tests]
Test_nat.Test_A.w [in UniMath.NumberSystems.Tests]
Test_nat.Test_A.C' [in UniMath.NumberSystems.Tests]
Test_nat.Test_A.C [in UniMath.NumberSystems.Tests]
Test_weqtotal2overcoprod.P [in UniMath.Foundations.Tests]
Test_isweq_iso.w [in UniMath.Foundations.Tests]
Test_isweq_iso.f [in UniMath.Foundations.Tests]
test.C [in UniMath.CategoryTheory.limits.binproducts]
test.H [in UniMath.CategoryTheory.limits.binproducts]
tiny_object_preshv.Yon [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
tiny_object_preshv.prod_functor_c [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
TotalDispProd.T [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
TotalDispProd.T' [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
Total_Category_Globally_Univalent.HD [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Globally_Univalent.HC [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Globally_Univalent.D [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Univalent_2_1.HD [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Univalent_2_1.HC [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Univalent_2_1.D [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
translation_functor.A [in UniMath.HomologicalAlgebra.TranslationFunctors]
transport_kernels.Z [in UniMath.CategoryTheory.limits.kernels]
transport_kernels.hs [in UniMath.CategoryTheory.limits.kernels]
transport_kernels.C [in UniMath.CategoryTheory.limits.kernels]
transport_section'.C [in UniMath.HomologicalAlgebra.Complexes]
transport_morphisms.PA [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
Trivial_Displayed.C [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
Trivial_Displayed.B [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
TwoTypeBiGroupoid.HX [in UniMath.Bicategories.Core.Examples.TwoType]
TwoTypeBiGroupoid.X [in UniMath.Bicategories.Core.Examples.TwoType]

U

undercategories_morphisms.hs [in UniMath.CategoryTheory.UnderCategories]
undercategories_morphisms.C [in UniMath.CategoryTheory.UnderCategories]
unfold_data.C [in UniMath.Bicategories.BicatOfBicategory]
UniquenessAdjoint.A₁ [in UniMath.Bicategories.Core.AdjointUnique]
UniquenessAdjoint.A₂ [in UniMath.Bicategories.Core.AdjointUnique]
UniquenessAdjoint.l [in UniMath.Bicategories.Core.AdjointUnique]
Uniqueness.C [in UniMath.Bicategories.Colimits.Final]
Uniqueness.C [in UniMath.Bicategories.Colimits.Initial]
Uniqueness.HC [in UniMath.Bicategories.Colimits.Final]
Uniqueness.HC [in UniMath.Bicategories.Colimits.Initial]
Uniqueness.HX [in UniMath.Bicategories.Colimits.Final]
Uniqueness.HX [in UniMath.Bicategories.Colimits.Initial]
Uniqueness.HY [in UniMath.Bicategories.Colimits.Final]
Uniqueness.HY [in UniMath.Bicategories.Colimits.Initial]
Uniqueness.X [in UniMath.Bicategories.Colimits.Final]
Uniqueness.X [in UniMath.Bicategories.Colimits.Initial]
Uniqueness.Y [in UniMath.Bicategories.Colimits.Final]
Uniqueness.Y [in UniMath.Bicategories.Colimits.Initial]
UnivalenceImplications.univalenceAxiom [in UniMath.Foundations.UnivalenceAxiom]
Universal_Unique.H [in UniMath.CategoryTheory.limits.pushouts]
Universal_Unique.C [in UniMath.CategoryTheory.limits.pushouts]
Universal_Unique.H [in UniMath.CategoryTheory.limits.pullbacks]
Universal_Unique.C [in UniMath.CategoryTheory.limits.pullbacks]

W

Working.Functor_eq_map_isweq [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
WOSET.isaset_WellOrderedSet [in UniMath.CategoryTheory.categories.wosets]

Y

YonedaLemma.B_is_univalent_2_1 [in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.F [in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.PresheafToYonedaMor.a [in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.PresheafToYonedaMor.b [in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.PresheafToYonedaMor.f [in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.PresheafToYonedaOb.x [in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.X [in UniMath.Bicategories.Core.YonedaLemma]
YonedaLocalEquivalence.B_is_univalent_2_1 [in UniMath.Bicategories.Core.YonedaLemma]
YonedaLocalEquivalence.X [in UniMath.Bicategories.Core.YonedaLemma]
YonedaLocalEquivalence.Y [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_functor_precomp.B [in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.A [in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.fix_object.Fff [in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.fix_object.c [in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.F [in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.D [in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp.C [in UniMath.CategoryTheory.yoneda]
Yoneda.C_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Yoneda]

Z

Zero_Unique.H [in UniMath.CategoryTheory.limits.zero]
Zero_Unique.C [in UniMath.CategoryTheory.limits.zero]

other

θ_for_postcomposition.GH [in UniMath.SubstitutionSystems.SignatureExamples]
θ_for_postcomposition.G [in UniMath.SubstitutionSystems.SignatureExamples]
θ_for_postcomposition.θ_strength2 [in UniMath.SubstitutionSystems.SignatureExamples]
θ_for_postcomposition.θ_strength1 [in UniMath.SubstitutionSystems.SignatureExamples]
θ_for_postcomposition.θ [in UniMath.SubstitutionSystems.SignatureExamples]
θ_for_postcomposition.H [in UniMath.SubstitutionSystems.SignatureExamples]
θ_for_postcomposition.S [in UniMath.SubstitutionSystems.SignatureExamples]

---

Library Index

A

Abelian
AbelianPushoutPullback
AbelianToAdditive
abgrs
abmonoids
Abmonoids_Tactics
ActionBasedStrength
ActionBasedStrengthOnHomsInBicat
ActionBasedStrongFunctorCategory
ActionBasedStrongFunctorsMonoidal
ActionOfEndomorphismsInBicat
Actions
ActionsFormBicategory
Adamek
Additive
AdditiveFunctors
Add2Cell
AdjointUnique
Adjunctions
Adjunctions
AffineLine
AlgebraMap
Algebras
Algebras
Algebras
All
All
All
All
All
All
All
All
All
All
All
All
All
All
All
All
All
All
All
All
All
All
AlternativeProofs
Apartness
ApFunctor
ApModification
ApTransformation
Archimedean
ArrowCategory
Associativity
Associativity
Auxiliary
aux_lemmas
AxiomOfChoice

B

Base
Biadjunction
Bicat
bicategory
BicategoryFromMonoidal
BicategoryLaws
BicategoryOfBicat
BicatOfBicategory
BicatOfCats
BicatOfUnivCats
Biequivalence
Bifunctor
BinaryOperations
bincoproducts
bincoproducts
BindingSigToMonad
BinDirectSums
BinProductOfSignatures
binproducts
binproducts
BinSumOfSignatures
Bool
Bool
BoundedSearch
BraidedMonoidalCategories

C

CartesianCubicalSets
Cat
CATAsInstanceOfBicat
CategoricalRecursionSchemes
Categories
CategoriesOfMonoids
CategoriesOfMonoids
CategoriesWithBinOps
CategoryEquality
CategoryTop
category_binops
catiso
Cats
CCS
CCS_alt
Chains
Chains
Circle
Circle2
CleavingOfBicat
Cochains
Codomain
Codomain
CodomainCleaving
coequalizers
coequalizers
Cofunctormap
CohomologyComplex
cokernels
cokernels
colimits
Colimits
Colimits
CommaCategories
commrigs
commrings
Complexes
CompositesAndInverses
Composition
Compositor
ComprehensionC
ComputationalM
cones
Constant
ConstructionOfActions
Constructions
ConstructiveStructures
ContravariantFunctor
coproducts
Core
Core
Core
Core
Core
Core
Core
Core
Core
Core
CorestrictImage
coslicecat
covyoneda
CurryingInBicatOfCats
CwF

D

Dcpo
DecidableDedekindCuts
DecidablePropositions
DecSet
DedekindCuts
Derivative
DirectSum
Discreteness
DispAdjunctions
DispBiadjunction
DispBicat
DispBicatOfDispCats
DispBiequivalence
DispBuilders
DispDepProd
DispInvertibles
DisplayedCatToBicat
DisplayedInserter
DisplayedMonoidal
Displayed2Inserter
DispModification
DispPseudofunctor
DispToFiberEquivalence
DispTransformation
DispUnivalence
DivisionRig
Domain
DomainCleaving
Domains_and_Fields
DoubleNegation

E

Elements
ElementsOp
elems_slice_equiv
EndofunctorsMonoidal
Enriched
EpiFacts
Epis
EqAlgebras
EqAlgebras
eqdiag
equalizers
equalizers
Equations
Equivalences
Equivalences
Equivalences_bis
Equivalence_Relations
EquivToAdjequiv
EssentiallyAlgebraic
ExactCategories
Examples
Examples
Examples
exponentials
ExponentiationLeftAdjoint

F

FiberBicategory
FiberBicategory1
FiberBicategory2
FiberCategory
Fibered
Fibration
FibrationCleaving
Fibrations
Fields
Filters
Final
Final
FiniteSequences
FiniteSets
FinOrdCoproducts
FinOrdProducts
FinSet
FiveLemma
FixedPointTheorems
flds
folds_precat
folds_pre_2_cat
folds_isomorphism
fps
frac
FreeAlgebras
Free_Monoids_and_Groups
FromBindingSigsToMonads_Summary
from_precats_to_folds_and_back
Full
FullSub
FullyFaithful
FullyFaithful
FunctorAlgebras
FunctorCategory
FunctorCategory
FunctorCoalgebras
Functors

G

GenMendlerIteration
GenMendlerIteration_alt
GirardsParadox
Graph
Graph
GraphPaths
GrothendieckGroup
GrothendieckTopos
Group
GroupAction
Groupoids
Groupoids
Groups
Groups_Tactics
grs

H

Halfline
hcomp_bicat
HLevels
HorizontalComposition
HVectors

I

Ideals
Identitor
Identity
Image
ImpredicativeInductiveSets
Init
Initial
Initial
initial
initial
intdoms
Integers
internal_equivalence
Interval
Invertible_2cells
IsoCommaCategory
Isos
IteratedBinaryOperations

K

KA
KAPreTriangulated
KATriangulated
kernels
kernels
Kleisli
KleisliCategory
KleisliTriple
KTriples
KTriplesEquiv

L

Lam
LambdaCalculus
LamFromBindingSig
LamHSET
LamSignature
Lattice
LatticeObject
lemmas
LiftingInitial
LiftingInitial_alt
limits
limits
Limits
Limits
Limits
Limits
Limits
ListDataType
Lists
Lists
LModules
LocalizingClass

M

MappingCone
MappingCylinder
Map1Cells
Map2Cells
Matrix
Maybe
MetricTree
MLTT79
Modification
Modules
modules
ModulesFromSignatures
MonadAlgebras
MonadicSubstitution_alt
MonadKtripleBiequiv
Monads
Monads
MonadsFromSubstitutionSystems
MonadsMultiSorted
MonadsMultiSorted_alt
Monics
MonoEpiIso
MonoEpiIso
Monoid
MonoidalCategories
MonoidalFromBicategory
MonoidalFunctors
monoids
Monoids
Monoids_Tactics
MoreEquivalences
MoreLists
Morphisms
Multimodules
MultiSorted
MultiSorted_alt

N

Nat
Nat
NaturalNumbers
NaturalNumbersAlgebra
NaturalNumbers_le_Inductive
Naturals
NaturalTransformations
Nat_Tactics
NegativePropositions
NNO
NoInjectivePairing
NonnegativeRationals
NonnegativeReals
Notation
Notations
Notations
NullHomotopies

O

OmegaCocontFunctors
OneTypes
OpCellBicat
OpFunctor
OpMorBicat
Opp
opp_precat
OrderedSets

P

padics
PartA
PartA
PartB
PartC
PartD
PartD
PathGroupoid
PathsOver
PCF_alt
PointedFunctors
PointedFunctorsComposition
PointedFunctorsMonoidal
PointedGroupoid
PointedOneTypes
PointedOneTypesBicat
PolynomialFunctors
PreAdditive
Preamble
prebicategory
Precategories
PrecategoriesWithAbgrops
PrecategoryBinProduct
precomp_ess_surj
precomp_fully_faithful
Prelim
Prelim
Prelude
preorder_categories
Presheaf
Prod
ProductCategory
Products
products
Projection
Projection
PropositionalLogic
Propositions
Propositions
PseudoElements
PseudoFunctor
PseudoFunctorBicat
PseudofunctorFromMonoidal
PseudoFunctorLimits
PseudoTransformation
Pullback
pullbacks
pullbacks
pullbacks_slice_products_equiv
pushouts
pushouts

Q

Quotient
QuotientSet
Quotobjects

R

RationalNumbers
RawMatrix
Reals
Reflective
Reindexing
RelativeModules
RelativeMonads
RelMonads_Coreflection
Representable
Representation
Restriction
rezk_completion
RightKanExtension
rigs
RigsAndRings
rings

S

Setcategories
Sets
Sets
Sets
SetValuedFunctors
setwith2binops
SheavesOfRings
ShortExactSequences
Sigma
SignatureCategory
SignatureExamples
Signatures
Signatures
SimplicialSets
SIP
SkewMonoidalCategories
Slice
slicecat
SliceFamEquiv
SortedTypes
Spec
SplitMonicsAndEpis
StandardCategories
StandardFiniteSets
STLC
STLC_alt
StrictCats
StrictCompositor
StrictIdentitor
Strictify
Strictness
StrictPseudoFunctor
StrictPseudoFunctorBicat
StrictToPseudo
StructureIdentity
Structures
Structures
Submodule
SubobjectClassifier
Subobjects
Subposets
SubstitutionSystems
SubstitutionSystems_Summary
Subtypes
Sub1Cell
SumOfSignatures

T

Tactics
TermAlgebras
terminal
terminal
Terms
Test
Test
Test
Tests
Tests
Tests
Tests
Tests
Tests
Topology
Topology
TranslationFunctors
TransportLaws
TransportMorphisms
Trees
Triangulated
Trivial
TrivialCleaving
TwoCategories
TwoType

U

UnderCategories
UnicodeNotations
Uniqueness
Uniqueness
UnitalBinop
Unitality
Unitality
Unitors
UnitorsAndAssociatorsForEndofunctors
Univalence
Univalence
Univalence
Univalence
Univalence
UnivalenceAxiom
UnivalenceAxiom2
UnivalenceOp
Universal
Utilities

V

Vectors
VectorsTests
VTerms

W

WeakEquivalences
WellFoundedRelations
WellOrderedSets
Whiskering
whiskering
whiskering
wosets

Y

yoneda
Yoneda
YonedaBinproducts
YonedaLemma

Z

zero
zero
ZFstructures
z_mod_p

---

Lemma Index

A

A [in UniMath.SyntheticHomotopyTheory.AffineLine]
aaminuszero [in UniMath.PAdics.lemmas]
Abeliain_precategory_homset_comm' [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_assoc [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_assoc_eq3 [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_assoc_eq2 [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_assoc_eq1 [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_inv_right [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_inv_minus [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_comm [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_zero_left [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_inv_left [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_inv_left' [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_zero_right [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_zero_right' [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_op_eq3 [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_op_eq2 [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_op_eq1 [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPullbackEpiisPushout1 [in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPullbackEpiisPushout1_eq [in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPullbackEpiisPushout2 [in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPullbackEpi1 [in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPullbackEpi2 [in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPushoutMonicisPullback_eq [in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPushoutMonicisPullback1 [in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPushoutMonicisPullback2 [in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPushoutMonic1 [in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianPushoutMonic2 [in UniMath.CategoryTheory.AbelianPushoutPullback]
AbelianToisPreAdditive [in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_op_eq [in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_op_eq_IdZero [in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_DiagonalMap_eq [in UniMath.CategoryTheory.AbelianToAdditive]
abgrdiffinvcomp [in UniMath.Algebra.Groups]
abgrdiffisinv [in UniMath.Algebra.Groups]
abgrdiffrelimpl [in UniMath.Algebra.Groups]
abgrdiffrellogeq [in UniMath.Algebra.Groups]
abgrfunfromunit_ismonoidfun [in UniMath.Algebra.Groups]
abgrfuntounit_ismonoidfun [in UniMath.Algebra.Groups]
abgrquotpr_rel_image [in UniMath.CategoryTheory.PreAdditive]
abgrquotpr_rel_paths [in UniMath.CategoryTheory.PreAdditive]
abgrquotpr_rel_to_refl [in UniMath.CategoryTheory.PreAdditive]
abgrquotpr_rels_to_unel [in UniMath.CategoryTheory.PreAdditive]
abgrquotpr_ismonoidfun [in UniMath.CategoryTheory.PreAdditive]
abgrshomabgr_isabgrop [in UniMath.Algebra.Groups]
abgr_isKernel_Criteria_uniqueness [in UniMath.CategoryTheory.categories.abgrs]
abgr_isKernel_Criteria_comm [in UniMath.CategoryTheory.categories.abgrs]
abgr_isKernel_Criteria_ismonoidfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive_premor_postmor_is_iso [in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive_premor_postmor_is_iso_inverses [in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive_is_iso_postmor [in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive_is_iso_postmor_inverses [in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive_is_iso_premor [in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive_is_iso_premor_inverses [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_isCokernel_uniqueness [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_isCokernel_comm [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_ismonoidfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_CokernelOut_iscontr [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_data_hfiber_eq [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_data_hfibers_to_unel [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_data_eq [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_comp [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_Kernel_isKernel_comm [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_hfiber_unel_eq [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_hfiber_mult_eq [in UniMath.CategoryTheory.categories.abgrs]
abgr_monoidfun_postcomp [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_paths [in UniMath.CategoryTheory.categories.abgrs]
abgr_monoidfun_precomp [in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernels [in UniMath.CategoryTheory.categories.abgrs]
abgr_isCokernel_uniquenss [in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelOut_Comm [in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_monoidfun_issurjective [in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelArrow_ismonoidfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernels [in UniMath.CategoryTheory.categories.abgrs]
abgr_KernelArrowIn_ismonoidfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_KernelArrowIn_map_property [in UniMath.CategoryTheory.categories.abgrs]
abgr_isBinDirectSum [in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumId [in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumUnel2 [in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumUnel1 [in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumIdIn2 [in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumIdIn1 [in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumIn2_ismonoidfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumIn1_ismonoidfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumPr2_ismonoidfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumPr1_ismonoidfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_Zero_arrow_comp [in UniMath.CategoryTheory.categories.abgrs]
abgr_Zero_to_comp [in UniMath.CategoryTheory.categories.abgrs]
abgr_Zero_from_comp [in UniMath.CategoryTheory.categories.abgrs]
abgr_Zero_comp [in UniMath.CategoryTheory.categories.abgrs]
abgr_equiv_iso_is_equiv [in UniMath.CategoryTheory.categories.abgrs]
abgr_iso_equiv_is_equiv [in UniMath.CategoryTheory.categories.abgrs]
abgr_equiv_is_iso [in UniMath.CategoryTheory.categories.abgrs]
abgr_iso_equiv [in UniMath.CategoryTheory.categories.abgrs]
abgr_iso_is_equiv [in UniMath.CategoryTheory.categories.abgrs]
abgr_univalence_isweq [in UniMath.Algebra.Groups]
abgr_truncminus [in UniMath.Algebra.Lattice]
abgr_natnat_hz_X_comm [in UniMath.NumberSystems.Integers]
abmonoidfracrelimpl [in UniMath.Algebra.Monoids]
abmonoidfracrellogeq [in UniMath.Algebra.Monoids]
abmonoidfunfromunit_ismonoidfun [in UniMath.Algebra.Monoids]
abmonoidfuntounit_ismonoidfun [in UniMath.Algebra.Monoids]
abmonoidoprer [in UniMath.Algebra.BinaryOperations]
abmonoidsbinop_lunax [in UniMath.Algebra.Monoids]
abmonoidsbinop_runax [in UniMath.Algebra.Monoids]
abmonoidshomabmonoid_isabmonoid [in UniMath.Algebra.Monoids]
abmonoidshomabmonoid_ismonoidop [in UniMath.Algebra.Monoids]
abmonoidshombinop_comm [in UniMath.Algebra.Monoids]
abmonoidshombinop_assoc [in UniMath.Algebra.Monoids]
abmonoidshombinop_ismonoidfun [in UniMath.Algebra.Monoids]
abmonoid_univalence_isweq [in UniMath.Algebra.Monoids]
abmonoid_equiv_iso_is_equiv [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_iso_equiv_is_equiv [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_equiv_iso [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_equiv_is_iso [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_iso_equiv [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_iso_is_equiv [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_assoc [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_id_right [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_id_left [in UniMath.CategoryTheory.categories.abmonoids]
Abs_θ_strength2_int [in UniMath.SubstitutionSystems.LamSignature]
Abs_θ_strength1_int [in UniMath.SubstitutionSystems.LamSignature]
ab_strength_mor_from_signature_mor_diagram [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_mor_from_signature_mor_is_nat_trans [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
accth [in UniMath.Combinatorics.StandardFiniteSets]
actfromprecomp_odot_pointwise_ok [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
ActionBasedStrongFunctorCategoryToSignatureCategory_is_functor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
actionbased_strength_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq_variant2variant1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq_variant1variant2 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq_fromvariant1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq_tovariant1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_codom_ok [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_dom_ok [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ActionIso_isaset [in UniMath.Algebra.GroupAction]
actions_has_disp_cellset [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_prebicat_laws [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_prebicat_ops [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_2cells_isaprop [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
action_from_precomp_laws [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
action_pentagon_eq_from_alt [in UniMath.CategoryTheory.Monoidal.Actions]
action_triangle_eq_from_alt [in UniMath.CategoryTheory.Monoidal.Actions]
AcyclicComplexFromObject_diff [in UniMath.HomologicalAlgebra.Complexes]
AC_iff_ADC_and_LEM [in UniMath.MoreFoundations.AxiomOfChoice]
AC_to_LEM [in UniMath.MoreFoundations.AxiomOfChoice]
AC_impl2 [in UniMath.MoreFoundations.AxiomOfChoice]
AC_to_choice_fun [in UniMath.Combinatorics.WellOrderedSets]
AddEquivCounitMorComm [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitUnit [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitUnit' [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitCounit [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitCounit' [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitMorComm [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquiv1Inj [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquiv2Inj [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveCoequalizerToCokernel_isCokernel [in UniMath.CategoryTheory.Additive]
AdditiveCoequalizerToCokernel_eq1 [in UniMath.CategoryTheory.Additive]
AdditiveCokernelToCoequalizer_isCoequalizer [in UniMath.CategoryTheory.Additive]
AdditiveCokernelToCoequalizer_eq1 [in UniMath.CategoryTheory.Additive]
AdditiveEqualizerToKernel_isKernel [in UniMath.CategoryTheory.Additive]
AdditiveEqualizerToKernel_eq1 [in UniMath.CategoryTheory.Additive]
AdditiveExactnessProperties [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdditiveFunctorInv [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorLinear [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums_id [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums_unit2 [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums_unit1 [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums_idin2 [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums_idin1 [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorPreservesBinDirectSums_zero [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorUnel [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorZeroArrow [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveKernelToEqualizer_isEqualizer [in UniMath.CategoryTheory.Additive]
AdditiveKernelToEqualizer_eq1 [in UniMath.CategoryTheory.Additive]
AdditiveZeroArrow_premor_Abelian [in UniMath.CategoryTheory.categories.abgrs]
AdditiveZeroArrow_postmor_Abelian [in UniMath.CategoryTheory.categories.abgrs]
additive_exact_opposite [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
add_functor_sub [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
add_functor_zero [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
add_functor_add [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
add_functor_comp [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
adjequiv_base_adjequiv_tot [in UniMath.Bicategories.DisplayedBicats.DispBicat]
adjointification_forms_equivalence [in UniMath.CategoryTheory.Equivalences.Core]
adjoint_equivalence_total_disp_weq [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
adjoint_equivalence_is_precategory [in UniMath.Bicategories.Core.Univalence]
adjoint_equivalence_rinv [in UniMath.Bicategories.Core.Univalence]
adjoint_equivalence_linv [in UniMath.Bicategories.Core.Univalence]
adjoint_equivalence_assoc [in UniMath.Bicategories.Core.Univalence]
adjoint_equivalence_rid [in UniMath.Bicategories.Core.Univalence]
adjoint_equivalence_lid [in UniMath.Bicategories.Core.Univalence]
adjunction_total_disp_weq [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
adjunction_homsetiso_weq [in UniMath.CategoryTheory.Adjunctions.Core]
adjuncts_mutually_inverse2 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
adjuncts_mutually_inverse1 [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
adj_after_nathomweq [in UniMath.CategoryTheory.Adjunctions.Core]
adj_equiv_of_cats_is_weq_of_objects [in UniMath.CategoryTheory.Equivalences.Core]
AdmEpiFromComposite [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmMonoEnlargement [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmMonoFromComposite [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ad_is_algebra_mor [in UniMath.CategoryTheory.Chains.Adamek]
affine_line_path [in UniMath.SyntheticHomotopyTheory.AffineLine]
afldfracapartiscomprel [in UniMath.PAdics.frac]
afldfracisafld [in UniMath.PAdics.frac]
afldinvertibletoazero [in UniMath.PAdics.lemmas]
AiM_chain_eq [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
algebra_mor_commutes [in UniMath.CategoryTheory.FunctorAlgebras]
alternative_inv_to_relmonadmor_iso_is_inv [in UniMath.CategoryTheory.Monads.RelativeMonads]
AltList.foldr_cons [in UniMath.CategoryTheory.Inductives.Lists]
AltList.foldr_nil [in UniMath.CategoryTheory.Inductives.Lists]
AltList.isalghom_pr1foldr [in UniMath.CategoryTheory.Inductives.Lists]
AltList.length_map [in UniMath.CategoryTheory.Inductives.Lists]
AltList.listFunctor_Initial [in UniMath.CategoryTheory.Inductives.Lists]
AltList.listInd [in UniMath.CategoryTheory.Inductives.Lists]
AltList.listIndProp [in UniMath.CategoryTheory.Inductives.Lists]
AltList.omega_cocont_listFunctor [in UniMath.CategoryTheory.Inductives.Lists]
AltList.omega_cocontConstCoprodFunctor [in UniMath.CategoryTheory.Inductives.Lists]
AltList.omega_cocontConstProdFunctor [in UniMath.CategoryTheory.Inductives.Lists]
AltList.pr1foldr_algmor_identity [in UniMath.CategoryTheory.Inductives.Lists]
aminuszeroa [in UniMath.PAdics.lemmas]
antisymm_po_category_isweq [in UniMath.CategoryTheory.categories.preorder_categories]
antisymm_po_category_isoiseq [in UniMath.CategoryTheory.categories.preorder_categories]
apartbinarysum0 [in UniMath.PAdics.fps]
apartdecintdom0 [in UniMath.PAdics.fps]
apartdectoisaintdomfps [in UniMath.PAdics.fps]
apartnatsummation0 [in UniMath.PAdics.fps]
apart_implies_ne [in UniMath.Combinatorics.OrderedSets]
apart_isirrefl [in UniMath.Combinatorics.OrderedSets]
apathpr1toprUAH [in UniMath.Foundations.UnivalenceAxiom]
apCCDRmult [in UniMath.Algebra.ConstructiveStructures]
apCCDRplus [in UniMath.Algebra.ConstructiveStructures]
apCDRmult [in UniMath.Algebra.ConstructiveStructures]
apCDRplus [in UniMath.Algebra.ConstructiveStructures]
apCFmult [in UniMath.Algebra.ConstructiveStructures]
apCFplus [in UniMath.Algebra.ConstructiveStructures]
appendStep [in UniMath.Combinatorics.Lists]
append_concatenate [in UniMath.Combinatorics.Lists]
append_length [in UniMath.Combinatorics.FiniteSequences]
append_and_drop_fun [in UniMath.Combinatorics.FiniteSequences]
applyFunctorToIsZero [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
App_θ_strength2_int [in UniMath.SubstitutionSystems.LamSignature]
App_θ_strength1_int [in UniMath.SubstitutionSystems.LamSignature]
apRmult [in UniMath.RealNumbers.Reals]
apRplus [in UniMath.RealNumbers.Reals]
ap_ltNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
are_inverses_from_Coequalizer_to_Coequalizer [in UniMath.CategoryTheory.limits.graphs.coequalizers]
are_inverses_from_Pushout_to_Pushout [in UniMath.CategoryTheory.limits.graphs.pushouts]
are_inverses_from_Pushout_to_Pushout [in UniMath.CategoryTheory.limits.pushouts]
are_inverses_from_Equalizer_to_Equalizer [in UniMath.CategoryTheory.limits.graphs.equalizers]
are_inverse_comp_of_inverses [in UniMath.CategoryTheory.Core.Isos]
are_inverses_from_Kernel_to_Kernel [in UniMath.CategoryTheory.limits.kernels]
are_inverses_from_Cokernel_to_Cokernel [in UniMath.CategoryTheory.limits.cokernels]
are_inverses_from_Equalizer_to_Equalizer [in UniMath.CategoryTheory.limits.equalizers]
are_adjoints_slicecat_functor_base_change [in UniMath.CategoryTheory.slicecat]
are_isomorphic_monorel [in UniMath.CategoryTheory.Subobjects]
are_adjoints_functor_composite [in UniMath.CategoryTheory.Adjunctions.Core]
are_adjoints_restricted_adjunction [in UniMath.CategoryTheory.Adjunctions.Restriction]
are_inverses_from_Pullback_to_Pullback [in UniMath.CategoryTheory.limits.graphs.pullbacks]
are_inverses_from_Pullback_to_Pullback [in UniMath.CategoryTheory.limits.pullbacks]
are_conjugates_is_are_conjugates' [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
are_adjoint_functor_cat_swap [in UniMath.CategoryTheory.Adjunctions.Examples]
are_inverses_from_Coequalizer_to_Coequalizer [in UniMath.CategoryTheory.limits.coequalizers]
are_adjoints_constprod_functor2 [in UniMath.CategoryTheory.categories.HSET.Structures]
ArrowsFromInitial [in UniMath.CategoryTheory.limits.graphs.initial]
ArrowsFromZero [in UniMath.CategoryTheory.limits.zero]
ArrowsFromZero [in UniMath.CategoryTheory.limits.graphs.zero]
ArrowsToTerminal [in UniMath.CategoryTheory.limits.graphs.terminal]
ArrowsToZero [in UniMath.CategoryTheory.limits.zero]
ArrowsToZero [in UniMath.CategoryTheory.limits.graphs.zero]
arrow_axioms [in UniMath.CategoryTheory.DisplayedCats.Examples]
assembleSequence_ii2 [in UniMath.Combinatorics.FiniteSequences]
associativityNat [in UniMath.Algebra.IteratedBinaryOperations]
associativityOfProducts_seq [in UniMath.Algebra.IteratedBinaryOperations]
associativityOfProducts_list [in UniMath.Algebra.IteratedBinaryOperations]
associativityOfProducts' [in UniMath.Algebra.IteratedBinaryOperations]
associativity_pentagon [in UniMath.Bicategories.Core.Bicat]
associator_naturality [in UniMath.Bicategories.WkCatEnrichment.whiskering]
assoc_right_ok [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
assoc_left_ok [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
assoc_concatenate [in UniMath.Combinatorics.Lists]
assoc_seq_to_fun [in UniMath.Algebra.IteratedBinaryOperations]
assoc_fun_to_seq [in UniMath.Algebra.IteratedBinaryOperations]
assoc4 [in UniMath.CategoryTheory.Core.Categories]
auxH1 [in UniMath.SubstitutionSystems.Signatures]
auxH2aux [in UniMath.SubstitutionSystems.Signatures]
aux_iso_2_inv_is_nat_trans [in UniMath.SubstitutionSystems.LiftingInitial_alt]
aux_iso_1_inv_is_nat_trans [in UniMath.SubstitutionSystems.LiftingInitial_alt]
aux_iso_1_is_nat_trans [in UniMath.SubstitutionSystems.LiftingInitial_alt]
aux_iso_2_inv_is_nat_trans [in UniMath.SubstitutionSystems.LiftingInitial]
aux_iso_1_inv_is_nat_trans [in UniMath.SubstitutionSystems.LiftingInitial]
aux_iso_1_is_nat_trans [in UniMath.SubstitutionSystems.LiftingInitial]
aux0 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
auxμ_is_nat_trans [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
azerolmultcomp [in UniMath.PAdics.frac]
azerorelcomp [in UniMath.PAdics.frac]
azerormultcomp [in UniMath.PAdics.frac]

B

baseConnectedness [in UniMath.MoreFoundations.Propositions]
BaseOfFilter_notfalse [in UniMath.Topology.Filters]
BaseOfFilter_notempty [in UniMath.Topology.Filters]
BaseOfFilter_and [in UniMath.Topology.Filters]
BaseOfPreFilter_notempty [in UniMath.Topology.Filters]
BaseOfPreFilter_and [in UniMath.Topology.Filters]
BasePointComponent_isweq [in UniMath.MoreFoundations.Propositions]
BasePointComponent_isincl [in UniMath.MoreFoundations.Propositions]
BasePointComponent_isBaseConnected [in UniMath.MoreFoundations.Propositions]
base_paths_maponpaths_make_ob [in UniMath.CategoryTheory.ElementsOp]
base_default_2 [in UniMath.Topology.Topology]
base_default_1 [in UniMath.Topology.Topology]
base_category_univalent [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_category_iso_weq [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_paths_isotoid_CONE [in UniMath.CategoryTheory.limits.cones]
base_paths_pair_path_in2 [in UniMath.MoreFoundations.PartA]
base_finite_intersection [in UniMath.Topology.Filters]
base_total2_paths [in UniMath.Foundations.PartA]
base_paths [in UniMath.Foundations.PartA]
bcat_laws [in UniMath.Bicategories.BicatOfBicategory]
bc_whisker_r_id₂ [in UniMath.Bicategories.Core.Invertible_2cells]
bc_whisker_l_id₂ [in UniMath.Bicategories.Core.Invertible_2cells]
between_ltNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
bezoutstrong [in UniMath.PAdics.z_mod_p]
bicate_transfs [in UniMath.Bicategories.BicategoryOfBicat]
bicate_lassociator_fun_natural [in UniMath.Bicategories.BicategoryOfBicat]
bicat_of_strict_cats_is_strict_bicat [in UniMath.Bicategories.Core.Examples.StrictCats]
bifinal_unique_left_eqv [in UniMath.Bicategories.Colimits.Final]
bifunctor_assoc_repn [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
biggestUniqueness [in UniMath.Combinatorics.OrderedSets]
bigSet [in UniMath.Combinatorics.WellOrderedSets]
biinitial_unique_left_eqv [in UniMath.Bicategories.Colimits.Initial]
BinaryProductFunctorAssoc [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binaryProductMapUniqueness [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binaryProductToSums [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySumMapUniqueness [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySumsToProducts [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
BinCoprodSortToSet [in UniMath.SubstitutionSystems.CCS_alt]
BinCoprodSortToSet [in UniMath.SubstitutionSystems.STLC_alt]
BinCoprodSortToSet2 [in UniMath.SubstitutionSystems.STLC_alt]
BinCoprodTypeToSet [in UniMath.SubstitutionSystems.PCF_alt]
BinCoprodTypeToSet2 [in UniMath.SubstitutionSystems.PCF_alt]
BinCoproductArrowEta [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductArrowEta [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductArrowsEq [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductArrowUnique [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductArrowUnique [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductArrowZero [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductArrow_eq_cor [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn1Commutes [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn1Commutes [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductIn1CommutesHSET [in UniMath.CategoryTheory.categories.HSET.Colimits]
BinCoproductIn1Commutes_right_in_double_ctx_dir [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn1Commutes_left_in_ctx_dir [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn1Commutes_left_dir [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn1Commutes_right_in_ctx_dir [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn1Commutes_right_dir [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2Commutes [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2Commutes [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductIn2CommutesHSET [in UniMath.CategoryTheory.categories.HSET.Colimits]
BinCoproductIn2Commutes_right_in_double_ctx_dir [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2Commutes_left_in_ctx_dir [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2Commutes_left_dir [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2Commutes_right_in_ctx_dir [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2Commutes_right_dir [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductOfArrowsIn1 [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductOfArrowsIn1 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductOfArrowsIn2 [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductOfArrowsIn2 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductsHSET [in UniMath.CategoryTheory.categories.HSET.Colimits]
BinCoproductsHSET_from_Colims [in UniMath.CategoryTheory.categories.HSET.Colimits]
BinCoproductsSortToC [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
BinCoproducts_PreShv [in UniMath.CategoryTheory.Presheaf]
BinCoproducts_from_Colims [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts_slice_precat [in UniMath.CategoryTheory.slicecat]
BinCoproducts_HSET_slice [in UniMath.CategoryTheory.categories.HSET.Slice]
BinCoproducts_from_Colims [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproduct_of_functors_alt_eq_BinCoproduct_of_functors_alt2 [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_alt_eq_BinCoproduct_of_functors [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_alt2_eq_BinCoproduct_of_functors [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_endo_is_identity [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_endo_is_identity [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinDirectSumIndArComp [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIndArEq1 [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIndArEq2 [in UniMath.CategoryTheory.limits.BinDirectSums]
bind_bind [in UniMath.CategoryTheory.Monads.Monads]
bind_η [in UniMath.CategoryTheory.Monads.Monads]
bind_bind_slice_inst [in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_bind_slice [in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_η_slice_inst [in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_η_slice [in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_slice_ok [in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_bind_fun [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
bind_η_fun [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
bind_identity [in UniMath.CategoryTheory.Monads.KleisliCategory]
bind_comp_η [in UniMath.CategoryTheory.Monads.KleisliCategory]
bind_kt_monad_to_kleisli [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
bind_map [in UniMath.CategoryTheory.Monads.KTriples]
binopeqrel_subgr_eqrel [in UniMath.CategoryTheory.PreAdditive]
binophrelandfun [in UniMath.Algebra.BinaryOperations]
binop_equiv_iso_is_equiv [in UniMath.CategoryTheory.category_binops]
binop_iso_equiv_is_equiv [in UniMath.CategoryTheory.category_binops]
binop_equiv_iso [in UniMath.CategoryTheory.category_binops]
binop_equiv_is_iso [in UniMath.CategoryTheory.category_binops]
binop_iso_equiv [in UniMath.CategoryTheory.category_binops]
binop_iso_is_equiv [in UniMath.CategoryTheory.category_binops]
BinProd [in UniMath.SubstitutionSystems.CCS_alt]
BinProd [in UniMath.SubstitutionSystems.PCF_alt]
BinProd [in UniMath.SubstitutionSystems.STLC_alt]
BinProductArrowEta [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductArrowEta [in UniMath.CategoryTheory.limits.binproducts]
BinProductArrowsEq [in UniMath.CategoryTheory.limits.binproducts]
BinProductArrowUnique [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductArrowUnique [in UniMath.CategoryTheory.limits.binproducts]
BinProductArrowZero [in UniMath.CategoryTheory.limits.binproducts]
BinProductArrow_diagram [in UniMath.SubstitutionSystems.SignatureCategory]
BinProductOfArrowsPr1 [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductOfArrowsPr1 [in UniMath.CategoryTheory.limits.binproducts]
BinProductOfArrowsPr2 [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductOfArrowsPr2 [in UniMath.CategoryTheory.limits.binproducts]
BinProductPr1Commutes [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductPr1Commutes [in UniMath.CategoryTheory.limits.binproducts]
BinProductPr1_isEpi [in UniMath.CategoryTheory.AbelianToAdditive]
BinProductPr2Commutes [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductPr2Commutes [in UniMath.CategoryTheory.limits.binproducts]
BinProductPr2_isEpi [in UniMath.CategoryTheory.AbelianToAdditive]
BinProductsHSET [in UniMath.CategoryTheory.categories.HSET.Limits]
BinProductsHSET_from_Lims [in UniMath.CategoryTheory.categories.HSET.Limits]
BinProducts_PreShv [in UniMath.CategoryTheory.Presheaf]
BinProducts_HSET_over_sort2 [in UniMath.SubstitutionSystems.STLC]
BinProducts_HSET_slice [in UniMath.CategoryTheory.categories.HSET.Slice]
BinProducts_from_Lims [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProducts_Signature_category [in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts_from_Lims [in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_univ_prop [in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_Pr2Commutes [in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_Pr1Commutes [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_functors_alt_eq_BinProduct_of_functors [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_endo_is_identity [in UniMath.CategoryTheory.limits.binproducts]
binprod_comp [in UniMath.CategoryTheory.PrecategoryBinProduct]
binprod_id [in UniMath.CategoryTheory.PrecategoryBinProduct]
binprod_delta_comm [in UniMath.CategoryTheory.LatticeObject]
binprod_assoc_comm [in UniMath.CategoryTheory.LatticeObject]
binprod_to_pullback_inv [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
bin_coproducts_in_full_subcategory [in UniMath.CategoryTheory.Subcategory.Limits]
bin_products_in_full_subcategory [in UniMath.CategoryTheory.Subcategory.Limits]
bndexistsisdecnatprop [in UniMath.PAdics.lemmas]
boolnegtrueimplfalse [in UniMath.PAdics.lemmas]
Bourbaki_Witt_fixpoint [in UniMath.Algebra.FixedPointTheorems]
BP [in UniMath.SubstitutionSystems.STLC]
BP [in UniMath.SubstitutionSystems.CCS]
bracket_unique [in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_Thm15_ok_cor [in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_Thm15_ok [in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_Thm15_ok_part2 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_Thm15_ok_part1 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_for_LamE_algebra_on_Lam_unique [in UniMath.SubstitutionSystems.Lam]
bracket_property_for_LamE_algebra_on_Lam [in UniMath.SubstitutionSystems.Lam]
bracket_property_parts_identity_nicer_impl2 [in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_property_parts_identity_nicer_impl1 [in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_Thm15_ok_τ [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
bracket_Thm15_ok_η [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
bracket_Thm15_ok_cor [in UniMath.SubstitutionSystems.LiftingInitial]
bracket_Thm15_ok [in UniMath.SubstitutionSystems.LiftingInitial]
bracket_Thm15_ok_part2 [in UniMath.SubstitutionSystems.LiftingInitial]
bracket_Thm15_ok_part1 [in UniMath.SubstitutionSystems.LiftingInitial]
Branch_of_Branch_eq_Branch [in UniMath.Combinatorics.ZFstructures]
Branch_to_subtype [in UniMath.Combinatorics.ZFstructures]
but_seriously_the_world_explodes [in UniMath.Paradoxes.GirardsParadox]

C

cancel_φ [in UniMath.SubstitutionSystems.GenMendlerIteration]
cancel_precomposition_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
cancel_postcomposition_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
cancel_z_iso' [in UniMath.CategoryTheory.Core.Isos]
cancel_z_iso [in UniMath.CategoryTheory.Core.Isos]
cancel_postcomposition_iso [in UniMath.CategoryTheory.Core.Isos]
cancel_precomposition_iso [in UniMath.CategoryTheory.Core.Isos]
cancel_whisker_left [in UniMath.Bicategories.WkCatEnrichment.whiskering]
cancel_inv [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
cancel_precomposition [in UniMath.CategoryTheory.Core.Categories]
cancel_postcomposition [in UniMath.CategoryTheory.Core.Categories]
carriers_eq [in UniMath.Induction.M.ComputationalM]
carriers_weq [in UniMath.Induction.M.ComputationalM]
carrier_Pullback [in UniMath.CategoryTheory.categories.HSET.Structures]
carryandcarryequiv [in UniMath.PAdics.padics]
carryandone [in UniMath.PAdics.padics]
carryandplus [in UniMath.PAdics.padics]
carryandremainder [in UniMath.PAdics.padics]
carryandtimes [in UniMath.PAdics.padics]
carryandtimesl [in UniMath.PAdics.padics]
carryandtimesr [in UniMath.PAdics.padics]
carryandzero [in UniMath.PAdics.padics]
carryequiviseqrel [in UniMath.PAdics.padics]
cartesian_1cell_lift_inv₂ [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_1cell_lift_inv₁ [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_functor_from_cleaving [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
cartesian_functor_from_fibration [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
castTorsor_transportf [in UniMath.Algebra.GroupAction]
category_eq [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
catiso_to_precategory_path [in UniMath.CategoryTheory.catiso]
catiso_to_precategory_data_path [in UniMath.CategoryTheory.catiso]
catiso_to_precategory_comp_path [in UniMath.CategoryTheory.catiso]
catiso_to_precategory_id_path [in UniMath.CategoryTheory.catiso]
catiso_to_precategory_mor_path_funext [in UniMath.CategoryTheory.catiso]
catiso_to_precategory_mor_path [in UniMath.CategoryTheory.catiso]
catiso_fully_faithful_path [in UniMath.CategoryTheory.catiso]
cats_LimsHSET_of_shape [in UniMath.CategoryTheory.categories.HSET.Limits]
cats_LimsHSET [in UniMath.CategoryTheory.categories.HSET.Limits]
cats_LimConeHSET [in UniMath.CategoryTheory.categories.HSET.Limits]
cat_of_elems_on_nat_trans_is_functor [in UniMath.CategoryTheory.Elements]
cat_of_elems_mor_eq [in UniMath.CategoryTheory.Elements]
cat_of_elems_on_nat_trans_is_functor [in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_mor_eq [in UniMath.CategoryTheory.ElementsOp]
cat_not_a_two_cat [in UniMath.Bicategories.Core.Strictness]
cat_monad_bind_bind [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_monad_unit_bind [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_monad_bind_unit [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_prebicat_laws [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
cat_prebicat_nouniv_laws [in UniMath.Bicategories.Core.Examples.BicatOfCats]
Cauchy_seq_impl_ex_lim_seq [in UniMath.RealNumbers.Reals]
Cauchy_seq_pr2 [in UniMath.RealNumbers.Reals]
Cauchy_seq_pr1 [in UniMath.RealNumbers.Reals]
ccAiM_K_subproof [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CCDRmultapCCDRzero [in UniMath.Algebra.ConstructiveStructures]
CCDRmult_apcompat_r' [in UniMath.Algebra.ConstructiveStructures]
CCDRmult_apcompat_r [in UniMath.Algebra.ConstructiveStructures]
CCDRmult_apcompat_l' [in UniMath.Algebra.ConstructiveStructures]
CCDRmult_apcompat_l [in UniMath.Algebra.ConstructiveStructures]
CCDRplus_apcompat_r [in UniMath.Algebra.ConstructiveStructures]
CCDRplus_apcompat_l [in UniMath.Algebra.ConstructiveStructures]
CCS_Functor_Initial [in UniMath.SubstitutionSystems.CCS_alt]
CCS_Functor_Initial [in UniMath.SubstitutionSystems.CCS]
CDRmultapCDRzero [in UniMath.Algebra.ConstructiveStructures]
CDRmult_apcompat_r' [in UniMath.Algebra.ConstructiveStructures]
CDRmult_apcompat_r [in UniMath.Algebra.ConstructiveStructures]
CDRmult_apcompat_l' [in UniMath.Algebra.ConstructiveStructures]
CDRmult_apcompat_l [in UniMath.Algebra.ConstructiveStructures]
CDRplus_apcompat_r [in UniMath.Algebra.ConstructiveStructures]
CDRplus_apcompat_l [in UniMath.Algebra.ConstructiveStructures]
cellset_final_prebicat [in UniMath.Bicategories.Core.Examples.Final]
cell_from_invertible_2cell_eq [in UniMath.Bicategories.Core.Bicat]
cell_transportf_to_b [in UniMath.Bicategories.DisplayedBicats.DispBicat]
cell_transportb_to_f [in UniMath.Bicategories.DisplayedBicats.DispBicat]
cell_transportf_pathsinv0 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
centralfiber [in UniMath.Foundations.PartA]
CFmultapCFzero [in UniMath.Algebra.ConstructiveStructures]
CFmult_apcompat_r' [in UniMath.Algebra.ConstructiveStructures]
CFmult_apcompat_r [in UniMath.Algebra.ConstructiveStructures]
CFmult_apcompat_l' [in UniMath.Algebra.ConstructiveStructures]
CFmult_apcompat_l [in UniMath.Algebra.ConstructiveStructures]
CFplus_apcompat_r [in UniMath.Algebra.ConstructiveStructures]
CFplus_apcompat_l [in UniMath.Algebra.ConstructiveStructures]
chaintrans [in UniMath.Combinatorics.WellFoundedRelations]
chain_mor_left [in UniMath.CategoryTheory.Chains.Chains]
chain_mor_right [in UniMath.CategoryTheory.Chains.Chains]
chain_mor_coconeIn [in UniMath.CategoryTheory.Chains.Chains]
chain_union_le [in UniMath.Combinatorics.WellOrderedSets]
chain_union_WOSubset [in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_hasSmallest [in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_initial [in UniMath.Combinatorics.WellOrderedSets]
chain_union_tosub_le [in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_isTotalOrder [in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_istotal [in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_isantisymm [in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_isrefl [in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_istrans [in UniMath.Combinatorics.WellOrderedSets]
chain_union_prelim_eq0 [in UniMath.Combinatorics.WellOrderedSets]
chaotic_prebicat_laws [in UniMath.Bicategories.Core.Bicat]
check1 [in UniMath.MoreFoundations.Equivalences]
check2 [in UniMath.MoreFoundations.Equivalences]
check3 [in UniMath.MoreFoundations.Equivalences]
check4 [in UniMath.MoreFoundations.Equivalences]
CircleInductionEquiv [in UniMath.SyntheticHomotopyTheory.Circle2]
CircleInductionToRecursion' [in UniMath.SyntheticHomotopyTheory.Circle2]
CircleInduction_isaprop [in UniMath.SyntheticHomotopyTheory.Circle2]
CircleRecursionEquiv [in UniMath.SyntheticHomotopyTheory.Circle2]
circle_map_uniqueness [in UniMath.SyntheticHomotopyTheory.Circle]
circle_map_check_paths' [in UniMath.SyntheticHomotopyTheory.Circle]
circle_induction [in UniMath.SyntheticHomotopyTheory.Circle2]
Circle_isaprop [in UniMath.SyntheticHomotopyTheory.Circle2]
coalgebras_eq [in UniMath.Induction.M.ComputationalM]
coalgebra_homo_commutes [in UniMath.CategoryTheory.FunctorCoalgebras]
CoAlg_is_precategory [in UniMath.CategoryTheory.FunctorCoalgebras]
cochain_limit_standard_limit_weq [in UniMath.Induction.M.Chains]
cochain_dmor_paths_type [in UniMath.Induction.M.Chains]
cochain_dmor_paths [in UniMath.Induction.M.Chains]
cochain_limit_is_limit [in UniMath.Induction.M.Limits]
coconeInCommutes [in UniMath.CategoryTheory.limits.graphs.colimits]
Cocone_postcompose [in UniMath.CategoryTheory.limits.graphs.colimits]
coconusfromt_isProofIrrelevant [in UniMath.Foundations.PartA]
coconustot_isProofIrrelevant [in UniMath.Foundations.PartA]
cod_disp_axioms [in UniMath.CategoryTheory.DisplayedCats.Codomain]
CoequalizerArrowComm [in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerArrowEpi [in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerArrowisEpi [in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerCokernel_isCokernel [in UniMath.CategoryTheory.limits.cokernels]
CoequalizerCokernel_eq [in UniMath.CategoryTheory.limits.cokernels]
CoequalizerCommutes [in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerEndo_is_identity [in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerEndo_is_identity [in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerOfArrowsEq [in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerOutComp [in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerOutsEq [in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerOutUnique [in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizers [in UniMath.CategoryTheory.Abelian]
Coequalizers_from_Colims [in UniMath.CategoryTheory.limits.graphs.coequalizers]
coevaluation_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
CohomologyComplexIso_is_iso [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_is_iso_i [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor_comm [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_CokernelArrow [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_isCokernel [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_isCokernel_Eq [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_KernelArrow [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_isKernel [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_isKernel_Eq [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_mor_eq2 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_mor_eq1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_isEpi [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_isMonic [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_CokerKerIso_eq2 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_CokerKerIso_eq1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_KerCokerIso_eq2 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_KerCokerIso_eq1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_eq2' [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_eq2 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_eq1' [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_eq1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplex_KernelIn_eq [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplex_KernelIn_eq' [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHCommutes [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHImEquality [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHomotopies [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHomotopy [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHomotopy_eq1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_isAdditive [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Additive_linear [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Additive_zero [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_isfunctor [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Mor_Comp [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Mor_Id [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Mor_eq [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctor_isAdditive [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctor_assoc [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctor_id [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyMorphism_Mor_comm [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyMorphism_Ker_Coker_Zero [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyMorphism_KernelIn_comm [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomolohyMorphism_Ker_comm [in UniMath.HomologicalAlgebra.CohomologyComplex]
CoImage_Eq [in UniMath.CategoryTheory.ShortExactSequences]
CoIm_to_Im_is_iso [in UniMath.CategoryTheory.Abelian]
CoIm_ar_eq [in UniMath.CategoryTheory.Abelian]
CokernelArrowisEpi [in UniMath.CategoryTheory.limits.cokernels]
CokernelCoequalizer_isCokernel [in UniMath.CategoryTheory.limits.cokernels]
CokernelCoequalizer_eq [in UniMath.CategoryTheory.limits.cokernels]
CokernelComplex_comm [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelComplex_Cokernel_comm [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelEndo_is_identity [in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp_isCoequalizer [in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp_eq [in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp_eq2 [in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp_eq1 [in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp1 [in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp2 [in UniMath.CategoryTheory.limits.cokernels]
CokernelIsEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CokernelKernelCohomology1_id2 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_id1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_Mor2_comm1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_Mor1_comm1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_Mor1_eq1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_eq [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology2_inverses [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology2_comm2 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology2_comm1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism_uni [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism_comm2' [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism_comm1' [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism_comm3 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism_comm2 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism_comm1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelMorphism_eq' [in UniMath.HomologicalAlgebra.Complexes]
CokernelOfDiagonal_is_iso [in UniMath.CategoryTheory.AbelianToAdditive]
CokernelOfIdentity_isCokernel [in UniMath.CategoryTheory.limits.cokernels]
CokernelofZeroArrow_is_iso [in UniMath.CategoryTheory.limits.cokernels]
CokernelOfZeroArrow_isCokernel [in UniMath.CategoryTheory.limits.cokernels]
CokernelOfZeroMapIsIso [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CokernelOutComp [in UniMath.CategoryTheory.limits.cokernels]
CokernelOutOp [in UniMath.CategoryTheory.PreAdditive]
CokernelOutOp_Eq [in UniMath.CategoryTheory.PreAdditive]
CokernelOutPaths_is_iso [in UniMath.CategoryTheory.limits.cokernels]
CokernelOutsEq [in UniMath.CategoryTheory.limits.cokernels]
CokernelOutUnique [in UniMath.CategoryTheory.limits.cokernels]
CokernelPath_isCokernel [in UniMath.CategoryTheory.limits.cokernels]
CokernelPath_eq [in UniMath.CategoryTheory.limits.cokernels]
CokernelPlusIdentity [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CokernelSequence [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CokernelsOut_is_iso [in UniMath.CategoryTheory.limits.cokernels]
CokernelUniqueness [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CokernelZeroisEpi [in UniMath.CategoryTheory.Abelian]
Cokernel_up_to_iso_isCokernel [in UniMath.CategoryTheory.limits.cokernels]
Cokernel_up_to_iso_eq [in UniMath.CategoryTheory.limits.cokernels]
Cokernel_opp_isKernel [in UniMath.CategoryTheory.limits.Opp]
Cokernel_opp_eq [in UniMath.CategoryTheory.limits.Opp]
colimAlgIsInitial [in UniMath.CategoryTheory.Chains.Adamek]
colimAlgIsInitial_subproof [in UniMath.CategoryTheory.Chains.Adamek]
colimArrowCommutes [in UniMath.CategoryTheory.limits.graphs.colimits]
colimArrowEta [in UniMath.CategoryTheory.limits.graphs.colimits]
colimArrowUnique [in UniMath.CategoryTheory.limits.graphs.colimits]
colimArrowUnique' [in UniMath.CategoryTheory.limits.graphs.colimits]
ColimFunctorCocone [in UniMath.CategoryTheory.limits.graphs.colimits]
ColimFunctor_unique [in UniMath.CategoryTheory.limits.graphs.colimits]
colimInCommutes [in UniMath.CategoryTheory.limits.graphs.colimits]
colimOfArrowsIn [in UniMath.CategoryTheory.limits.graphs.colimits]
ColimsFunctorCategory [in UniMath.CategoryTheory.limits.graphs.colimits]
ColimsFunctorCategory_of_shape [in UniMath.CategoryTheory.limits.graphs.colimits]
ColimsHSET [in UniMath.CategoryTheory.categories.HSET.Colimits]
ColimsHSET_of_shape [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
ColimsHSET_of_shape [in UniMath.CategoryTheory.categories.HSET.Colimits]
Colims_PreShv_of_shape [in UniMath.CategoryTheory.Presheaf]
colimUnivProp [in UniMath.CategoryTheory.limits.graphs.colimits]
colim_endo_is_identity [in UniMath.CategoryTheory.limits.graphs.colimits]
combine_over_nat' [in UniMath.Induction.M.Chains]
combine_over_nat [in UniMath.Induction.M.Chains]
combine_over_nat_basic [in UniMath.Induction.M.Chains]
commax_hom [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
commonhzdivsignswap [in UniMath.PAdics.z_mod_p]
common_index3 [in UniMath.Combinatorics.WellOrderedSets]
common_index2 [in UniMath.Combinatorics.WellOrderedSets]
common_index [in UniMath.Combinatorics.WellOrderedSets]
commrigtocommringcomm2 [in UniMath.Algebra.RigsAndRings]
commrig_ideals' [in UniMath.Algebra.RigsAndRings.Ideals]
commrig_ideals [in UniMath.Algebra.RigsAndRings.Ideals]
commrig_equiv_iso_is_equiv [in UniMath.CategoryTheory.categories.commrigs]
commrig_iso_equiv_is_equiv [in UniMath.CategoryTheory.categories.commrigs]
commrig_equiv_iso [in UniMath.CategoryTheory.categories.commrigs]
commrig_equiv_is_iso [in UniMath.CategoryTheory.categories.commrigs]
commrig_iso_equiv [in UniMath.CategoryTheory.categories.commrigs]
commrig_iso_is_equiv [in UniMath.CategoryTheory.categories.commrigs]
commrig_assoc [in UniMath.CategoryTheory.categories.commrigs]
commrig_id_commright [in UniMath.CategoryTheory.categories.commrigs]
commrig_id_left [in UniMath.CategoryTheory.categories.commrigs]
commrig_univalence_isweq [in UniMath.Algebra.RigsAndRings]
commringaddinvunique [in UniMath.PAdics.lemmas]
commringfracassoc1 [in UniMath.Algebra.RigsAndRings]
commringfraccomm1 [in UniMath.Algebra.RigsAndRings]
commringfraccomm2 [in UniMath.Algebra.RigsAndRings]
commringfracinv1comp [in UniMath.Algebra.RigsAndRings]
commringfracisinv1 [in UniMath.Algebra.RigsAndRings]
commringfracldistr [in UniMath.Algebra.RigsAndRings]
commringfraclunit1 [in UniMath.Algebra.RigsAndRings]
commringfracl1 [in UniMath.Algebra.RigsAndRings]
commringfracl2 [in UniMath.Algebra.RigsAndRings]
commringfracop1comp [in UniMath.Algebra.RigsAndRings]
commringfracrdistr [in UniMath.Algebra.RigsAndRings]
commringfracrunit1 [in UniMath.Algebra.RigsAndRings]
commringismultcancelableif [in UniMath.Algebra.RigsAndRings]
commringquotprandop1 [in UniMath.PAdics.padics]
commringquotprandop2 [in UniMath.PAdics.padics]
commring_univalence_isweq [in UniMath.Algebra.RigsAndRings]
commring_equiv_iso_is_equiv [in UniMath.CategoryTheory.categories.commrings]
commring_iso_equiv_is_equiv [in UniMath.CategoryTheory.categories.commrings]
commring_equiv_iso [in UniMath.CategoryTheory.categories.commrings]
commring_equiv_is_iso [in UniMath.CategoryTheory.categories.commrings]
commring_iso_equiv [in UniMath.CategoryTheory.categories.commrings]
commring_iso_is_equiv [in UniMath.CategoryTheory.categories.commrings]
commring_assoc [in UniMath.CategoryTheory.categories.commrings]
commring_id_right [in UniMath.CategoryTheory.categories.commrings]
commring_id_left [in UniMath.CategoryTheory.categories.commrings]
commsqstrtocomplxstr [in UniMath.Foundations.PartA]
commutativityOfProducts [in UniMath.Algebra.IteratedBinaryOperations]
commutativityOfProducts_helper [in UniMath.Algebra.IteratedBinaryOperations]
comm_comm_eq_id [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
comm_comm_iso_id [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
CompIsHQIS [in UniMath.HomologicalAlgebra.CohomologyComplex]
CompIsQIS [in UniMath.HomologicalAlgebra.CohomologyComplex]
complementaryDecisions [in UniMath.MoreFoundations.DecidablePropositions]
ComplexEpiIndexEpi [in UniMath.HomologicalAlgebra.Complexes]
ComplexEpiIndexEpi_eq [in UniMath.HomologicalAlgebra.Complexes]
ComplexEpiIndexEpi' [in UniMath.HomologicalAlgebra.Complexes]
ComplexEq [in UniMath.HomologicalAlgebra.Complexes]
ComplexEq_transport_source [in UniMath.HomologicalAlgebra.TranslationFunctors]
ComplexEq_transport_target [in UniMath.HomologicalAlgebra.TranslationFunctors]
ComplexEq' [in UniMath.HomologicalAlgebra.Complexes]
ComplexEq'' [in UniMath.HomologicalAlgebra.Complexes]
ComplexFromObject_comm [in UniMath.HomologicalAlgebra.Complexes]
ComplexHomotComm2 [in UniMath.HomologicalAlgebra.KA]
ComplexHomotComm3 [in UniMath.HomologicalAlgebra.KA]
ComplexHomotComm4 [in UniMath.HomologicalAlgebra.KA]
ComplexHomotFunctor_im_to_homot [in UniMath.HomologicalAlgebra.KA]
ComplexHomotFunctor_mor_rel [in UniMath.HomologicalAlgebra.KA]
ComplexHomotFunctor_rel_mor' [in UniMath.HomologicalAlgebra.KA]
ComplexHomotFunctor_rel_mor [in UniMath.HomologicalAlgebra.KA]
ComplexHomotFunctor_issurj [in UniMath.HomologicalAlgebra.KA]
ComplexHomotisSubgrop [in UniMath.HomologicalAlgebra.KA]
ComplexHomotMorphism_comm [in UniMath.HomologicalAlgebra.KA]
ComplexHomotPostCompHomot [in UniMath.HomologicalAlgebra.KA]
ComplexHomotPreCompHomot [in UniMath.HomologicalAlgebra.KA]
ComplexHomotSubgrop_comp_right [in UniMath.HomologicalAlgebra.KA]
ComplexHomotSubgrop_comp_left [in UniMath.HomologicalAlgebra.KA]
ComplexHomot_Additive_Comp [in UniMath.HomologicalAlgebra.KA]
ComplexIsoIndexIso [in UniMath.HomologicalAlgebra.Complexes]
ComplexMonicIndexMonic [in UniMath.HomologicalAlgebra.Complexes]
ComplexMonicIndexMonic_eq [in UniMath.HomologicalAlgebra.Complexes]
ComplexMonicIndexMonic' [in UniMath.HomologicalAlgebra.Complexes]
ComplexMonicKernelInComm [in UniMath.HomologicalAlgebra.Complexes]
ComplexMonicKernelIn_Complex_Comm [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCatAbelianEpiCokernelsData_isCokernel [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCatCokernelOut_comm [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCatCokernelOut_comp [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Epi_Cokernel_Complex_comp [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Epi_Cokernel_Complex_comm [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Monic_Kernel_Complex_comp [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Monic_Kernel_Complex_comm [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernels_isCokernel [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernels_Comp [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernels_Eq [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_CokernelCompZero [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernel_comp [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernel_comm [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Kernels_isKernel [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_KernelIn_comp [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Kernels_comp [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Kernel_comp [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Kernel_moreq [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_ZeroArrow_ZeroMorphism [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_isBinDirectSum [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_isZero [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_PreAdditive [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_isPreAdditive [in UniMath.HomologicalAlgebra.Complexes]
complxstrtocommsqstr [in UniMath.Foundations.PartA]
compl_weq_compl_ne [in UniMath.MoreFoundations.NegativePropositions]
compl_ne_weq_compl [in UniMath.MoreFoundations.NegativePropositions]
composeActionIsoId [in UniMath.Algebra.GroupAction]
composeActionIsoId' [in UniMath.Algebra.GroupAction]
composeIdpathPathOver [in UniMath.MoreFoundations.PathsOver]
composePathOverPathRotate [in UniMath.MoreFoundations.PathsOver]
composePathPathOverPath [in UniMath.MoreFoundations.PathsOver]
composePathPathOverRotate [in UniMath.MoreFoundations.PathsOver]
ComposeSplitEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ComposeSplitMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
compose_SET [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
composition_of_maps [in UniMath.Bicategories.Core.AdjointUnique]
composition_of_triangles_is_identity [in UniMath.Bicategories.Core.AdjointUnique]
compute_fbracket [in UniMath.SubstitutionSystems.SubstitutionSystems]
compute_fbracket [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
comp_ff_is_ff [in UniMath.CategoryTheory.Core.Functors]
comp_full_and_faithful_is_full_and_faithful [in UniMath.CategoryTheory.Core.Functors]
comp_full_is_full [in UniMath.CategoryTheory.Core.Functors]
comp_faithful_is_faithful [in UniMath.CategoryTheory.Core.Functors]
comp_essentially_surjective [in UniMath.CategoryTheory.Core.Functors]
comp_eq [in UniMath.CategoryTheory.PreAdditive]
comp_distr_laws_assoc [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
comp_compose2' [in UniMath.Folds.from_precats_to_folds_and_back]
comp_compose2 [in UniMath.Folds.from_precats_to_folds_and_back]
comp_compose' [in UniMath.Folds.from_precats_to_folds_and_back]
comp_compose [in UniMath.Folds.from_precats_to_folds_and_back]
comp_pred_comp [in UniMath.Folds.from_precats_to_folds_and_back]
concatenateStep [in UniMath.Combinatorics.Lists]
concatenate_oplistsplit [in UniMath.Algebra.Universal.Terms]
concatenate_nil [in UniMath.Combinatorics.Lists]
ConeConnectIso_inj [in UniMath.CategoryTheory.limits.cones]
ConeConnectIso_identity_iso [in UniMath.CategoryTheory.limits.cones]
ConeConnect_idtoiso [in UniMath.CategoryTheory.limits.cones]
coneOutCommutes [in UniMath.CategoryTheory.limits.cats.limits]
coneOutCommutes [in UniMath.CategoryTheory.limits.graphs.limits]
cone_eq [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Cone_precompose [in UniMath.CategoryTheory.limits.cats.limits]
cone_mor_prop [in UniMath.CategoryTheory.limits.cones]
Cone_Mor_eq [in UniMath.CategoryTheory.limits.cones]
cone_prop [in UniMath.CategoryTheory.limits.cones]
Cone_precompose [in UniMath.CategoryTheory.limits.graphs.limits]
consecutive_preserved [in UniMath.Combinatorics.OrderedSets]
constr2 [in UniMath.Foundations.PartA]
const_prod_functor1_slicecat [in UniMath.CategoryTheory.slicecat]
cons_inj2 [in UniMath.Combinatorics.MoreLists]
cons_inj1 [in UniMath.Combinatorics.MoreLists]
cons_nil_id [in UniMath.Algebra.Universal.Examples.ListDataType]
contained_in_union_open [in UniMath.AlgebraicGeometry.Topology]
continuous_pr2 [in UniMath.Topology.Topology]
continuous_pr1 [in UniMath.Topology.Topology]
continuous_tpair [in UniMath.Topology.Topology]
continuous_funcomp [in UniMath.Topology.Topology]
continuous_comp [in UniMath.Topology.Topology]
continuous2d_comp [in UniMath.Topology.Topology]
contr_to_pr1contr [in UniMath.Combinatorics.ZFstructures]
coprodcomm_coprodcomm [in UniMath.MoreFoundations.PartA]
coprodofhfiberstohfiber [in UniMath.Foundations.PartC]
CoproductArrowEta [in UniMath.CategoryTheory.limits.coproducts]
CoproductArrowEta [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductArrowUnique [in UniMath.CategoryTheory.limits.coproducts]
CoproductArrowUnique [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductArrow_diagram [in UniMath.SubstitutionSystems.SignatureCategory]
CoproductInCommutes [in UniMath.CategoryTheory.limits.coproducts]
CoproductIn_idtoiso [in UniMath.CategoryTheory.limits.coproducts]
CoproductIn1Commutes [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductIn2Commutes [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductOfArrowsIn [in UniMath.CategoryTheory.limits.coproducts]
CoproductOfArrowsIn1 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductOfArrowsIn2 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductsBool [in UniMath.CategoryTheory.limits.bincoproducts]
CoproductsHSET [in UniMath.CategoryTheory.categories.HSET.Colimits]
Coproducts_PreShv [in UniMath.CategoryTheory.Presheaf]
Coproducts_HSET_over_sort2 [in UniMath.SubstitutionSystems.STLC]
Coproducts_from_Colims [in UniMath.CategoryTheory.limits.coproducts]
Coproducts_slice_precat [in UniMath.CategoryTheory.slicecat]
Coproducts_Signature_category [in UniMath.SubstitutionSystems.SignatureCategory]
coproduct_of_functors_alt_eq_coproduct_of_functors [in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors_alt_old_eq_coproduct_of_functors [in UniMath.CategoryTheory.limits.coproducts]
Coproduct_endo_is_identity [in UniMath.CategoryTheory.limits.coproducts]
coproduct_nat_trans_univ_prop [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_In2Commutes [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_In1Commutes [in UniMath.CategoryTheory.limits.bincoproducts]
Coproduct_endo_is_identity [in UniMath.CategoryTheory.RepresentableFunctors.Test]
coprod_iter_eq [in UniMath.SubstitutionSystems.ModulesFromSignatures]
corec_computation [in UniMath.Induction.M.ComputationalM]
correct_hom_on_comp [in UniMath.CategoryTheory.catiso]
correct_hom_on_id [in UniMath.CategoryTheory.catiso]
correct_hom [in UniMath.CategoryTheory.catiso]
counit_is_iso_if_right_adjoint_is_fully_faithful [in UniMath.CategoryTheory.Adjunctions.Core]
counit_is_split_monic_if_right_adjoint_is_full [in UniMath.CategoryTheory.Adjunctions.Core]
counit_is_epi_if_right_adjoint_is_faithful [in UniMath.CategoryTheory.Adjunctions.Core]
co.coneOutCommutes [in UniMath.CategoryTheory.limits.graphs.limits]
co.Cone_precompose [in UniMath.CategoryTheory.limits.graphs.limits]
co.inv_isLim_is_iso [in UniMath.CategoryTheory.limits.graphs.limits]
co.isLim_is_iso [in UniMath.CategoryTheory.limits.graphs.limits]
co.is_iso_isLim [in UniMath.CategoryTheory.limits.graphs.limits]
co.limArrowCommutes [in UniMath.CategoryTheory.limits.graphs.limits]
co.limArrowEta [in UniMath.CategoryTheory.limits.graphs.limits]
co.limArrowUnique [in UniMath.CategoryTheory.limits.graphs.limits]
co.LimFunctorCone [in UniMath.CategoryTheory.limits.graphs.limits]
co.limOfArrowsOut [in UniMath.CategoryTheory.limits.graphs.limits]
co.limOutCommutes [in UniMath.CategoryTheory.limits.graphs.limits]
co.limUnivProp [in UniMath.CategoryTheory.limits.graphs.limits]
co.lim_endo_is_identity [in UniMath.CategoryTheory.limits.graphs.limits]
co.postcompWithColimOfArrows [in UniMath.CategoryTheory.limits.graphs.limits]
co.postCompWithLimOfArrows_subproof [in UniMath.CategoryTheory.limits.graphs.limits]
co.precompWithLimArrow [in UniMath.CategoryTheory.limits.graphs.limits]
cp_pathscomp0 [in UniMath.MoreFoundations.PathsOver]
curry_after_uncurry_pointwise [in UniMath.CategoryTheory.PrecategoryBinProduct]
curry_functor_data_is_functor [in UniMath.CategoryTheory.PrecategoryBinProduct]
curry_uncurry [in UniMath.Foundations.PartA]
cwf_square_comm [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]

D

d [in UniMath.Combinatorics.Tests]
dcpomorphism_preserveslub [in UniMath.Algebra.Dcpo]
dcpomorphism_preservesdirected [in UniMath.Algebra.Dcpo]
dcpomorphism_preservesorder [in UniMath.Algebra.Dcpo]
Dcuts_of_Dcuts_bij' [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts_bij [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts'_corr [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts'_open [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts'_bot [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts_corr [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts_open [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts_bot [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_Cauchy_seq_impl_ex_lim_seq [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lim_cauchy_corr [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lim_cauchy_open [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lim_cauchy_bot [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_locatedness [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_correct [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_double [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_le [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_corr [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_open [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_bot [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_two_ap_zero [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_gt [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_min [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_max [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_carac_l [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_carac_r [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_le_r [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_le_l [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_corr [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_open [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_bot [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_plus [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_lt [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_le [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_plus_max [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_carac_r [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_carac_l [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_le_r [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_le_l [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_corr [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_open [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_bot [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_le [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_plus_r [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_eq_zero [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_correct_r [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_correct_l [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_corr [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_open [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_bot [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_double [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_lecompat_r' [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_lecompat_r [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_ltcompat_r' [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_ltcompat_r [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_lecompat_l' [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_lecompat_l [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_ltcompat_l' [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_ltcompat_l [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_le_r [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_le_l [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_lecompat_r [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_ltcompat_r [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_lecompat_l [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_ltcompat_l [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_ap_one_zero [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_lt_l [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_lt_l [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult_mult [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_corr [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_corr_aux [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_open [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_bot [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_out [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_in [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_corr [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_corr_aux [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_finite [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_open [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_bot [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult_corr [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult_finite [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult_open [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult_bot [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_corr [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_open [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_bot [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_apzero_notempty [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_notlt_0 [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_ge_0 [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_notempty_notzero [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_zero_empty [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lt_nge [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_nlt_ge [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_gt_nle [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_gt_ge [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_gt_lt [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_le_ge_eq [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_eq_ge [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_eq_le [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_le_ge [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_ge_le [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_eq_is_eq [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_le_ngt_rel [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lt_le_rel [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_finite [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_def_corr_not_empty [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_def_corr_finite [in UniMath.RealNumbers.NonnegativeReals]
deceqtoneqapart [in UniMath.PAdics.lemmas]
decidable_ishinh [in UniMath.Foundations.Propositions]
decidable_proof_by_contradiction [in UniMath.MoreFoundations.Propositions]
dependent_product_to_exponentials [in UniMath.CategoryTheory.slicecat]
deriv_dist_law4 [in UniMath.CategoryTheory.Monads.Derivative]
deriv_dist_law3 [in UniMath.CategoryTheory.Monads.Derivative]
deriv_dist_law2 [in UniMath.CategoryTheory.Monads.Derivative]
deriv_dist_law1 [in UniMath.CategoryTheory.Monads.Derivative]
DExtIso_Comm2 [in UniMath.HomologicalAlgebra.Triangulated]
DExtIso_Comm1 [in UniMath.HomologicalAlgebra.Triangulated]
diaglemma2 [in UniMath.Foundations.PartA]
DiagonalMap_isMonic [in UniMath.CategoryTheory.AbelianToAdditive]
diagRecursion [in UniMath.Combinatorics.WellFoundedRelations]
DiffInvTranslationComplex_comp [in UniMath.HomologicalAlgebra.TranslationFunctors]
DiffTranslationComplex_comp [in UniMath.HomologicalAlgebra.TranslationFunctors]
DirectSumComplexIn1_comm [in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexIn2_comm [in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexPr1_comm [in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexPr2_comm [in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplex_comm [in UniMath.HomologicalAlgebra.Complexes]
DirectSumId [in UniMath.HomologicalAlgebra.Complexes]
DirectSumIdIn1 [in UniMath.HomologicalAlgebra.Complexes]
DirectSumIdIn2 [in UniMath.HomologicalAlgebra.Complexes]
DirectSumIn1Pr2 [in UniMath.CategoryTheory.limits.BinDirectSums]
DirectSumIn2Pr1 [in UniMath.CategoryTheory.limits.BinDirectSums]
directSumMapEqIn1 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
directSumMapEqIn2 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
directSumMapEqPr1 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
directSumMapEqPr2 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToCokernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToExact [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToExact' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToKernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToPullback [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToPushout [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToSplit [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumToSplit' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
DirectSumUnit1 [in UniMath.HomologicalAlgebra.Complexes]
DirectSumUnit2 [in UniMath.HomologicalAlgebra.Complexes]
dirprodeq [in UniMath.Foundations.PartA]
dirprod_with_contr_l [in UniMath.MoreFoundations.WeakEquivalences]
dirprod_with_contr_r [in UniMath.MoreFoundations.WeakEquivalences]
dirprod_with_prop' [in UniMath.CategoryTheory.categories.Cats]
dirprod_with_prop [in UniMath.CategoryTheory.categories.Cats]
dirprod_disp_cat_is_univalent [in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprod_paths [in UniMath.Foundations.PartA]
Discern.apSC [in UniMath.MoreFoundations.Nat]
Discern.nat_discern_iscontr [in UniMath.MoreFoundations.Nat]
Discern.nat_discern_unit [in UniMath.MoreFoundations.Nat]
Discern.nat_discern_isaprop [in UniMath.MoreFoundations.Nat]
Discern.nat_discern_inj [in UniMath.MoreFoundations.Nat]
discrete_prebicat_laws [in UniMath.Bicategories.Core.Bicat]
discrete_category_iso_path_groupoid [in UniMath.CategoryTheory.categories.StandardCategories]
discrete_functor [in UniMath.CategoryTheory.Groupoids]
discrete_category_hom_prop [in UniMath.CategoryTheory.Groupoids]
disjointl1 [in UniMath.Foundations.PartB]
disjoint_disjunction [in UniMath.Foundations.Propositions]
dispadjunction_hom_weq' [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
dispadjunction_hom_weq [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
display_weq [in UniMath.MoreFoundations.PartD]
display_totalfst [in UniMath.MoreFoundations.PartD]
disp_presheaf_prebicat_laws [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_prebicat_of_univ_disp_cats_laws [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_univalent_2_0_morphisms_of_presheaf_display [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
disp_univalent_2_1_morphisms_of_presheaf_display [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
disp_pseudo_comp_laws [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_pseudo_id_laws [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_prebicat_cells_unit_laws [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_nat_trans_ax_var [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff_inv_compose [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff_inv_identity [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff_inv_transportf [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_on_iso_disp_aux2 [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_on_iso_disp_aux1 [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_composite_axioms [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_transportf [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_assoc [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_nat_trans_id_right [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_nat_trans_id_left [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_nat_trans_transportf [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_full_sub_univalent [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_runitor_lunitor_identity [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lunitor_runitor_identity [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_transport_right [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_transport_left_new [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_transport_left [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lunitor_lwhisker [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_to_rassociator_pre [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_to_rassociator_post [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_to_rassociator_post' [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lhs_left_invert_cell [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lhs_right_invert_cell [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lhs_right_invert_cell' [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_mor_transportf_prewhisker_gen [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_mor_transportf_prewhisker [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_mor_transportf_postwhisker [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vassocl [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_pstrans_rassociator_laws [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_lassociator_pstrans_laws [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_rinvunitor_pstrans_laws [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_runitor_pstrans_laws [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_linvunitor_laws [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_lunitor_pstrans_laws [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_right_whisker_laws [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_left_whisker_laws [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_comp_pstrans_laws [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_id_pstrans_laws [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_mor_unique_disc_fib [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
disp_unassoc_axioms [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_assoc_axioms [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_pair_functor_axioms [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_transportf [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_axioms [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_transportf_pr2 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_transportf_pr1 [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
divalgorithm [in UniMath.PAdics.z_mod_p]
divalgorithmexists [in UniMath.PAdics.z_mod_p]
divalgorithmnonneg [in UniMath.PAdics.z_mod_p]
divandhzabsval [in UniMath.PAdics.z_mod_p]
divNonnegativeRationals_le1 [in UniMath.RealNumbers.NonnegativeRationals]
di_neq_i [in UniMath.Foundations.NaturalNumbers]
di_eq2 [in UniMath.Foundations.NaturalNumbers]
di_eq1 [in UniMath.Foundations.NaturalNumbers]
dneganddnegl1 [in UniMath.Foundations.PartA]
dneg_LEM [in UniMath.MoreFoundations.DecidablePropositions]
dneg_decidable [in UniMath.MoreFoundations.DoubleNegation]
dneg_elim_to_LEM [in UniMath.MoreFoundations.Propositions]
dnicommsq [in UniMath.Combinatorics.StandardFiniteSets]
dnihfsq [in UniMath.Combinatorics.StandardFiniteSets]
dni_lastelement_eq [in UniMath.Combinatorics.StandardFiniteSets]
dni_lastelement_is_inj [in UniMath.Combinatorics.StandardFiniteSets]
dni_neq_i [in UniMath.Combinatorics.StandardFiniteSets]
dni_last_lt [in UniMath.Combinatorics.StandardFiniteSets]
dni_lastelement_ord [in UniMath.Combinatorics.StandardFiniteSets]
dni_first [in UniMath.Combinatorics.StandardFiniteSets]
dni_last [in UniMath.Combinatorics.StandardFiniteSets]
doublecarry [in UniMath.PAdics.padics]
doublelubdirected [in UniMath.Algebra.Dcpo]
doubleminuslehpaths [in UniMath.PAdics.lemmas]
double_halfNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
double_transport_idtoiso [in UniMath.CategoryTheory.Core.Univalence]
drop_el [in UniMath.Combinatorics.Vectors]
drop_concatenate [in UniMath.Combinatorics.MoreLists]
drop_full [in UniMath.Combinatorics.MoreLists]
drop_step [in UniMath.Combinatorics.MoreLists]
drop_zero [in UniMath.Combinatorics.MoreLists]
drop_nil [in UniMath.Combinatorics.MoreLists]
drop_and_append_vec [in UniMath.Combinatorics.FiniteSequences]
DTriCompZero [in UniMath.HomologicalAlgebra.Triangulated]
DTriCompZero' [in UniMath.HomologicalAlgebra.Triangulated]
DTriCompZero'' [in UniMath.HomologicalAlgebra.Triangulated]
dualelement_lt [in UniMath.Combinatorics.StandardFiniteSets]
dualelement_0_empty [in UniMath.Combinatorics.StandardFiniteSets]

E

EffectiveEpis_Functor_HSET [in UniMath.CategoryTheory.SetValuedFunctors]
EffectiveEpis_HSET [in UniMath.CategoryTheory.categories.HSET.Structures]
elements_axioms [in UniMath.CategoryTheory.DisplayedCats.Examples]
elements_id_comp [in UniMath.CategoryTheory.DisplayedCats.Examples]
elem_sort_id [in UniMath.Algebra.Universal.Examples.ListDataType]
el_vec_map [in UniMath.Combinatorics.Vectors]
el_tl [in UniMath.Combinatorics.Vectors]
el_vcons_hd [in UniMath.Combinatorics.Vectors]
el_vcons_tl [in UniMath.Combinatorics.Vectors]
el_make_vec_fun [in UniMath.Combinatorics.Vectors]
el_make_vec [in UniMath.Combinatorics.Vectors]
emptynofilter [in UniMath.Topology.Filters]
empty_is_terminal_cartesian_cube_category [in UniMath.CategoryTheory.categories.CartesianCubicalSets]
empty_graph_eq_diag [in UniMath.CategoryTheory.limits.graphs.initial]
enumeration_FiniteOrderedSet [in UniMath.Combinatorics.OrderedSets]
EOge_le [in UniMath.RealNumbers.Sets]
EOgt_noteq [in UniMath.RealNumbers.Sets]
EOgt_lt [in UniMath.RealNumbers.Sets]
EOlt_noteq [in UniMath.RealNumbers.Sets]
EOlt_le [in UniMath.RealNumbers.Sets]
EpiAdmMonoIsIso [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
epic_to_slice_precat_epic [in UniMath.CategoryTheory.slicecat]
epiissurjectiontosets [in UniMath.Foundations.Sets]
EpiPlusIdentity [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EpiPushoutisEpi [in UniMath.CategoryTheory.limits.pushouts]
EpiPushoutisEpi' [in UniMath.CategoryTheory.limits.pushouts]
EpisAreCokernels_opp_isKernel [in UniMath.CategoryTheory.Abelian]
EpisAreCokernels_opp_eq [in UniMath.CategoryTheory.Abelian]
EpisAreSurjective_HSET [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
epi_to_pushout [in UniMath.CategoryTheory.limits.pushouts]
epsinv_morph_law [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eps_morph_law [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eps_is_nat_trans [in UniMath.CategoryTheory.RightKanExtension]
eqcor0UAH [in UniMath.Foundations.UnivalenceAxiom]
eqfromdnegeq [in UniMath.Foundations.PartB]
eqfromempty [in UniMath.Induction.W.Naturals]
eqNonnegativeReals_le [in UniMath.RealNumbers.NonnegativeReals]
eqreleq [in UniMath.MoreFoundations.Sets]
eqrel_impl [in UniMath.MoreFoundations.Sets]
eqrel_on_bool_iff [in UniMath.MoreFoundations.AxiomOfChoice]
eqrel_reverse_correct [in UniMath.RealNumbers.Sets]
eqrel_closure_minimal [in UniMath.Combinatorics.Equivalence_Relations]
Eqspec.holds_monoid_mul_assoc [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.holds_monoid_mul_rid [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.holds_monoid_mul_lid [in UniMath.Algebra.Universal.Examples.Monoid]
eqSS [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
EqualizerArrowComm [in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerArrowisMonic [in UniMath.CategoryTheory.limits.equalizers]
EqualizerArrowMonic [in UniMath.CategoryTheory.limits.equalizers]
EqualizerCommutes [in UniMath.CategoryTheory.limits.equalizers]
EqualizerEndo_is_identity [in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerEndo_is_identity [in UniMath.CategoryTheory.limits.equalizers]
EqualizerInComp [in UniMath.CategoryTheory.limits.equalizers]
EqualizerInsEq [in UniMath.CategoryTheory.limits.equalizers]
EqualizerInUnique [in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerKernel_isKernel [in UniMath.CategoryTheory.limits.kernels]
EqualizerKernel_eq [in UniMath.CategoryTheory.limits.kernels]
Equalizers [in UniMath.CategoryTheory.Abelian]
EqualizersHSET_from_Lims [in UniMath.CategoryTheory.categories.HSET.Limits]
Equalizers_from_Lims [in UniMath.CategoryTheory.limits.graphs.equalizers]
EquivalenceOfTwoDefinitions [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
equivalence_homtype_property [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
equiv_to_adjequiv_isadj [in UniMath.Bicategories.Core.EquivToAdjequiv]
equiv_Kernel2_isEqualizer [in UniMath.CategoryTheory.limits.graphs.kernels]
equiv_Kernel2_eq [in UniMath.CategoryTheory.limits.graphs.kernels]
equiv_Kernel1_isEqualizer [in UniMath.CategoryTheory.limits.graphs.kernels]
equiv_Kernel1_eq [in UniMath.CategoryTheory.limits.graphs.kernels]
equiv_isTerminal2 [in UniMath.CategoryTheory.limits.graphs.terminal]
equiv_isTerminal1 [in UniMath.CategoryTheory.limits.graphs.terminal]
equiv_Cokernel2_isCoequalizer [in UniMath.CategoryTheory.limits.graphs.cokernels]
equiv_Cokernel2_eq [in UniMath.CategoryTheory.limits.graphs.cokernels]
equiv_Cokernel1_isCoequalizer [in UniMath.CategoryTheory.limits.graphs.cokernels]
equiv_Cokernel1_eq [in UniMath.CategoryTheory.limits.graphs.cokernels]
equiv_isCoequalizer2 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
equiv_isCoequalizer1 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
equiv_isPushout2 [in UniMath.CategoryTheory.limits.graphs.pushouts]
equiv_isPushout1 [in UniMath.CategoryTheory.limits.graphs.pushouts]
equiv_isEqualizer2 [in UniMath.CategoryTheory.limits.graphs.equalizers]
equiv_isEqualizer1 [in UniMath.CategoryTheory.limits.graphs.equalizers]
equiv_isInitial2 [in UniMath.CategoryTheory.limits.graphs.initial]
equiv_isInitial1 [in UniMath.CategoryTheory.limits.graphs.initial]
Equiv_rect [in UniMath.MoreFoundations.StructureIdentity]
equiv_isPullback_2 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
equiv_isPullback_1 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
equiv_ZeroArrow [in UniMath.CategoryTheory.limits.graphs.zero]
equiv_ZeroArrowFrom [in UniMath.CategoryTheory.limits.graphs.zero]
equiv_ZeroArrowTo [in UniMath.CategoryTheory.limits.graphs.zero]
equiv_isZero2 [in UniMath.CategoryTheory.limits.graphs.zero]
equiv_isZero1 [in UniMath.CategoryTheory.limits.graphs.zero]
eqweqmap_weqtopaths [in UniMath.MoreFoundations.PartD]
eqweqmap_transportb [in UniMath.MoreFoundations.PartD]
eqweqmap_pathsinv0 [in UniMath.Foundations.PartD]
eqweqmap_pathscomp0 [in UniMath.Foundations.PartD]
eqweq_fully_faithful_is_functor_app [in UniMath.CategoryTheory.catiso]
eqweq_correct_hom_is_comp [in UniMath.CategoryTheory.catiso]
eqweq_maponpaths_mor [in UniMath.CategoryTheory.catiso]
eqweq_ob_path_is_functor_app_compute [in UniMath.CategoryTheory.catiso]
eqweq_ob_path_is_functor_app [in UniMath.CategoryTheory.catiso]
eq_diag_iscolimcocone [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag_islimcone [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag_mkcone [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag_mkcocone [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag_is_eq [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_is_eq_diag [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
eq_corecM0 [in UniMath.Induction.M.ComputationalM]
eq_po_pw [in UniMath.CategoryTheory.EpiFacts]
eq_coeq_pw [in UniMath.CategoryTheory.EpiFacts]
eq_pb_pw [in UniMath.CategoryTheory.EpiFacts]
eq_z_iso [in UniMath.CategoryTheory.Core.Isos]
eq_iso [in UniMath.CategoryTheory.Core.Isos]
eq_idto1_idto2 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
eq_iso_slicecat [in UniMath.CategoryTheory.slicecat]
eq_mor_slicecat_isweq [in UniMath.CategoryTheory.slicecat]
eq_mor_slicecat [in UniMath.CategoryTheory.slicecat]
eq_isotoid [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
eq_discrete_fib_mor [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
eq_in_sub_precategory [in UniMath.CategoryTheory.Subcategory.Core]
eq_idtoiso_idtomor [in UniMath.CategoryTheory.Core.Univalence]
eq_CONE_pr1 [in UniMath.CategoryTheory.limits.cones]
eq_Cone_eq [in UniMath.CategoryTheory.limits.cones]
eq_ConeData_eq [in UniMath.CategoryTheory.limits.cones]
eq_equalities_between_pairs [in UniMath.MoreFoundations.PartA]
eq_ptd_mor_cat [in UniMath.CategoryTheory.PointedFunctors]
eq_ptd_mor [in UniMath.CategoryTheory.PointedFunctors]
eq0orgt0NonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
eq1 [in UniMath.Induction.M.ComputationalM]
eq2 [in UniMath.Induction.M.ComputationalM]
eq3 [in UniMath.Induction.M.ComputationalM]
etainv_morph_law [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
etainv_data_laws [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_data_laws [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_arrow_natural [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_unit [in UniMath.Induction.W.Naturals]
euclideanalgorithm [in UniMath.PAdics.z_mod_p]
evalstep [in UniMath.Algebra.Universal.FreeAlgebras]
evaluation_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
ExactIso1 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactIso2 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactIso3 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactPullback [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactPullback' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactPushout [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactPushout' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactSequenceFromEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactSequenceFromMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactSequence01 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactSequence10 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactToAdmEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactToAdmMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactToEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactToMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Exponentials_PreShv [in UniMath.CategoryTheory.Presheaf]
Exponentials_HSET2 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
Exponentials_HSET_slice [in UniMath.CategoryTheory.categories.HSET.Slice]
Exponentials_functor_HSET [in UniMath.CategoryTheory.categories.HSET.Structures]
Exponentials_HSET [in UniMath.CategoryTheory.categories.HSET.Structures]
exp_functor_is_functor [in UniMath.CategoryTheory.categories.Type.Structures]
ExtMor'_Comm3 [in UniMath.HomologicalAlgebra.Triangulated]
ExtMor'_Comm1 [in UniMath.HomologicalAlgebra.Triangulated]
ExtMor2_Comm3 [in UniMath.HomologicalAlgebra.Triangulated]
ExtMor2_Comm2 [in UniMath.HomologicalAlgebra.Triangulated]
ExtMor2_Comm [in UniMath.HomologicalAlgebra.Triangulated]
extphi [in UniMath.CategoryTheory.precomp_ess_surj]
ex_lim_base_correct [in UniMath.Topology.Topology]
ex_filter_lim_base_correct [in UniMath.Topology.Topology]
ex_filter_le [in UniMath.Topology.Filters]
E_implies_folds_iso [in UniMath.Folds.folds_pre_2_cat]
E_transport_target [in UniMath.Folds.folds_pre_2_cat]
E_transport_source [in UniMath.Folds.folds_pre_2_cat]
e_comm [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]

F

factorization1 [in UniMath.CategoryTheory.Abelian]
factorization1_is_epi [in UniMath.CategoryTheory.Abelian]
factorization2_is_monic [in UniMath.CategoryTheory.Abelian]
factor_through_squash [in UniMath.Foundations.Propositions]
factor_through_squash_hProp [in UniMath.MoreFoundations.Propositions]
factor_dep_through_squash [in UniMath.MoreFoundations.Propositions]
fact1 [in UniMath.SyntheticHomotopyTheory.Circle2]
fact2 [in UniMath.SyntheticHomotopyTheory.Circle2]
fact3 [in UniMath.SyntheticHomotopyTheory.Circle2]
fact4 [in UniMath.SyntheticHomotopyTheory.Circle2]
fact5 [in UniMath.SyntheticHomotopyTheory.Circle2]
faithful_sub_precategory_inclusion [in UniMath.CategoryTheory.Subcategory.Full]
faithful_reflects_commutative_triangle [in UniMath.CategoryTheory.Core.Functors]
faithful_pr1_category [in UniMath.CategoryTheory.DisplayedCats.Core]
faithful_reflects_epis [in UniMath.CategoryTheory.EpiFacts]
faithful_reflects_mono [in UniMath.CategoryTheory.Monics]
faithful_hss_to_monad [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
faithful_hss_to_monad [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
fam_iso [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fbracket_natural [in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_τ [in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_η [in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_natural [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
FFinv_transportf [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FFinv_transportf [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ff_is_inclusion_on_objects [in UniMath.CategoryTheory.Core.Functors]
ff_reflects_is_iso [in UniMath.CategoryTheory.Core.Functors]
ff_essentially_surjective_to_split [in UniMath.CategoryTheory.Equivalences.Core]
ff_es_preserves_homsets [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
ff_es_homtype_property [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
ff_es_homtype_weq [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
fginv_fginv [in UniMath.Algebra.Free_Monoids_and_Groups]
FiberExtComm [in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_Comm3H [in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_Comm3 [in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_Comm2H [in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_Comm2 [in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_inverses [in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_inverses' [in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_eq2 [in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_eq1 [in UniMath.HomologicalAlgebra.MappingCone]
fiber_functor_ff [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_is_precategory [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fibseqstrtohfsqstr [in UniMath.Foundations.PartA]
fillerEquation [in UniMath.MoreFoundations.PartA]
FilterBase_le [in UniMath.Topology.Filters]
filterbase_le [in UniMath.Topology.Filters]
FilterBase_Generated_hypothesis [in UniMath.Topology.Filters]
FilterBase_Generated [in UniMath.Topology.Filters]
filterbase_generated_hypothesis [in UniMath.Topology.Filters]
filterbase_genetated [in UniMath.Topology.Filters]
filterbase_notempty [in UniMath.Topology.Filters]
filterbase_and [in UniMath.Topology.Filters]
filterbase_htrue [in UniMath.Topology.Filters]
filterbase_imply [in UniMath.Topology.Filters]
filterdirprod_notempty [in UniMath.Topology.Filters]
filterdirprod_and [in UniMath.Topology.Filters]
filterdirprod_htrue [in UniMath.Topology.Filters]
filterdirprod_imply [in UniMath.Topology.Filters]
filterdom_notempty [in UniMath.Topology.Filters]
filterdom_and [in UniMath.Topology.Filters]
filterdom_htrue [in UniMath.Topology.Filters]
filterdom_imply [in UniMath.Topology.Filters]
FilterGenerated_inv [in UniMath.Topology.Filters]
FilterGenerated_correct [in UniMath.Topology.Filters]
filtergenerated_notempty [in UniMath.Topology.Filters]
filtergenerated_and [in UniMath.Topology.Filters]
filtergenerated_htrue [in UniMath.Topology.Filters]
filtergenerated_imply [in UniMath.Topology.Filters]
FilterIm_incr [in UniMath.Topology.Filters]
filterim_notempty [in UniMath.Topology.Filters]
filterim_and [in UniMath.Topology.Filters]
filterim_htrue [in UniMath.Topology.Filters]
filterim_imply [in UniMath.Topology.Filters]
FilterIntersection_glb [in UniMath.Topology.Filters]
filterintersection_notempty [in UniMath.Topology.Filters]
filterintersection_and [in UniMath.Topology.Filters]
filterintersection_htrue [in UniMath.Topology.Filters]
filterintersection_imply [in UniMath.Topology.Filters]
filterlim_incr_2 [in UniMath.Topology.Filters]
filterlim_decr_1 [in UniMath.Topology.Filters]
filterlim_comp [in UniMath.Topology.Filters]
filternat_notempty [in UniMath.Topology.Filters]
filternat_and [in UniMath.Topology.Filters]
filternat_htrue [in UniMath.Topology.Filters]
filternat_imply [in UniMath.Topology.Filters]
filtersubtype_notempty [in UniMath.Topology.Filters]
filtersubtype_and [in UniMath.Topology.Filters]
filtersubtype_htrue [in UniMath.Topology.Filters]
filtersubtype_imply [in UniMath.Topology.Filters]
FilterTop_correct [in UniMath.Topology.Filters]
filtertop_notempty [in UniMath.Topology.Filters]
filtertop_and [in UniMath.Topology.Filters]
filtertop_htrue [in UniMath.Topology.Filters]
filtertop_imply [in UniMath.Topology.Filters]
filter_const [in UniMath.Topology.Filters]
filter_notempty [in UniMath.Topology.Filters]
filter_forall [in UniMath.Topology.Filters]
filter_and [in UniMath.Topology.Filters]
filter_htrue [in UniMath.Topology.Filters]
filter_finite_intersection [in UniMath.Topology.Filters]
filter_imply [in UniMath.Topology.Filters]
finalM [in UniMath.Induction.M.ComputationalM]
final_bicat_laws [in UniMath.Bicategories.Core.Examples.Final]
FiniteOrderedSet_isdec_ordering [in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSet_isdeceq [in UniMath.Combinatorics.OrderedSets]
finite_intersection_hProp [in UniMath.Topology.Prelim]
finite_intersection_append [in UniMath.Topology.Prelim]
finite_intersection_case [in UniMath.Topology.Prelim]
finite_intersection_and [in UniMath.Topology.Prelim]
finite_intersection_1 [in UniMath.Topology.Prelim]
finite_intersection_htrue [in UniMath.Topology.Prelim]
FinOrdCoproducts_from_Initial_and_BinCoproducts [in UniMath.CategoryTheory.limits.FinOrdCoproducts]
FinOrdProducts_from_Terminal_and_BinProducts [in UniMath.CategoryTheory.limits.FinOrdProducts]
firstelement_le [in UniMath.Combinatorics.StandardFiniteSets]
first_triangle_law [in UniMath.Bicategories.Core.EquivToAdjequiv]
first_iso_on_functors [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
first_iso_nat_in_F [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
first_iso_nat_in_x [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
first_iso_on_sets [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
FiveLemma [in UniMath.CategoryTheory.FiveLemma]
FiveLemma_isEpi [in UniMath.CategoryTheory.FiveLemma]
FiveLemma_isMonic [in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffsEq_opp3 [in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffsEq_opp2 [in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffsEq_opp1 [in UniMath.CategoryTheory.FiveLemma]
fixpoint_for_monotone_on_dcpo [in UniMath.Algebra.FixedPointTheorems]
flatmap_ind [in UniMath.Combinatorics.Maybe]
flatmap_nothing [in UniMath.Combinatorics.Maybe]
flatmap_just [in UniMath.Combinatorics.Maybe]
flattenStep [in UniMath.Combinatorics.Lists]
Flat_θ_strength2_int [in UniMath.SubstitutionSystems.LamSignature]
Flat_θ_strength1_int [in UniMath.SubstitutionSystems.LamSignature]
fldfracmultinvintcomp [in UniMath.Algebra.Domains_and_Fields]
fld_equiv_iso_is_equiv [in UniMath.CategoryTheory.categories.flds]
fld_iso_equiv_is_equiv [in UniMath.CategoryTheory.categories.flds]
fld_equiv_iso [in UniMath.CategoryTheory.categories.flds]
fld_equiv_is_iso [in UniMath.CategoryTheory.categories.flds]
fld_iso_equiv [in UniMath.CategoryTheory.categories.flds]
fld_iso_is_equiv [in UniMath.CategoryTheory.categories.flds]
fld_assoc [in UniMath.CategoryTheory.categories.flds]
fld_id_right [in UniMath.CategoryTheory.categories.flds]
fld_id_left [in UniMath.CategoryTheory.categories.flds]
fld_univalence_isweq [in UniMath.Algebra.Domains_and_Fields]
fNat [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
foldr_cons [in UniMath.CategoryTheory.Inductives.Lists]
foldr_nil [in UniMath.CategoryTheory.Inductives.Lists]
foldr_var [in UniMath.SubstitutionSystems.STLC]
foldr_lam [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
foldr_app [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
foldr_var [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
foldr_lam [in UniMath.SubstitutionSystems.STLC_alt]
foldr_app [in UniMath.SubstitutionSystems.STLC_alt]
foldr_var [in UniMath.SubstitutionSystems.STLC_alt]
foldr_lam [in UniMath.SubstitutionSystems.LamFromBindingSig]
foldr_app [in UniMath.SubstitutionSystems.LamFromBindingSig]
foldr_var [in UniMath.SubstitutionSystems.LamFromBindingSig]
foldr_node [in UniMath.CategoryTheory.Inductives.Trees]
foldr_leaf [in UniMath.CategoryTheory.Inductives.Trees]
foldr_concatenate [in UniMath.Combinatorics.Lists]
foldr_cons [in UniMath.Combinatorics.Lists]
foldr1_concatenate [in UniMath.Combinatorics.Lists]
foldr1_cons [in UniMath.Combinatorics.Lists]
foldr1_cons_nil [in UniMath.Combinatorics.Lists]
folds_2_iso_implies_identity [in UniMath.Folds.folds_pre_2_cat]
folds_iso_implies_E [in UniMath.Folds.folds_pre_2_cat]
folds_iso_from_iso_iso_from_folds_iso [in UniMath.Folds.folds_isomorphism]
folds_iso_data_prop [in UniMath.Folds.folds_isomorphism]
folds_iso_comp_prop [in UniMath.Folds.folds_isomorphism]
folds_iso_equal [in UniMath.Folds.folds_isomorphism]
folds_iso_eq [in UniMath.Folds.folds_isomorphism]
folds_precat_from_precat_precat_from_folds_precat [in UniMath.Folds.from_precats_to_folds_and_back]
foo' [in UniMath.SubstitutionSystems.LiftingInitial]
forallnegtoneghexists [in UniMath.Foundations.Propositions]
forall_isotid [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
forall_isotoid [in UniMath.CategoryTheory.Core.Univalence]
forgetKleisli_faithful [in UniMath.CategoryTheory.Monads.KTriples]
forgetMonad_faithful [in UniMath.CategoryTheory.Monads.Monads]
forgetRelMonad_faithful [in UniMath.CategoryTheory.Monads.RelativeMonads]
forms_equivalence_disc_fib [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
form_equivalence_unkleislify [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
form_adjunction_eps_eta [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
form_adjunction_eta_eps [in UniMath.CategoryTheory.slicecat]
form_adjunction_inv [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
form_adjunctionFG_left_from_partial [in UniMath.CategoryTheory.Adjunctions.Core]
form_adjunctionFG [in UniMath.CategoryTheory.Adjunctions.Core]
form_equiv_inv_adjunction_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
form_equiv_GGεη [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
form_adjunction_functor_cat_swap [in UniMath.CategoryTheory.Adjunctions.Examples]
form_adjunction_eta'_eps' [in UniMath.CategoryTheory.exponentials]
fourth_iso_on_functors [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
fourth_iso_nat_in_F [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
fourth_iso_nat_in_x [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
fourth_iso_on_sets [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
fpsapartisbinopapartmultl [in UniMath.PAdics.fps]
fpsapartisbinopapartmultr [in UniMath.PAdics.fps]
fpsapartisbinopapartplusl [in UniMath.PAdics.fps]
fpsapartisbinopapartplusr [in UniMath.PAdics.fps]
fpsiscommring [in UniMath.PAdics.fps]
fpsshiftandmult [in UniMath.PAdics.fps]
free_abgr_extend_funcomp [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgrfun_setquotpr [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_extend_comp [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_extend_homot [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_hrel_univ [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_hrel_intro [in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_extend_funcomp [in UniMath.Algebra.Free_Monoids_and_Groups]
free_grfun_setquotpr [in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_extend_comp [in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_extend_homot [in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_hrel_univ [in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_hrel_in_rev [in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_hrel_in [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_extend_funcomp [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoidfun_setquotpr [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_extend_comp [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_extend_homot [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_hrel_univ [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_hrel_intro [in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoidfun_comp_homot [in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid_extend_funcomp [in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoidfun_homot_extend [in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid_extend_comp [in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid_extend_homot [in UniMath.Algebra.Free_Monoids_and_Groups]
FromAcyclicComplexFromObject_Eq [in UniMath.HomologicalAlgebra.Complexes]
FromAcyclicComplexFromObject_comm [in UniMath.HomologicalAlgebra.Complexes]
FromAcyclicComplexFromObject_comm_eq2 [in UniMath.HomologicalAlgebra.Complexes]
FromAcyclicComplexFromObject_comm_eq1 [in UniMath.HomologicalAlgebra.Complexes]
FromBinDirectSumFormulaUnique [in UniMath.CategoryTheory.limits.BinDirectSums]
FromBinDirectSumsEq [in UniMath.CategoryTheory.limits.BinDirectSums]
fromBranch_hsubtype [in UniMath.Combinatorics.ZFstructures]
fromneganddecx [in UniMath.Foundations.PartC]
fromneganddecy [in UniMath.Foundations.PartC]
fromnegcoprod [in UniMath.Foundations.Propositions]
fromnegcoprod_prop [in UniMath.Foundations.Propositions]
fromtermstep [in UniMath.Algebra.Universal.VTerms]
fromtermstep [in UniMath.Algebra.Universal.Terms]
fromtermstep' [in UniMath.Algebra.Universal.VTerms]
FromZeroIsMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
from_matrix_entry_assoc [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_matrix_entry [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_col_entry [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_row_entry [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_section_functor [in UniMath.CategoryTheory.DisplayedCats.Core]
from_lifted_functor [in UniMath.CategoryTheory.DisplayedCats.Core]
from_Kernel_to_Kernel_is_iso [in UniMath.CategoryTheory.limits.kernels]
from_nat_functor_eq [in UniMath.Induction.W.Naturals]
from_terminal_isMonic [in UniMath.CategoryTheory.limits.terminal]
fulfil_Bourbaki_Witt_fixpoint_theorem [in UniMath.Algebra.FixedPointTheorems]
fulfil_fixpoint_for_monotone_on_dcpo [in UniMath.Algebra.FixedPointTheorems]
fulfil_Tarski_fixpoint_theorem [in UniMath.Algebra.FixedPointTheorems]
fully_faithful_sub_precategory_inclusion [in UniMath.CategoryTheory.Subcategory.Full]
fully_faithful_commutative_triangle_weq [in UniMath.CategoryTheory.Core.Functors]
fully_faithful_implies_full_and_faithful [in UniMath.CategoryTheory.Core.Functors]
fully_faithful_conservative [in UniMath.CategoryTheory.Core.Functors]
fully_faithful_reflects_iso_proof [in UniMath.CategoryTheory.Core.Functors]
fully_faithful_inv_comp [in UniMath.CategoryTheory.Core.Functors]
fully_faithful_inv_identity [in UniMath.CategoryTheory.Core.Functors]
fully_faithful_inv_hom_is_inv [in UniMath.CategoryTheory.Core.Functors]
fully_faithful_from_equivalence [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
fully_faithful_reflects_all_limits [in UniMath.CategoryTheory.limits.graphs.limits]
full_spec [in UniMath.Bicategories.Core.EquivToAdjequiv]
full_sub_precategory_inclusion [in UniMath.CategoryTheory.Subcategory.Full]
full_and_faithful_implies_fully_faithful [in UniMath.CategoryTheory.Core.Functors]
full_pr1_category [in UniMath.CategoryTheory.DisplayedCats.Core]
funcomp_assoc [in UniMath.Foundations.PartA]
funcontrtwice [in UniMath.Foundations.UnivalenceAxiom]
funcontrUAH [in UniMath.Foundations.UnivalenceAxiom]
functorBinaryProduct [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorBinaryProduct_map_eqn [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorBinaryProduct_eqn [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorBinarySum [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorBinarySum_map_eqn [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorBinarySum_eqn [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
FunctorcategoryPullbacks_comm [in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_is_nat_trans2 [in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_is_nat_trans1 [in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_isfunctor [in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_eq [in UniMath.CategoryTheory.limits.pullbacks]
functorcategoryTerminalObject [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorColimits [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorial_composition_as_hcomp_functor_datawise [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
functorial_composition_as_hcomp_functor [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
functorial_composition_legacy_ok [in UniMath.CategoryTheory.HorizontalComposition]
functorial_composition_post_pre [in UniMath.CategoryTheory.HorizontalComposition]
functorial_composition_pre_post [in UniMath.CategoryTheory.HorizontalComposition]
functorLimits [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
functorOpIso [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
FunctorToLocalization_comp [in UniMath.CategoryTheory.LocalizingClass]
functor_full_img_essentially_surjective [in UniMath.CategoryTheory.Subcategory.Full]
functor_full_img_factorization_ob [in UniMath.CategoryTheory.Subcategory.Full]
functor_full_img_fully_faithful_if_fun_is [in UniMath.CategoryTheory.Subcategory.Full]
functor_path_pregroupoid [in UniMath.CategoryTheory.categories.StandardCategories]
functor_into_product_weq [in UniMath.CategoryTheory.ProductCategory]
functor_on_inv_from_z_iso' [in UniMath.CategoryTheory.Core.Functors]
functor_is_inverse_in_precat_inv_from_iso [in UniMath.CategoryTheory.Core.Functors]
functor_on_is_inverse_in_precat [in UniMath.CategoryTheory.Core.Functors]
functor_assoc [in UniMath.CategoryTheory.Core.Functors]
functor_identity_right [in UniMath.CategoryTheory.Core.Functors]
functor_identity_left [in UniMath.CategoryTheory.Core.Functors]
functor_on_iso_iso_from_ff_reflection [in UniMath.CategoryTheory.Core.Functors]
functor_on_iso_iso_from_fully_faithful_reflection [in UniMath.CategoryTheory.Core.Functors]
functor_on_inv_from_iso [in UniMath.CategoryTheory.Core.Functors]
functor_on_inv_from_iso' [in UniMath.CategoryTheory.Core.Functors]
functor_on_iso_inv [in UniMath.CategoryTheory.Core.Functors]
functor_on_iso_is_iso [in UniMath.CategoryTheory.Core.Functors]
functor_on_is_iso_is_iso [in UniMath.CategoryTheory.Core.Functors]
functor_id_id [in UniMath.CategoryTheory.Core.Functors]
functor_isaset [in UniMath.CategoryTheory.Core.Functors]
functor_eq [in UniMath.CategoryTheory.Core.Functors]
functor_data_eq [in UniMath.CategoryTheory.Core.Functors]
functor_data_eq_prf [in UniMath.CategoryTheory.Core.Functors]
functor_data_isaset [in UniMath.CategoryTheory.Core.Functors]
Functor_eq [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
Functor_eq_weq [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
Functor_eq_map_isweq [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
functor_data_eq_from_nat_trans [in UniMath.CategoryTheory.Core.NaturalTransformations]
functor_cancel_pw [in UniMath.CategoryTheory.FunctorCategory]
functor_comp_pw [in UniMath.CategoryTheory.FunctorCategory]
functor_eq_from_functor_iso_idtoiso [in UniMath.CategoryTheory.FunctorCategory]
functor_iso_if_pointwise_iso [in UniMath.CategoryTheory.FunctorCategory]
functor_category_has_homsets [in UniMath.CategoryTheory.FunctorCategory]
functor_opp_composite [in UniMath.CategoryTheory.opp_precat]
functor_opp_identity [in UniMath.CategoryTheory.opp_precat]
functor_is_iso_is_iso [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
functor_in_precomp_option_iter_Signature_ok [in UniMath.SubstitutionSystems.BindingSigToMonad]
functor_in_MultiSortedSigToSignature_ok [in UniMath.SubstitutionSystems.MultiSorted_alt]
functor_in_Sig_hat_exp_functor_list_ok [in UniMath.SubstitutionSystems.MultiSorted_alt]
functor_in_Sig_exp_functor_list_ok [in UniMath.SubstitutionSystems.MultiSorted_alt]
functor_in_Sig_exp_functor_ok [in UniMath.SubstitutionSystems.MultiSorted_alt]
functor_identity_arrow [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_identity_object [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_op_op_eq [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_rm_op_op_eq [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_op_rm_op_eq [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_on_comp [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_on_id [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_total_cat_univalent [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
functor_disp_cat_univalent [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
functor_of_kleisli_comm_nat_iso [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
functor_preserves_split_epi [in UniMath.CategoryTheory.SplitMonicsAndEpis]
functor_preserves_merely_split_epi [in UniMath.CategoryTheory.SplitMonicsAndEpis]
functor_preserves_split_monic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
functor_preserves_merely_split_monic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
functor_cat_swap [in UniMath.CategoryTheory.Adjunctions.Examples]
functor_cat_swap_nat_trans [in UniMath.CategoryTheory.Adjunctions.Examples]
functor_swap [in UniMath.CategoryTheory.Adjunctions.Examples]
functor_from_equivalence_is_essentially_surjective [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
functor_in_MultiSortedSigToSignature_ok [in UniMath.SubstitutionSystems.MultiSorted]
functor_in_Sig_hat_exp_functor_list_ok [in UniMath.SubstitutionSystems.MultiSorted]
functor_in_Sig_exp_functor_list_ok [in UniMath.SubstitutionSystems.MultiSorted]
functor_in_Sig_exp_functor_ok [in UniMath.SubstitutionSystems.MultiSorted]
functtransportb [in UniMath.Foundations.PartA]
functtransportf [in UniMath.Foundations.PartA]
funeqpaths [in UniMath.CategoryTheory.PreAdditive]
funextcontrUAH [in UniMath.Foundations.UnivalenceAxiom]
funextemptyUAH [in UniMath.Foundations.UnivalenceAxiom]
funextfunImplication [in UniMath.Foundations.UnivalenceAxiom]
funextfunPreliminaryUAH [in UniMath.Foundations.UnivalenceAxiom]
funextsecImplication [in UniMath.Foundations.UnivalenceAxiom]
funextsec_toforallpaths [in UniMath.MoreFoundations.Univalence]
funspace_isaset [in UniMath.MoreFoundations.Propositions]
fusion_law [in UniMath.SubstitutionSystems.GenMendlerIteration]
fusion_law [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
fusion_law [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]

G

gcdanddiv [in UniMath.PAdics.z_mod_p]
gcdandprime [in UniMath.PAdics.z_mod_p]
gcdand0 [in UniMath.PAdics.z_mod_p]
gcdneq0 [in UniMath.PAdics.z_mod_p]
gcdpositive [in UniMath.PAdics.z_mod_p]
generated_binopeqrel_intro [in UniMath.Algebra.BinaryOperations]
generated_binophrel_intro [in UniMath.Algebra.BinaryOperations]
generated_free_gr_hrel_in_rev [in UniMath.Algebra.Free_Monoids_and_Groups]
generated_free_gr_hrel_in [in UniMath.Algebra.Free_Monoids_and_Groups]
GenMendlerIteration [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMendlerIteration [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
geNonnegativeRationals_correct [in UniMath.RealNumbers.NonnegativeRationals]
gevalstep [in UniMath.Algebra.Universal.TermAlgebras]
GG_ax [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
glueSquares [in UniMath.CategoryTheory.limits.graphs.pushouts]
glueSquares [in UniMath.CategoryTheory.limits.graphs.pullbacks]
glueSquares [in UniMath.CategoryTheory.limits.pullbacks]
gluing_structure_presheaf [in UniMath.AlgebraicGeometry.Spec]
gpaths_ind [in UniMath.Combinatorics.GraphPaths]
graph_mor_comp_assoc [in UniMath.Combinatorics.Graph]
graph_mor_id_right [in UniMath.Combinatorics.Graph]
graph_mor_id_left [in UniMath.Combinatorics.Graph]
greatest_if_contains_sup [in UniMath.Algebra.FixedPointTheorems]
grfromgtunel [in UniMath.Algebra.Groups]
grfromltunel [in UniMath.Algebra.Groups]
grfrompathsxy [in UniMath.Algebra.Domains_and_Fields]
grfunfromunit_ismonoidfun [in UniMath.Algebra.Groups]
grfuntounit_ismonoidfun [in UniMath.Algebra.Groups]
grinvandmonoidfun [in UniMath.Algebra.Groups]
grinvinv [in UniMath.Algebra.Groups]
grinvmaponpathsinv [in UniMath.Algebra.Groups]
grinvop [in UniMath.Algebra.Groups]
grinvunel [in UniMath.Algebra.Groups]
grinv_path_from_op_path [in UniMath.Algebra.Groups]
grlcan [in UniMath.Algebra.Groups]
grquotinvcomp [in UniMath.Algebra.Groups]
grrcan [in UniMath.Algebra.Groups]
grtogtunel [in UniMath.Algebra.Groups]
grtoltunel [in UniMath.Algebra.Groups]
grtopathsxy [in UniMath.Algebra.Domains_and_Fields]
gr_equiv_iso_is_equiv [in UniMath.CategoryTheory.categories.grs]
gr_iso_equiv_is_equiv [in UniMath.CategoryTheory.categories.grs]
gr_equiv_iso [in UniMath.CategoryTheory.categories.grs]
gr_equiv_is_iso [in UniMath.CategoryTheory.categories.grs]
gr_iso_equiv [in UniMath.CategoryTheory.categories.grs]
gr_iso_is_equiv [in UniMath.CategoryTheory.categories.grs]
gr_assoc [in UniMath.CategoryTheory.categories.grs]
gr_id_right [in UniMath.CategoryTheory.categories.grs]
gr_id_left [in UniMath.CategoryTheory.categories.grs]
gr_univalence_isweq [in UniMath.Algebra.Groups]
gtNonnegativeRationals_correct [in UniMath.RealNumbers.NonnegativeRationals]
guided_WOSubset_total [in UniMath.Combinatorics.WellOrderedSets]
Gθ_Strength2_int [in UniMath.SubstitutionSystems.SignatureExamples]
Gθ_Strength1_int [in UniMath.SubstitutionSystems.SignatureExamples]

H

hasBinProducts_WOSET [in UniMath.CategoryTheory.categories.wosets]
has_disp_cellset_disp_presheaf_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
has_homsets_ring_precategory [in UniMath.CategoryTheory.categories.rings]
has_homsets_RelMonad [in UniMath.CategoryTheory.Monads.RelativeMonads]
has_homsets_HSET [in UniMath.CategoryTheory.categories.HSET.Core]
has_homsets_cat_of_elems [in UniMath.CategoryTheory.Elements]
has_homsets_setwith2binop_precategory [in UniMath.CategoryTheory.categories.setwith2binops]
has_homsets_gr_precategory [in UniMath.CategoryTheory.categories.grs]
has_homsets_precategory_from_bicat_and_ob [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
has_homsets_cat_of_elems [in UniMath.CategoryTheory.ElementsOp]
has_homsets_Monad [in UniMath.CategoryTheory.Monads.Monads]
has_homsets_precategory_Monad [in UniMath.CategoryTheory.Monads.Monads]
has_homsets_fld_precategory [in UniMath.CategoryTheory.categories.flds]
has_homsets_BINOP [in UniMath.CategoryTheory.category_binops]
has_homsets_loc_precategory [in UniMath.CategoryTheory.LocalizingClass]
has_homsets_full_img_sub_precategory [in UniMath.CategoryTheory.Subcategory.Full]
has_homsets_full_sub_precategory [in UniMath.CategoryTheory.Subcategory.Full]
has_homsets_hom_data [in UniMath.Bicategories.Core.Bicat]
has_homsets_abgr [in UniMath.CategoryTheory.categories.abgrs]
has_disp_cellset_sigma_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
has_homsets_MonadAlg [in UniMath.CategoryTheory.Monads.MonadAlgebras]
has_homsets_WOSET [in UniMath.CategoryTheory.categories.wosets]
has_homsets_wosetfun_precategory [in UniMath.CategoryTheory.categories.wosets]
has_homsets_FunctorAlg [in UniMath.CategoryTheory.FunctorAlgebras]
has_homsets_opp [in UniMath.CategoryTheory.opp_precat]
has_homsets_fiber_category [in UniMath.CategoryTheory.DisplayedCats.Constructions]
has_homsets_slice_precat [in UniMath.CategoryTheory.slicecat]
has_homsets_Quotcategory [in UniMath.CategoryTheory.PreAdditive]
has_homsets_precategory_hss [in UniMath.SubstitutionSystems.SubstitutionSystems]
has_homsets_precat_of_discrete_fibs [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
has_homsets_Subobjectscategory [in UniMath.CategoryTheory.Subobjects]
has_homsets_commrig_precategory [in UniMath.CategoryTheory.categories.commrigs]
has_homsets_base_precategory_ob_mor [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
has_homsets_CONE [in UniMath.CategoryTheory.limits.cones]
has_trivial_2cells_discrete_prebicat [in UniMath.Bicategories.Discreteness]
has_homsets_graph [in UniMath.CategoryTheory.categories.Graph]
has_homsets_rig_precategory [in UniMath.CategoryTheory.categories.rigs]
has_homsets_ComplexPreCat_AbelianPreCat [in UniMath.HomologicalAlgebra.Complexes]
has_homsets_ComplexPreCat [in UniMath.HomologicalAlgebra.Complexes]
has_homsets_induced_precategory [in UniMath.CategoryTheory.Core.TransportMorphisms]
has_homsets_LModule [in UniMath.CategoryTheory.Monads.LModules]
has_homsets_monoid_precategory [in UniMath.CategoryTheory.categories.monoids]
has_homsets_intdom_precategory [in UniMath.CategoryTheory.categories.intdoms]
has_homsets_precategory_Ptd [in UniMath.CategoryTheory.PointedFunctors]
has_homsets_Under [in UniMath.CategoryTheory.UnderCategories]
has_homsets_coalgebra [in UniMath.CategoryTheory.FunctorCoalgebras]
has_homsets_comma_precat [in UniMath.CategoryTheory.CommaCategories]
has_homsets_cComma_precat [in UniMath.CategoryTheory.CommaCategories]
has_homsets_commring_precategory [in UniMath.CategoryTheory.categories.commrings]
has_homsets_Kleisli [in UniMath.CategoryTheory.Monads.KTriples]
has_homsets_abmonoid_precategory [in UniMath.CategoryTheory.categories.abmonoids]
hcomp_vcomp [in UniMath.Bicategories.Core.Bicat]
hcomp_identity [in UniMath.Bicategories.Core.Bicat]
hcomp_identity_right [in UniMath.Bicategories.Core.Bicat]
hcomp_identity_left [in UniMath.Bicategories.Core.Bicat]
hcomp_rassoc [in UniMath.Bicategories.Core.Bicat]
hcomp_lassoc [in UniMath.Bicategories.Core.Bicat]
hcomp_hcomp' [in UniMath.Bicategories.Core.Bicat]
hconjtohdisj [in UniMath.Foundations.Propositions]
hconj_absorb_hdisj [in UniMath.MoreFoundations.Propositions]
hcons_paths [in UniMath.Algebra.Universal.HVectors]
hdisjtoimpl [in UniMath.Foundations.Propositions]
hdisj_absorb_hconj [in UniMath.MoreFoundations.Propositions]
hdisj_impl_2 [in UniMath.MoreFoundations.Propositions]
hdisj_impl_1 [in UniMath.MoreFoundations.Propositions]
hd_vec_map [in UniMath.Combinatorics.Vectors]
helper [in UniMath.Combinatorics.ZFstructures]
help_triangle_ε [in UniMath.Bicategories.Core.AdjointUnique]
help_triangle_η [in UniMath.Bicategories.Core.AdjointUnique]
help1 [in UniMath.Bicategories.Core.EquivToAdjequiv]
help2 [in UniMath.Bicategories.Core.EquivToAdjequiv]
help3 [in UniMath.Bicategories.Core.EquivToAdjequiv]
help₁ [in UniMath.Bicategories.Core.AdjointUnique]
help₂ [in UniMath.Bicategories.Core.AdjointUnique]
heterogeneous_substitution_into_bracket [in UniMath.SubstitutionSystems.SubstitutionSystems]
hexistsnegtonegforall [in UniMath.Foundations.Propositions]
hexists_open_neighborhood [in UniMath.AlgebraicGeometry.Topology]
hfalse_hdisj [in UniMath.MoreFoundations.Propositions]
hfiberbinop_path [in UniMath.Algebra.BinaryOperations]
hfibershomotftog [in UniMath.Foundations.PartA]
hfibershomotgtof [in UniMath.Foundations.PartA]
hfibertocoprodofhfibers [in UniMath.Foundations.PartC]
hfibertriangle1 [in UniMath.Foundations.PartA]
hfibertriangle1inv0 [in UniMath.Foundations.PartA]
hfibertriangle1inv0' [in UniMath.Foundations.PartA]
hfibertriangle1' [in UniMath.Foundations.PartA]
hfibertriangle2 [in UniMath.Foundations.PartA]
hfiber_is_pullback [in UniMath.CategoryTheory.categories.HSET.Limits]
hfiber_in_hfiber [in UniMath.CategoryTheory.categories.HSET.Structures]
hfp_left [in UniMath.Foundations.PartA]
hfsqstrtofibseqstr [in UniMath.Foundations.PartA]
hinhcoprod [in UniMath.Foundations.Propositions]
hinhuniv' [in UniMath.Topology.Prelim]
hinhuniv2' [in UniMath.Topology.Prelim]
HL [in UniMath.SubstitutionSystems.ModulesFromSignatures]
hlevelntosn [in UniMath.Foundations.PartB]
hlevelretract [in UniMath.Foundations.PartB]
hlevel_total2 [in UniMath.MoreFoundations.PartA]
Hmorok [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Hok [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
homotd3g [in UniMath.Foundations.PartA]
homotfromtococonusf [in UniMath.Foundations.PartA]
homotfuntranspos2 [in UniMath.Foundations.PartC]
homotrecomplnat [in UniMath.Foundations.PartC]
homottofromcoconusf [in UniMath.Foundations.PartA]
homotweqinv [in UniMath.Foundations.PartA]
homotweqinv' [in UniMath.Foundations.PartA]
HomPairOp [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
homset_conj'_after_conj'_inv [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj'_inv_after_conj' [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj_inv_after_conj [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj_after_conj_inv [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj'_after_conj_inv [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj_inv_after_conj' [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj'_natural_postcomp [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj'_natural_precomp [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj_inv_natural_postcomp [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj_inv_natural_precomp [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
Hom1_Representation [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
horcomp_as_hcomp'_pointwise [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
horcomp_post_pre [in UniMath.CategoryTheory.HorizontalComposition]
horcomp_pre_post [in UniMath.CategoryTheory.HorizontalComposition]
horcomp_id_postwhisker [in UniMath.CategoryTheory.HorizontalComposition]
horcomp_id_left [in UniMath.CategoryTheory.HorizontalComposition]
horcomp_id_prewhisker [in UniMath.CategoryTheory.HorizontalComposition]
horelim [in UniMath.PAdics.lemmas]
horizontal_comp_id [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
hPropUnivalence [in UniMath.Foundations.Propositions]
hProp_eq_unit [in UniMath.CategoryTheory.categories.HSET.Structures]
hqgehgthtrans [in UniMath.NumberSystems.RationalNumbers]
hqgeh0andminus [in UniMath.NumberSystems.RationalNumbers]
hqgthgehtrans [in UniMath.NumberSystems.RationalNumbers]
hqgthsnn [in UniMath.NumberSystems.RationalNumbers]
hqgth_hqneq [in UniMath.RealNumbers.Prelim]
hqgth0andminus [in UniMath.NumberSystems.RationalNumbers]
hqinv_gt0 [in UniMath.RealNumbers.Prelim]
hqislinvmultinv [in UniMath.NumberSystems.RationalNumbers]
hqisrinvmultinv [in UniMath.NumberSystems.RationalNumbers]
hqldistr [in UniMath.RealNumbers.Prelim]
hqlehlthtrans [in UniMath.NumberSystems.RationalNumbers]
hqleh0andminus [in UniMath.NumberSystems.RationalNumbers]
hqlminus [in UniMath.NumberSystems.RationalNumbers]
hqlthlehtrans [in UniMath.NumberSystems.RationalNumbers]
hqlth_between [in UniMath.RealNumbers.Prelim]
hqlth0andminus [in UniMath.NumberSystems.RationalNumbers]
hqminusandgeh0 [in UniMath.NumberSystems.RationalNumbers]
hqminusandgth0 [in UniMath.NumberSystems.RationalNumbers]
hqminusandleh0 [in UniMath.NumberSystems.RationalNumbers]
hqminusandlth0 [in UniMath.NumberSystems.RationalNumbers]
hqmultassoc [in UniMath.NumberSystems.RationalNumbers]
hqmultcomm [in UniMath.NumberSystems.RationalNumbers]
hqmultgeh0geh0 [in UniMath.NumberSystems.RationalNumbers]
hqmultgeh0gth0 [in UniMath.NumberSystems.RationalNumbers]
hqmultgeh0leh0 [in UniMath.NumberSystems.RationalNumbers]
hqmultgeh0lth0 [in UniMath.NumberSystems.RationalNumbers]
hqmultgth0geh0 [in UniMath.NumberSystems.RationalNumbers]
hqmultgth0gth0 [in UniMath.NumberSystems.RationalNumbers]
hqmultgth0leh0 [in UniMath.NumberSystems.RationalNumbers]
hqmultgth0lth0 [in UniMath.NumberSystems.RationalNumbers]
hqmultlcan [in UniMath.NumberSystems.RationalNumbers]
hqmultleh0geh0 [in UniMath.NumberSystems.RationalNumbers]
hqmultleh0gth0 [in UniMath.NumberSystems.RationalNumbers]
hqmultleh0leh0 [in UniMath.NumberSystems.RationalNumbers]
hqmultleh0lth0 [in UniMath.NumberSystems.RationalNumbers]
hqmultlth0geh0 [in UniMath.NumberSystems.RationalNumbers]
hqmultlth0gth0 [in UniMath.NumberSystems.RationalNumbers]
hqmultlth0leh0 [in UniMath.NumberSystems.RationalNumbers]
hqmultlth0lth0 [in UniMath.NumberSystems.RationalNumbers]
hqmultl1 [in UniMath.NumberSystems.RationalNumbers]
hqmultrcan [in UniMath.NumberSystems.RationalNumbers]
hqmultr1 [in UniMath.NumberSystems.RationalNumbers]
hqmultx0 [in UniMath.NumberSystems.RationalNumbers]
hqmult0x [in UniMath.NumberSystems.RationalNumbers]
hqmult2r [in UniMath.RealNumbers.Prelim]
hqplusassoc [in UniMath.NumberSystems.RationalNumbers]
hqpluscomm [in UniMath.NumberSystems.RationalNumbers]
hqplusdiv2 [in UniMath.RealNumbers.Prelim]
hqpluslcan [in UniMath.NumberSystems.RationalNumbers]
hqplusl0 [in UniMath.NumberSystems.RationalNumbers]
hqplusrcan [in UniMath.NumberSystems.RationalNumbers]
hqplusr0 [in UniMath.NumberSystems.RationalNumbers]
hqrminus [in UniMath.NumberSystems.RationalNumbers]
hq0lehandmult [in UniMath.RealNumbers.Prelim]
hq0lehandplus [in UniMath.RealNumbers.Prelim]
hq0leminus [in UniMath.RealNumbers.Prelim]
hq1ge0 [in UniMath.RealNumbers.Prelim]
hq1_gt0 [in UniMath.RealNumbers.Prelim]
hq2eq1plus1 [in UniMath.RealNumbers.Prelim]
hq2_gt0 [in UniMath.RealNumbers.Prelim]
hr_archimedean [in UniMath.RealNumbers.Reals]
hr_abs_mult [in UniMath.RealNumbers.Reals]
hr_abs_minus [in UniMath.RealNumbers.Reals]
hr_abs_opp [in UniMath.RealNumbers.Reals]
hr_ex_inv [in UniMath.RealNumbers.Reals]
hr_isrinv_pos [in UniMath.RealNumbers.Reals]
hr_islinv_pos [in UniMath.RealNumbers.Reals]
hr_isrinv_neg [in UniMath.RealNumbers.Reals]
hr_islinv_neg [in UniMath.RealNumbers.Reals]
hr_ap_0_1 [in UniMath.RealNumbers.Reals]
hr_ap_lt [in UniMath.RealNumbers.Reals]
hr_mult_lecompat_r' [in UniMath.RealNumbers.Reals]
hr_mult_lecompat_r [in UniMath.RealNumbers.Reals]
hr_mult_lecompat_l' [in UniMath.RealNumbers.Reals]
hr_mult_lecompat_l [in UniMath.RealNumbers.Reals]
hr_mult_ltcompat_r' [in UniMath.RealNumbers.Reals]
hr_mult_ltcompat_l' [in UniMath.RealNumbers.Reals]
hr_mult_ltcompat_l [in UniMath.RealNumbers.Reals]
hr_plus_lecompat_r [in UniMath.RealNumbers.Reals]
hr_plus_lecompat_l [in UniMath.RealNumbers.Reals]
hr_plus_ltcompat_r [in UniMath.RealNumbers.Reals]
hr_plus_ltcompat_l [in UniMath.RealNumbers.Reals]
hr_to_NR_negative [in UniMath.RealNumbers.Reals]
hr_to_NR_nonpositive [in UniMath.RealNumbers.Reals]
hr_to_NR_positive [in UniMath.RealNumbers.Reals]
hr_to_NR_nonnegative [in UniMath.RealNumbers.Reals]
hr_lt_le [in UniMath.RealNumbers.Reals]
hr_notlt_le [in UniMath.RealNumbers.Reals]
hr_to_NRneg_minus [in UniMath.RealNumbers.Reals]
hr_to_NRpos_minus [in UniMath.RealNumbers.Reals]
hr_opp_minus [in UniMath.RealNumbers.Reals]
hr_to_NRneg_opp [in UniMath.RealNumbers.Reals]
hr_to_NRpos_opp [in UniMath.RealNumbers.Reals]
hr_to_NR_opp [in UniMath.RealNumbers.Reals]
hr_to_NR_one [in UniMath.RealNumbers.Reals]
hr_to_NR_zero [in UniMath.RealNumbers.Reals]
hr_to_NRneg_NR_to_hr_std [in UniMath.RealNumbers.Reals]
hr_to_NRpos_NR_to_hr_std [in UniMath.RealNumbers.Reals]
hr_to_NRnegpos_zero [in UniMath.RealNumbers.Reals]
hr_to_NRposneg_zero [in UniMath.RealNumbers.Reals]
hr_to_NR_bij [in UniMath.RealNumbers.Reals]
hr_to_NRneg_NR_to_hr [in UniMath.RealNumbers.Reals]
hr_to_NRpos_NR_to_hr [in UniMath.RealNumbers.Reals]
hr_to_NR_correct [in UniMath.RealNumbers.Reals]
hset_id_weq_iso_is [in UniMath.CategoryTheory.categories.HSET.Univalence]
hset_equiv_iso_is_equiv [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hset_iso_equiv_is_equiv [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hset_equiv_iso [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hset_equiv_is_iso [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hset_iso_equiv [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hset_iso_is_equiv [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hSet_rect [in UniMath.Foundations.Sets]
hSet_univalence [in UniMath.Foundations.Sets]
hsort [in UniMath.SubstitutionSystems.CCS_alt]
hsort [in UniMath.SubstitutionSystems.STLC_alt]
hss_InitMor_unique [in UniMath.SubstitutionSystems.LiftingInitial_alt]
hss_InitMor_unique [in UniMath.SubstitutionSystems.LiftingInitial]
hsubtype_rect [in UniMath.MoreFoundations.Subtypes]
hsubtype_univalence [in UniMath.MoreFoundations.Subtypes]
htrue_hconj [in UniMath.MoreFoundations.Propositions]
htype [in UniMath.SubstitutionSystems.PCF_alt]
HU [in UniMath.SubstitutionSystems.LiftingInitial_alt]
hvec_vec_fill [in UniMath.Algebra.Universal.HVectors]
hzabsvalandlth [in UniMath.PAdics.lemmas]
hzabsvalandminuspos [in UniMath.PAdics.lemmas]
hzabsvalandmult [in UniMath.NumberSystems.Integers]
hzabsvalandnattohz [in UniMath.PAdics.lemmas]
hzabsvalandplusneg [in UniMath.PAdics.lemmas]
hzabsvalandplusnonneg [in UniMath.PAdics.lemmas]
hzabsvaland1 [in UniMath.PAdics.lemmas]
hzabsvalchoice [in UniMath.PAdics.lemmas]
hzabsvaleq0 [in UniMath.NumberSystems.Integers]
hzabsvalgeh0 [in UniMath.NumberSystems.Integers]
hzabsvalgth0 [in UniMath.NumberSystems.Integers]
hzabsvalintcomp [in UniMath.NumberSystems.Integers]
hzabsvalleh0 [in UniMath.NumberSystems.Integers]
hzabsvallth0 [in UniMath.NumberSystems.Integers]
hzabsvalneq0 [in UniMath.PAdics.lemmas]
hzabsval0 [in UniMath.NumberSystems.Integers]
hzaddinvplus [in UniMath.PAdics.lemmas]
hzbooleqisi [in UniMath.NumberSystems.Integers]
hzbooleqisi' [in UniMath.NumberSystems.Integers]
hzbooleqissi [in UniMath.NumberSystems.Integers]
hzdichot [in UniMath.NumberSystems.Integers]
hzdivandminus [in UniMath.PAdics.z_mod_p]
hzdivandmultl [in UniMath.PAdics.z_mod_p]
hzdivandmultr [in UniMath.PAdics.z_mod_p]
hzdivand0 [in UniMath.PAdics.z_mod_p]
hzdivhzabsval [in UniMath.PAdics.z_mod_p]
hzdivisrefl [in UniMath.PAdics.z_mod_p]
hzdivistrans [in UniMath.PAdics.z_mod_p]
hzdivlinearcombleft [in UniMath.PAdics.z_mod_p]
hzdivlinearcombright [in UniMath.PAdics.z_mod_p]
hzeqbooleqii [in UniMath.NumberSystems.Integers]
hzeqeisi [in UniMath.NumberSystems.Integers]
hzeqeissi [in UniMath.NumberSystems.Integers]
hzeqisi [in UniMath.NumberSystems.Integers]
hzeqissi [in UniMath.NumberSystems.Integers]
hzeqnmplusr [in UniMath.NumberSystems.Integers]
hzeqnmplusr' [in UniMath.NumberSystems.Integers]
hzeqpii [in UniMath.NumberSystems.Integers]
hzeqsnmnsm [in UniMath.NumberSystems.Integers]
hzfpstimesnonzero [in UniMath.PAdics.padics]
hzfpstimeswhenzero [in UniMath.PAdics.padics]
hzgcdandminusl [in UniMath.PAdics.z_mod_p]
hzgcdandminusr [in UniMath.PAdics.z_mod_p]
hzgcdsymm [in UniMath.PAdics.z_mod_p]
hzgehchoice2 [in UniMath.NumberSystems.Integers]
hzgehgthtrans [in UniMath.NumberSystems.Integers]
hzgehsntogth [in UniMath.NumberSystems.Integers]
hzgeh0andminus [in UniMath.NumberSystems.Integers]
hzgthchoice2 [in UniMath.NumberSystems.Integers]
hzgthgehtrans [in UniMath.NumberSystems.Integers]
hzgthsnn [in UniMath.NumberSystems.Integers]
hzgthsntogeh [in UniMath.PAdics.lemmas]
hzgthsntogeh [in UniMath.NumberSystems.Integers]
hzgthtogehsn [in UniMath.NumberSystems.Integers]
hzgthtoneq [in UniMath.NumberSystems.Integers]
hzgth0andminus [in UniMath.NumberSystems.Integers]
hzlehchoice2 [in UniMath.NumberSystems.Integers]
hzlehlthtrans [in UniMath.NumberSystems.Integers]
hzlehsntolth [in UniMath.NumberSystems.Integers]
hzleh0andminus [in UniMath.NumberSystems.Integers]
hzlminus [in UniMath.NumberSystems.Integers]
hzlthchoice2 [in UniMath.NumberSystems.Integers]
hzlthlehtrans [in UniMath.NumberSystems.Integers]
hzlthminus [in UniMath.PAdics.lemmas]
hzlthminusequiv [in UniMath.PAdics.lemmas]
hzlthminusswap [in UniMath.PAdics.lemmas]
hzlthsntoleh [in UniMath.PAdics.lemmas]
hzlthsntoleh [in UniMath.NumberSystems.Integers]
hzlthtolehsn [in UniMath.NumberSystems.Integers]
hzlthtoneq [in UniMath.NumberSystems.Integers]
hzlth0andminus [in UniMath.NumberSystems.Integers]
hzminusandgeh0 [in UniMath.NumberSystems.Integers]
hzminusandgth0 [in UniMath.NumberSystems.Integers]
hzminusandleh0 [in UniMath.NumberSystems.Integers]
hzminusandlth0 [in UniMath.NumberSystems.Integers]
hzminusplus [in UniMath.NumberSystems.Integers]
hzmodcompatmultl [in UniMath.PAdics.z_mod_p]
hzmodcompatmultr [in UniMath.PAdics.z_mod_p]
hzmodcompatplusl [in UniMath.PAdics.z_mod_p]
hzmodcompatplusr [in UniMath.PAdics.z_mod_p]
hzmodisaprop [in UniMath.PAdics.z_mod_p]
hzmodiseqrel [in UniMath.PAdics.z_mod_p]
hzmodisrefl [in UniMath.PAdics.z_mod_p]
hzmodisringeqrel [in UniMath.PAdics.z_mod_p]
hzmodissymm [in UniMath.PAdics.z_mod_p]
hzmodistrans [in UniMath.PAdics.z_mod_p]
hzmodprimeinv [in UniMath.PAdics.z_mod_p]
hzmultassoc [in UniMath.NumberSystems.Integers]
hzmultcomm [in UniMath.NumberSystems.Integers]
hzmultgeh0geh0 [in UniMath.NumberSystems.Integers]
hzmultgeh0gth0 [in UniMath.NumberSystems.Integers]
hzmultgeh0leh0 [in UniMath.NumberSystems.Integers]
hzmultgeh0lth0 [in UniMath.NumberSystems.Integers]
hzmultgth0geh0 [in UniMath.NumberSystems.Integers]
hzmultgth0gth0 [in UniMath.NumberSystems.Integers]
hzmultgth0leh0 [in UniMath.NumberSystems.Integers]
hzmultgth0lth0 [in UniMath.NumberSystems.Integers]
hzmultlcan [in UniMath.NumberSystems.Integers]
hzmultleh0geh0 [in UniMath.NumberSystems.Integers]
hzmultleh0gth0 [in UniMath.NumberSystems.Integers]
hzmultleh0leh0 [in UniMath.NumberSystems.Integers]
hzmultleh0lth0 [in UniMath.NumberSystems.Integers]
hzmultlth0geh0 [in UniMath.NumberSystems.Integers]
hzmultlth0gth0 [in UniMath.NumberSystems.Integers]
hzmultlth0leh0 [in UniMath.NumberSystems.Integers]
hzmultlth0lth0 [in UniMath.NumberSystems.Integers]
hzmultl1 [in UniMath.NumberSystems.Integers]
hzmultrcan [in UniMath.NumberSystems.Integers]
hzmultr1 [in UniMath.NumberSystems.Integers]
hzmultx0 [in UniMath.NumberSystems.Integers]
hzmult0x [in UniMath.NumberSystems.Integers]
hzone_neg_hzzero [in UniMath.RealNumbers.Prelim]
hzplusassoc [in UniMath.NumberSystems.Integers]
hzpluscomm [in UniMath.NumberSystems.Integers]
hzpluslcan [in UniMath.NumberSystems.Integers]
hzplusl0 [in UniMath.NumberSystems.Integers]
hzplusrcan [in UniMath.NumberSystems.Integers]
hzplusr0 [in UniMath.NumberSystems.Integers]
hzqrandcarryeq [in UniMath.PAdics.padics]
hzqrandcarryineq [in UniMath.PAdics.padics]
hzqrandcarryq [in UniMath.PAdics.padics]
hzqrandcarryr [in UniMath.PAdics.padics]
hzqrandnatsummation0q [in UniMath.PAdics.padics]
hzqrandnatsummation0r [in UniMath.PAdics.padics]
hzqrandpluseq [in UniMath.PAdics.z_mod_p]
hzqrandplusineq [in UniMath.PAdics.z_mod_p]
hzqrandremaindereq [in UniMath.PAdics.z_mod_p]
hzqrandremainderineq [in UniMath.PAdics.z_mod_p]
hzqrandremainderq [in UniMath.PAdics.z_mod_p]
hzqrandselfeq [in UniMath.PAdics.z_mod_p]
hzqrandselfineq [in UniMath.PAdics.z_mod_p]
hzqrandselfq [in UniMath.PAdics.z_mod_p]
hzqrandselfr [in UniMath.PAdics.z_mod_p]
hzqrandtimeseq [in UniMath.PAdics.z_mod_p]
hzqrandtimesineq [in UniMath.PAdics.z_mod_p]
hzqrand0eq [in UniMath.PAdics.z_mod_p]
hzqrand0ineq [in UniMath.PAdics.z_mod_p]
hzqrand0q [in UniMath.PAdics.z_mod_p]
hzqrand0r [in UniMath.PAdics.z_mod_p]
hzqrand1eq [in UniMath.PAdics.z_mod_p]
hzqrand1ineq [in UniMath.PAdics.z_mod_p]
hzqrand1q [in UniMath.PAdics.z_mod_p]
hzqrand1r [in UniMath.PAdics.z_mod_p]
hzqrtest [in UniMath.PAdics.z_mod_p]
hzquotientandfpstimesl [in UniMath.PAdics.padics]
hzquotientandtimesl [in UniMath.PAdics.padics]
hzquotientmodandplus [in UniMath.PAdics.z_mod_p]
hzquotientmodandtimes [in UniMath.PAdics.z_mod_p]
hzremaindermodanddiv [in UniMath.PAdics.z_mod_p]
hzremaindermodandmultl [in UniMath.PAdics.z_mod_p]
hzremaindermodandplus [in UniMath.PAdics.z_mod_p]
hzremaindermodandtimes [in UniMath.PAdics.z_mod_p]
hzremaindermoditerated [in UniMath.PAdics.z_mod_p]
hzremaindermodprimeandtimes [in UniMath.PAdics.padics]
hzrminus [in UniMath.NumberSystems.Integers]
hzrminusplus [in UniMath.NumberSystems.Integers]
hzrminusplus' [in UniMath.NumberSystems.Integers]
hzrplusminus [in UniMath.NumberSystems.Integers]
hzrplusminus' [in UniMath.NumberSystems.Integers]
hzsign_hzsign [in UniMath.NumberSystems.Integers]
hzsign_nattohz [in UniMath.NumberSystems.Integers]
hzsign_natnattohz [in UniMath.NumberSystems.Integers]
hztohqandleh' [in UniMath.RealNumbers.Prelim]
hztohqandlth' [in UniMath.RealNumbers.Prelim]
hz_abgr_fun_monoifun_paths [in UniMath.CategoryTheory.categories.abgrs]
hz_abmonoid_ismonoidfun [in UniMath.NumberSystems.Integers]
H'morok [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
H'ok [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
h1 [in UniMath.Combinatorics.WellOrderedSets]
h1map_path [in UniMath.Algebra.Universal.HVectors]
h1map_h1lift_as_h2map [in UniMath.Algebra.Universal.HVectors]
h1map_compose [in UniMath.Algebra.Universal.HVectors]
h1map_idfun [in UniMath.Algebra.Universal.HVectors]
h1'' [in UniMath.Combinatorics.WellOrderedSets]
h2lower_h1map_h1lift [in UniMath.Algebra.Universal.HVectors]

I

ideal_rigunel2 [in UniMath.Algebra.RigsAndRings.Ideals]
identityFunction [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
identityFunction' [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
IdentityIsHQIS [in UniMath.HomologicalAlgebra.CohomologyComplex]
IdentityIsQIS [in UniMath.HomologicalAlgebra.CohomologyComplex]
IdentityPlusEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IdentityPlusMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
identity_functor_is_fully_faithful [in UniMath.CategoryTheory.Core.Functors]
identity_matrix [in UniMath.Algebra.Matrix]
identity_is_z_iso [in UniMath.CategoryTheory.Core.Isos]
identity_is_iso [in UniMath.CategoryTheory.Core.Isos]
identity_functor_is_adj_equivalence [in UniMath.CategoryTheory.Equivalences.Core]
identity_Monic [in UniMath.CategoryTheory.Monics]
identity_isMonic [in UniMath.CategoryTheory.Monics]
identity_comm [in UniMath.CategoryTheory.LatticeObject]
identity_to_product [in UniMath.CategoryTheory.limits.FinOrdProducts]
identity_Epi [in UniMath.CategoryTheory.Epis]
identity_isEpi [in UniMath.CategoryTheory.Epis]
ident_is_prop [in UniMath.Foundations.HLevels]
idisweq [in UniMath.Foundations.PartA]
IDMappingConeEq [in UniMath.HomologicalAlgebra.MappingCone]
IDMappingCone_is_z_isomorphism [in UniMath.HomologicalAlgebra.MappingCone]
IDMappingCone_is_z_isomorphism_inverses [in UniMath.HomologicalAlgebra.MappingCone]
IdMorComm [in UniMath.HomologicalAlgebra.Complexes]
IdRoofEqrel_right [in UniMath.CategoryTheory.LocalizingClass]
IdRoofEqrel_left [in UniMath.CategoryTheory.LocalizingClass]
idtoiso_relmonad_eq_from_relmonad_iso [in UniMath.CategoryTheory.Monads.RelativeMonads]
idtoiso_functorcat_compute_pointwise' [in UniMath.CategoryTheory.Monads.RelativeMonads]
idtoiso_fiber_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
idtoiso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
idtoiso_FunctorAlg_commutes [in UniMath.CategoryTheory.FunctorAlgebras]
idtoiso_functor_eq_from_functor_iso [in UniMath.CategoryTheory.FunctorCategory]
idtoiso_functorcat_compute_pointwise [in UniMath.CategoryTheory.FunctorCategory]
idtoiso_shSet_eq_from_shSet_iso [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
idtoiso_shSet_category_compute_pointwise [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
idtoiso_inj [in UniMath.CategoryTheory.Core.Univalence]
idtoiso_concat [in UniMath.CategoryTheory.Core.Univalence]
idtoiso_inv [in UniMath.CategoryTheory.Core.Univalence]
idtoiso_precompose_iso [in UniMath.CategoryTheory.Core.Univalence]
idtoiso_precompose [in UniMath.CategoryTheory.Core.Univalence]
idtoiso_postcompose_iso [in UniMath.CategoryTheory.Core.Univalence]
idtoiso_postcompose [in UniMath.CategoryTheory.Core.Univalence]
idtoiso_isotoid [in UniMath.CategoryTheory.Core.Univalence]
idtoiso_isotoid_CONE [in UniMath.CategoryTheory.limits.cones]
idtoiso_2_1_lwhisker [in UniMath.Bicategories.Core.TransportLaws]
idtoiso_2_1_rwhisker [in UniMath.Bicategories.Core.TransportLaws]
idtoiso_2_1_concat [in UniMath.Bicategories.Core.TransportLaws]
idtoiso_2_1_inv [in UniMath.Bicategories.Core.TransportLaws]
idtoiso_2_1_strict_cat [in UniMath.Bicategories.Core.Examples.StrictCats]
idtoiso_2_1_strict_cat_help [in UniMath.Bicategories.Core.Examples.StrictCats]
idtomor_FunctorAlg_commutes [in UniMath.CategoryTheory.FunctorAlgebras]
idto2mor_idtoiso_two_cat [in UniMath.Bicategories.Core.Strictness]
idto2mor_transport [in UniMath.Bicategories.Core.Strictness]
idto2mor_idtoiso [in UniMath.Bicategories.Core.Strictness]
IdZeroMap_isMonic [in UniMath.CategoryTheory.AbelianToAdditive]
Id_p_weq_Id [in UniMath.Foundations.HLevels]
Id_in_sub_to_iso_equal_iso [in UniMath.CategoryTheory.Subcategory.Full]
id_weq_iso_slicecat [in UniMath.CategoryTheory.slicecat]
id_folds_iso_prop [in UniMath.Folds.folds_isomorphism]
id_2mor_right [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
id_2mor_left [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
id_identity2' [in UniMath.Folds.from_precats_to_folds_and_back]
id_identity2 [in UniMath.Folds.from_precats_to_folds_and_back]
id_identity' [in UniMath.Folds.from_precats_to_folds_and_back]
id_identity [in UniMath.Folds.from_precats_to_folds_and_back]
id_pred_id [in UniMath.Folds.from_precats_to_folds_and_back]
id_conjugation [in UniMath.CategoryTheory.Core.Categories]
ifcontrthenunitl0 [in UniMath.Foundations.PartA]
ifI_eq [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ii1_injectivity [in UniMath.Foundations.PartA]
ii2_injectivity [in UniMath.Foundations.PartA]
image_is_in_image [in UniMath.CategoryTheory.Subcategory.Full]
Image_Eq [in UniMath.CategoryTheory.ShortExactSequences]
impred [in UniMath.Foundations.PartD]
impredfun [in UniMath.Foundations.PartD]
impredtech1 [in UniMath.Foundations.PartD]
impredtwice [in UniMath.Foundations.PartD]
impred_isaset [in UniMath.Foundations.PartD]
impred_isaprop [in UniMath.Foundations.PartD]
impred_iscontr [in UniMath.Foundations.PartD]
impred_prop [in UniMath.Foundations.Propositions]
incl_injectivity [in UniMath.Foundations.PartD]
inducedMapReflectsCokernels [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
inducedMapReflectsKernelCokernelPairs [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
inducedMapReflectsKernels [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
inducedPartialOrder [in UniMath.Combinatorics.OrderedSets]
inducedPartialOrder_weq [in UniMath.Combinatorics.OrderedSets]
induced_precategory_reflects_pushouts [in UniMath.CategoryTheory.limits.pushouts]
induced_opposite_PreAdditive [in UniMath.CategoryTheory.PreAdditive]
induced_precategory_reflects_pullbacks [in UniMath.CategoryTheory.limits.pullbacks]
induced_opposite_Additive [in UniMath.CategoryTheory.Additive]
initialAlg_is_iso [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
initialAlg_is_iso [in UniMath.CategoryTheory.FunctorAlgebras]
initialAlg_is_iso_subproof [in UniMath.CategoryTheory.FunctorAlgebras]
InitialArrowEq [in UniMath.CategoryTheory.limits.initial]
InitialArrowUnique [in UniMath.CategoryTheory.limits.initial]
InitialArrowUnique [in UniMath.CategoryTheory.limits.graphs.initial]
InitialEndo_is_identity [in UniMath.CategoryTheory.limits.initial]
InitialEndo_is_identity [in UniMath.CategoryTheory.limits.graphs.initial]
InitialHSET [in UniMath.CategoryTheory.categories.HSET.Colimits]
InitialHSET_from_Colims [in UniMath.CategoryTheory.categories.HSET.Colimits]
InitialHSET2 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
InitialHSS [in UniMath.SubstitutionSystems.LiftingInitial_alt]
InitialHSS [in UniMath.SubstitutionSystems.LiftingInitial]
InitialToCoproduct [in UniMath.CategoryTheory.limits.FinOrdCoproducts]
InitialType [in UniMath.CategoryTheory.categories.Type.Colimits]
Initial_PreShv [in UniMath.CategoryTheory.Presheaf]
initial_bicat_laws [in UniMath.Bicategories.Core.Examples.Initial]
Initial_WOSET [in UniMath.CategoryTheory.categories.wosets]
Initial_wosetfuncat [in UniMath.CategoryTheory.categories.wosets]
Initial_slice_precat [in UniMath.CategoryTheory.slicecat]
Initial_from_Colims [in UniMath.CategoryTheory.limits.graphs.initial]
initial_in_full_subcategory [in UniMath.CategoryTheory.Subcategory.Limits]
Initial_and_Terminal_ob_equals_Zero_ob [in UniMath.CategoryTheory.limits.graphs.zero]
injective_pairing_uip [in UniMath.MoreFoundations.NoInjectivePairing]
intdomax2l [in UniMath.Algebra.Domains_and_Fields]
intdomax2r [in UniMath.Algebra.Domains_and_Fields]
intdomiscancelable [in UniMath.Algebra.Domains_and_Fields]
intdomlcan [in UniMath.Algebra.Domains_and_Fields]
intdomrcan [in UniMath.Algebra.Domains_and_Fields]
intdom_univalence_isweq [in UniMath.Algebra.Domains_and_Fields]
intdom_equiv_iso_is_equiv [in UniMath.CategoryTheory.categories.intdoms]
intdom_iso_equiv_is_equiv [in UniMath.CategoryTheory.categories.intdoms]
intdom_equiv_iso [in UniMath.CategoryTheory.categories.intdoms]
intdom_equiv_is_iso [in UniMath.CategoryTheory.categories.intdoms]
intdom_iso_equiv [in UniMath.CategoryTheory.categories.intdoms]
intdom_iso_is_equiv [in UniMath.CategoryTheory.categories.intdoms]
intdom_assoc [in UniMath.CategoryTheory.categories.intdoms]
intdom_id_right [in UniMath.CategoryTheory.categories.intdoms]
intdom_id_left [in UniMath.CategoryTheory.categories.intdoms]
interchange [in UniMath.Bicategories.Core.BicategoryLaws]
interchange [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
interchange_functorial_composition [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
intersection_submonoid [in UniMath.Algebra.Monoids]
intersection_subgr [in UniMath.Algebra.Groups]
intersection_submodule [in UniMath.Algebra.Modules.Submodule]
interval_cartesian_cubical_sets_is_tiny [in UniMath.CategoryTheory.categories.CartesianCubicalSets]
interval_cartesian_cubical_sets_dec_eq [in UniMath.CategoryTheory.categories.CartesianCubicalSets]
interval_cartesian_cubical_sets_two_elements [in UniMath.CategoryTheory.categories.CartesianCubicalSets]
invbinophrelandfun [in UniMath.Algebra.BinaryOperations]
inversePathOverWeq' [in UniMath.MoreFoundations.PathsOver]
inverse_pentagon_6 [in UniMath.Bicategories.Core.BicategoryLaws]
inverse_pentagon_5 [in UniMath.Bicategories.Core.BicategoryLaws]
inverse_pentagon_4 [in UniMath.Bicategories.Core.BicategoryLaws]
inverse_pentagon_3 [in UniMath.Bicategories.Core.BicategoryLaws]
inverse_pentagon_2 [in UniMath.Bicategories.Core.BicategoryLaws]
inverse_pentagon [in UniMath.Bicategories.Core.BicategoryLaws]
inverse_unique_precat [in UniMath.CategoryTheory.Core.Isos]
inverse_of_assoc [in UniMath.Bicategories.Core.Invertible_2cells]
inverse_cp_p_compare [in UniMath.MoreFoundations.PathsOver]
inverse_is_inverse_2 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
inverse_is_inverse_1 [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
invertibilityinabmonoidfrac [in UniMath.Algebra.Monoids]
invertibilityincommringfrac [in UniMath.Algebra.RigsAndRings]
InvHomotEq [in UniMath.HomologicalAlgebra.MappingCone]
invinv [in UniMath.Foundations.PartA]
invmaponpathsS [in UniMath.Foundations.NaturalNumbers]
invmap_eq [in UniMath.MoreFoundations.PartA]
invNonnegativeRationals_ltcompat' [in UniMath.RealNumbers.NonnegativeRationals]
invNonnegativeRationals_ltcompat [in UniMath.RealNumbers.NonnegativeRationals]
invNonnegativeRationals_lecompat' [in UniMath.RealNumbers.NonnegativeRationals]
invNonnegativeRationals_lecompat [in UniMath.RealNumbers.NonnegativeRationals]
invNonnegativeRationals_correct [in UniMath.RealNumbers.NonnegativeRationals]
invproofirrelevance [in UniMath.Foundations.PartB]
InvRotIso_Mor_Comm3 [in UniMath.HomologicalAlgebra.Triangulated]
InvRotIso_Mor_Comm2 [in UniMath.HomologicalAlgebra.Triangulated]
InvRotIso_Mor_Comm1 [in UniMath.HomologicalAlgebra.Triangulated]
InvRotMorphismComm [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismComm2 [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismComm3 [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismComm3' [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismIso'_eq2' [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismIso'_eq2_2 [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismIso'_eq2_1 [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismMorInvComm [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphism_is_z_isomorphism_inverses [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphism_is_iso_with_inv_eq2 [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphism_is_iso_with_inv_eq1 [in UniMath.HomologicalAlgebra.MappingCone]
InvRotTriMor_Comm3 [in UniMath.HomologicalAlgebra.Triangulated]
InvRotTriMor_Comm1 [in UniMath.HomologicalAlgebra.Triangulated]
invstruct_weq_bck [in UniMath.Algebra.BinaryOperations]
invstruct_weq_fwd [in UniMath.Algebra.BinaryOperations]
InvTranslationFunctorHImEquality [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorHomotopies [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_isAdditiveFunctor [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_Mor_Im [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_comm [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_Mor_Comp [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_Mor_Id [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_Mor_unique [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorPreservesHomotopies [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_eq [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_isfunctor [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_comm [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_comp [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationHTranslationH [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationHTranslationHNatTrans_isnattrans [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslation [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslationNatTrans_isnattrans [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslationNatTrans_Eq1 [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslation_eq2 [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslation_eq1 [in UniMath.HomologicalAlgebra.TranslationFunctors]
inv_from_iso_iso_from_fully_faithful_reflection [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
inv_from_iso_comp [in UniMath.CategoryTheory.LocalizingClass]
inv_cell_eq [in UniMath.Bicategories.Core.Bicat]
inv_idweq_is_idweq [in UniMath.Foundations.PartD]
inv_from_iso_iso_from_Pullback [in UniMath.CategoryTheory.limits.graphs.coequalizers]
inv_of_ff_inv_is_inv [in UniMath.CategoryTheory.Core.Functors]
inv_from_iso_iso_from_Pushout [in UniMath.CategoryTheory.limits.graphs.pushouts]
inv_from_iso_iso_from_Pushout [in UniMath.CategoryTheory.limits.pushouts]
inv_mor_total_iso [in UniMath.CategoryTheory.DisplayedCats.Core]
inv_from_iso_iso_from_Pullback [in UniMath.CategoryTheory.limits.graphs.equalizers]
inv_z_iso_unique' [in UniMath.CategoryTheory.Core.Isos]
inv_z_iso_unique [in UniMath.CategoryTheory.Core.Isos]
inv_iso_unique' [in UniMath.CategoryTheory.Core.Isos]
inv_iso_unique [in UniMath.CategoryTheory.Core.Isos]
inv_zeroNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
inv_folds_iso_prop [in UniMath.Folds.folds_isomorphism]
inv_isotoid [in UniMath.CategoryTheory.Core.Univalence]
inv_from_iso_ConeConnectIso [in UniMath.CategoryTheory.limits.cones]
inv_isColim_is_iso [in UniMath.CategoryTheory.limits.graphs.colimits]
inv_monad_mor_natural_pointwise [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
inv_horizontal_comp [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
inv_triangle_2_statement_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
inv_triangle_1_statement_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
inv_ax [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
inv_from_iso_iso_from_Pullback [in UniMath.CategoryTheory.limits.graphs.pullbacks]
inv_from_iso_iso_from_Pullback [in UniMath.CategoryTheory.limits.pullbacks]
inv_inv_eq [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
inv_isLim_is_iso [in UniMath.CategoryTheory.limits.graphs.limits]
In1IsAdmMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
In2IsAdmMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
irref [in UniMath.Paradoxes.GirardsParadox]
irrefl [in UniMath.Combinatorics.WellFoundedRelations]
irrel_paths [in UniMath.MoreFoundations.PartA]
isabgrcarrier [in UniMath.Algebra.Groups]
isabgrdirprod [in UniMath.Algebra.Groups]
isabgrop_ringofendabgr_op1 [in UniMath.Algebra.Modules.Core]
isabgrop_weq_bck [in UniMath.Algebra.BinaryOperations]
isabgrop_weq_fwd [in UniMath.Algebra.BinaryOperations]
isabgrquot [in UniMath.Algebra.Groups]
isabmonoidop_weq_bck [in UniMath.Algebra.BinaryOperations]
isabmonoidop_weq_fwd [in UniMath.Algebra.BinaryOperations]
isabsorb_weq_bck [in UniMath.Algebra.BinaryOperations]
isabsorb_weq_fwd [in UniMath.Algebra.BinaryOperations]
isabsorb_cat_comm [in UniMath.CategoryTheory.LatticeObject]
isAdditiveCriteria [in UniMath.CategoryTheory.AdditiveFunctors]
isAdditiveCriteria_BinOp [in UniMath.CategoryTheory.AdditiveFunctors]
isAdditiveCriteria_BinOp_eq [in UniMath.CategoryTheory.AdditiveFunctors]
isAdditiveCriteria_isBinopFun_Pr [in UniMath.CategoryTheory.AdditiveFunctors]
isAdditiveCriteria_preservesUnel [in UniMath.CategoryTheory.AdditiveFunctors]
isAdditiveCriteria_isZero [in UniMath.CategoryTheory.AdditiveFunctors]
isaddmonoidfun_restriction_section [in UniMath.AlgebraicGeometry.Spec]
isalghom_pr1foldr [in UniMath.CategoryTheory.Inductives.Lists]
isalghom_pr1foldr [in UniMath.CategoryTheory.Inductives.Trees]
isaninvpropneg [in UniMath.Foundations.PartC]
isaninv1 [in UniMath.Foundations.PartC]
isantisymmabgrdiffrel [in UniMath.Algebra.Groups]
isantisymmabmonoidfracrel [in UniMath.Algebra.Monoids]
isantisymmnegabgrdiffrel [in UniMath.Algebra.Groups]
isantisymmnegabmonoidfracrel [in UniMath.Algebra.Monoids]
isantisymmnegfldfracgt [in UniMath.Algebra.Domains_and_Fields]
isantisymmneghqgth [in UniMath.NumberSystems.RationalNumbers]
isantisymmneghzgth [in UniMath.NumberSystems.Integers]
isantisymmnegnatgth [in UniMath.Foundations.NaturalNumbers]
isantisymmnegquotrel [in UniMath.Foundations.Sets]
isantisymmnegrel [in UniMath.Foundations.Sets]
isantisymmnegtoiscoantisymm [in UniMath.Foundations.Sets]
isantisymmquotrel [in UniMath.Foundations.Sets]
isantisymm_leNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isantisymm_Rle [in UniMath.RealNumbers.Reals]
isantisymm_hr_le [in UniMath.RealNumbers.Reals]
isantisymm_leNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isantisymm_Lge [in UniMath.Algebra.Lattice]
isantisymm_Lle [in UniMath.Algebra.Lattice]
isantisymm_SubObj_rel [in UniMath.CategoryTheory.Subobjects]
isantisymm_filter_le [in UniMath.Topology.Filters]
isantisymm_posetRelation [in UniMath.Foundations.Sets]
isapartafldfracapartrel [in UniMath.PAdics.frac]
isapartdectodeceq [in UniMath.PAdics.lemmas]
isapbinop_op2 [in UniMath.Algebra.Apartness]
isapbinop_op1 [in UniMath.Algebra.Apartness]
isapbinop_op [in UniMath.Algebra.Apartness]
isapfun_NonnegativeRationals_to_Dcuts' [in UniMath.RealNumbers.NonnegativeReals]
isapfun_NonnegativeRationals_to_Dcuts [in UniMath.RealNumbers.NonnegativeReals]
isapfun_NonnegativeRationals_to_Dcuts_aux [in UniMath.RealNumbers.NonnegativeReals]
isaposetmorphism_pointwise_lub [in UniMath.Algebra.FixedPointTheorems]
isaposetmorphism_compose [in UniMath.Algebra.FixedPointTheorems]
isaposetmorphism_idfun [in UniMath.Algebra.FixedPointTheorems]
isaprimetoneq0 [in UniMath.PAdics.z_mod_p]
isapropaninvprop [in UniMath.Foundations.PartC]
isaproparecompatibleactions [in UniMath.Algebra.Modules.Multimodules]
isapropcarryequiv [in UniMath.PAdics.padics]
isapropcomponent1 [in UniMath.Foundations.PartB]
isapropcomponent2 [in UniMath.Foundations.PartB]
isapropcoprod [in UniMath.Foundations.PartB]
isapropdec [in UniMath.Foundations.PartC]
isapropdneg [in UniMath.Foundations.PartC]
isapropempty [in UniMath.Foundations.PartB]
isapropFiniteStructure [in UniMath.Combinatorics.OrderedSets]
isapropGreatestLowerBound [in UniMath.RealNumbers.Sets]
isaprophzgcd [in UniMath.PAdics.z_mod_p]
isaprophzgcd0 [in UniMath.PAdics.z_mod_p]
isapropifcontr [in UniMath.Foundations.PartB]
isapropifnegtrue [in UniMath.Foundations.PartB]
isapropimeqclass [in UniMath.Foundations.Sets]
isapropimpl [in UniMath.Foundations.PartD]
isapropinvpair [in UniMath.Algebra.Domains_and_Fields]
isapropinvstruct [in UniMath.Algebra.BinaryOperations]
isapropisabgrop [in UniMath.Algebra.BinaryOperations]
isapropisabmonoidop [in UniMath.Algebra.BinaryOperations]
isapropisabsorb [in UniMath.Algebra.BinaryOperations]
isapropisafield [in UniMath.Algebra.Domains_and_Fields]
isapropisaprime [in UniMath.PAdics.z_mod_p]
isapropisaprop [in UniMath.Foundations.PartD]
isapropisaset [in UniMath.Foundations.PartD]
isapropisassoc [in UniMath.Algebra.BinaryOperations]
isapropisaterm [in UniMath.Algebra.Universal.Terms]
isapropisbinopfun [in UniMath.Algebra.BinaryOperations]
isapropisbinophrel [in UniMath.Algebra.BinaryOperations]
isapropischoicebase [in UniMath.Foundations.Sets]
isapropiscomm [in UniMath.Algebra.BinaryOperations]
isapropiscommonhzdiv [in UniMath.PAdics.z_mod_p]
isapropiscommrig [in UniMath.Algebra.BinaryOperations]
isapropiscommring [in UniMath.Algebra.BinaryOperations]
isapropiscomprelfun [in UniMath.MoreFoundations.Sets]
isapropiscontr [in UniMath.Foundations.PartD]
isapropiscotrans [in UniMath.Algebra.Apartness]
isapropisdeceq [in UniMath.Foundations.PartD]
isapropisdistr [in UniMath.Algebra.BinaryOperations]
isapropisEpi [in UniMath.CategoryTheory.Epis]
isapropiseqclass [in UniMath.Foundations.Sets]
isapropisgrop [in UniMath.Algebra.BinaryOperations]
isapropishinh [in UniMath.Foundations.Propositions]
isapropishom [in UniMath.Algebra.Universal.Algebras]
isapropisintdom [in UniMath.Algebra.Domains_and_Fields]
isapropisinv [in UniMath.Algebra.BinaryOperations]
isapropisinvbinophrel [in UniMath.Algebra.BinaryOperations]
isapropisirrefl [in UniMath.Algebra.Apartness]
isapropisisolated [in UniMath.Foundations.PartD]
isapropisldistr [in UniMath.Algebra.BinaryOperations]
isapropislinear [in UniMath.Algebra.Modules.Core]
isapropislinv [in UniMath.Algebra.BinaryOperations]
isapropislunit [in UniMath.Algebra.BinaryOperations]
isapropismodulefun [in UniMath.Algebra.Modules.Core]
isapropisMonic [in UniMath.CategoryTheory.Monics]
isapropismonoidfun [in UniMath.Algebra.Monoids]
isapropismonoidop [in UniMath.Algebra.BinaryOperations]
isapropismultimodulefun [in UniMath.Algebra.Modules.Multimodules]
isapropisofhlevel [in UniMath.Foundations.PartD]
isapropisofhlevelf [in UniMath.Foundations.PartD]
isapropisrdistr [in UniMath.Algebra.BinaryOperations]
isapropisrigfun [in UniMath.Algebra.RigsAndRings]
isapropisrigops [in UniMath.Algebra.BinaryOperations]
isapropisringops [in UniMath.Algebra.BinaryOperations]
isapropisrinv [in UniMath.Algebra.BinaryOperations]
isapropisrunit [in UniMath.Algebra.BinaryOperations]
isapropissubgr [in UniMath.Algebra.Groups]
isapropissubmodule [in UniMath.Algebra.Modules.Submodule]
isapropissubmonoid [in UniMath.Algebra.Monoids]
isapropissubrig [in UniMath.Algebra.RigsAndRings]
isapropissubring [in UniMath.Algebra.RigsAndRings]
isapropissubsetwithbinop [in UniMath.Algebra.BinaryOperations]
isapropissubsetwith2binop [in UniMath.Algebra.BinaryOperations]
isapropissurjective [in UniMath.Foundations.Propositions]
isapropissymm [in UniMath.Algebra.Apartness]
isapropistwobinopfun [in UniMath.Algebra.BinaryOperations]
isapropisunital [in UniMath.Algebra.BinaryOperations]
isapropisweq [in UniMath.Foundations.PartD]
isapropis2binophrel [in UniMath.Algebra.BinaryOperations]
isaprople [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
isapropLeastUpperBound [in UniMath.RealNumbers.Sets]
isapropmultimodule_struct [in UniMath.Algebra.Modules.Multimodules]
isapropmultinvpair [in UniMath.PAdics.lemmas]
isapropmultinvpair [in UniMath.RealNumbers.Fields]
isapropnatdecleast [in UniMath.Combinatorics.StandardFiniteSets]
isapropneg [in UniMath.Foundations.PartC]
isapropneg2 [in UniMath.Foundations.PartD]
isaproppathsfromisolated [in UniMath.Foundations.PartB]
isaproppathsfromisolated_ne [in UniMath.MoreFoundations.NegativePropositions]
isaproppathstoisolated [in UniMath.Foundations.PartB]
isapropretract [in UniMath.Foundations.PartB]
isapropsubtype [in UniMath.Foundations.Sets]
isaproptildehProp [in UniMath.Foundations.Propositions]
isaproptotal2 [in UniMath.MoreFoundations.Propositions]
isapropweqfromcontr [in UniMath.Foundations.PartD]
isapropweqfromempty [in UniMath.Foundations.PartD]
isapropweqfromempty2 [in UniMath.Foundations.PartD]
isapropweqfromprop [in UniMath.Foundations.PartD]
isapropweqfromunit [in UniMath.Foundations.PartD]
isapropweqtocontr [in UniMath.Foundations.PartD]
isapropweqtoempty [in UniMath.Foundations.PartD]
isapropweqtoempty2 [in UniMath.Foundations.PartD]
isapropweqtoprop [in UniMath.Foundations.PartD]
isapropweqtounit [in UniMath.Foundations.PartD]
isaprop_θ_Strength2_int [in UniMath.SubstitutionSystems.Signatures]
isaprop_θ_Strength1_int [in UniMath.SubstitutionSystems.Signatures]
isaprop_NullHomotopyTo [in UniMath.MoreFoundations.NullHomotopies]
isaprop_nullHomotopyTo [in UniMath.MoreFoundations.NullHomotopies]
isaprop_isSheaf [in UniMath.CategoryTheory.GrothendieckTopos]
isaprop_isAdditiveFunctor [in UniMath.CategoryTheory.AdditiveFunctors]
isaprop_RelMonadMor_axioms [in UniMath.CategoryTheory.Monads.RelativeMonads]
isaprop_RelMonad_axioms [in UniMath.CategoryTheory.Monads.RelativeMonads]
isaprop_isDivRig [in UniMath.Algebra.DivisionRig]
isaprop_ZFS_elementof [in UniMath.Combinatorics.ZFstructures]
isaprop_isapoint [in UniMath.Combinatorics.ZFstructures]
isaprop_hasuniquerepbranch [in UniMath.Combinatorics.ZFstructures]
isaprop_ispreZFS [in UniMath.Combinatorics.ZFstructures]
isaprop_Tree_isWellFounded [in UniMath.Combinatorics.ZFstructures]
isaprop_issuperrigid [in UniMath.Combinatorics.ZFstructures]
isaprop_isrigid [in UniMath.Combinatorics.ZFstructures]
isaprop_isatree [in UniMath.Combinatorics.ZFstructures]
isaprop_isTRRGhomo [in UniMath.Combinatorics.ZFstructures]
isaprop_isTRR [in UniMath.Combinatorics.ZFstructures]
isaprop_isaroot [in UniMath.Combinatorics.ZFstructures]
isaprop_RelModule_Mor_laws [in UniMath.CategoryTheory.Monads.RelativeModules]
isaprop_RelModule_laws [in UniMath.CategoryTheory.Monads.RelativeModules]
isaprop_is_catiso [in UniMath.CategoryTheory.catiso]
isaprop_Representation [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
isaprop_Monad_Mor_laws [in UniMath.CategoryTheory.Monads.Monads]
isaprop_Monad_laws [in UniMath.CategoryTheory.Monads.Monads]
isaprop_cwf_fiber_representation [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
isaprop_is_invertible_2cell [in UniMath.Bicategories.Core.Bicat]
isaprop_prebicat_laws [in UniMath.Bicategories.Core.Bicat]
isaprop_ex_lim_seq [in UniMath.RealNumbers.NonnegativeReals]
isaprop_Dcuts_ap_rel [in UniMath.RealNumbers.NonnegativeReals]
isaprop_Dcuts_eq_rel [in UniMath.RealNumbers.NonnegativeReals]
isaprop_Dcuts_hsubtype [in UniMath.RealNumbers.NonnegativeReals]
isaprop_Dcuts_def_corr [in UniMath.RealNumbers.NonnegativeReals]
isaprop_Dcuts_def_open [in UniMath.RealNumbers.NonnegativeReals]
isaprop_Dcuts_def_bot [in UniMath.RealNumbers.NonnegativeReals]
isaprop_is_functor_from_empty [in UniMath.CategoryTheory.categories.StandardCategories]
isaprop_isInjective [in UniMath.Foundations.PartD]
isaprop_eqrel_from_hrel [in UniMath.MoreFoundations.Sets]
isaprop_LEM [in UniMath.MoreFoundations.DecidablePropositions]
isaprop_isFalse [in UniMath.MoreFoundations.DecidablePropositions]
isaprop_isTrue [in UniMath.MoreFoundations.DecidablePropositions]
isaprop_Colims [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
isaprop_isBiggest [in UniMath.Combinatorics.OrderedSets]
isaprop_isSmallest [in UniMath.Combinatorics.OrderedSets]
isaprop_full_and_faithful [in UniMath.CategoryTheory.Core.Functors]
isaprop_full [in UniMath.CategoryTheory.Core.Functors]
isaprop_faithful [in UniMath.CategoryTheory.Core.Functors]
isaprop_essentially_surjective [in UniMath.CategoryTheory.Core.Functors]
isaprop_reflects_isos [in UniMath.CategoryTheory.Core.Functors]
isaprop_fully_faithful [in UniMath.CategoryTheory.Core.Functors]
isaprop_is_functor [in UniMath.CategoryTheory.Core.Functors]
isaprop_Initial [in UniMath.CategoryTheory.limits.initial]
isaprop_W [in UniMath.Induction.W.Uniqueness]
isaprop_Pushouts [in UniMath.CategoryTheory.limits.pushouts]
isaprop_isPushout [in UniMath.CategoryTheory.limits.pushouts]
isaprop_BinCoproduct [in UniMath.CategoryTheory.limits.bincoproducts]
isaprop_isBinCoproduct [in UniMath.CategoryTheory.limits.bincoproducts]
isaprop_disp_nat_trans_axioms [in UniMath.CategoryTheory.DisplayedCats.Core]
isaprop_disp_functor_axioms [in UniMath.CategoryTheory.DisplayedCats.Core]
isaprop_is_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
isaprop_disp_cat_axioms [in UniMath.CategoryTheory.DisplayedCats.Core]
isaprop_is_folds_precategory [in UniMath.Folds.folds_pre_2_cat]
isaprop_is_univalent_folds_2_precat [in UniMath.Folds.folds_pre_2_cat]
isaprop_folds_2_iso [in UniMath.Folds.folds_pre_2_cat]
isaprop_left_adjoint_equivalence [in UniMath.Bicategories.Core.AdjointUnique]
isaprop_coh_strictness_from_univalence_2_1 [in UniMath.Bicategories.Core.Strictness]
isaprop_is_strict_bicat [in UniMath.Bicategories.Core.Strictness]
isaprop_disp_left_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
isaprop_forall_hProp [in UniMath.Foundations.Propositions]
isaprop_total2 [in UniMath.Foundations.Propositions]
isaprop_is_nat_trans [in UniMath.CategoryTheory.Core.NaturalTransformations]
isaprop_is_z_isomorphism [in UniMath.CategoryTheory.Core.Isos]
isaprop_is_inverse_in_precat [in UniMath.CategoryTheory.Core.Isos]
isaprop_is_iso [in UniMath.CategoryTheory.Core.Isos]
isaprop_Zero [in UniMath.CategoryTheory.limits.zero]
isaprop_isZero [in UniMath.CategoryTheory.limits.zero]
isaprop_in_same_right_coset [in UniMath.Algebra.Groups]
isaprop_in_same_left_coset [in UniMath.Algebra.Groups]
isaprop_mult_eq_l [in UniMath.Algebra.Groups]
isaprop_mult_eq_r [in UniMath.Algebra.Groups]
isaprop_folds_ax_T [in UniMath.Folds.folds_precat]
isaprop_folds_ax_id [in UniMath.Folds.folds_precat]
isaprop_is_setcategory [in UniMath.CategoryTheory.Core.Setcategories]
isaprop_isEqualizer' [in UniMath.CategoryTheory.limits.equalizers]
isaprop_isEqualizer [in UniMath.CategoryTheory.limits.equalizers]
isaprop_extruncminus [in UniMath.Algebra.Lattice]
isaprop_istruncminus [in UniMath.Algebra.Lattice]
isaprop_enriched_assoc_ax [in UniMath.CategoryTheory.Enriched.Enriched]
isaprop_param_distr_pentagon_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
isaprop_param_distr_triangle_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
isaprop_actionbased_strength_pentagon_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
isaprop_actionbased_strength_triangle_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
isaprop_is_univalent_2 [in UniMath.Bicategories.Core.Univalence]
isaprop_is_univalent_2_0 [in UniMath.Bicategories.Core.Univalence]
isaprop_is_univalent_2_1 [in UniMath.Bicategories.Core.Univalence]
isaprop_isbracketMor [in UniMath.SubstitutionSystems.SubstitutionSystems]
isaprop_bracket [in UniMath.SubstitutionSystems.SubstitutionSystems]
isaprop_disc_fib_hom [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
isaprop_is_cartesian [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
isaprop_isapbinop [in UniMath.Algebra.Apartness]
isaprop_israpbinop [in UniMath.Algebra.Apartness]
isaprop_islapbinop [in UniMath.Algebra.Apartness]
isaprop_isapunop [in UniMath.Algebra.Apartness]
isaprop_isaprel [in UniMath.Algebra.Apartness]
isaprop_M [in UniMath.Induction.M.Uniqueness]
isaprop_iswofun [in UniMath.Combinatorics.WellOrderedSets]
isaprop_theSmallest [in UniMath.Combinatorics.WellOrderedSets]
isaprop_isHQIS [in UniMath.HomologicalAlgebra.CohomologyComplex]
isaprop_isQIS [in UniMath.HomologicalAlgebra.CohomologyComplex]
isaprop_form_adjunction [in UniMath.CategoryTheory.Adjunctions.Core]
isaprop_is_discrete [in UniMath.CategoryTheory.Groupoids]
isaprop_is_pregroupoid [in UniMath.CategoryTheory.Groupoids]
isaprop_split_essentially_surjective [in UniMath.CategoryTheory.Equivalences.Core]
isaprop_sigma_iso [in UniMath.CategoryTheory.Equivalences.Core]
isaprop_continuous [in UniMath.Topology.Topology]
isaprop_topologyfromneighborhood [in UniMath.Topology.Topology]
isaprop_isSetOfOpen_and [in UniMath.Topology.Topology]
isaprop_isSetOfOpen_finite_intersection [in UniMath.Topology.Topology]
isaprop_isSetOfOpen_union [in UniMath.Topology.Topology]
isaprop_funextcontrStatement [in UniMath.Foundations.UnivalenceAxiom2]
isaprop_funcontrStatement [in UniMath.Foundations.UnivalenceAxiom2]
isaprop_propositionalUnivalenceStatement [in UniMath.Foundations.UnivalenceAxiom2]
isaprop_isweqtoforallpathsStatement [in UniMath.Foundations.UnivalenceAxiom2]
isaprop_funextemptyStatement [in UniMath.Foundations.UnivalenceAxiom2]
isaprop_univalenceStatement [in UniMath.Foundations.UnivalenceAxiom2]
isaprop_Lims [in UniMath.CategoryTheory.limits.cats.limits]
isaprop_isLimCone [in UniMath.CategoryTheory.limits.cats.limits]
isaprop_is_univalent [in UniMath.CategoryTheory.Core.Univalence]
isaprop_ConeProp [in UniMath.CategoryTheory.limits.cones]
isaprop_wma_inhab' [in UniMath.MoreFoundations.PartA]
isaprop_wma_inhab [in UniMath.MoreFoundations.PartA]
isaprop_Colims [in UniMath.CategoryTheory.limits.graphs.colimits]
isaprop_isColimCocone [in UniMath.CategoryTheory.limits.graphs.colimits]
isaprop_has_edgesets [in UniMath.CategoryTheory.categories.Graph]
isaprop_isfilter_notempty [in UniMath.Topology.Filters]
isaprop_isfilter_and [in UniMath.Topology.Filters]
isaprop_isfilter_finite_intersection [in UniMath.Topology.Filters]
isaprop_isfilter_imply [in UniMath.Topology.Filters]
isaprop_skewMonoid_Mor_laws [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
isaprop_assume_it_is [in UniMath.MoreFoundations.Propositions]
isaprop_isdcpomorphism [in UniMath.Algebra.Dcpo]
isaprop_preserveslub [in UniMath.Algebra.Dcpo]
isaprop_isdirectedcomplete [in UniMath.Algebra.Dcpo]
isaprop_isdirected [in UniMath.Algebra.Dcpo]
isaprop_islub [in UniMath.Algebra.Dcpo]
isaprop_isupperbound [in UniMath.Algebra.Dcpo]
isaprop_consecutive [in UniMath.Foundations.Sets]
isaprop_isMaximal [in UniMath.Foundations.Sets]
isaprop_isMinimal [in UniMath.Foundations.Sets]
isaprop_isPosetEquivalence [in UniMath.Foundations.Sets]
isaprop_isaposetmorphism [in UniMath.Foundations.Sets]
isaprop_isPartialOrder [in UniMath.Foundations.Sets]
isaprop_ispreorder [in UniMath.Foundations.Sets]
isaprop_isantisymm [in UniMath.Foundations.Sets]
isaprop_istotal [in UniMath.Foundations.Sets]
isaprop_isrefl [in UniMath.Foundations.Sets]
isaprop_istrans [in UniMath.Foundations.Sets]
isaprop_Pullbacks [in UniMath.CategoryTheory.limits.pullbacks]
isaprop_isPullback [in UniMath.CategoryTheory.limits.pullbacks]
isaprop_are_conjugates' [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
isaprop_are_conjugates [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
isaprop_LModule_Mor_laws [in UniMath.CategoryTheory.Monads.LModules]
isaprop_LModule_laws [in UniMath.CategoryTheory.Monads.LModules]
isaprop_isProofIrrelevant [in UniMath.Foundations.PartC]
isaprop_isCoequalizer [in UniMath.CategoryTheory.limits.coequalizers]
isaprop_is_cartesian [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
isaprop_isLimCone [in UniMath.Induction.M.Limits]
isaprop_hfiber_monic [in UniMath.CategoryTheory.categories.HSET.Structures]
isaprop_hcomp_prebicat_laws [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
isaprop_Kleisli_Mor_laws [in UniMath.CategoryTheory.Monads.KTriples]
isaprop_Kleisli_Laws [in UniMath.CategoryTheory.Monads.KTriples]
isaprop_is_retraction [in UniMath.CategoryTheory.Core.Categories]
isaprop_is_precategory [in UniMath.CategoryTheory.Core.Categories]
isaprop_has_homsets [in UniMath.CategoryTheory.Core.Categories]
isaprop_Terminal [in UniMath.CategoryTheory.limits.terminal]
isaprop_Lims [in UniMath.CategoryTheory.limits.graphs.limits]
isaprop_isLimCone [in UniMath.CategoryTheory.limits.graphs.limits]
isaprop_isBinProduct [in UniMath.CategoryTheory.limits.binproducts]
isarchabgrdiff [in UniMath.Algebra.Archimedean]
isarchabgrdiff_aux [in UniMath.Algebra.Archimedean]
isarchCF_isarchring [in UniMath.Algebra.Archimedean]
isarchcommringfrac [in UniMath.Algebra.Archimedean]
isarchfldfrac [in UniMath.Algebra.Archimedean]
isarchfld_isarchring [in UniMath.Algebra.Archimedean]
isarchgr_isarchring [in UniMath.Algebra.Archimedean]
isarchgr_isarchmonoid [in UniMath.Algebra.Archimedean]
isarchgr_isarchmonoid_aux [in UniMath.Algebra.Archimedean]
isarchhq [in UniMath.NumberSystems.RationalNumbers]
isarchhz [in UniMath.NumberSystems.Integers]
isarchhz_gt [in UniMath.NumberSystems.Integers]
isarchhz_one [in UniMath.NumberSystems.Integers]
isarchmonoid_isarchrig [in UniMath.Algebra.Archimedean]
isarchmonoid_isarchgr [in UniMath.Algebra.Archimedean]
isarchnat [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isarchnat_pos [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isarchnat_gth [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isarchnat_diff [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isarchrigtoring [in UniMath.Algebra.Archimedean]
isarchrig_isarchring [in UniMath.Algebra.Archimedean]
isarchrig_isarchmonoid [in UniMath.Algebra.Archimedean]
isarchrig_isarchmonoid_2_aux [in UniMath.Algebra.Archimedean]
isarchrig_isarchmonoid_1_aux [in UniMath.Algebra.Archimedean]
isarchrig_setquot_aux [in UniMath.Algebra.Archimedean]
isarchring_isarchCF [in UniMath.Algebra.Archimedean]
isarchring_isarchfld [in UniMath.Algebra.Archimedean]
isarchring_isarchgr [in UniMath.Algebra.Archimedean]
isarchring_isarchrig [in UniMath.Algebra.Archimedean]
isasetaprop [in UniMath.Foundations.PartB]
isasetbinopfun [in UniMath.Algebra.BinaryOperations]
isasetbinopiso [in UniMath.Algebra.BinaryOperations]
isasetbool [in UniMath.Foundations.PartB]
isasetcoprod [in UniMath.Foundations.PartC]
isasetempty [in UniMath.Foundations.PartB]
isasetFilter [in UniMath.Topology.Filters]
isasetFiniteOrderedSet [in UniMath.Combinatorics.OrderedSets]
isasetFinSig [in UniMath.SubstitutionSystems.MLTT79]
isasethom [in UniMath.Algebra.Universal.Algebras]
isasethProp [in UniMath.Foundations.Propositions]
isasethsubtype [in UniMath.Foundations.Sets]
isasethz [in UniMath.NumberSystems.Integers]
isasetifcontr [in UniMath.Foundations.PartB]
isasetifdeceq [in UniMath.Foundations.PartB]
isasetifiscontrloops [in UniMath.Foundations.PartB]
isasetlinearfun [in UniMath.Algebra.Modules.Core]
isasetmaybe [in UniMath.Combinatorics.Maybe]
isasetmodule [in UniMath.Algebra.Modules.Core]
isasetmodulefun [in UniMath.Algebra.Modules.Core]
isasetmonfunstn [in UniMath.CategoryTheory.SimplicialSets]
isasetmonoidfun [in UniMath.Algebra.Monoids]
isasetnat [in UniMath.Foundations.NaturalNumbers]
isasetoplist [in UniMath.Algebra.Universal.Terms]
isasetPreFilter [in UniMath.Topology.Filters]
isasetRoofEqclass [in UniMath.CategoryTheory.LocalizingClass]
isasetsetquot [in UniMath.Foundations.Sets]
isasetsetquot2 [in UniMath.Foundations.Sets]
isasetstack [in UniMath.Algebra.Universal.Terms]
isasetstn [in UniMath.Combinatorics.StandardFiniteSets]
isasetsubset [in UniMath.Foundations.PartB]
isasetterm [in UniMath.Algebra.Universal.Terms]
isasettildehProp [in UniMath.Foundations.Propositions]
isasettwobinopfun [in UniMath.Algebra.BinaryOperations]
isasetunit [in UniMath.Foundations.PartB]
isasetweqfromset [in UniMath.Foundations.PartD]
isasetweqtoset [in UniMath.Foundations.PartD]
isaset_NullHomotopyTo [in UniMath.MoreFoundations.NullHomotopies]
isaset_list [in UniMath.CategoryTheory.Inductives.Lists]
isaset_sieve [in UniMath.CategoryTheory.Presheaf]
isaset_ZFS [in UniMath.Combinatorics.ZFstructures]
isaset_preZFS [in UniMath.Combinatorics.ZFstructures]
isaset_Upw_underlying [in UniMath.Combinatorics.ZFstructures]
isaset_TRRGraphData [in UniMath.Combinatorics.ZFstructures]
isaset_prime_ideal [in UniMath.Algebra.RigsAndRings.Ideals]
isaset_ideal [in UniMath.Algebra.RigsAndRings.Ideals]
isaset_chaotic_cells [in UniMath.Bicategories.Core.Bicat]
isaset_Dcuts [in UniMath.RealNumbers.NonnegativeReals]
isaset_submonoid [in UniMath.Algebra.Monoids]
isaset_nat_trans_yoneda [in UniMath.CategoryTheory.yoneda]
isaset_hfiber [in UniMath.Foundations.PartB]
isaset_dirprod [in UniMath.Foundations.PartB]
isaset_total2 [in UniMath.Foundations.PartB]
isaset_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
isaset_functor_alg_ob [in UniMath.CategoryTheory.DisplayedCats.Examples]
isaset_nat_trans [in UniMath.CategoryTheory.Core.NaturalTransformations]
isaset_z_iso [in UniMath.CategoryTheory.Core.Isos]
isaset_iso [in UniMath.CategoryTheory.Core.Isos]
isaset_boolDcuts [in UniMath.RealNumbers.DecidableDedekindCuts]
isaset_disp_nat_trans [in UniMath.CategoryTheory.DisplayedCats.Constructions]
isaset_invertible_2cell [in UniMath.Bicategories.Core.Invertible_2cells]
isaset_cells_total_prebicat [in UniMath.Bicategories.DisplayedBicats.DispBicat]
isaset_hssMor [in UniMath.SubstitutionSystems.SubstitutionSystems]
isaset_graph_mor [in UniMath.Combinatorics.Graph]
isaset_ActionStructure [in UniMath.Algebra.GroupAction]
isaset_WellOrderedSet [in UniMath.Combinatorics.WellOrderedSets]
isaset_ringfun [in UniMath.Algebra.RigsAndRings]
isaset_Cone_Mor [in UniMath.CategoryTheory.limits.cones]
isaset_cells_prebicat_of_univ_cats [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
isaset_setcategory_total_morphisms [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
isaset_cells_prebicat_of_cats [in UniMath.Bicategories.Core.Examples.BicatOfCats]
isaset_merely_split_epi [in UniMath.CategoryTheory.SplitMonicsAndEpis]
isaset_merely_split_monic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
isaset_is_split_monic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
isaset_set_fun_space [in UniMath.Foundations.Sets]
isaset_carrier_subset [in UniMath.Foundations.Sets]
isaset_forall_hSet [in UniMath.Foundations.Sets]
isaset_total2_hSet [in UniMath.Foundations.Sets]
isaset_section [in UniMath.AlgebraicGeometry.Spec]
isaset_Monad_Mor [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
isaset_cells_prebicat_of_strict_cats [in UniMath.Bicategories.Core.Examples.StrictCats]
isaset_set_sfun_space [in UniMath.Algebra.Universal.SortedTypes]
isaset_retraction [in UniMath.CategoryTheory.Core.Categories]
isassocdirprod [in UniMath.Algebra.Monoids]
isassocfpstimes [in UniMath.PAdics.fps]
isAssociativeMultipleOperation_abmonoid [in UniMath.Algebra.IteratedBinaryOperations]
isassocisof [in UniMath.Algebra.BinaryOperations]
isassocmonob [in UniMath.Algebra.BinaryOperations]
isassocquot [in UniMath.Algebra.Monoids]
isassoc_ringofendabgr_op2 [in UniMath.Algebra.Modules.Core]
isassoc_ringofendabgr_op1 [in UniMath.Algebra.Modules.Core]
isassoc_minusNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isassoc_maxNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isassoc_Dcuts_min [in UniMath.RealNumbers.NonnegativeReals]
isassoc_Dcuts_max [in UniMath.RealNumbers.NonnegativeReals]
isassoc_Dcuts_mult [in UniMath.RealNumbers.NonnegativeReals]
isassoc_Dcuts_plus [in UniMath.RealNumbers.NonnegativeReals]
isassoc_weq_bck [in UniMath.Algebra.BinaryOperations]
isassoc_weq_fwd [in UniMath.Algebra.BinaryOperations]
isassoc_Rmult [in UniMath.RealNumbers.Reals]
isassoc_Rplus [in UniMath.RealNumbers.Reals]
isassoc_hnnq_mult [in UniMath.RealNumbers.NonnegativeRationals]
isassoc_hnnq_plus [in UniMath.RealNumbers.NonnegativeRationals]
isassoc_cat_comm [in UniMath.CategoryTheory.LatticeObject]
isassoc_CFmult [in UniMath.Algebra.ConstructiveStructures]
isassoc_CFplus [in UniMath.Algebra.ConstructiveStructures]
isassoc_CCDRmult [in UniMath.Algebra.ConstructiveStructures]
isassoc_CCDRplus [in UniMath.Algebra.ConstructiveStructures]
isassoc_CDRmult [in UniMath.Algebra.ConstructiveStructures]
isassoc_CDRplus [in UniMath.Algebra.ConstructiveStructures]
isassoc_hdisj [in UniMath.MoreFoundations.Propositions]
isassoc_hconj [in UniMath.MoreFoundations.Propositions]
isassoc_section_op2 [in UniMath.AlgebraicGeometry.Spec]
isassoc_section_op1 [in UniMath.AlgebraicGeometry.Spec]
isasymmabgrdiffrel [in UniMath.Algebra.Groups]
isasymmabmonoidfracrel [in UniMath.Algebra.Monoids]
isasymmabmonoidfracrelint [in UniMath.Algebra.Monoids]
isasymmfldfracgt [in UniMath.Algebra.Domains_and_Fields]
isasymmhqgth [in UniMath.NumberSystems.RationalNumbers]
isasymmhzgth [in UniMath.NumberSystems.Integers]
isasymmnatgth [in UniMath.Foundations.NaturalNumbers]
isasymmnegrel [in UniMath.Foundations.Sets]
isasymmquotrel [in UniMath.Foundations.Sets]
isasymm_reverse [in UniMath.RealNumbers.Sets]
isatree_Upw [in UniMath.Combinatorics.ZFstructures]
isBaseConnected_BG [in UniMath.Algebra.GroupAction]
isbinapartlafldfracop1 [in UniMath.PAdics.frac]
isbinapartlafldfracop2 [in UniMath.PAdics.frac]
isbinapartrafldfracop1 [in UniMath.PAdics.frac]
isbinapartrafldfracop2 [in UniMath.PAdics.frac]
isBinCoproduct_to_isBinCoproduct' [in UniMath.CategoryTheory.limits.bincoproducts]
isBinCoproduct'_to_isBinCoproduct [in UniMath.CategoryTheory.limits.bincoproducts]
isbinopabgrdiffrel [in UniMath.Algebra.Groups]
isbinopabgrdiffrelint [in UniMath.Algebra.Groups]
isbinopeqrel_subgr_eqrel [in UniMath.CategoryTheory.PreAdditive]
isbinopfuncomp [in UniMath.Algebra.BinaryOperations]
isbinopfuninvmap [in UniMath.Algebra.Modules.Core]
isbinopfuninvmap [in UniMath.Algebra.BinaryOperations]
isbinopfuntoabgrdiff [in UniMath.Algebra.Groups]
isbinopfuntoabmonoidfrac [in UniMath.Algebra.Monoids]
isbinophrelabgrdiff [in UniMath.Algebra.Groups]
isbinophrelabmonoidfrac [in UniMath.Algebra.Monoids]
isbinophrelgr [in UniMath.Algebra.Groups]
isbinophrelif [in UniMath.Algebra.BinaryOperations]
isbinophrel_setquot_aux [in UniMath.Algebra.Archimedean]
isbinophrel_generated_binopeqrel [in UniMath.Algebra.BinaryOperations]
isbinophrel_generated_binophrel [in UniMath.Algebra.BinaryOperations]
isbinophrel_apNonnegativeReals [in UniMath.RealNumbers.Reals]
isbinophrel_leNonnegativeReals [in UniMath.RealNumbers.Reals]
isbinophrel_ltNonnegativeReals [in UniMath.RealNumbers.Reals]
isbinopquotrel [in UniMath.Algebra.BinaryOperations]
isbinopreflrel [in UniMath.Algebra.BinaryOperations]
isbinop1funtocommringfrac [in UniMath.Algebra.RigsAndRings]
isbinop1funtoringdiff [in UniMath.Algebra.RigsAndRings]
isbinop2funtoringdiff [in UniMath.Algebra.RigsAndRings]
isBinProduct_Pullback [in UniMath.CategoryTheory.limits.pullbacks]
isBinProduct_Signature_category [in UniMath.SubstitutionSystems.SignatureCategory]
isBinProduct_to_isBinProduct' [in UniMath.CategoryTheory.limits.binproducts]
isBinProduct'_to_isBinProduct [in UniMath.CategoryTheory.limits.binproducts]
isboolDcuts_isaprop [in UniMath.RealNumbers.DecidableDedekindCuts]
iscancelablemonob [in UniMath.Algebra.BinaryOperations]
ischoicebasecontr [in UniMath.Foundations.Sets]
ischoicebasecoprod [in UniMath.Foundations.Sets]
ischoicebaseempty [in UniMath.Foundations.Sets]
ischoicebaseempty2 [in UniMath.Foundations.Sets]
ischoicebasefiniteset [in UniMath.Combinatorics.FiniteSets]
ischoicebasestn [in UniMath.Combinatorics.StandardFiniteSets]
ischoicebaseunit [in UniMath.Foundations.Sets]
ischoicebaseweqb [in UniMath.Foundations.Sets]
ischoicebaseweqf [in UniMath.Foundations.Sets]
iscoantisymmhqgth [in UniMath.NumberSystems.RationalNumbers]
iscoantisymmhzgth [in UniMath.NumberSystems.Integers]
iscoantisymmnatgth [in UniMath.Foundations.NaturalNumbers]
iscoasymmabgrdiffrel [in UniMath.Algebra.Groups]
iscoasymmabmonoidfracrel [in UniMath.Algebra.Monoids]
iscoasymmabmonoidfracrelint [in UniMath.Algebra.Monoids]
iscoasymmgenrel [in UniMath.Foundations.Sets]
iscoasymmquotrel [in UniMath.Foundations.Sets]
iscoasymm_reverse [in UniMath.RealNumbers.Sets]
isCoconeOverAlg [in UniMath.CategoryTheory.Chains.Adamek]
isCoeqKernelPairSet [in UniMath.CategoryTheory.categories.HSET.Structures]
isCoequalizerOutsEq [in UniMath.CategoryTheory.limits.coequalizers]
isCoequalizerOutUnique [in UniMath.CategoryTheory.limits.coequalizers]
isCoequalizer_path [in UniMath.CategoryTheory.limits.coequalizers]
isCokernel_iff [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isCokernel_paths [in UniMath.CategoryTheory.limits.cokernels]
isCokernel_opp [in UniMath.CategoryTheory.limits.Opp]
isCokernel_opp_eq [in UniMath.CategoryTheory.limits.Opp]
isColimCocone_family_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
isColimCocone_pr_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
isColimCocone_in_product_category [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
isColimCocone_pair_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
isColimCocone_pr2_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
isColimCocone_pr1_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
isColim_is_iso [in UniMath.CategoryTheory.limits.graphs.colimits]
isColim_weq [in UniMath.CategoryTheory.limits.graphs.colimits]
isColim_weq_subproof2 [in UniMath.CategoryTheory.limits.graphs.colimits]
isColim_weq_subproof1 [in UniMath.CategoryTheory.limits.graphs.colimits]
iscommcarrier [in UniMath.Algebra.Monoids]
iscommdirprod [in UniMath.Algebra.Monoids]
iscommfpsplus [in UniMath.PAdics.fps]
iscommfpstimes [in UniMath.PAdics.fps]
iscommisof [in UniMath.Algebra.BinaryOperations]
iscommmonob [in UniMath.Algebra.BinaryOperations]
iscommquot [in UniMath.Algebra.Monoids]
iscommrigcarrier [in UniMath.Algebra.RigsAndRings]
iscommrigdirprod [in UniMath.Algebra.RigsAndRings]
iscommrigops_weq_bck [in UniMath.Algebra.BinaryOperations]
iscommrigops_weq_fwd [in UniMath.Algebra.BinaryOperations]
iscommrigquot [in UniMath.Algebra.RigsAndRings]
iscommringcarrier [in UniMath.Algebra.RigsAndRings]
iscommringdirprod [in UniMath.Algebra.RigsAndRings]
iscommringops_weq_bck [in UniMath.Algebra.BinaryOperations]
iscommringops_weq_fwd [in UniMath.Algebra.BinaryOperations]
iscommringquot [in UniMath.Algebra.RigsAndRings]
iscomm_ringofendabgr_op1 [in UniMath.Algebra.Modules.Core]
iscomm_minusNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
iscomm_maxNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
iscomm_Dcuts_min [in UniMath.RealNumbers.NonnegativeReals]
iscomm_Dcuts_max [in UniMath.RealNumbers.NonnegativeReals]
iscomm_Dcuts_mult [in UniMath.RealNumbers.NonnegativeReals]
iscomm_Dcuts_plus [in UniMath.RealNumbers.NonnegativeReals]
iscomm_weq_bck [in UniMath.Algebra.BinaryOperations]
iscomm_weq_fwd [in UniMath.Algebra.BinaryOperations]
iscomm_Rmult [in UniMath.RealNumbers.Reals]
iscomm_Rplus [in UniMath.RealNumbers.Reals]
iscomm_NQmax [in UniMath.RealNumbers.NonnegativeRationals]
iscomm_hnnq_mult [in UniMath.RealNumbers.NonnegativeRationals]
iscomm_hnnq_plus [in UniMath.RealNumbers.NonnegativeRationals]
iscomm_cat_comm [in UniMath.CategoryTheory.LatticeObject]
iscomm_CFmult [in UniMath.Algebra.ConstructiveStructures]
iscomm_CFplus [in UniMath.Algebra.ConstructiveStructures]
iscomm_CCDRmult [in UniMath.Algebra.ConstructiveStructures]
iscomm_CCDRplus [in UniMath.Algebra.ConstructiveStructures]
iscomm_CDRplus [in UniMath.Algebra.ConstructiveStructures]
iscomm_hdisj [in UniMath.MoreFoundations.Propositions]
iscomm_hconj [in UniMath.MoreFoundations.Propositions]
iscomm_section_op2 [in UniMath.AlgebraicGeometry.Spec]
iscomm_section_op1 [in UniMath.AlgebraicGeometry.Spec]
iscomm_free_abgr [in UniMath.Algebra.Free_Monoids_and_Groups]
iscomm_free_abmonoid [in UniMath.Algebra.Free_Monoids_and_Groups]
iscompbinoptransrel [in UniMath.Algebra.BinaryOperations]
iscompintpartint0 [in UniMath.NumberSystems.RationalNumbers]
iscomprelabgrdiffrelint [in UniMath.Algebra.Groups]
iscomprelabmonoidfracrelint [in UniMath.Algebra.Monoids]
iscomprelfunlogeqf [in UniMath.Foundations.Sets]
iscomprelfunlogeqf1 [in UniMath.Foundations.Sets]
iscomprelfunlogeqf2 [in UniMath.Foundations.Sets]
iscomprelfun_funcomp [in UniMath.MoreFoundations.Sets]
iscomprelfun_generated_binopeqrel [in UniMath.Algebra.BinaryOperations]
iscomprelfun_hr_to_NR [in UniMath.RealNumbers.Reals]
iscomprelfun_NRminus [in UniMath.RealNumbers.Reals]
iscomprelfun_presented_abgrfun [in UniMath.Algebra.Free_Monoids_and_Groups]
iscomprelfun_presented_grfun [in UniMath.Algebra.Free_Monoids_and_Groups]
iscomprelfun_presented_abmonoidfun [in UniMath.Algebra.Free_Monoids_and_Groups]
iscomprelfun_presented_monoidfun [in UniMath.Algebra.Free_Monoids_and_Groups]
iscomprelfun2if [in UniMath.Foundations.Sets]
iscomprelfun2logeqf [in UniMath.Foundations.Sets]
iscomprelrelfun_generated_binopeqrel_rev [in UniMath.Algebra.BinaryOperations]
iscomprelrelfun_generated_binopeqrel [in UniMath.Algebra.BinaryOperations]
iscomprelrelfun2if [in UniMath.Foundations.Sets]
iscomprelrelfun2logeqf1 [in UniMath.Foundations.Sets]
iscomprelrelfun2logeqf2 [in UniMath.Foundations.Sets]
iscomprelrelif [in UniMath.Foundations.Sets]
iscomprelrellogeqf1 [in UniMath.Foundations.Sets]
iscomprelrellogeqf2 [in UniMath.Foundations.Sets]
iscomprel_from_base [in UniMath.CategoryTheory.categories.HSET.Colimits]
iscompsetquotpr [in UniMath.Foundations.Sets]
iscompsetquot2pr [in UniMath.Foundations.Sets]
iscomptoabgrdiff [in UniMath.Algebra.Groups]
iscomptoabmonoidfrac [in UniMath.Algebra.Monoids]
iscomp2binoptransrel [in UniMath.Algebra.BinaryOperations]
isconnectedfromunitabgr [in UniMath.CategoryTheory.categories.abgrs]
isconnectedstn1 [in UniMath.Combinatorics.StandardFiniteSets]
isconnectedtounitabgr [in UniMath.CategoryTheory.categories.abgrs]
isConnected_BG [in UniMath.Algebra.GroupAction]
isConnected_isBaseConnected [in UniMath.MoreFoundations.Propositions]
iscontraprop1 [in UniMath.Foundations.PartB]
iscontraprop1inv [in UniMath.Foundations.PartB]
iscontrauto_Tree_TRRGraph [in UniMath.Combinatorics.ZFstructures]
iscontrcoconusfromt [in UniMath.Foundations.PartA]
iscontrcoconustot [in UniMath.Foundations.PartA]
iscontrfromzero_module [in UniMath.CategoryTheory.categories.modules]
iscontrfunfromempty [in UniMath.Foundations.PartD]
iscontrfunfromempty2 [in UniMath.Foundations.PartD]
iscontrfuntocontr [in UniMath.Foundations.PartD]
iscontrfuntounit [in UniMath.Foundations.PartD]
iscontrGuidedHomotopy [in UniMath.SyntheticHomotopyTheory.AffineLine]
iscontrGuidedHomotopy [in UniMath.SyntheticHomotopyTheory.Halfline]
iscontrhfiberdi [in UniMath.Foundations.NaturalNumbers]
iscontrhfiberdni [in UniMath.Combinatorics.StandardFiniteSets]
iscontrhfibereqbx [in UniMath.Foundations.PartC]
iscontrhfiberii1x [in UniMath.Foundations.PartC]
iscontrhfiberii2y [in UniMath.Foundations.PartC]
iscontrhfiberl1 [in UniMath.Foundations.PartA]
iscontrhfiberl2 [in UniMath.Foundations.PartA]
iscontrhfibernatplusl [in UniMath.Foundations.NaturalNumbers]
iscontrhfibernatplusr [in UniMath.Foundations.NaturalNumbers]
iscontrhfiberofincl [in UniMath.Foundations.PartB]
iscontrhfiberstntonat [in UniMath.Combinatorics.StandardFiniteSets]
iscontrhomstounit [in UniMath.Algebra.Universal.Algebras]
iscontrifweqtounit [in UniMath.Foundations.PartA]
iscontriscontr [in UniMath.Foundations.PartD]
iscontrloopsifisaset [in UniMath.Foundations.PartB]
iscontrpathsinunit [in UniMath.Foundations.PartA]
iscontrretract [in UniMath.Foundations.PartA]
iscontrstn1 [in UniMath.Combinatorics.StandardFiniteSets]
iscontrtildehProp [in UniMath.Foundations.Propositions]
iscontrtozero_module [in UniMath.CategoryTheory.categories.modules]
iscontrunit [in UniMath.Foundations.PartA]
iscontrweqb [in UniMath.Foundations.PartA]
iscontrweqb' [in UniMath.MoreFoundations.Tactics]
iscontrweqf [in UniMath.Foundations.PartA]
iscontr_weq [in UniMath.Foundations.HLevels]
iscontr_functor_from_empty [in UniMath.CategoryTheory.categories.StandardCategories]
iscontr_functor_to_unit [in UniMath.CategoryTheory.categories.StandardCategories]
iscontr_aux_space [in UniMath.CategoryTheory.precomp_fully_faithful]
iscontr_cond_dirprod_weq [in UniMath.CategoryTheory.slicecat]
iscontr_EG [in UniMath.Algebra.GroupAction]
iscontr_affine_line [in UniMath.SyntheticHomotopyTheory.AffineLine]
iscontr_move_point_eq [in UniMath.Foundations.PartA]
iscontr_move_point [in UniMath.Foundations.PartA]
iscontr_Q [in UniMath.SyntheticHomotopyTheory.Circle2]
iscontr_paths_from [in UniMath.MoreFoundations.Notations]
iscontr_paths_to [in UniMath.MoreFoundations.Notations]
iscontr_sfuntosunit [in UniMath.Algebra.Universal.SortedTypes]
isCoproduct_Signature_category [in UniMath.SubstitutionSystems.SignatureCategory]
iscoprojfromisdecincl [in UniMath.Foundations.PartC]
iscotransabgrdiffrel [in UniMath.Algebra.Groups]
iscotransabmonoidfracrel [in UniMath.Algebra.Monoids]
iscotransabmonoidfracrelint [in UniMath.Algebra.Monoids]
iscotransafldfracapartrelpre [in UniMath.PAdics.frac]
iscotransapSet [in UniMath.Algebra.Apartness]
iscotransfldfracgt [in UniMath.Algebra.Domains_and_Fields]
iscotranshqgth [in UniMath.NumberSystems.RationalNumbers]
iscotranshzgth [in UniMath.NumberSystems.Integers]
iscotransnatgth [in UniMath.Foundations.NaturalNumbers]
iscotranspadicapart0 [in UniMath.PAdics.padics]
iscotransquotrel [in UniMath.Foundations.Sets]
iscotranstightapSet [in UniMath.Algebra.Apartness]
iscotrans_Dcuts_ap_rel [in UniMath.RealNumbers.NonnegativeReals]
iscotrans_Dcuts_lt_rel [in UniMath.RealNumbers.NonnegativeReals]
iscotrans_Rap [in UniMath.RealNumbers.Reals]
iscotrans_Rlt [in UniMath.RealNumbers.Reals]
iscotrans_hr_lt [in UniMath.RealNumbers.Reals]
iscotrans_latticedec_gt_rel [in UniMath.Algebra.Lattice]
iscotrans_reverse [in UniMath.RealNumbers.Sets]
iscotrans_CFap [in UniMath.Algebra.ConstructiveStructures]
iscotrans_CCDRap [in UniMath.Algebra.ConstructiveStructures]
iscotrans_CDRap [in UniMath.Algebra.ConstructiveStructures]
iscotrans_to_istrans_negReln [in UniMath.MoreFoundations.NegativePropositions]
isDcuts_OneSided [in UniMath.RealNumbers.DedekindCuts]
isdecbexists [in UniMath.Combinatorics.StandardFiniteSets]
isdecbforall [in UniMath.Combinatorics.StandardFiniteSets]
isdeceqabgrdiff [in UniMath.Algebra.Groups]
isdeceqabmonoidfrac [in UniMath.Algebra.Monoids]
isdeceqbool [in UniMath.Foundations.PartB]
isdeceqcommringfrac [in UniMath.Algebra.RigsAndRings]
isdeceqcoprod [in UniMath.Foundations.PartB]
isdeceqFinSig [in UniMath.SubstitutionSystems.MLTT79]
isdeceqfldfrac [in UniMath.Algebra.Domains_and_Fields]
isdeceqhz [in UniMath.NumberSystems.Integers]
isdeceqhzmodp [in UniMath.PAdics.z_mod_p]
isdeceqif [in UniMath.Foundations.PartC]
isdeceqifisaprop [in UniMath.Foundations.PartB]
isdeceqinclb [in UniMath.Foundations.PartB]
isdeceqsetquot_non_constr [in UniMath.Foundations.Sets]
isdeceqstn [in UniMath.Combinatorics.StandardFiniteSets]
isdeceqtoisapartdec [in UniMath.PAdics.lemmas]
isdecequnit [in UniMath.Foundations.PartB]
isdeceqweqb [in UniMath.Foundations.PartB]
isdeceqweqf [in UniMath.Foundations.PartB]
isdeceq_isdec_lessthan [in UniMath.Combinatorics.OrderedSets]
isdeceq_isdec_ordering [in UniMath.Combinatorics.OrderedSets]
isdeceq_total2 [in UniMath.Foundations.PartB]
isdeceq_NonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isdecinclcomp [in UniMath.Foundations.PartC]
isdecincldi [in UniMath.Foundations.NaturalNumbers]
isdecincldni [in UniMath.Combinatorics.StandardFiniteSets]
isdecinclf [in UniMath.Foundations.PartC]
isdecinclfromiscoproj [in UniMath.Foundations.PartC]
isdecinclfromisweq [in UniMath.Foundations.PartC]
isdecinclg [in UniMath.Foundations.PartC]
isdecinclhomot [in UniMath.Foundations.PartC]
isdecinclii1 [in UniMath.Foundations.PartC]
isdecinclii2 [in UniMath.Foundations.PartC]
isdecinclnatplusr [in UniMath.Foundations.NaturalNumbers]
isdecinclpr1 [in UniMath.Foundations.PartC]
isdecinclS [in UniMath.Foundations.NaturalNumbers]
isdecinclstntonat [in UniMath.Combinatorics.StandardFiniteSets]
isdecincltoisincl [in UniMath.Foundations.PartC]
isdecisbndqdec [in UniMath.PAdics.lemmas]
isdecnegrel [in UniMath.Foundations.Sets]
isdecpropdirprod [in UniMath.Foundations.PartC]
isdecpropempty [in UniMath.Foundations.PartB]
isdecpropfibseq0 [in UniMath.Foundations.PartC]
isdecpropfibseq1 [in UniMath.Foundations.PartC]
isdecpropfromdecincl [in UniMath.Foundations.PartC]
isdecpropfromiscontr [in UniMath.Foundations.PartB]
isdecpropfromneg [in UniMath.Foundations.PartB]
isdecprophdisj [in UniMath.Foundations.Propositions]
isdecpropif [in UniMath.Foundations.PartB]
isdecpropif' [in UniMath.Foundations.PartC]
isdecproplogeqb [in UniMath.Foundations.PartB]
isdecproplogeqf [in UniMath.Foundations.PartB]
isdecproppaths [in UniMath.Foundations.PartC]
isdecproppathsfromisolated [in UniMath.Foundations.PartC]
isdecproppathstoisolated [in UniMath.Foundations.PartC]
isdecpropweqb [in UniMath.Foundations.PartB]
isdecpropweqf [in UniMath.Foundations.PartB]
isdecquotrel [in UniMath.Foundations.Sets]
isdecrelhqgth [in UniMath.NumberSystems.RationalNumbers]
isdecrelhzeqi [in UniMath.NumberSystems.Integers]
isdecrelhzeqminusplus [in UniMath.NumberSystems.Integers]
isdecrelhzeqminusplus' [in UniMath.NumberSystems.Integers]
isdecrelhzeqpii [in UniMath.NumberSystems.Integers]
isdecrelhzgth [in UniMath.NumberSystems.Integers]
isdecrelnatgth [in UniMath.Foundations.NaturalNumbers]
isdecreltoisnegrel [in UniMath.Foundations.Sets]
isdecrel_ltNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isdecrel_leNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isdistrisof [in UniMath.Algebra.BinaryOperations]
isdistr_setofendabgr_op [in UniMath.Algebra.Modules.Core]
isdistr_plus_halfNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isdistr_Dcuts_half_plus [in UniMath.RealNumbers.NonnegativeReals]
isdistr_weq_bck [in UniMath.Algebra.BinaryOperations]
isdistr_weq_fwd [in UniMath.Algebra.BinaryOperations]
isdistr_section_ops [in UniMath.AlgebraicGeometry.Spec]
isEffectiveOrder_hnnq [in UniMath.RealNumbers.NonnegativeRationals]
isEffectivePw [in UniMath.CategoryTheory.EpiFacts]
iseo_Dcuts_le_lt_rel [in UniMath.RealNumbers.NonnegativeReals]
isEpi_pr_quot_functor [in UniMath.CategoryTheory.SetValuedFunctors]
isEpi_pw_pr_quot_functor [in UniMath.CategoryTheory.SetValuedFunctors]
isEpi_to_binop_BinDirectSum2 [in UniMath.CategoryTheory.Additive]
isEpi_to_binop_BinDirectSum1' [in UniMath.CategoryTheory.Additive]
isEpi_to_binop_BinDirectSum1 [in UniMath.CategoryTheory.Additive]
isEpi_path [in UniMath.CategoryTheory.Epis]
iseqclassdirprod [in UniMath.Foundations.Sets]
iseqclassresrel [in UniMath.Foundations.Sets]
iseqrelabgrdiff [in UniMath.Algebra.Groups]
iseqrelabgrdiffrel [in UniMath.Algebra.Groups]
iseqrelabgrdiffrelint [in UniMath.Algebra.Groups]
iseqrelabmonoidfrac [in UniMath.Algebra.Monoids]
iseqrelabmonoidfracrel [in UniMath.Algebra.Monoids]
iseqrelabmonoidfracrelint [in UniMath.Algebra.Monoids]
iseqrelquotrel [in UniMath.Foundations.Sets]
iseqrel_Dcuts_eq [in UniMath.RealNumbers.NonnegativeReals]
iseqrel_eqrel_from_hrel [in UniMath.MoreFoundations.Sets]
iseqrel_generated_binopeqrel [in UniMath.Algebra.BinaryOperations]
iseqrel_are_isomorphic [in UniMath.CategoryTheory.Core.Isos]
iseqrel_rel [in UniMath.CategoryTheory.categories.HSET.Colimits]
iseqrel_subgrhrel [in UniMath.CategoryTheory.PreAdditive]
iseqrel_reverse [in UniMath.RealNumbers.Sets]
iseqrel_closure [in UniMath.Combinatorics.Equivalence_Relations]
isEqualizerInsEq [in UniMath.CategoryTheory.limits.equalizers]
isEqualizerInUnique [in UniMath.CategoryTheory.limits.equalizers]
isEqualizer_to_isEqualizer' [in UniMath.CategoryTheory.limits.equalizers]
isEqualizer_path [in UniMath.CategoryTheory.limits.equalizers]
isEqualizer'_weq_isEqualizer [in UniMath.CategoryTheory.limits.equalizers]
isEqualizer'_to_isEqualizer [in UniMath.CategoryTheory.limits.equalizers]
isequiv_setquot_aux [in UniMath.Algebra.Archimedean]
isExactisEpi [in UniMath.CategoryTheory.ShortExactSequences]
isExactisMonic [in UniMath.CategoryTheory.ShortExactSequences]
isExact_opp [in UniMath.CategoryTheory.ShortExactSequences]
isExact_opp_Eq [in UniMath.CategoryTheory.ShortExactSequences]
isExact_to_isExact' [in UniMath.CategoryTheory.ShortExactSequences]
isExact_to_isExact'_Eq [in UniMath.CategoryTheory.ShortExactSequences]
isExact_Eq [in UniMath.CategoryTheory.ShortExactSequences]
isExact'_to_isExact [in UniMath.CategoryTheory.ShortExactSequences]
isExact'_to_isExact_Eq [in UniMath.CategoryTheory.ShortExactSequences]
isExact'_Eq [in UniMath.CategoryTheory.ShortExactSequences]
isfibseqg [in UniMath.Foundations.PartA]
isfibseqpr1 [in UniMath.Foundations.PartA]
isfilter_finite_intersection_carac [in UniMath.Topology.Filters]
isfilter_finite_intersection_and [in UniMath.Topology.Filters]
isfilter_finite_intersection_htrue [in UniMath.Topology.Filters]
isfinite_isdec_lessthan [in UniMath.Combinatorics.OrderedSets]
isfinite_isdec_ordering [in UniMath.Combinatorics.OrderedSets]
isfinite_isaset [in UniMath.Combinatorics.FiniteSets]
isfinite_isdeceq [in UniMath.Combinatorics.FiniteSets]
isfunctor_comm_functor_data [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
isgrdirprod [in UniMath.Algebra.Groups]
isgropfpsplus [in UniMath.PAdics.fps]
isgropif [in UniMath.Algebra.BinaryOperations]
isgrop_ringofendabgr_op1 [in UniMath.Algebra.Modules.Core]
isgrop_weq_bck [in UniMath.Algebra.BinaryOperations]
isgrop_weq_fwd [in UniMath.Algebra.BinaryOperations]
ishfsqweqhfibersgtof' [in UniMath.Foundations.PartA]
ishfsqweqhfibersg'tof [in UniMath.Foundations.PartA]
ishinhsubtypedirprod [in UniMath.Foundations.Sets]
ishinh_irrel [in UniMath.MoreFoundations.Propositions]
ishomcomp [in UniMath.Algebra.Universal.Algebras]
ishomeval [in UniMath.Algebra.Universal.FreeAlgebras]
ishomgeval [in UniMath.Algebra.Universal.TermAlgebras]
ishomid [in UniMath.Algebra.Universal.Algebras]
ishomotinclrecomplf [in UniMath.Foundations.PartC]
ishomtounit [in UniMath.Algebra.Universal.Algebras]
ishom_nat_to_z2 [in UniMath.Algebra.Universal.Examples.Nat]
ishssMor_InitAlg [in UniMath.SubstitutionSystems.LiftingInitial_alt]
ishssMor_comp [in UniMath.SubstitutionSystems.SubstitutionSystems]
ishssMor_id [in UniMath.SubstitutionSystems.SubstitutionSystems]
ishssMor_InitAlg [in UniMath.SubstitutionSystems.LiftingInitial]
isinclbetweensets [in UniMath.Foundations.PartB]
isinclcomp [in UniMath.Foundations.PartB]
isincldi [in UniMath.Foundations.NaturalNumbers]
isincldni [in UniMath.Combinatorics.StandardFiniteSets]
isinclfromcoprodwithnegimage [in UniMath.Foundations.PartC]
isinclfromhfiber [in UniMath.Foundations.PartB]
isinclfromstn1 [in UniMath.Combinatorics.StandardFiniteSets]
isinclfromunit [in UniMath.Foundations.PartB]
isinclgtogw [in UniMath.Foundations.PartB]
isinclgwtog [in UniMath.Foundations.PartB]
isinclhomot [in UniMath.Foundations.PartB]
isinclhqplusl [in UniMath.NumberSystems.RationalNumbers]
isinclhqplusr [in UniMath.NumberSystems.RationalNumbers]
isinclhzmultl [in UniMath.NumberSystems.Integers]
isinclhzmultr [in UniMath.NumberSystems.Integers]
isinclhzplusl [in UniMath.NumberSystems.Integers]
isinclhzplusr [in UniMath.NumberSystems.Integers]
isinclii1 [in UniMath.Foundations.PartC]
isinclii2 [in UniMath.Foundations.PartC]
isinclnatplusl [in UniMath.Foundations.NaturalNumbers]
isinclnatplusr [in UniMath.Foundations.NaturalNumbers]
isinclprabgrdiff [in UniMath.Algebra.Groups]
isinclprabmonoidfrac [in UniMath.Algebra.Monoids]
isinclprcommringfrac [in UniMath.Algebra.RigsAndRings]
isinclpr1carrier [in UniMath.Foundations.Sets]
isinclpr1compl [in UniMath.Foundations.PartC]
isinclpr1compl_ne [in UniMath.MoreFoundations.NegativePropositions]
isinclpr1image [in UniMath.Foundations.Propositions]
isinclpr1isolated [in UniMath.Foundations.PartD]
isinclpr1setquot [in UniMath.Foundations.Sets]
isinclpr1weq [in UniMath.Foundations.PartD]
isinclS [in UniMath.Foundations.NaturalNumbers]
isinclsetquotfun [in UniMath.Foundations.Sets]
isinclstntonat [in UniMath.Combinatorics.StandardFiniteSets]
isincltwooutof3a [in UniMath.Foundations.PartB]
isinclweq [in UniMath.Foundations.PartB]
isinclweqonpaths [in UniMath.Foundations.PartB]
isincl_underlyingPoset [in UniMath.Combinatorics.OrderedSets]
isincl_pr1_PosetEquivalence [in UniMath.Foundations.Sets]
isInitial_InitHSS [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
isInitial_InitHSS [in UniMath.SubstitutionSystems.LiftingInitial_alt]
isInitial_pre_comp [in UniMath.SubstitutionSystems.LiftingInitial_alt]
isinitial_termalgebra [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
isInitial_Initial [in UniMath.CategoryTheory.limits.graphs.initial]
isInitial_InitHSS [in UniMath.SubstitutionSystems.LiftingInitial]
isinjnatcoface [in UniMath.PAdics.lemmas]
isinjpr1weq [in UniMath.Foundations.PartD]
isinjstntonat [in UniMath.Combinatorics.StandardFiniteSets]
isinj_pr1_PosetEquivalence [in UniMath.Foundations.Sets]
isintdomhz [in UniMath.NumberSystems.Integers]
isinvbinophrelgr [in UniMath.Algebra.Groups]
isinvbinophrelif [in UniMath.Algebra.BinaryOperations]
isinvertiblemonob [in UniMath.Algebra.BinaryOperations]
isinvertiblemonof [in UniMath.Algebra.BinaryOperations]
isinvisob [in UniMath.Algebra.BinaryOperations]
isinvisof [in UniMath.Algebra.BinaryOperations]
isinvmulthrelnatgth [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvmulthrelnatlth [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvolutive_invNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isinvoncarrier [in UniMath.Algebra.Groups]
isinvongrquot [in UniMath.Algebra.Groups]
isinvplushrelhqgth [in UniMath.NumberSystems.RationalNumbers]
isinvplushrelhzgth [in UniMath.NumberSystems.Integers]
isinvplushrelnatgeh [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvplushrelnatgth [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvplushrelnatleh [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvplushrelnatlth [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvrigmultgtif [in UniMath.Algebra.RigsAndRings]
isinvrigmultgtnatgth [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isinvringmultgtaspartinvbinophrel [in UniMath.Algebra.RigsAndRings]
isinvringmultgtif [in UniMath.Algebra.Domains_and_Fields]
isinvringmultgttoisinvrigmultgt [in UniMath.Algebra.RigsAndRings]
isinvringmultgttoislinvringmultgt [in UniMath.Algebra.RigsAndRings]
isinvringmultgttoisrinvringmultgt [in UniMath.Algebra.RigsAndRings]
isinvringmulthqgth [in UniMath.NumberSystems.RationalNumbers]
isinvringmulthzgth [in UniMath.NumberSystems.Integers]
isinvringrigtoringmultgt [in UniMath.Algebra.RigsAndRings]
isinv_setofendabgr_inv [in UniMath.Algebra.Modules.Core]
isinv_weq_bck [in UniMath.Algebra.BinaryOperations]
isinv_weq_fwd [in UniMath.Algebra.BinaryOperations]
isinv_section_inv [in UniMath.AlgebraicGeometry.Spec]
isirreflabgrdiffrel [in UniMath.Algebra.Groups]
isirreflabmonoidfracrel [in UniMath.Algebra.Monoids]
isirreflabmonoidfracrelint [in UniMath.Algebra.Monoids]
isirreflafldfracapartrelpre [in UniMath.PAdics.frac]
isirreflapSet [in UniMath.Algebra.Apartness]
isirreflfldfracgt [in UniMath.Algebra.Domains_and_Fields]
isirreflhqgth [in UniMath.NumberSystems.RationalNumbers]
isirreflhzgth [in UniMath.NumberSystems.Integers]
isirreflnatgth [in UniMath.Foundations.NaturalNumbers]
isirreflpadicapart0 [in UniMath.PAdics.padics]
isirreflquotrel [in UniMath.Foundations.Sets]
isirrefltightapSet [in UniMath.Algebra.Apartness]
isirrefl_Dcuts_ap_rel [in UniMath.RealNumbers.NonnegativeReals]
isirrefl_Dcuts_lt_rel [in UniMath.RealNumbers.NonnegativeReals]
isirrefl_Rap [in UniMath.RealNumbers.Reals]
isirrefl_Rlt [in UniMath.RealNumbers.Reals]
isirrefl_natneq [in UniMath.Foundations.NaturalNumbers]
isirrefl_reverse [in UniMath.RealNumbers.Sets]
isirrefl_CFap [in UniMath.Algebra.ConstructiveStructures]
isirrefl_CCDRap [in UniMath.Algebra.ConstructiveStructures]
isirrefl_CDRap [in UniMath.Algebra.ConstructiveStructures]
IsIsoIsMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isisolateddecinclf [in UniMath.Foundations.PartC]
isisolatedinclb [in UniMath.Foundations.PartB]
isisolatedinstn [in UniMath.Combinatorics.StandardFiniteSets]
isisolatedweqf [in UniMath.Foundations.PartB]
isiso_from_Terminal_to_Terminal [in UniMath.CategoryTheory.limits.graphs.terminal]
isiso_from_Coequalizer_to_Coequalizer [in UniMath.CategoryTheory.limits.graphs.coequalizers]
isiso_from_Initial_to_Initial [in UniMath.CategoryTheory.limits.initial]
isiso_from_Pushout_to_Pushout [in UniMath.CategoryTheory.limits.graphs.pushouts]
isiso_from_Pushout_to_Pushout [in UniMath.CategoryTheory.limits.pushouts]
isiso_from_Equalizer_to_Equalizer [in UniMath.CategoryTheory.limits.graphs.equalizers]
isiso_from_Zero_to_Zero [in UniMath.CategoryTheory.limits.zero]
isiso_from_Equalizer_to_Equalizer [in UniMath.CategoryTheory.limits.equalizers]
isiso_from_Initial_to_Initial [in UniMath.CategoryTheory.limits.graphs.initial]
isiso_from_Pullback_to_Pullback [in UniMath.CategoryTheory.limits.graphs.pullbacks]
isiso_from_Pullback_to_Pullback [in UniMath.CategoryTheory.limits.pullbacks]
isiso_from_Zero_to_Zero [in UniMath.CategoryTheory.limits.graphs.zero]
isiso_from_Coequalizer_to_Coequalizer [in UniMath.CategoryTheory.limits.coequalizers]
isiso_from_Terminal_to_Terminal [in UniMath.CategoryTheory.limits.terminal]
isKernel_iff [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isKernel_paths [in UniMath.CategoryTheory.limits.kernels]
isKernel_opp [in UniMath.CategoryTheory.limits.Opp]
islabsorb_Dcuts_mult_zero [in UniMath.RealNumbers.NonnegativeReals]
islabsorb_Rzero_Rmult [in UniMath.RealNumbers.Reals]
islabsorb_CFzero_CFmult [in UniMath.Algebra.ConstructiveStructures]
islabsorb_CCDRzero_CCDRmult [in UniMath.Algebra.ConstructiveStructures]
islabsorb_CDRzero_CDRmult [in UniMath.Algebra.ConstructiveStructures]
islapbinop_Dcuts_mult [in UniMath.RealNumbers.NonnegativeReals]
islapbinop_Dcuts_plus [in UniMath.RealNumbers.NonnegativeReals]
islapbinop_mult [in UniMath.RealNumbers.Reals]
islapbinop_plus [in UniMath.RealNumbers.Reals]
islapbinop_op2 [in UniMath.Algebra.Apartness]
islapbinop_op1 [in UniMath.Algebra.Apartness]
islapbinop_op [in UniMath.Algebra.Apartness]
islbub_Dcuts_of_Dcuts [in UniMath.RealNumbers.NonnegativeReals]
islcancelableif [in UniMath.Algebra.Domains_and_Fields]
islcancelablemonob [in UniMath.Algebra.BinaryOperations]
isldistrfps [in UniMath.PAdics.fps]
isldistrisof [in UniMath.Algebra.BinaryOperations]
isldistrmonob [in UniMath.Algebra.BinaryOperations]
isldistr_setofendabgr_op [in UniMath.Algebra.Modules.Core]
isldistr_minus_multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isldistr_max_multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isldistr_max_plusNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isldistr_Dcuts_max_plus [in UniMath.RealNumbers.NonnegativeReals]
isldistr_Dcuts_max_mult [in UniMath.RealNumbers.NonnegativeReals]
isldistr_Dcuts_plus_mult [in UniMath.RealNumbers.NonnegativeReals]
isldistr_weq_bck [in UniMath.Algebra.BinaryOperations]
isldistr_weq_fwd [in UniMath.Algebra.BinaryOperations]
isldistr_Rplus_Rmult [in UniMath.RealNumbers.Reals]
isldistr_mult_minusNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isldistr_hnnq_plus_mult [in UniMath.RealNumbers.NonnegativeRationals]
isldistr_CFplus_CFmult [in UniMath.Algebra.ConstructiveStructures]
isldistr_CCDRplus_CCDRmult [in UniMath.Algebra.ConstructiveStructures]
isldistr_CDRplus_CDRmult [in UniMath.Algebra.ConstructiveStructures]
isldistr_section_ops [in UniMath.AlgebraicGeometry.Spec]
isLim_is_iso [in UniMath.CategoryTheory.limits.graphs.limits]
islinearfuncomp [in UniMath.Algebra.Modules.Core]
islinearinvmap [in UniMath.Algebra.Modules.Core]
islinvertibleisob [in UniMath.Algebra.BinaryOperations]
islinvinfldfrac [in UniMath.Algebra.Domains_and_Fields]
islinvmultwithminus1_is_l [in UniMath.Algebra.BinaryOperations]
islinv_setofendabgr_inv [in UniMath.Algebra.Modules.Core]
islinv_weq_bck [in UniMath.Algebra.BinaryOperations]
islinv_weq_fwd [in UniMath.Algebra.BinaryOperations]
islinv_Rinv [in UniMath.RealNumbers.Reals]
islinv_Ropp [in UniMath.RealNumbers.Reals]
islinv_CFinv [in UniMath.Algebra.ConstructiveStructures]
islinv_CFopp [in UniMath.Algebra.ConstructiveStructures]
islinv_CCDRinv [in UniMath.Algebra.ConstructiveStructures]
islinv_CDRinv [in UniMath.Algebra.ConstructiveStructures]
islinv_section_inv [in UniMath.AlgebraicGeometry.Spec]
islinv'_hnnq_inv [in UniMath.RealNumbers.NonnegativeRationals]
islogeqassochconj [in UniMath.MoreFoundations.Propositions]
islogeqassochdisj [in UniMath.MoreFoundations.Propositions]
islogeqcommhconj [in UniMath.MoreFoundations.Propositions]
islogeqcommhdisj [in UniMath.Foundations.Propositions]
islogeqhconj_absorb_hdisj [in UniMath.MoreFoundations.Propositions]
islogeqhdisj_absorb_hconj [in UniMath.MoreFoundations.Propositions]
islogeqhfalse_hdisj [in UniMath.MoreFoundations.Propositions]
islogeqhhtrue_hconj [in UniMath.MoreFoundations.Propositions]
islringmultgttoisringmultgt [in UniMath.Algebra.RigsAndRings]
islrinvringmultgttoisinvringmultgt [in UniMath.Algebra.RigsAndRings]
islub_Dcuts_of_Dcuts [in UniMath.RealNumbers.NonnegativeReals]
islub_islubpointwise [in UniMath.Algebra.Dcpo]
islunit_setofendabgr_un1 [in UniMath.Algebra.Modules.Core]
islunit_setofendabgr_un0 [in UniMath.Algebra.Modules.Core]
islunit_Dcuts_mult_one [in UniMath.RealNumbers.NonnegativeReals]
islunit_Dcuts_plus_zero [in UniMath.RealNumbers.NonnegativeReals]
islunit_weq_bck [in UniMath.Algebra.BinaryOperations]
islunit_weq_fwd [in UniMath.Algebra.BinaryOperations]
islunit_Rone_Rmult [in UniMath.RealNumbers.Reals]
islunit_Rzero_Rplus [in UniMath.RealNumbers.Reals]
islunit_hnnq_one_mult [in UniMath.RealNumbers.NonnegativeRationals]
islunit_hnnq_zero_plus [in UniMath.RealNumbers.NonnegativeRationals]
islunit_cat_comm [in UniMath.CategoryTheory.LatticeObject]
islunit_CFone_CFmult [in UniMath.Algebra.ConstructiveStructures]
islunit_CFzero_CFplus [in UniMath.Algebra.ConstructiveStructures]
islunit_CCDRone_CCDRmult [in UniMath.Algebra.ConstructiveStructures]
islunit_CCDRzero_CCDRplus [in UniMath.Algebra.ConstructiveStructures]
islunit_CDRone_CDRmult [in UniMath.Algebra.ConstructiveStructures]
islunit_CDRzero_CDRplus [in UniMath.Algebra.ConstructiveStructures]
islunit_section_unel2 [in UniMath.AlgebraicGeometry.Spec]
islunit_section_unel1 [in UniMath.AlgebraicGeometry.Spec]
isMaximal_preserved [in UniMath.Combinatorics.OrderedSets]
isMinimal_preserved [in UniMath.Combinatorics.OrderedSets]
isminusmultwithminus1_is_l [in UniMath.Algebra.BinaryOperations]
ismodulefun_comp [in UniMath.Algebra.Modules.Core]
ismodulefun_pr1 [in UniMath.Algebra.Modules.Submodule]
isMonic_Ω_mor [in UniMath.CategoryTheory.Presheaf]
isMonic_path [in UniMath.CategoryTheory.Monics]
isMonic_to_binop_BinDirectSum2 [in UniMath.CategoryTheory.Additive]
isMonic_to_binop_BinDirectSum1' [in UniMath.CategoryTheory.Additive]
isMonic_to_binop_BinDirectSum1 [in UniMath.CategoryTheory.Additive]
ismonoidcarrier [in UniMath.Algebra.Monoids]
ismonoidfuncomp [in UniMath.Algebra.Monoids]
ismonoidfuninvmap [in UniMath.Algebra.Monoids]
ismonoidfun_setquotuniv [in UniMath.Algebra.Monoids]
ismonoidfun_setquotpr [in UniMath.Algebra.Monoids]
ismonoidfun_pr1 [in UniMath.Algebra.Monoids]
ismonoidopfpsplus [in UniMath.PAdics.fps]
ismonoidopfpstimes [in UniMath.PAdics.fps]
ismonoidop_ringofendabgr_op2 [in UniMath.Algebra.Modules.Core]
ismonoidop_ringofendabgr_op1 [in UniMath.Algebra.Modules.Core]
ismonoidop_weq_bck [in UniMath.Algebra.BinaryOperations]
ismonoidop_weq_fwd [in UniMath.Algebra.BinaryOperations]
ismonoidop_concatenate [in UniMath.Algebra.Free_Monoids_and_Groups]
ismultmonoidfun_restriction_section [in UniMath.AlgebraicGeometry.Spec]
isnattruncauto0S [in UniMath.PAdics.fps]
isnegnegrel [in UniMath.Foundations.Sets]
isnegrelhqgth [in UniMath.NumberSystems.RationalNumbers]
isnegrelhzgth [in UniMath.NumberSystems.Integers]
isnegrelnatgth [in UniMath.Foundations.NaturalNumbers]
isNeighborhood_isFilter [in UniMath.Topology.Topology]
isNeighborhood_isPreFilter [in UniMath.Topology.Topology]
isNeighborhood_neighborhood [in UniMath.Topology.Topology]
isNNO_NNO [in UniMath.CategoryTheory.NNO]
isNNO_nat [in UniMath.CategoryTheory.categories.HSET.Structures]
isnonnegative_NonnegativeReals' [in UniMath.RealNumbers.NonnegativeReals]
isnonnegative_NonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isnonnegative_NonnegativeRationals' [in UniMath.RealNumbers.NonnegativeRationals]
isnonnegative_NonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isnonzeroCCDR [in UniMath.Algebra.ConstructiveStructures]
isnonzeroCDR [in UniMath.Algebra.ConstructiveStructures]
isnonzeroCF [in UniMath.Algebra.ConstructiveStructures]
isnonzerofromlinvel [in UniMath.Algebra.Domains_and_Fields]
isnonzerofromrinvel [in UniMath.Algebra.Domains_and_Fields]
isnonzerolinvel [in UniMath.Algebra.Domains_and_Fields]
isnonzeroReals [in UniMath.RealNumbers.Reals]
isnonzerorighz [in UniMath.NumberSystems.Integers]
isnonzerorinvel [in UniMath.Algebra.Domains_and_Fields]
IsoArrowFrom_isaprop [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoArrowTo_isaprop [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isofhlevelcontr [in UniMath.Foundations.PartB]
isofhleveldirprod [in UniMath.Foundations.PartB]
isofhlevelfcoprodf [in UniMath.Foundations.PartC]
isofhlevelff [in UniMath.Foundations.PartB]
isofhlevelfffromZ [in UniMath.Foundations.PartB]
isofhlevelffib [in UniMath.Foundations.PartB]
isofhlevelffromXY [in UniMath.Foundations.PartB]
isofhlevelfgf [in UniMath.Foundations.PartB]
isofhlevelfgtogw [in UniMath.Foundations.PartB]
isofhlevelfgwtog [in UniMath.Foundations.PartB]
isofhlevelfhfiberpr1 [in UniMath.Foundations.PartB]
isofhlevelfhfiberpr1y [in UniMath.Foundations.PartB]
isofhlevelfhomot [in UniMath.Foundations.PartB]
isofhlevelfhomot2 [in UniMath.Foundations.PartB]
isofhlevelfonpaths [in UniMath.Foundations.PartB]
isofhlevelfpmap [in UniMath.Foundations.PartB]
isofhlevelfpr1 [in UniMath.Foundations.PartB]
isofhlevelfromfun [in UniMath.Foundations.PartB]
isofhlevelfsn [in UniMath.Foundations.PartB]
isofhlevelfsnfib [in UniMath.Foundations.PartB]
isofhlevelfsnhfiberpr1 [in UniMath.Foundations.PartB]
isofhlevelfsnincl [in UniMath.Foundations.PartB]
isofhlevelfssn [in UniMath.Foundations.PartB]
isofhlevelfssnsumofmaps [in UniMath.Foundations.PartC]
isofhlevelfsumofmapsnoi [in UniMath.Foundations.PartC]
isofhlevelfweq [in UniMath.Foundations.PartB]
isofhlevelhvec [in UniMath.Algebra.Universal.HVectors]
isofhlevellist [in UniMath.Combinatorics.Lists]
isofhlevelpathspace [in UniMath.Foundations.HLevels]
isofhlevelsn [in UniMath.Foundations.PartB]
isofhlevelSnpathspace [in UniMath.Foundations.HLevels]
isofhlevelsnprop [in UniMath.Foundations.PartB]
isofhlevelsnsummand1 [in UniMath.Foundations.PartC]
isofhlevelsnsummand2 [in UniMath.Foundations.PartC]
isofhlevelsnweqfromhlevelsn [in UniMath.Foundations.PartD]
isofhlevelsnweqtohlevelsn [in UniMath.Foundations.PartD]
isofhlevelssn [in UniMath.Foundations.PartB]
isofhlevelssncoprod [in UniMath.Foundations.PartC]
isofhlevelssnset [in UniMath.Foundations.PartB]
isofhleveltofun [in UniMath.Foundations.PartB]
isofhleveltotal2 [in UniMath.Foundations.PartB]
isofhlevelvec [in UniMath.Combinatorics.Vectors]
isofhlevelweqb [in UniMath.Foundations.PartB]
isofhlevelweqf [in UniMath.Foundations.PartB]
isofhlevelXfromfY [in UniMath.Foundations.PartB]
isofhlevelXfromg [in UniMath.Foundations.PartB]
isofhlevel_HLevel [in UniMath.Foundations.HLevels]
isofhlevel_hsubtype [in UniMath.MoreFoundations.PartA]
isofhlevel0pathspace [in UniMath.Foundations.HLevels]
isofneluniv [in UniMath.Combinatorics.FiniteSets]
IsoIsEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoIsMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isolatedtoisolatedii1 [in UniMath.Foundations.PartC]
isolatedtoisolatedii2 [in UniMath.Foundations.PartC]
IsomEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsomEpi1 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsomMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsomMono1 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsomorphicToSplit [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isOneSided_Dcuts_corr [in UniMath.RealNumbers.DedekindCuts]
isOneSided_translation [in UniMath.RealNumbers.DedekindCuts]
isOneSided_Dcuts_open [in UniMath.RealNumbers.DedekindCuts]
isOneSided_Dcuts_bot [in UniMath.RealNumbers.DedekindCuts]
isOneSided_TwoSided [in UniMath.RealNumbers.DedekindCuts]
isOpen_or [in UniMath.Topology.Topology]
isOpen_and [in UniMath.Topology.Topology]
isOpen_htrue [in UniMath.Topology.Topology]
isOpen_hfalse [in UniMath.Topology.Topology]
isOpen_finite_intersection [in UniMath.Topology.Topology]
isOpen_union [in UniMath.Topology.Topology]
isotoid_functorcat_pointwise [in UniMath.CategoryTheory.Monads.RelativeMonads]
isotoid_functorcat_pointwise_aux [in UniMath.CategoryTheory.Monads.RelativeMonads]
isotoid_identity_iso [in UniMath.CategoryTheory.Core.Univalence]
isotoid_comp [in UniMath.CategoryTheory.Core.Univalence]
isotoid_inj [in UniMath.CategoryTheory.Core.Univalence]
isotoid_idtoiso [in UniMath.CategoryTheory.Core.Univalence]
isotoid_CONE_idtoiso [in UniMath.CategoryTheory.limits.cones]
isotoid_2_1_vcomp [in UniMath.Bicategories.Core.TransportLaws]
isotoid_2_1_rwhisker [in UniMath.Bicategories.Core.TransportLaws]
isotoid_2_1_lwhisker [in UniMath.Bicategories.Core.TransportLaws]
isotoid_2_1_id [in UniMath.Bicategories.Core.TransportLaws]
IsoWithCokernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoWithKernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
iso_from_is_relmonadmor_iso_inv_p [in UniMath.CategoryTheory.Monads.RelativeMonads]
iso_from_is_relmonadmor_iso_idtoiso [in UniMath.CategoryTheory.Monads.RelativeMonads]
iso_from_is_relmonadmor_iso_p [in UniMath.CategoryTheory.Monads.RelativeMonads]
iso_Universal_weq [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
iso_in_precat_is_iso_in_subcat [in UniMath.CategoryTheory.Subcategory.Full]
iso_in_subcat_is_iso_in_precat [in UniMath.CategoryTheory.Subcategory.Full]
iso_exp_precomp_prod_functor [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
iso_comp_left_isweq [in UniMath.CategoryTheory.yoneda]
iso_moduleiso [in UniMath.CategoryTheory.categories.modules]
iso_from_fully_faithful_reflection_functor_on_iso [in UniMath.CategoryTheory.Core.Functors]
iso_to_isBinCoproduct [in UniMath.CategoryTheory.limits.bincoproducts]
iso_to_isBinCoproduct_unique [in UniMath.CategoryTheory.limits.bincoproducts]
iso_to_isBinCoproduct_comm [in UniMath.CategoryTheory.limits.bincoproducts]
iso_disp_postcomp [in UniMath.CategoryTheory.DisplayedCats.Core]
iso_disp_precomp [in UniMath.CategoryTheory.DisplayedCats.Core]
iso_comp_left_isweq [in UniMath.CategoryTheory.Core.Isos]
iso_comp_right_isweq [in UniMath.CategoryTheory.Core.Isos]
iso_inv_iso_inv [in UniMath.CategoryTheory.Core.Isos]
iso_inv_of_iso_id [in UniMath.CategoryTheory.Core.Isos]
iso_inv_of_iso_comp [in UniMath.CategoryTheory.Core.Isos]
iso_inv_to_right [in UniMath.CategoryTheory.Core.Isos]
iso_inv_to_left [in UniMath.CategoryTheory.Core.Isos]
iso_inv_on_left [in UniMath.CategoryTheory.Core.Isos]
iso_inv_on_right [in UniMath.CategoryTheory.Core.Isos]
iso_disp_iso_fiber [in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_aux_weq [in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_prod_weq [in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_prod12 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_prod21 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_to_slice_precat_iso [in UniMath.CategoryTheory.slicecat]
iso_yoneda_binproducts [in UniMath.CategoryTheory.YonedaBinproducts]
iso_from_folds_iso_folds_iso_from_iso [in UniMath.Folds.folds_isomorphism]
iso_to_isBinProduct [in UniMath.CategoryTheory.limits.binproducts]
iso_to_isBinProduct_unique [in UniMath.CategoryTheory.limits.binproducts]
iso_to_isBinProduct_comm [in UniMath.CategoryTheory.limits.binproducts]
ispartbinopabmonoidfracrelint [in UniMath.Algebra.Monoids]
ispartbinopcommringfracgt [in UniMath.Algebra.RigsAndRings]
ispartbinophrelandfun [in UniMath.Algebra.BinaryOperations]
ispartbinophrelif [in UniMath.Algebra.BinaryOperations]
ispartialorder_pointwiseorder [in UniMath.Algebra.FixedPointTheorems]
isPartialOrder_Lge [in UniMath.Algebra.Lattice]
isPartialOrder_Lle [in UniMath.Algebra.Lattice]
ispartialorder_pointwiseorder [in UniMath.Algebra.Dcpo]
ispartinvbinophrelandfun [in UniMath.Algebra.BinaryOperations]
ispartinvbinophrelif [in UniMath.Algebra.BinaryOperations]
ispartinvmulthrelnatgeh [in UniMath.NumberSystems.NaturalNumbersAlgebra]
ispartinvmulthrelnatleh [in UniMath.NumberSystems.NaturalNumbersAlgebra]
ispartlbinopabmonoidfracrel [in UniMath.Algebra.Monoids]
ispartrbinopabmonoidfracrel [in UniMath.Algebra.Monoids]
isplushrelhzgth [in UniMath.NumberSystems.Integers]
isplushrelnatgeh [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isplushrelnatgth [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isplushrelnatleh [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isplushrelnatlth [in UniMath.NumberSystems.NaturalNumbersAlgebra]
ispoabgrdiffrel [in UniMath.Algebra.Groups]
ispoabgrdiffrelint [in UniMath.Algebra.Groups]
ispoabmonoidfracrel [in UniMath.Algebra.Monoids]
ispoabmonoidfracrelint [in UniMath.Algebra.Monoids]
ispoquotrel [in UniMath.Foundations.Sets]
ispositive_halfNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
ispositive_oneNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
ispositive_apNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
ispositive_Dcuts_half [in UniMath.RealNumbers.NonnegativeReals]
ispositive_Dcuts_minus [in UniMath.RealNumbers.NonnegativeReals]
ispositive_Rone [in UniMath.RealNumbers.Reals]
ispositive_multNonnegativeReals [in UniMath.RealNumbers.Reals]
ispositive_NQhalf [in UniMath.RealNumbers.NonnegativeRationals]
ispositive_divNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
ispositive_invNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
ispositive_multNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
ispositive_minusNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
ispositive_plusNonnegativeRationals_r [in UniMath.RealNumbers.NonnegativeRationals]
ispositive_plusNonnegativeRationals_l [in UniMath.RealNumbers.NonnegativeRationals]
ispositive_twoNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
ispositive_oneNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isPredicate_is_invertible_2cell [in UniMath.Bicategories.Core.Bicat]
isPredicate_is_coh_strictness_structure_from_locally_strict [in UniMath.Bicategories.Core.Strictness]
isPredicate_is_coh_strictness_structure [in UniMath.Bicategories.Core.Strictness]
isPredicate_strictness_structure_laws [in UniMath.Bicategories.Core.Strictness]
isprefix_self [in UniMath.Combinatorics.MoreLists]
ispreorder_Dcuts_eq [in UniMath.RealNumbers.NonnegativeReals]
ispreorder_Dcuts_le_rel [in UniMath.RealNumbers.NonnegativeReals]
ispreorder_hnnq_ge [in UniMath.RealNumbers.NonnegativeRationals]
ispreorder_hnnq_le [in UniMath.RealNumbers.NonnegativeRationals]
ispreorder_reverse [in UniMath.RealNumbers.Sets]
ispreorder_SubObj_rel [in UniMath.CategoryTheory.Subobjects]
ispreorder_monorel [in UniMath.CategoryTheory.Subobjects]
isprogressive_compose [in UniMath.Algebra.FixedPointTheorems]
isprogressive_idfun [in UniMath.Algebra.FixedPointTheorems]
isProofIrrelevantUnit [in UniMath.Foundations.PartA]
isProofIrrelevant_paths [in UniMath.Foundations.PartB]
IsPullbackEpiIsEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isPullbackGluedSquare [in UniMath.CategoryTheory.limits.pullbacks]
isPullback_to_isBinProduct [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
isPullback_mor_paths [in UniMath.CategoryTheory.limits.pullbacks]
isPullback_up_to_iso [in UniMath.CategoryTheory.limits.pullbacks]
isPullback_up_to_iso_eq [in UniMath.CategoryTheory.limits.pullbacks]
isPullback_image_square [in UniMath.CategoryTheory.limits.pullbacks]
isPullback_preimage_square [in UniMath.CategoryTheory.limits.pullbacks]
isPullback_iso_of_morphisms [in UniMath.CategoryTheory.limits.pullbacks]
isPullback_two_pullback [in UniMath.CategoryTheory.limits.pullbacks]
isPullback'_up_to_z_iso [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isPushout_mor_paths [in UniMath.CategoryTheory.limits.pushouts]
isPushout_up_to_iso [in UniMath.CategoryTheory.limits.pushouts]
isPushout_up_to_iso_eq [in UniMath.CategoryTheory.limits.pushouts]
isPushout'_up_to_z_iso [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
israbsorb_Dcuts_mult_zero [in UniMath.RealNumbers.NonnegativeReals]
israbsorb_Rzero_Rmult [in UniMath.RealNumbers.Reals]
israbsorb_CFzero_CFmult [in UniMath.Algebra.ConstructiveStructures]
israbsorb_CCDRzero_CCDRmult [in UniMath.Algebra.ConstructiveStructures]
israbsorb_CDRzero_CDRmult [in UniMath.Algebra.ConstructiveStructures]
israpbinop_Dcuts_mult [in UniMath.RealNumbers.NonnegativeReals]
israpbinop_Dcuts_plus [in UniMath.RealNumbers.NonnegativeReals]
israpbinop_mult [in UniMath.RealNumbers.Reals]
israpbinop_plus [in UniMath.RealNumbers.Reals]
israpbinop_op2 [in UniMath.Algebra.Apartness]
israpbinop_op1 [in UniMath.Algebra.Apartness]
israpbinop_op [in UniMath.Algebra.Apartness]
isrcancelableif [in UniMath.Algebra.Domains_and_Fields]
isrcancelablemonob [in UniMath.Algebra.BinaryOperations]
isrdistrfps [in UniMath.PAdics.fps]
isrdistrisof [in UniMath.Algebra.BinaryOperations]
isrdistrmonob [in UniMath.Algebra.BinaryOperations]
isrdistr_setofendabgr_op [in UniMath.Algebra.Modules.Core]
isrdistr_minus_multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isrdistr_max_multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isrdistr_max_plusNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isrdistr_Dcuts_max_mult [in UniMath.RealNumbers.NonnegativeReals]
isrdistr_Dcuts_plus_mult [in UniMath.RealNumbers.NonnegativeReals]
isrdistr_weq_bck [in UniMath.Algebra.BinaryOperations]
isrdistr_weq_fwd [in UniMath.Algebra.BinaryOperations]
isrdistr_Rplus_Rmult [in UniMath.RealNumbers.Reals]
isrdistr_mult_minusNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isrdistr_hnnq_plus_mult [in UniMath.RealNumbers.NonnegativeRationals]
isrdistr_CFplus_CFmult [in UniMath.Algebra.ConstructiveStructures]
isrdistr_CCDRplus_CCDRmult [in UniMath.Algebra.ConstructiveStructures]
isrdistr_section_ops [in UniMath.AlgebraicGeometry.Spec]
isreflabgrdiffrel [in UniMath.Algebra.Groups]
isreflabgrdiffrelint [in UniMath.Algebra.Groups]
isreflabmonoidfracrel [in UniMath.Algebra.Monoids]
isreflabmonoidfracrelint [in UniMath.Algebra.Monoids]
isrefleqh [in UniMath.Foundations.Sets]
isreflquotrel [in UniMath.Foundations.Sets]
isrefl_Dcuts_eq [in UniMath.RealNumbers.NonnegativeReals]
isrefl_Dcuts_le_rel [in UniMath.RealNumbers.NonnegativeReals]
isrefl_reverse [in UniMath.RealNumbers.Sets]
isrefl_SubObj_rel [in UniMath.CategoryTheory.Subobjects]
isrefl_monorel [in UniMath.CategoryTheory.Subobjects]
isrefl_filter_le [in UniMath.Topology.Filters]
isrefl_posetRelation [in UniMath.Foundations.Sets]
isrefl_logeq [in UniMath.Foundations.PartA]
isrigcarrier [in UniMath.Algebra.RigsAndRings]
isrigdirprod [in UniMath.Algebra.RigsAndRings]
isrigfuninvmap [in UniMath.Algebra.RigsAndRings]
isrigmultgtnatgth [in UniMath.NumberSystems.NaturalNumbersAlgebra]
isrigmultgttoisringmultgt [in UniMath.Algebra.RigsAndRings]
isrigops_weq_bck [in UniMath.Algebra.BinaryOperations]
isrigops_weq_fwd [in UniMath.Algebra.BinaryOperations]
isrigquot [in UniMath.Algebra.RigsAndRings]
isringaddcommringfracgt [in UniMath.Algebra.RigsAndRings]
isringaddfldfracgt [in UniMath.Algebra.Domains_and_Fields]
isringcarrier [in UniMath.Algebra.RigsAndRings]
isringdirprod [in UniMath.Algebra.RigsAndRings]
isringfunweqfldfracgt_f [in UniMath.Algebra.Domains_and_Fields]
isringfunweqfldfracgt_b [in UniMath.Algebra.Domains_and_Fields]
isringfun_restriction_section [in UniMath.AlgebraicGeometry.Spec]
isringmultcommringfracgt [in UniMath.Algebra.RigsAndRings]
isringmultfldfracgt [in UniMath.Algebra.Domains_and_Fields]
isringmultgtaspartbinophrel [in UniMath.Algebra.RigsAndRings]
isringmultgttoislringmultgt [in UniMath.Algebra.RigsAndRings]
isringmultgttoisrigmultgt [in UniMath.Algebra.RigsAndRings]
isringmultgttoisrringmultgt [in UniMath.Algebra.RigsAndRings]
isringmulthqgth [in UniMath.NumberSystems.RationalNumbers]
isringmulthzgth [in UniMath.NumberSystems.Integers]
isringopsif [in UniMath.Algebra.BinaryOperations]
isringops_setofendabgr_op [in UniMath.Algebra.Modules.Core]
isringops_weq_bck [in UniMath.Algebra.BinaryOperations]
isringops_weq_fwd [in UniMath.Algebra.BinaryOperations]
isringquot [in UniMath.Algebra.RigsAndRings]
isringrigtoringmultgt [in UniMath.Algebra.RigsAndRings]
isrinvertibleisob [in UniMath.Algebra.BinaryOperations]
isrinvinfldfrac [in UniMath.Algebra.Domains_and_Fields]
isrinvmultwithminus1_is_l [in UniMath.Algebra.BinaryOperations]
isrinv_setofendabgr_inv [in UniMath.Algebra.Modules.Core]
isrinv_Dcuts_inv [in UniMath.RealNumbers.NonnegativeReals]
isrinv_weq_bck [in UniMath.Algebra.BinaryOperations]
isrinv_weq_fwd [in UniMath.Algebra.BinaryOperations]
isrinv_Rinv [in UniMath.RealNumbers.Reals]
isrinv_Ropp [in UniMath.RealNumbers.Reals]
isrinv_CFinv [in UniMath.Algebra.ConstructiveStructures]
isrinv_CFopp [in UniMath.Algebra.ConstructiveStructures]
isrinv_CCDRinv [in UniMath.Algebra.ConstructiveStructures]
isrinv_CDRinv [in UniMath.Algebra.ConstructiveStructures]
isrinv_section_inv [in UniMath.AlgebraicGeometry.Spec]
isrinv'_hnnq_inv [in UniMath.RealNumbers.NonnegativeRationals]
isrringmultgttoisringmultgt [in UniMath.Algebra.RigsAndRings]
isrunit_setofendabgr_un1 [in UniMath.Algebra.Modules.Core]
isrunit_setofendabgr_un0 [in UniMath.Algebra.Modules.Core]
isrunit_Dcuts_mult_one [in UniMath.RealNumbers.NonnegativeReals]
isrunit_Dcuts_plus_zero [in UniMath.RealNumbers.NonnegativeReals]
isrunit_weq_bck [in UniMath.Algebra.BinaryOperations]
isrunit_weq_fwd [in UniMath.Algebra.BinaryOperations]
isrunit_Rone_Rmult [in UniMath.RealNumbers.Reals]
isrunit_Rzero_Rplus [in UniMath.RealNumbers.Reals]
isrunit_hnnq_one_mult [in UniMath.RealNumbers.NonnegativeRationals]
isrunit_hnnq_zero_plus [in UniMath.RealNumbers.NonnegativeRationals]
isrunit_CFone_CFmult [in UniMath.Algebra.ConstructiveStructures]
isrunit_CFzero_CFplus [in UniMath.Algebra.ConstructiveStructures]
isrunit_CCDRone_CCDRmult [in UniMath.Algebra.ConstructiveStructures]
isrunit_CCDRzero_CCDRplus [in UniMath.Algebra.ConstructiveStructures]
isrunit_CDRone_CDRmult [in UniMath.Algebra.ConstructiveStructures]
isrunit_CDRzero_CDRplus [in UniMath.Algebra.ConstructiveStructures]
isrunit_section_unel2 [in UniMath.AlgebraicGeometry.Spec]
isrunit_section_unel1 [in UniMath.AlgebraicGeometry.Spec]
isSetOfOpen_finite_intersection_carac [in UniMath.Topology.Topology]
isSetOfOpen_finite_intersection_and [in UniMath.Topology.Topology]
isSetOfOpen_finite_intersection_htrue [in UniMath.Topology.Topology]
isSetOfOpen_hfalse [in UniMath.Topology.Topology]
isSplitToKernelCokernelPair [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isstpo_Dcuts_lt_rel [in UniMath.RealNumbers.NonnegativeReals]
isStrongOrder_hr_lt [in UniMath.RealNumbers.Reals]
isStrongOrder_hnnq_gt [in UniMath.RealNumbers.NonnegativeRationals]
isStrongOrder_hnnq_lt [in UniMath.RealNumbers.NonnegativeRationals]
isStrongOrder_setquot [in UniMath.Algebra.Lattice]
isStrongOrder_reverse [in UniMath.RealNumbers.Sets]
issublinear_invNonnegativeRationals_lt [in UniMath.RealNumbers.NonnegativeRationals]
issublinear_invNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
issubmodule_image [in UniMath.Algebra.Modules.Submodule]
issubmodule_kernel [in UniMath.Algebra.Modules.Submodule]
issurjcomp [in UniMath.Foundations.Propositions]
issurjectiveweq [in UniMath.Foundations.Propositions]
issurjective_postcomp_with_weq [in UniMath.CategoryTheory.Adjunctions.Core]
issurjprtoimage [in UniMath.Foundations.Propositions]
issurjsetquotfun [in UniMath.Foundations.Sets]
issurjsetquotpr [in UniMath.Foundations.Sets]
issurjsetquot2pr [in UniMath.Foundations.Sets]
issurjtwooutof3b [in UniMath.Foundations.Propositions]
issymmabgrdiffrel [in UniMath.Algebra.Groups]
issymmabgrdiffrelint [in UniMath.Algebra.Groups]
issymmabmonoidfracrel [in UniMath.Algebra.Monoids]
issymmabmonoidfracrelint [in UniMath.Algebra.Monoids]
issymmafldfracapartrelpre [in UniMath.PAdics.frac]
issymmapSet [in UniMath.Algebra.Apartness]
issymmpadicapart0 [in UniMath.PAdics.padics]
issymmquotrel [in UniMath.Foundations.Sets]
issymmtightapSet [in UniMath.Algebra.Apartness]
issymm_Dcuts_ap_rel [in UniMath.RealNumbers.NonnegativeReals]
issymm_Dcuts_eq [in UniMath.RealNumbers.NonnegativeReals]
issymm_Rap [in UniMath.RealNumbers.Reals]
issymm_natneq [in UniMath.Foundations.NaturalNumbers]
issymm_reverse [in UniMath.RealNumbers.Sets]
issymm_CFap [in UniMath.Algebra.ConstructiveStructures]
issymm_CCDRap [in UniMath.Algebra.ConstructiveStructures]
issymm_CDRap [in UniMath.Algebra.ConstructiveStructures]
issymm_logeq [in UniMath.Foundations.PartA]
istightap_hr_ap [in UniMath.RealNumbers.Reals]
istighttightapSet [in UniMath.Algebra.Apartness]
istighttightapSet_rev [in UniMath.Algebra.Apartness]
istight_apNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
istight_Dcuts_ap_rel [in UniMath.RealNumbers.NonnegativeReals]
istight_Rap [in UniMath.RealNumbers.Reals]
istight_CFap [in UniMath.Algebra.ConstructiveStructures]
istight_CCDRap [in UniMath.Algebra.ConstructiveStructures]
istight_CDRap [in UniMath.Algebra.ConstructiveStructures]
istotalabgrdiffrel [in UniMath.Algebra.Groups]
istotalabmonoidfracrel [in UniMath.Algebra.Monoids]
istotalabmonoidfracrelint [in UniMath.Algebra.Monoids]
isTotalOrder_TOSubset_plus_point [in UniMath.Combinatorics.WellOrderedSets]
istotalquotrel [in UniMath.Foundations.Sets]
istotaltoiscoasymm [in UniMath.Foundations.Sets]
istotal_FiniteOrderedSet [in UniMath.Combinatorics.OrderedSets]
istotal_reverse [in UniMath.RealNumbers.Sets]
istransabgrdiffrel [in UniMath.Algebra.Groups]
istransabgrdiffrelint [in UniMath.Algebra.Groups]
istransabmonoidfracrel [in UniMath.Algebra.Monoids]
istransabmonoidfracrelint [in UniMath.Algebra.Monoids]
istransandirrefltoasymm [in UniMath.Foundations.Sets]
istransfldfracgt [in UniMath.Algebra.Domains_and_Fields]
istranshqgth [in UniMath.NumberSystems.RationalNumbers]
istranshzgth [in UniMath.NumberSystems.Integers]
istransnatgth [in UniMath.Foundations.NaturalNumbers]
istransnegrel [in UniMath.Foundations.Sets]
istransquotrel [in UniMath.Foundations.Sets]
istrans_Dcuts_eq [in UniMath.RealNumbers.NonnegativeReals]
istrans_Dcuts_le_lt_rel [in UniMath.RealNumbers.NonnegativeReals]
istrans_Dcuts_lt_le_rel [in UniMath.RealNumbers.NonnegativeReals]
istrans_Dcuts_lt_rel [in UniMath.RealNumbers.NonnegativeReals]
istrans_Dcuts_le_rel [in UniMath.RealNumbers.NonnegativeReals]
istrans_setquot_aux [in UniMath.Algebra.Archimedean]
istrans_Rlt_le [in UniMath.RealNumbers.Reals]
istrans_Rle_lt [in UniMath.RealNumbers.Reals]
istrans_Rle [in UniMath.RealNumbers.Reals]
istrans_Rlt [in UniMath.RealNumbers.Reals]
istrans_latticedec_gt_rel [in UniMath.Algebra.Lattice]
istrans_Lge_Lgt [in UniMath.Algebra.Lattice]
istrans_Lgt_Lge [in UniMath.Algebra.Lattice]
istrans_Lge [in UniMath.Algebra.Lattice]
istrans_Lle [in UniMath.Algebra.Lattice]
istrans_EOle_lt [in UniMath.RealNumbers.Sets]
istrans_EOlt_le [in UniMath.RealNumbers.Sets]
istrans_reverse [in UniMath.RealNumbers.Sets]
istrans_SubObj_rel [in UniMath.CategoryTheory.Subobjects]
istrans_monorel [in UniMath.CategoryTheory.Subobjects]
istrans_filter_le [in UniMath.Topology.Filters]
istrans_posetRelation [in UniMath.Foundations.Sets]
istriangle_Rabs' [in UniMath.RealNumbers.Reals]
istriangle_Rabs [in UniMath.RealNumbers.Reals]
istriangle_hr_abs' [in UniMath.RealNumbers.Reals]
istriangle_hr_abs [in UniMath.RealNumbers.Reals]
isTRRGhomo_Branch_of_Branch_to_Branch [in UniMath.Combinatorics.ZFstructures]
isTRRGhomo_Up_to_Up [in UniMath.Combinatorics.ZFstructures]
istruncminus_ex [in UniMath.Algebra.Lattice]
istwobinopfuncomp [in UniMath.Algebra.BinaryOperations]
istwobinopfuninvmap [in UniMath.Algebra.BinaryOperations]
isTwoSided_OneSided [in UniMath.RealNumbers.DedekindCuts]
isub_Dcuts_of_Dcuts [in UniMath.RealNumbers.NonnegativeReals]
isunitalfuntoabgrdiff [in UniMath.Algebra.Groups]
isunitalfuntoabmonoidfrac [in UniMath.Algebra.Monoids]
isunital_ringofendabgr_op2 [in UniMath.Algebra.Modules.Core]
isunital_ringofendabgr_op1 [in UniMath.Algebra.Modules.Core]
isunital_weq_bck [in UniMath.Algebra.BinaryOperations]
isunital_weq_fwd [in UniMath.Algebra.BinaryOperations]
isunital1funtocommringfrac [in UniMath.Algebra.RigsAndRings]
isunital1funtofldfrac [in UniMath.Algebra.Domains_and_Fields]
isunital1funtoringdiff [in UniMath.Algebra.RigsAndRings]
isunital2funtocommringfrac [in UniMath.Algebra.RigsAndRings]
isunital2funtofldfrac [in UniMath.Algebra.Domains_and_Fields]
isunital2funtoringdiff [in UniMath.Algebra.RigsAndRings]
isunitindirprod [in UniMath.Algebra.Monoids]
isunitisob [in UniMath.Algebra.BinaryOperations]
isunitisof [in UniMath.Algebra.BinaryOperations]
isunitquot [in UniMath.Algebra.Monoids]
isunit_setofendabgr_un1 [in UniMath.Algebra.Modules.Core]
isunit_setofendabgr_un0 [in UniMath.Algebra.Modules.Core]
isunit_weq_bck [in UniMath.Algebra.BinaryOperations]
isunit_weq_fwd [in UniMath.Algebra.BinaryOperations]
isunit_section_unel2 [in UniMath.AlgebraicGeometry.Spec]
isunit_section_unel1 [in UniMath.AlgebraicGeometry.Spec]
isweqbandfmap [in UniMath.Foundations.PartA]
isweqboolsumtocoprod [in UniMath.Foundations.PartA]
isweqcompwithweqUAH [in UniMath.Foundations.UnivalenceAxiom]
isweqcontrcontr [in UniMath.Foundations.PartA]
isweqcontrprop [in UniMath.CategoryTheory.DisplayedCats.Constructions]
isweqcontrtounit [in UniMath.Foundations.PartA]
isweqcoprodasstol [in UniMath.Foundations.PartA]
isweqcoprodasstor [in UniMath.Foundations.PartA]
isweqcoprodcomm [in UniMath.Foundations.PartA]
isweqcoprodf [in UniMath.Foundations.PartA]
isweqcoprodtoboolsum [in UniMath.Foundations.PartA]
isweqdeltap [in UniMath.Foundations.PartA]
isweqdirprodf [in UniMath.Foundations.PartA]
isweqdnitocompl [in UniMath.Combinatorics.StandardFiniteSets]
isweqezmaphf [in UniMath.Foundations.PartA]
isweqezmap1 [in UniMath.Foundations.PartA]
isweqfibtototal [in UniMath.Foundations.PartA]
isweqfibtototal' [in UniMath.Foundations.PartA]
isweqfinfibseq [in UniMath.Foundations.PartB]
isweqforalltohfiber [in UniMath.Foundations.PartD]
isweqforalltototal [in UniMath.Foundations.PartD]
isweqfpmap [in UniMath.Foundations.PartA]
isweqfromcoconusf [in UniMath.Foundations.PartA]
isweqfromcompltodisjoint [in UniMath.Foundations.PartC]
isweqhff [in UniMath.Foundations.PartA]
isweqhfiberfp [in UniMath.Foundations.PartA]
isweqhfibersgtof' [in UniMath.Foundations.PartA]
isweqhfibersg'tof [in UniMath.Foundations.PartA]
isweqhfibertoforall [in UniMath.Foundations.PartD]
isweqhomot [in UniMath.Foundations.PartA]
isweqhomot_iff [in UniMath.Foundations.PartA]
isweqii1withneg [in UniMath.Foundations.PartA]
isweqii2withneg [in UniMath.Foundations.PartA]
isweqimplimpl [in UniMath.Foundations.PartB]
isweqinclandsurj [in UniMath.Foundations.Propositions]
isweqinvmap [in UniMath.Foundations.PartA]
isweqlcompwithweqUAH [in UniMath.Foundations.UnivalenceAxiom]
isweqleFtototal2withnat [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
isweqletoleh [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
isweqlistfun [in UniMath.Combinatorics.Lists]
isweqlmultingr_is [in UniMath.Algebra.BinaryOperations]
isweql3 [in UniMath.Foundations.PartA]
isweqmaponpaths [in UniMath.Foundations.PartA]
isweqmaponsec [in UniMath.Foundations.PartD]
isweqmaponsec1 [in UniMath.Foundations.PartD]
isweqonpathsincl [in UniMath.Foundations.PartB]
isweqpathscomp0r [in UniMath.Foundations.PartA]
isweqpathscomp0r' [in UniMath.MoreFoundations.PartA]
isweqpathsinv0 [in UniMath.Foundations.PartA]
isweqpr1 [in UniMath.Foundations.PartB]
isweqpr1pr1 [in UniMath.Foundations.PartA]
isweqrcompwithweqUAH [in UniMath.Foundations.UnivalenceAxiom]
isweqrdistrtocoprod [in UniMath.Foundations.PartA]
isweqrdistrtoprod [in UniMath.Foundations.PartA]
isweqrecompl [in UniMath.Foundations.PartC]
isweqrecompl_ne' [in UniMath.MoreFoundations.NegativePropositions]
isweqrecompl_ne [in UniMath.MoreFoundations.NegativePropositions]
isweqrecompl' [in UniMath.MoreFoundations.NegativePropositions]
isweqrmultingr_is [in UniMath.Algebra.BinaryOperations]
isweqtococonusf [in UniMath.Foundations.PartA]
isweqtocompltodisjoint [in UniMath.Foundations.PartC]
isweqtocompltoii1x [in UniMath.Foundations.PartC]
isweqtocompltoii2y [in UniMath.Foundations.PartC]
isweqtoempty2 [in UniMath.Foundations.PartA]
isweqtoforallpathsUAH [in UniMath.Foundations.UnivalenceAxiom]
isweqtotaltofib [in UniMath.Foundations.PartA]
isweqtotaltoforall [in UniMath.Foundations.PartD]
isweqtransportb [in UniMath.Foundations.PartA]
isweqtransportb10 [in UniMath.Foundations.UnivalenceAxiom]
isweqtransportf [in UniMath.Foundations.PartA]
isweqtransportf10 [in UniMath.Foundations.UnivalenceAxiom]
isweqweqtransportbUAH [in UniMath.Foundations.UnivalenceAxiom]
isweq_idtoiso_RelMonad [in UniMath.CategoryTheory.Monads.RelativeMonads]
isweq_Up_to_Up [in UniMath.Combinatorics.ZFstructures]
isweq_TRRGraph_univalence_map [in UniMath.Combinatorics.ZFstructures]
isweq_sub_precat_paths_to_iso [in UniMath.CategoryTheory.Subcategory.Full]
isweq_Id_in_sub_to_iso [in UniMath.CategoryTheory.Subcategory.Full]
isweq_iso_in_sub_from_iso [in UniMath.CategoryTheory.Subcategory.Full]
isweq_iso_from_iso_in_sub [in UniMath.CategoryTheory.Subcategory.Full]
isweq_hom_in_subcat_from_hom_in_precat [in UniMath.CategoryTheory.Subcategory.Full]
isweq_hom_in_precat_from_hom_in_full_subcat [in UniMath.CategoryTheory.Subcategory.Full]
isweq_yoneda_map_1 [in UniMath.CategoryTheory.yoneda]
isweq_idtoiso_FunctorAlg [in UniMath.CategoryTheory.FunctorAlgebras]
isweq_idtoiso_functorcat [in UniMath.CategoryTheory.FunctorCategory]
isweq_flipsec [in UniMath.MoreFoundations.PartA]
isweq_slice_isBinProduct_to_isPullback [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
isweq_isPullback_to_isBinProduct [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
isweq_iso [in UniMath.Foundations.PartA]
isweq_to_isweq_unit [in UniMath.Foundations.PartA]
iswofun_funcomp [in UniMath.Combinatorics.WellOrderedSets]
iswofun_idfun [in UniMath.Combinatorics.WellOrderedSets]
isZero_zero_module [in UniMath.CategoryTheory.categories.modules]
isZero_opp [in UniMath.CategoryTheory.limits.Opp]
is_nat_trans_ψ_from_comps [in UniMath.SubstitutionSystems.GenMendlerIteration]
is_functor_hom_functor_type [in UniMath.CategoryTheory.categories.Type.Core]
is_precategory_ring_precategory_data [in UniMath.CategoryTheory.categories.rings]
is_exists_unique [in UniMath.CategoryTheory.limits.graphs.eqdiag]
is_algebra_morphism_pr1_PL_fold [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
is_functor_Ω_PreShv_data [in UniMath.CategoryTheory.Presheaf]
is_univalent_RelMonad [in UniMath.CategoryTheory.Monads.RelativeMonads]
is_precategory_hset_precategory_data [in UniMath.CategoryTheory.categories.HSET.Core]
is_omega_cocont_BinSum_of_Signatures [in UniMath.SubstitutionSystems.BinSumOfSignatures]
is_nat_trans_θ_ob [in UniMath.SubstitutionSystems.BinSumOfSignatures]
is_nat_trans_θ_ob_fun [in UniMath.SubstitutionSystems.BinSumOfSignatures]
is_precategory_cat_of_elems_data [in UniMath.CategoryTheory.Elements]
is_precategory_setwith2binop_precategory_data [in UniMath.CategoryTheory.categories.setwith2binops]
is_precategory_gr_precategory_data [in UniMath.CategoryTheory.categories.grs]
is_precategory_data_from_prebicat_and_ob [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
is_precategory_relmodule [in UniMath.CategoryTheory.Monads.RelativeModules]
is_prebicategory_bicate [in UniMath.Bicategories.BicategoryOfBicat]
is_precategory_cat_of_elems_data [in UniMath.CategoryTheory.ElementsOp]
is_precategory_fld_precategory_data [in UniMath.CategoryTheory.categories.flds]
is_precategory_binop_precategory_data [in UniMath.CategoryTheory.category_binops]
is_iso_pre [in UniMath.CategoryTheory.LocalizingClass]
is_precategory_loc_precategory_data [in UniMath.CategoryTheory.LocalizingClass]
is_omega_cocont_BinProduct_of_Signatures [in UniMath.SubstitutionSystems.BinProductOfSignatures]
is_nat_trans_θ_ob [in UniMath.SubstitutionSystems.BinProductOfSignatures]
is_nat_trans_θ_ob_fun [in UniMath.SubstitutionSystems.BinProductOfSignatures]
is_univalent_full_subcat [in UniMath.CategoryTheory.Subcategory.Full]
is_functor_full_img [in UniMath.CategoryTheory.Subcategory.Full]
is_sub_precategory_full [in UniMath.CategoryTheory.Subcategory.Full]
is_iso_runitor [in UniMath.Bicategories.Core.Bicat]
is_z_iso_runitor [in UniMath.Bicategories.Core.Bicat]
is_iso_lunitor [in UniMath.Bicategories.Core.Bicat]
is_z_iso_lunitor [in UniMath.Bicategories.Core.Bicat]
is_iso_rassociator [in UniMath.Bicategories.Core.Bicat]
is_z_iso_rassociator [in UniMath.Bicategories.Core.Bicat]
is_iso_lassociator [in UniMath.Bicategories.Core.Bicat]
is_z_iso_lassociator [in UniMath.Bicategories.Core.Bicat]
is_discrete_discrete_prebicat [in UniMath.Bicategories.Core.Bicat]
is_functor_hcomp [in UniMath.Bicategories.Core.Bicat]
is_precategory_hom [in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_rinvunitor [in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_runitor [in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_linvunitor [in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_lunitor [in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_lassociator [in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_rassociator [in UniMath.Bicategories.Core.Bicat]
is_lim_seq_unique [in UniMath.RealNumbers.NonnegativeReals]
is_lim_seq_unique_aux [in UniMath.RealNumbers.NonnegativeReals]
is_Dcuts_corr [in UniMath.RealNumbers.NonnegativeReals]
is_Dcuts_open [in UniMath.RealNumbers.NonnegativeReals]
is_Dcuts_bot [in UniMath.RealNumbers.NonnegativeReals]
is_discrete_cat_n [in UniMath.CategoryTheory.categories.StandardCategories]
is_univalent_path_groupoid [in UniMath.CategoryTheory.categories.StandardCategories]
is_univalent_path_pregroupoid [in UniMath.CategoryTheory.categories.StandardCategories]
is_prefinal_to_is_final [in UniMath.Induction.M.Core]
is_left_adjoint_exp_yoneda [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
is_functor_Fun3 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
is_functor_Fun2 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
is_functor_Fun1 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
is_precategory_abgr_precategory_data [in UniMath.CategoryTheory.categories.abgrs]
is_omega_cocont_BindingSigToSignature [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_pre_composition_functor [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_binproduct_functor [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_constprod_functor2 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_constprod_functor2 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_constprod_functor1 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_constprod_functor1 [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_family_functor [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_family_functor [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_tuple_functor [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_tuple_functor [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_functor_composite [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_functor_composite [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_coproduct_functor [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_coproduct_functor [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_delta_functor [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont_delta_functor [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_omega_cocont_constant_functor [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_iso_yoneda_functor_precomp [in UniMath.CategoryTheory.yoneda]
is_natural_yoneda_iso_inv [in UniMath.CategoryTheory.yoneda]
is_natural_yoneda_iso [in UniMath.CategoryTheory.yoneda]
is_functor_yoneda [in UniMath.CategoryTheory.yoneda]
is_nat_trans_yoneda_morphisms_data [in UniMath.CategoryTheory.yoneda]
is_functor_yoneda_functor_data [in UniMath.CategoryTheory.yoneda]
is_precategory_precategory_monoid_data [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
is_precategory_mod_precategory_data [in UniMath.CategoryTheory.categories.modules]
is_ptd_mor_μ [in UniMath.SubstitutionSystems.ModulesFromSignatures]
is_ptd_mor_pt [in UniMath.SubstitutionSystems.ModulesFromSignatures]
is_catiso [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_natural_eta [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_inverse_etainv [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_nat_trans_etainv [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_natural_eps [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_inverse_epsinv [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_functor_kleislify [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_functor_unkleislify [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_precategory_product_precategory_data [in UniMath.CategoryTheory.ProductCategory]
is_nat_trans_coproduct_nat_trans_data [in UniMath.CategoryTheory.limits.coproducts]
is_nat_trans_coproduct_nat_trans_in_data [in UniMath.CategoryTheory.limits.coproducts]
is_functor_coproduct_of_functors_data [in UniMath.CategoryTheory.limits.coproducts]
is_functor_constant [in UniMath.CategoryTheory.Core.Functors]
is_functor_identity [in UniMath.CategoryTheory.Core.Functors]
is_functor_composite [in UniMath.CategoryTheory.Core.Functors]
is_inverse_functor_image [in UniMath.CategoryTheory.Core.Functors]
is_nat_trans_post_whisker [in UniMath.CategoryTheory.whiskering]
is_nat_trans_pre_whisker [in UniMath.CategoryTheory.whiskering]
is_symmetric_isPushout [in UniMath.CategoryTheory.limits.pushouts]
is_nat_trans_coproduct_nat_trans_data [in UniMath.CategoryTheory.limits.bincoproducts]
is_nat_trans_coproduct_nat_trans_in2_data [in UniMath.CategoryTheory.limits.bincoproducts]
is_nat_trans_coproduct_nat_trans_in1_data [in UniMath.CategoryTheory.limits.bincoproducts]
is_functor_BinCoproduct_of_functors_data [in UniMath.CategoryTheory.limits.bincoproducts]
is_functor_bincoproduct_functor_data [in UniMath.CategoryTheory.limits.bincoproducts]
is_iso_from_BinCoproduct_to_BinCoproduct [in UniMath.CategoryTheory.limits.bincoproducts]
is_univalent_total_category [in UniMath.CategoryTheory.DisplayedCats.Core]
is_univalent_disp_from_fibers [in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_disp_independent_of_is_iso [in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_disp_transportf [in UniMath.CategoryTheory.DisplayedCats.Core]
is_precategory_precategory_Alg_data [in UniMath.CategoryTheory.Monads.MonadAlgebras]
is_disp_invmodification_from_total [in UniMath.Bicategories.DisplayedBicats.DispModification]
is_invertible_disp_invmodification [in UniMath.Bicategories.DisplayedBicats.DispModification]
is_disp_modification_from_total [in UniMath.Bicategories.DisplayedBicats.DispModification]
is_folds_precat_implies_is_univalent [in UniMath.Folds.folds_pre_2_cat]
is_univalent_implies_is_folds_precat [in UniMath.Folds.folds_pre_2_cat]
is_nat_trans_pdelta [in UniMath.CategoryTheory.precomp_fully_faithful]
is_coh_strictness_from_univalent_2_1 [in UniMath.Bicategories.Core.Strictness]
is_univalent_disp_functor_alg [in UniMath.CategoryTheory.DisplayedCats.Examples]
is_nat_trans_iso2' [in UniMath.SubstitutionSystems.LiftingInitial_alt]
is_omega_cocont_Id_H [in UniMath.SubstitutionSystems.LiftingInitial_alt]
is_nat_z_iso_nat_trans_id [in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_trans_comp [in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_trans_id [in UniMath.CategoryTheory.Core.NaturalTransformations]
is_functor_covyoneda [in UniMath.CategoryTheory.covyoneda]
is_nat_trans_covyoneda_morphisms_data [in UniMath.CategoryTheory.covyoneda]
is_functor_covyoneda_functor_data [in UniMath.CategoryTheory.covyoneda]
is_z_iso_from_is_iso' [in UniMath.CategoryTheory.Core.Isos]
is_z_iso_from_is_iso [in UniMath.CategoryTheory.Core.Isos]
is_iso_from_is_z_iso [in UniMath.CategoryTheory.Core.Isos]
is_z_iso_inv_from_z_iso [in UniMath.CategoryTheory.Core.Isos]
is_z_iso_comp_of_is_z_isos [in UniMath.CategoryTheory.Core.Isos]
is_z_isomorphism_mor_eq [in UniMath.CategoryTheory.Core.Isos]
is_iso_comp_of_is_isos [in UniMath.CategoryTheory.Core.Isos]
is_iso_comp_of_isos [in UniMath.CategoryTheory.Core.Isos]
is_univalent_FunctorAlg [in UniMath.CategoryTheory.FunctorAlgebras]
is_precategory_precategory_alg_data [in UniMath.CategoryTheory.FunctorAlgebras]
is_univalent_functor_category [in UniMath.CategoryTheory.FunctorCategory]
is_functor_iso_pointwise_if_iso [in UniMath.CategoryTheory.FunctorCategory]
is_inverse_nat_trans_inv_from_pointwise_inv [in UniMath.CategoryTheory.FunctorCategory]
is_nat_trans_inv_from_pointwise_inv [in UniMath.CategoryTheory.FunctorCategory]
is_nat_trans_inv_from_pointwise_inv_ext [in UniMath.CategoryTheory.FunctorCategory]
is_precategory_functor_precategory_data [in UniMath.CategoryTheory.FunctorCategory]
is_zero_dec [in UniMath.RealNumbers.DecidableDedekindCuts]
is_functor_from_opp_opp_to_opp [in UniMath.CategoryTheory.opp_precat]
is_functor_from_opp_to_opp_opp [in UniMath.CategoryTheory.opp_precat]
is_functor_functor_opp [in UniMath.CategoryTheory.opp_precat]
is_functor_fiber_functor [in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_univalent_disp_from_is_univalent_fiber [in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_univalent_fiber [in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_univalent_fiber_cat [in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_disp_nat_trans_pointwise_inv [in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_iso_sigma_disp [in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_iso_sigma_disp_aux2 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_omega_cocont_slicecat_to_cat [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_slicecat_to_cat_HSET [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_functor_cat_swap [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_functor_cat_swap [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_post_composition_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_post_composition_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_pre_composition_functor_kan [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_pre_composition_functor_kan [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_pre_composition_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_BinProduct_of_functors [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_BinProduct_of_functors_alt [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_binproduct_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_unique_cocone_morphism [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocone_morphism [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_constprod_functor2 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_constprod_functor2 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_constprod_functor1 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_constprod_functor1 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_coproduct_of_functors [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_coproduct_of_functors [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_BinCoproduct_of_functors_alt2 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_BinCoproduct_of_functors_alt2 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_BinCoproduct_of_functors [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_BinCoproduct_of_functors [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_BinCoproduct_of_functors_alt [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_BinCoproduct_of_functors_alt [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_coproduct_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_coproduct_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_bincoproduct_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_bincoproduct_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_delta_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_delta_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_bindelta_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_bindelta_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_family_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_family_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_pr_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_tuple_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_tuple_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_functor_into_product_category [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_functor_into_product_category [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_pair_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_pair_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_pr2_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_pr1_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_iter_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_iter_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_functor_composite [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_functor_composite [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_constant_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_functor_identity [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_functor_identity [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_omega_cocont_iso [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_cocont_iso [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
is_precategory_coslice_precat_data [in UniMath.CategoryTheory.coslicecat]
is_invertible_2cell_rwhisker [in UniMath.Bicategories.Core.Invertible_2cells]
is_invertible_2cell_lwhisker [in UniMath.Bicategories.Core.Invertible_2cells]
is_invertible_2cell_vcomp [in UniMath.Bicategories.Core.Invertible_2cells]
is_nat_trans_pr_quot_functor [in UniMath.CategoryTheory.SetValuedFunctors]
is_functor_quot_functor_data [in UniMath.CategoryTheory.SetValuedFunctors]
is_pointwise_epi_from_set_nat_trans_epi [in UniMath.CategoryTheory.SetValuedFunctors]
is_nat_trans_eta_data [in UniMath.CategoryTheory.slicecat]
is_functor_base_change_functor [in UniMath.CategoryTheory.slicecat]
is_functor_slicecat_functor [in UniMath.CategoryTheory.slicecat]
is_univalent_slicecat [in UniMath.CategoryTheory.slicecat]
is_left_adjoint_slicecat_to_cat [in UniMath.CategoryTheory.slicecat]
is_functor_cat_to_slicecat_data [in UniMath.CategoryTheory.slicecat]
is_precategory_slice_precat_data [in UniMath.CategoryTheory.slicecat]
is_iso_comp_is_iso [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
is_univalent_category_algebras [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
is_univalent_algebras_disp [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
is_left_adjoint_slicecat_to_cat_HSET [in UniMath.CategoryTheory.categories.HSET.Slice]
is_internal_adjunction_identity [in UniMath.Bicategories.Core.Univalence]
is_precategory_Quotcategory_data [in UniMath.CategoryTheory.PreAdditive]
is_precategory_hss [in UniMath.SubstitutionSystems.SubstitutionSystems]
is_functor_ptd_from_alg_functor_data [in UniMath.SubstitutionSystems.SubstitutionSystems]
is_ptd_mor_alg_mor [in UniMath.SubstitutionSystems.SubstitutionSystems]
is_functor_from_cleaving_data [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_split_fibration_from_discrete_fibration [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_isofibration_from_is_fibration [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_iso_from_is_cartesian [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_isofibration_iff_is_op_isofibration [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_quotient [in UniMath.Algebra.GroupAction]
is_torsor_isaprop [in UniMath.Algebra.GroupAction]
is_nat_trans_l_functors [in UniMath.CategoryTheory.HorizontalComposition]
is_nat_trans_a_functors [in UniMath.CategoryTheory.HorizontalComposition]
is_functor_functorial_composition_data [in UniMath.CategoryTheory.HorizontalComposition]
is_functor_functorial_composition_legacy_data [in UniMath.CategoryTheory.HorizontalComposition]
is_nat_trans_horcomp [in UniMath.CategoryTheory.HorizontalComposition]
is_omega_cocont_BindingSigToSignatureHSET [in UniMath.SubstitutionSystems.BindingSigToMonad]
is_omega_cocont_BindingSigToSignature [in UniMath.SubstitutionSystems.BindingSigToMonad]
is_omega_cocont_Arity_to_Signature [in UniMath.SubstitutionSystems.BindingSigToMonad]
is_omega_cocont_precomp_option_iter [in UniMath.SubstitutionSystems.BindingSigToMonad]
is_nat_trans_yon_binprod_inv [in UniMath.CategoryTheory.YonedaBinproducts]
is_nat_trans_yon_binprod [in UniMath.CategoryTheory.YonedaBinproducts]
is_univalent_HSET [in UniMath.CategoryTheory.categories.HSET.Univalence]
is_weq_precat_paths_to_iso_hset [in UniMath.CategoryTheory.categories.HSET.Univalence]
is_set_sub_precategory_morphisms [in UniMath.CategoryTheory.Subcategory.Core]
is_omega_cocont_Sum_of_Signatures [in UniMath.SubstitutionSystems.SumOfSignatures]
is_nat_trans_θ_ob [in UniMath.SubstitutionSystems.SumOfSignatures]
is_nat_trans_θ_ob_fun [in UniMath.SubstitutionSystems.SumOfSignatures]
is_monic_post_whisker_left_adjoint_unit [in UniMath.CategoryTheory.Adjunctions.Core]
is_monic_post_whisker_left_adjoint_unit_pointwise [in UniMath.CategoryTheory.Adjunctions.Core]
is_epi_pre_whisker_left_adjoint_counit [in UniMath.CategoryTheory.Adjunctions.Core]
is_epi_pre_whisker_left_adjoint_counit_pointwise [in UniMath.CategoryTheory.Adjunctions.Core]
is_monic_pre_whisker_right_adjoint_unit [in UniMath.CategoryTheory.Adjunctions.Core]
is_monic_pre_whisker_right_adjoint_unit_pointwise [in UniMath.CategoryTheory.Adjunctions.Core]
is_epi_post_whisker_right_adjoint_counit [in UniMath.CategoryTheory.Adjunctions.Core]
is_epi_post_whisker_right_adjoint_counit_pointwise [in UniMath.CategoryTheory.Adjunctions.Core]
is_left_adjoint_post_composition_functor [in UniMath.CategoryTheory.Adjunctions.Core]
is_left_adjoint_functor_identity [in UniMath.CategoryTheory.Adjunctions.Core]
is_left_adjoint_iso [in UniMath.CategoryTheory.Adjunctions.Core]
is_left_adjoint_functor_composite [in UniMath.CategoryTheory.Adjunctions.Core]
is_left_adjoint_left_adjoint [in UniMath.CategoryTheory.Adjunctions.Core]
is_right_adjoint_right_adjoint [in UniMath.CategoryTheory.Adjunctions.Core]
is_pregroupoid_functor_cat [in UniMath.CategoryTheory.Groupoids]
is_univalent_pregroupoid_is_univalent [in UniMath.CategoryTheory.Groupoids]
is_precategory_commrig_precategory_data [in UniMath.CategoryTheory.categories.commrigs]
is_nat_trans_post_whisker_snd_param [in UniMath.CategoryTheory.PrecategoryBinProduct]
is_nat_trans_post_whisker_fst_param [in UniMath.CategoryTheory.PrecategoryBinProduct]
is_functor_bindelta_pair_functor_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
is_functor_functor_fix_snd_arg_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
is_functor_functor_fix_fst_arg_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
is_iso_binprod_iso_aux [in UniMath.CategoryTheory.PrecategoryBinProduct]
is_precategory_precategory_binproduct_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
is_omega_cocont_Lam [in UniMath.SubstitutionSystems.LamSignature]
is_nat_trans_Flat_θ_data [in UniMath.SubstitutionSystems.LamSignature]
is_nat_trans_Abs_θ_data [in UniMath.SubstitutionSystems.LamSignature]
is_nat_trans_Abs_θ_data_data [in UniMath.SubstitutionSystems.LamSignature]
is_nat_trans_App_θ_data [in UniMath.SubstitutionSystems.LamSignature]
is_omega_cocont_Abs_H [in UniMath.SubstitutionSystems.LamSignature]
is_omega_cocont_App_H [in UniMath.SubstitutionSystems.LamSignature]
is_lim_base_correct [in UniMath.Topology.Topology]
is_filter_lim_base_correct [in UniMath.Topology.Topology]
is_omega_cocont_MultiSortedSigToSignature [in UniMath.SubstitutionSystems.MultiSorted_alt]
is_omega_cocont_MultiSortedSigToFunctor [in UniMath.SubstitutionSystems.MultiSorted_alt]
is_omega_cocont_hat_exp_functor_list [in UniMath.SubstitutionSystems.MultiSorted_alt]
is_omega_cocont_post_comp_hat_functor [in UniMath.SubstitutionSystems.MultiSorted_alt]
is_left_adjoint_hat [in UniMath.SubstitutionSystems.MultiSorted_alt]
is_omega_cocont_exp_functor_list [in UniMath.SubstitutionSystems.MultiSorted_alt]
is_omega_cocont_exp_functor [in UniMath.SubstitutionSystems.MultiSorted_alt]
is_omega_cocont_post_comp_projSortToC [in UniMath.SubstitutionSystems.MultiSorted_alt]
is_left_adjoint_projSortToC [in UniMath.SubstitutionSystems.MultiSorted_alt]
is_nat_trans_monic_from_pointwise_monics [in UniMath.CategoryTheory.Monics]
is_iso_Monic [in UniMath.CategoryTheory.Monics]
is_iso_isMonic [in UniMath.CategoryTheory.Monics]
is_nat_trans_product_nat_trans_data [in UniMath.CategoryTheory.limits.products]
is_nat_trans_product_nat_trans_pr_data [in UniMath.CategoryTheory.limits.products]
is_functor_product_of_functors_data [in UniMath.CategoryTheory.limits.products]
is_precategory_base_precategory_data [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
is_functor_LimFunctor_data [in UniMath.CategoryTheory.limits.cats.limits]
is_univalent_CONE [in UniMath.CategoryTheory.limits.cones]
is_precategory_Cone [in UniMath.CategoryTheory.limits.cones]
is_functor_ColimFunctor_data [in UniMath.CategoryTheory.limits.graphs.colimits]
is_iso_isColim [in UniMath.CategoryTheory.limits.graphs.colimits]
is_adjointequivalence_discrete_weq_iso [in UniMath.Bicategories.Discreteness]
is_discrete_bicategory_iscontr_is_invertible_2cell [in UniMath.Bicategories.Discreteness]
is_discrete_bicategory_has_homsets [in UniMath.Bicategories.Discreteness]
is_discrete_discrete_bicategory [in UniMath.Bicategories.Discreteness]
is_z_isomorphism_weq_is_iso [in UniMath.Bicategories.Discreteness]
is_incr_impl_strincr [in UniMath.Combinatorics.StandardFiniteSets]
is_strincr_impl_incr [in UniMath.Combinatorics.StandardFiniteSets]
is_nat_trans_Gθ_mor [in UniMath.SubstitutionSystems.SignatureExamples]
is_nat_trans_δ_genoption_mor_nat_trans [in UniMath.SubstitutionSystems.SignatureExamples]
is_nat_trans_δ_genoption_mor [in UniMath.SubstitutionSystems.SignatureExamples]
is_nat_trans_δ_comp_mor [in UniMath.SubstitutionSystems.SignatureExamples]
is_nat_trans_θ_from_δ_mor [in UniMath.SubstitutionSystems.SignatureExamples]
is_precategory_graph [in UniMath.CategoryTheory.categories.Graph]
is_precategory_pregraph [in UniMath.CategoryTheory.categories.Graph]
is_open_union_open_hsubtype [in UniMath.AlgebraicGeometry.Topology]
is_univalent_category_eqalgebras [in UniMath.CategoryTheory.categories.Universal_Algebra.EqAlgebras]
is_univalent_eqalg_disp [in UniMath.CategoryTheory.categories.Universal_Algebra.EqAlgebras]
is_precategory_rig_precategory_data [in UniMath.CategoryTheory.categories.rigs]
is_precategory_ComplexPreCat_data [in UniMath.HomologicalAlgebra.Complexes]
is_equiv_from_ff_ess_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
is_merely_split_monic_weq_precomp_is_surjection [in UniMath.CategoryTheory.SplitMonicsAndEpis]
is_split_monic_to_precomp_is_surjection [in UniMath.CategoryTheory.SplitMonicsAndEpis]
is_nat_trans_g [in UniMath.CategoryTheory.limits.pullbacks]
is_symmetric_isPullback [in UniMath.CategoryTheory.limits.pullbacks]
is_functor_lifting_from_distr_law_data [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
is_nat_trans_τ_data_from_σ [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
is_nat_trans_σ_data_from_τ [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
is_left_adjoint_functor_cat_swap [in UniMath.CategoryTheory.Adjunctions.Examples]
is_left_adjoint_coproduct_functor [in UniMath.CategoryTheory.Adjunctions.Examples]
is_left_adjoint_bincoproduct_functor [in UniMath.CategoryTheory.Adjunctions.Examples]
is_left_adjoint_delta_functor [in UniMath.CategoryTheory.Adjunctions.Examples]
is_left_adjoint_bindelta_functor [in UniMath.CategoryTheory.Adjunctions.Examples]
is_functor_structure_presheaf_data [in UniMath.AlgebraicGeometry.Spec]
is_section_restriction_section_map [in UniMath.AlgebraicGeometry.Spec]
is_section_unel2 [in UniMath.AlgebraicGeometry.Spec]
is_section_op2 [in UniMath.AlgebraicGeometry.Spec]
is_section_inv [in UniMath.AlgebraicGeometry.Spec]
is_section_unel1 [in UniMath.AlgebraicGeometry.Spec]
is_section_op1 [in UniMath.AlgebraicGeometry.Spec]
is_left_adjoint_constprod_functor2 [in UniMath.CategoryTheory.exponentials]
is_iso_constprod_functor2 [in UniMath.CategoryTheory.exponentials]
is_iso_constprod_functor1 [in UniMath.CategoryTheory.exponentials]
is_precategory_monoid_precategory_data [in UniMath.CategoryTheory.categories.monoids]
is_functor_hss_to_monad [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
is_cartesian_from_iso_to_cartesian [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
is_precategory_intdom_precategory_data [in UniMath.CategoryTheory.categories.intdoms]
is_functor_ptd_forget [in UniMath.CategoryTheory.PointedFunctors]
is_precategory_ptd [in UniMath.CategoryTheory.PointedFunctors]
is_functor_Under_mor_functor_data [in UniMath.CategoryTheory.UnderCategories]
is_functor_cComma_mor_functor_data [in UniMath.CategoryTheory.CommaCategories]
is_functor_ccomma_pr1 [in UniMath.CategoryTheory.CommaCategories]
is_nat_trans_epi_from_pointwise_epis [in UniMath.CategoryTheory.Epis]
is_iso_Epi [in UniMath.CategoryTheory.Epis]
is_iso_isEpi [in UniMath.CategoryTheory.Epis]
is_omega_cocont_MultiSortedSigToSignature [in UniMath.SubstitutionSystems.MultiSorted]
is_omega_cocont_MultiSortedSigToFunctor [in UniMath.SubstitutionSystems.MultiSorted]
is_omega_cocont_hat_exp_functor_list [in UniMath.SubstitutionSystems.MultiSorted]
is_omega_cocont_post_comp_hat_functor [in UniMath.SubstitutionSystems.MultiSorted]
is_omega_cocont_exp_functor_list [in UniMath.SubstitutionSystems.MultiSorted]
is_omega_cocont_exp_functor [in UniMath.SubstitutionSystems.MultiSorted]
is_left_adjoint_hat [in UniMath.SubstitutionSystems.MultiSorted]
is_omega_cocont_post_comp_proj [in UniMath.SubstitutionSystems.MultiSorted]
is_left_adjoint_proj_functor [in UniMath.SubstitutionSystems.MultiSorted]
is_left_adjoint_proj_functor' [in UniMath.SubstitutionSystems.MultiSorted]
is_iso_nat_trans_proj_functor [in UniMath.SubstitutionSystems.MultiSorted]
is_preinitial_to_is_initial [in UniMath.Induction.W.Core]
is_precategory_precat_from_folds_data [in UniMath.Folds.from_precats_to_folds_and_back]
is_precategory_commring_precategory_data [in UniMath.CategoryTheory.categories.commrings]
is_omega_cocont_Lam_S [in UniMath.SubstitutionSystems.LamHSET]
is_preimage_for_pre_composition [in UniMath.CategoryTheory.precomp_ess_surj]
is_functor_preimage_functor_data [in UniMath.CategoryTheory.precomp_ess_surj]
is_nat_trans_iso2' [in UniMath.SubstitutionSystems.LiftingInitial]
is_iso_from_BinCoproduct_to_BinCoproduct [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
is_functor_fam_to_slice [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
is_functor_slice_to_fam [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
is_nat_trans_μ [in UniMath.CategoryTheory.Monads.KTriples]
is_nat_trans_η [in UniMath.CategoryTheory.Monads.KTriples]
is_nat_trans_kleisli_mor [in UniMath.CategoryTheory.Monads.KTriples]
is_nat_trans_ψ_from_comps [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
is_iso_inF [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
is_precategory_abmonoid_precategory_data [in UniMath.CategoryTheory.categories.abmonoids]
is_univalent_disp_from_SIP_data [in UniMath.CategoryTheory.DisplayedCats.SIP]
is_functor_LimFunctor_data [in UniMath.CategoryTheory.limits.graphs.limits]
is_iso_isLim [in UniMath.CategoryTheory.limits.graphs.limits]
is_nat_trans_binproduct_nat_trans_data [in UniMath.CategoryTheory.limits.binproducts]
is_nat_trans_binproduct_nat_trans_pr2_data [in UniMath.CategoryTheory.limits.binproducts]
is_nat_trans_binproduct_nat_trans_pr1_data [in UniMath.CategoryTheory.limits.binproducts]
is_functor_BinProduct_of_functors_data [in UniMath.CategoryTheory.limits.binproducts]
iterop_fun_nat [in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_mon_concatenate [in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_mon_homot [in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_seq_mon_step [in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_mon_append [in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_mon_singleton [in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_mon_step [in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_mon_nil [in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_mon_step [in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_mon_len1 [in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_mon_map [in UniMath.CategoryTheory.categories.monoids]
iter_isdcpomorphism' [in UniMath.Algebra.Dcpo]
iter_preservesorder [in UniMath.Algebra.Dcpo]
iter'_isdirected [in UniMath.Algebra.Dcpo]
iter'_increases [in UniMath.Algebra.Dcpo]
iter'_isomegachain [in UniMath.Algebra.Dcpo]
It_is_preIt [in UniMath.SubstitutionSystems.GenMendlerIteration]
It_is_preIt [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
I_func_I [in UniMath.Folds.folds_precat]
I_contr [in UniMath.Folds.folds_precat]
I_unique [in UniMath.Folds.folds_precat]
I_posttensor_ok [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
I_pretensor_ok [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
I_mult_laws [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]

J

j_mon_laws [in UniMath.SubstitutionSystems.ModulesFromSignatures]
j_mon_square_eq2 [in UniMath.SubstitutionSystems.ModulesFromSignatures]
j_mon_square_eq1 [in UniMath.SubstitutionSystems.ModulesFromSignatures]
j_mon_η [in UniMath.SubstitutionSystems.ModulesFromSignatures]
j_mor_rep [in UniMath.SubstitutionSystems.ModulesFromSignatures]
J_2_0_comp [in UniMath.Bicategories.Core.Univalence]
J'_2_0_transport [in UniMath.Bicategories.Core.Univalence]
J'_2_1_transport [in UniMath.Bicategories.Core.Univalence]

K

KAConeDTri [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAExt [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAExt_Comm3 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAExt_Comm2 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAExt_MorEq [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAExt_Comm1 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAFiberisDTri [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAFiberIsoMorComms [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAFiberIsoMorComm3 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAIdComm [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAIdComml [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAIdCommr [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAInvRotDTris [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAInvRotDTris_Comm3 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAInvRotDTris_Comm2 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAInvRotDTris_Comm1 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAOctaComm2 [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm2Eq [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm2' [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm3 [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm3' [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm4 [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm4' [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm5 [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaComm5' [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor1Comm [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor1_comm [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor2Comm [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor2_comm [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3InvComm [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3Iso1 [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3Iso2 [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3_comm [in UniMath.HomologicalAlgebra.MappingCone]
KARotDTris [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KARotDTris_Comm3 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KARotDTris_Comm2 [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KATriangOcta [in UniMath.HomologicalAlgebra.KATriangulated]
KATriangOcta_hfiber_comp_eq [in UniMath.HomologicalAlgebra.KATriangulated]
KATrivialDistinguished [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KATrivialDistinguished_MPMorsComm [in UniMath.HomologicalAlgebra.KAPreTriangulated]
kelly_left [in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_region_1 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_region_12 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_region_123 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
kelly_left_region_1235 [in UniMath.Bicategories.WkCatEnrichment.whiskering]
kerCokerDirectSum [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
kerCoker01 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
kerCoker10 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
KernelArrowisMonic [in UniMath.CategoryTheory.limits.kernels]
KernelComplex_comm [in UniMath.HomologicalAlgebra.CohomologyComplex]
KernelComplex_Kernel_comm [in UniMath.HomologicalAlgebra.CohomologyComplex]
KernelCompMonic_isKernel [in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic_eq [in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic_eq2 [in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic_eq1 [in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic1 [in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic2 [in UniMath.CategoryTheory.limits.kernels]
KernelEndo_is_identity [in UniMath.CategoryTheory.limits.kernels]
KernelEqualizer_isEqualizer [in UniMath.CategoryTheory.limits.kernels]
KernelEqualizer_eq [in UniMath.CategoryTheory.limits.kernels]
KernelInComp [in UniMath.CategoryTheory.limits.kernels]
KernelInOp [in UniMath.CategoryTheory.PreAdditive]
KernelInOp_Eq [in UniMath.CategoryTheory.PreAdditive]
KernelInPaths_is_iso [in UniMath.CategoryTheory.limits.kernels]
KernelInsEq [in UniMath.CategoryTheory.limits.kernels]
KernelInUnique [in UniMath.CategoryTheory.limits.kernels]
KernelIsMonic [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
KernelMorphism_eq' [in UniMath.HomologicalAlgebra.Complexes]
KernelMorphism_eq [in UniMath.HomologicalAlgebra.Complexes]
KernelOfIdentity_isKernel [in UniMath.CategoryTheory.limits.kernels]
KernelOfPr1_isKernel [in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr1_isKernel_unique [in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr1_isKernel_comm [in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr1_Eq [in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr2_isKernel_unique [in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr2_isKernel_comm [in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr2_Eq [in UniMath.CategoryTheory.AbelianToAdditive]
KernelofZeroArrow_is_iso [in UniMath.CategoryTheory.limits.kernels]
KernelOfZeroArrow_isKernel [in UniMath.CategoryTheory.limits.kernels]
KernelOfZeroMapIsIso [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
KernelPath_isKernel [in UniMath.CategoryTheory.limits.kernels]
KernelPath_eq [in UniMath.CategoryTheory.limits.kernels]
KernelPlusIdentity [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
KernelSequence [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
KernelsIn_is_iso [in UniMath.CategoryTheory.limits.kernels]
KernelUniqueness [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
KernelZeroisMonic [in UniMath.CategoryTheory.Abelian]
Kernel_up_to_iso2_eq [in UniMath.CategoryTheory.limits.kernels]
Kernel_up_to_iso_isKernel [in UniMath.CategoryTheory.limits.kernels]
Kernel_opp_isCokernel [in UniMath.CategoryTheory.limits.Opp]
Kernel_opp_eq [in UniMath.CategoryTheory.limits.Opp]
kleislify_unkleislify [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
kleislify_mor_law [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
Kleisli_precat_has_homsets [in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_precat_is_precat [in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_adjunction_monad_eq [in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_precat_monad_has_homsets [in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_precat_monad_is_precat [in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_to_Monad_to_Kleisli [in UniMath.CategoryTheory.Monads.Kleisli]
Kleisli_composition_laws [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_identity_laws [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Mor_eq [in UniMath.CategoryTheory.Monads.KTriples]
Knaster_Tarski_fixpoint [in UniMath.Algebra.FixedPointTheorems]
K_0_map_universal_property [in UniMath.Ktheory.GrothendieckGroup]
K_0_eqn [in UniMath.Ktheory.GrothendieckGroup]

L

lambdaFunctor_Initial [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambdaFunctor_Initial [in UniMath.SubstitutionSystems.LamFromBindingSig]
Lam_Initial_HSET [in UniMath.SubstitutionSystems.LamHSET]
lassociator_fun_natural [in UniMath.Bicategories.Core.Bicat]
lassociator_to_rassociator_pre [in UniMath.Bicategories.Core.Bicat]
lassociator_to_rassociator_post [in UniMath.Bicategories.Core.Bicat]
lastelement_eq [in UniMath.Combinatorics.StandardFiniteSets]
lastelement_ge [in UniMath.Combinatorics.StandardFiniteSets]
latticedec_gtmax [in UniMath.Algebra.Lattice]
latticedec_gtmin [in UniMath.Algebra.Lattice]
latticedec_lenotgt [in UniMath.Algebra.Lattice]
latticedec_notgtle [in UniMath.Algebra.Lattice]
latticedec_gt_ge [in UniMath.Algebra.Lattice]
leadingcoefficientapartdec [in UniMath.PAdics.fps]
leastelementprinciple [in UniMath.PAdics.lemmas]
leastfixedpoint_isleast [in UniMath.Algebra.Dcpo]
leastfixedpoint_isfixedpoint [in UniMath.Algebra.Dcpo]
leFiter [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
leftDistribute [in UniMath.CategoryTheory.PreAdditive]
leftMinus [in UniMath.CategoryTheory.PreAdditive]
leFtototal2withnat [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
leFtototal2withnat_l0 [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
left_unit_inv_assoc₂ [in UniMath.Bicategories.Core.BicategoryLaws]
left_unit_inv_assoc [in UniMath.Bicategories.Core.BicategoryLaws]
left_unit_assoc [in UniMath.Bicategories.Core.BicategoryLaws]
Left_rKleisli_is_functor [in UniMath.CategoryTheory.Monads.RelativeMonads]
left_adjoint_equivalence_total_disp_weq [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_cocont [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
left_inverse_of_iso_is_inverse [in UniMath.CategoryTheory.Core.Isos]
Left_Kleisli_is_functor [in UniMath.CategoryTheory.Monads.KleisliCategory]
left_adjoint_cocont [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
left_unitor_id_is_right_unitor_id [in UniMath.Bicategories.WkCatEnrichment.whiskering]
left_unitor_on_id [in UniMath.Bicategories.WkCatEnrichment.whiskering]
left_unitor_naturality [in UniMath.Bicategories.WkCatEnrichment.whiskering]
left_adjoint_preserves_colimit [in UniMath.CategoryTheory.limits.graphs.colimits]
lemma_11 [in UniMath.Induction.M.Chains]
Lemma0_2_4 [in UniMath.MoreFoundations.PathsOver]
Lemma023 [in UniMath.MoreFoundations.PathsOver]
LEM_for_sets [in UniMath.MoreFoundations.DecidablePropositions]
length_map [in UniMath.CategoryTheory.Inductives.Lists]
length_term [in UniMath.Algebra.Universal.Terms]
length_drop [in UniMath.Combinatorics.MoreLists]
length_fill [in UniMath.Combinatorics.MoreLists]
length_map [in UniMath.Combinatorics.MoreLists]
length_sublist2 [in UniMath.Combinatorics.MoreLists]
length_sublist1 [in UniMath.Combinatorics.MoreLists]
length_concatenate [in UniMath.Combinatorics.MoreLists]
length_one_back [in UniMath.Combinatorics.MoreLists]
length_zero_back [in UniMath.Combinatorics.MoreLists]
length_cons [in UniMath.Combinatorics.MoreLists]
leNonnegativeRationals_correct [in UniMath.RealNumbers.NonnegativeRationals]
letoleh [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
lex_istotal [in UniMath.Combinatorics.OrderedSets]
lex_isantisymm [in UniMath.Combinatorics.OrderedSets]
lex_istrans [in UniMath.Combinatorics.OrderedSets]
lex_isrefl [in UniMath.Combinatorics.OrderedSets]
le_istotal [in UniMath.Combinatorics.OrderedSets]
le_eqorltNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
le0_NonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
Lgt_Lge [in UniMath.Algebra.Lattice]
lhs_left_invert_cell [in UniMath.Bicategories.Core.Bicat]
lhs_right_invert_cell [in UniMath.Bicategories.Core.Bicat]
lifted_action_plaw [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifted_action_tlaw [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
liftings_from_distr_laws_compose [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lifting_from_distr_law_is_lifting [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lifting_from_distr_law_data_aux [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lift_lm_mult_laws [in UniMath.SubstitutionSystems.ModulesFromSignatures]
limArrowCommutes [in UniMath.CategoryTheory.limits.cats.limits]
limArrowCommutes [in UniMath.CategoryTheory.limits.graphs.limits]
limArrowEta [in UniMath.CategoryTheory.limits.cats.limits]
limArrowEta [in UniMath.CategoryTheory.limits.graphs.limits]
limArrowUnique [in UniMath.CategoryTheory.limits.cats.limits]
limArrowUnique [in UniMath.CategoryTheory.limits.graphs.limits]
LimConeHSET [in UniMath.CategoryTheory.categories.HSET.Limits]
LimFunctorCone [in UniMath.CategoryTheory.limits.cats.limits]
LimFunctorCone [in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctor_unique [in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor_unique [in UniMath.CategoryTheory.limits.graphs.limits]
limits_isBinCoproduct_from_isBinCoproductCocone [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
limit_universal [in UniMath.Induction.M.Limits]
limOfArrowsOut [in UniMath.CategoryTheory.limits.cats.limits]
limOfArrowsOut [in UniMath.CategoryTheory.limits.graphs.limits]
limOutCommutes [in UniMath.CategoryTheory.limits.cats.limits]
limOutCommutes [in UniMath.CategoryTheory.limits.graphs.limits]
LimsFunctorCategory [in UniMath.CategoryTheory.limits.cats.limits]
LimsFunctorCategory [in UniMath.CategoryTheory.limits.graphs.limits]
LimsFunctorCategory_of_shape [in UniMath.CategoryTheory.limits.cats.limits]
LimsFunctorCategory_of_shape [in UniMath.CategoryTheory.limits.graphs.limits]
LimsHSET [in UniMath.CategoryTheory.categories.HSET.Limits]
LimsHSET_of_shape [in UniMath.CategoryTheory.categories.HSET.Limits]
Lims_PreShv_of_shape [in UniMath.CategoryTheory.Presheaf]
limUnivProp [in UniMath.CategoryTheory.limits.cats.limits]
limUnivProp [in UniMath.CategoryTheory.limits.graphs.limits]
lim_endo_is_identity [in UniMath.CategoryTheory.limits.cats.limits]
lim_cone_in_full_subcategory [in UniMath.CategoryTheory.Subcategory.Limits]
lim_equiv [in UniMath.Induction.M.Limits]
lim_endo_is_identity [in UniMath.CategoryTheory.limits.graphs.limits]
linvax [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
linvunitor_assoc [in UniMath.Bicategories.Core.BicategoryLaws]
linvunitor_natural [in UniMath.Bicategories.Core.BicategoryLaws]
listFunctor_Initial [in UniMath.CategoryTheory.Inductives.Lists]
listInd [in UniMath.CategoryTheory.Inductives.Lists]
listIndhProp [in UniMath.CategoryTheory.Inductives.Lists]
listIndProp [in UniMath.CategoryTheory.Inductives.Lists]
list_tail_cons [in UniMath.Combinatorics.MoreLists]
list_head_cons [in UniMath.Combinatorics.MoreLists]
list_cons_dom_id [in UniMath.Algebra.Universal.Examples.ListDataType]
list_nil_id [in UniMath.Algebra.Universal.Examples.ListDataType]
list_sort_id [in UniMath.Algebra.Universal.Examples.ListDataType]
list_ind_compute_2 [in UniMath.Combinatorics.Lists]
list_ind [in UniMath.Combinatorics.Lists]
Lmax_case [in UniMath.Algebra.Lattice]
Lmax_case_strong [in UniMath.Algebra.Lattice]
Lmax_le_eq_r [in UniMath.Algebra.Lattice]
Lmax_le_eq_l [in UniMath.Algebra.Lattice]
Lmax_le_case [in UniMath.Algebra.Lattice]
Lmax_le_r [in UniMath.Algebra.Lattice]
Lmax_le_l [in UniMath.Algebra.Lattice]
Lmax_Ltop [in UniMath.Algebra.Lattice]
Lmax_id [in UniMath.Algebra.Lattice]
lmf_from_param_distr_bicat_unital [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_assoc [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_μ_data_is_nat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_μ_aux [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_ε_aux [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Lmin_case [in UniMath.Algebra.Lattice]
Lmin_case_strong [in UniMath.Algebra.Lattice]
Lmin_le_eq_r [in UniMath.Algebra.Lattice]
Lmin_le_eq_l [in UniMath.Algebra.Lattice]
Lmin_le_case [in UniMath.Algebra.Lattice]
Lmin_le_r [in UniMath.Algebra.Lattice]
Lmin_le_l [in UniMath.Algebra.Lattice]
Lmin_Lbot [in UniMath.Algebra.Lattice]
Lmin_id [in UniMath.Algebra.Lattice]
LModule_comp_law2 [in UniMath.CategoryTheory.Monads.Derivative]
LModule_comp_law1 [in UniMath.CategoryTheory.Monads.Derivative]
LModule_same_func_Mor_is_inverse [in UniMath.CategoryTheory.Monads.LModules]
LModule_same_func_Mor_laws [in UniMath.CategoryTheory.Monads.LModules]
LModule_composition_laws [in UniMath.CategoryTheory.Monads.LModules]
LModule_identity_laws [in UniMath.CategoryTheory.Monads.LModules]
LModule_law2 [in UniMath.CategoryTheory.Monads.LModules]
LModule_law1 [in UniMath.CategoryTheory.Monads.LModules]
locality_structure_presheaf [in UniMath.AlgebraicGeometry.Spec]
LocalizationUniversalCategory [in UniMath.CategoryTheory.LocalizingClass]
LocalizationUniversalFunctorUnique [in UniMath.CategoryTheory.LocalizingClass]
LocalizationUniversalFunctor_isfunctor [in UniMath.CategoryTheory.LocalizingClass]
LocalizationUniversalProperty [in UniMath.CategoryTheory.LocalizingClass]
localization_is_idempotent [in UniMath.CategoryTheory.Subcategory.Reflective]
locally_base_and [in UniMath.Topology.Topology]
locally_base_htrue [in UniMath.Topology.Topology]
locally_base_imply [in UniMath.Topology.Topology]
locally2d_correct [in UniMath.Topology.Topology]
loc_precategory_assoc [in UniMath.CategoryTheory.LocalizingClass]
loc_precategory_assoc_eqrel [in UniMath.CategoryTheory.LocalizingClass]
loc_precategory_assoc_eqrel2 [in UniMath.CategoryTheory.LocalizingClass]
loc_precategory_assoc_eqrel1 [in UniMath.CategoryTheory.LocalizingClass]
loc_id_right [in UniMath.CategoryTheory.LocalizingClass]
loc_id_left [in UniMath.CategoryTheory.LocalizingClass]
loc_id_left_in [in UniMath.CategoryTheory.LocalizingClass]
logeqabgrdiffrelints [in UniMath.Algebra.Groups]
logeqhrelsabgrdiff [in UniMath.Algebra.Groups]
logeq_dec [in UniMath.MoreFoundations.DecidablePropositions]
logeq_if_both_false [in UniMath.MoreFoundations.Propositions]
logeq_if_both_true [in UniMath.MoreFoundations.Propositions]
loopsBG [in UniMath.Algebra.GroupAction]
loops_circle [in UniMath.SyntheticHomotopyTheory.Circle]
loops_circle [in UniMath.SyntheticHomotopyTheory.Circle2]
loop_compute [in UniMath.SyntheticHomotopyTheory.Circle]
lthnatrem [in UniMath.Foundations.NaturalNumbers]
ltNonnegativeRationals_correct [in UniMath.RealNumbers.NonnegativeRationals]
lt_leNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
lt_implies_le [in UniMath.Combinatorics.OrderedSets]
lubpreservesorder [in UniMath.Algebra.Dcpo]
lubsareunique [in UniMath.Algebra.Dcpo]
lunitor_V_id_is_left_unit_V_id [in UniMath.Bicategories.Core.BicategoryLaws]
lunitor_id_is_left_unit_id [in UniMath.Bicategories.Core.BicategoryLaws]
lunitor_assoc [in UniMath.Bicategories.Core.BicategoryLaws]
lunitor_natural [in UniMath.Bicategories.Core.Bicat]
lunitor_lwhisker [in UniMath.Bicategories.Core.Bicat]
lunitor_runitor_identity [in UniMath.Bicategories.Core.Unitors]
lunitor_is_lunitor_lwhisker [in UniMath.Bicategories.Core.Unitors]
lwhisker_hcomp [in UniMath.Bicategories.Core.BicategoryLaws]
lwhisker_lwhisker_rassociator [in UniMath.Bicategories.Core.Bicat]
lwhisker_runitor_lunitor [in UniMath.Bicategories.Core.Unitors]
lwhisker_id_inj [in UniMath.Bicategories.Core.Unitors]
l1 [in UniMath.Foundations.UnivalenceAxiom]
l1 [in UniMath.Algebra.Universal.Examples.Tests]
l2 [in UniMath.Algebra.Universal.Examples.Tests]
l3 [in UniMath.Algebra.Universal.Examples.Tests]
l4 [in UniMath.Algebra.Universal.Examples.Tests]

M

make_PreShv_functor_iso [in UniMath.CategoryTheory.Presheaf]
make_ob_comp_eq [in UniMath.CategoryTheory.ElementsOp]
make_ob_identity_eq [in UniMath.CategoryTheory.ElementsOp]
make_vec_el [in UniMath.Combinatorics.Vectors]
make_isCokernel_uniqueness [in UniMath.CategoryTheory.limits.cokernels]
make_graph_mor_eq [in UniMath.Combinatorics.Graph]
make_ShortShortExact_isCokernel_isKernel [in UniMath.CategoryTheory.ShortExactSequences]
make_ShortShortExact_isKernel_isKernel [in UniMath.CategoryTheory.ShortExactSequences]
mapcocone_functor_composite [in UniMath.CategoryTheory.limits.graphs.colimits]
mapdiagram_coequalizer_eq_diag [in UniMath.CategoryTheory.limits.graphs.coequalizers]
mapdiagram_bincoproduct_eq_diag [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
MapingCylinder_Diff3_Diff3 [in UniMath.HomologicalAlgebra.MappingCylinder]
maponpathscomp [in UniMath.Foundations.PartA]
maponpathshomid1 [in UniMath.Foundations.PartA]
maponpathshomid2 [in UniMath.Foundations.PartA]
maponpathsidfun [in UniMath.Foundations.PartA]
maponpaths_isotoid [in UniMath.CategoryTheory.Core.Functors]
maponpaths_idtoiso [in UniMath.CategoryTheory.Core.Functors]
maponpaths_for_constant_function [in UniMath.MoreFoundations.PartA]
maponpaths_funextsec [in UniMath.MoreFoundations.Univalence]
maponsec1l1 [in UniMath.Foundations.PartD]
maponsec1l2 [in UniMath.Foundations.PartD]
MappingConeIn2Eq [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeIn2_comm [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeMorExtComm [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeMorExtComm1 [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeMorExtComm2 [in UniMath.HomologicalAlgebra.MappingCone]
MappingConePr1Eq [in UniMath.HomologicalAlgebra.MappingCone]
MappingConePr1_comm [in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_comp [in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff3_Diff3 [in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff3_Diff2 [in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff3_Diff1 [in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff2_Diff2 [in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff2_Diff1 [in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff1_Diff3 [in UniMath.HomologicalAlgebra.MappingCone]
MappingCone_Diff1_Diff1 [in UniMath.HomologicalAlgebra.MappingCone]
MappingCylinderIsoHomot [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIsoHomot_eq [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderisoHomot_eq3 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIsoHomot_eq1 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIso_eq2 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIso_eq1 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIso_eq1' [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderMor1_comm [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderMor2_comm [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinder_comp [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinder_Diff2_Diff3 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinder_Diff2_Diff2 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinder_Diff1_Diff3 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinder_Diff1_Diff2 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinder_Diff1_Diff1 [in UniMath.HomologicalAlgebra.MappingCylinder]
MapPlusIdentityToCommSq [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
MapPlusIdentityToPullback [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
MappyngCylinderIsoHomot_eq2 [in UniMath.HomologicalAlgebra.MappingCylinder]
mapStep [in UniMath.Combinatorics.Lists]
map_const [in UniMath.Combinatorics.MoreLists]
map_to_K_commutes [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
map_reverse [in UniMath.Combinatorics.Lists]
map_append [in UniMath.Combinatorics.Lists]
map_concatenate [in UniMath.Combinatorics.Lists]
map_homot [in UniMath.Combinatorics.Lists]
map_idfun [in UniMath.Combinatorics.Lists]
map_compose [in UniMath.Combinatorics.Lists]
map_cons [in UniMath.Combinatorics.Lists]
map_nil [in UniMath.Combinatorics.Lists]
map_η [in UniMath.CategoryTheory.Monads.KTriples]
map_bind [in UniMath.CategoryTheory.Monads.KTriples]
map_map [in UniMath.CategoryTheory.Monads.KTriples]
map_id [in UniMath.CategoryTheory.Monads.KTriples]
matrix_mult_vectors [in UniMath.Algebra.Matrix]
matrix_hlevel [in UniMath.Combinatorics.FiniteSequences]
maxi [in UniMath.Paradoxes.GirardsParadox]
maxidom [in UniMath.Paradoxes.GirardsParadox]
maximal_progressive_endomorphism_on_dcpo [in UniMath.Algebra.FixedPointTheorems]
maxi_homo [in UniMath.Paradoxes.GirardsParadox]
maxNonnegativeReals_minus_plus [in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_le [in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_lt [in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_le_r [in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_le_l [in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_carac_r [in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_carac_l [in UniMath.RealNumbers.NonnegativeReals]
maxNonnegativeReals_lt' [in UniMath.RealNumbers.Reals]
max_plusNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
max_le_r [in UniMath.Topology.Prelim]
max_le_l [in UniMath.Topology.Prelim]
max_common_initial_is_common_initial [in UniMath.Combinatorics.WellOrderedSets]
max_common_initial_is_sub [in UniMath.Combinatorics.WellOrderedSets]
max_common_initial_is_max [in UniMath.Combinatorics.WellOrderedSets]
maybe_monad_law3 [in UniMath.CategoryTheory.Monads.Derivative]
maybe_monad_law2 [in UniMath.CategoryTheory.Monads.Derivative]
maybe_monad_law1 [in UniMath.CategoryTheory.Monads.Derivative]
mbind_mlift [in UniMath.CategoryTheory.Monads.RelativeModules]
merely_split_epi_is_epi [in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_epi_to_split_epi [in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_monic_is_epi_to_is_iso [in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_monic_is_monic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_monic_to_split_monic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
mexch_slice_as_bind_slice_ok [in UniMath.SubstitutionSystems.MonadsMultiSorted]
mexch_slice_as_bind_slice_agrees [in UniMath.SubstitutionSystems.MonadsMultiSorted]
mexch_slice_ok [in UniMath.SubstitutionSystems.MonadsMultiSorted]
minimal_eqrel_from_hrel [in UniMath.MoreFoundations.Sets]
minusleh [in UniMath.PAdics.lemmas]
minuslth [in UniMath.PAdics.lemmas]
minusnleh1 [in UniMath.PAdics.lemmas]
minusnn0 [in UniMath.PAdics.lemmas]
minusNonnegativeRationals_ltcompat_r' [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_ltcompat_r [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_ltcompat_l' [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_ltcompat_l [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_lecompat_r' [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_lecompat_r [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_lecompat_l' [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_lecompat_l [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_le [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_plus_exchange [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_zero_r [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_zero_l [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_correct_r [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_correct_l [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_plus_r [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_eq_zero [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeRationals_correct [in UniMath.RealNumbers.NonnegativeRationals]
minussn1 [in UniMath.PAdics.lemmas]
minussn1non0 [in UniMath.PAdics.lemmas]
minusSxx [in UniMath.MoreFoundations.Nat]
minusxx [in UniMath.MoreFoundations.Nat]
minus_divNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
minus0r [in UniMath.PAdics.lemmas]
minus1leh [in UniMath.PAdics.lemmas]
minv_m [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
mlift_mlift [in UniMath.CategoryTheory.Monads.RelativeModules]
mlift_id [in UniMath.CategoryTheory.Monads.RelativeModules]
mlift_mbind [in UniMath.CategoryTheory.Monads.RelativeModules]
MLTT79Functor_Initial [in UniMath.SubstitutionSystems.MLTT79]
modulebinop_lunax [in UniMath.Algebra.Modules.Core]
modulebinop_runax [in UniMath.Algebra.Modules.Core]
modulefun_paths2 [in UniMath.Algebra.Modules.Core]
modulefun_paths [in UniMath.Algebra.Modules.Core]
modulefun_unel [in UniMath.Algebra.Modules.Core]
modulehomabgr_isabgrop [in UniMath.Algebra.Modules.Core]
modulehomabmodule_ismoduleop [in UniMath.Algebra.Modules.Core]
modulehombinop_rinvax [in UniMath.Algebra.Modules.Core]
modulehombinop_linvax [in UniMath.Algebra.Modules.Core]
modulehombinop_inv_ismodulefun [in UniMath.Algebra.Modules.Core]
modulehombinop_comm [in UniMath.Algebra.Modules.Core]
modulehombinop_assoc [in UniMath.Algebra.Modules.Core]
modulehombinop_ismodulefun [in UniMath.Algebra.Modules.Core]
moduleiso_to_moduleiso' [in UniMath.Algebra.Modules.Core]
moduleiso_isweq_iso [in UniMath.CategoryTheory.categories.modules]
moduleiso_iso [in UniMath.CategoryTheory.categories.modules]
moduleiso_is_iso [in UniMath.CategoryTheory.categories.modules]
moduleiso'_to_moduleisweq_iso [in UniMath.Algebra.Modules.Core]
moduleiso'_to_moduleiso [in UniMath.Algebra.Modules.Core]
moduleisweq_iso [in UniMath.CategoryTheory.categories.modules]
module_mult_inv_to_inv1 [in UniMath.Algebra.Modules.Core]
module_inv_mult_to_inv1 [in UniMath.Algebra.Modules.Core]
module_mult_neg1 [in UniMath.Algebra.Modules.Core]
module_inv_mult [in UniMath.Algebra.Modules.Core]
module_mult_unel2 [in UniMath.Algebra.Modules.Core]
module_mult_1 [in UniMath.Algebra.Modules.Core]
module_mult_assoc [in UniMath.Algebra.Modules.Core]
module_mult_is_rdistr [in UniMath.Algebra.Modules.Core]
module_mult_is_ldistr [in UniMath.Algebra.Modules.Core]
module_mult_0_to_0 [in UniMath.Algebra.Modules.Core]
Monad_eq_raw_data [in UniMath.CategoryTheory.Monads.Monads]
Monad_composition_laws [in UniMath.CategoryTheory.Monads.Monads]
Monad_identity_laws [in UniMath.CategoryTheory.Monads.Monads]
Monad_law3 [in UniMath.CategoryTheory.Monads.Monads]
Monad_law2 [in UniMath.CategoryTheory.Monads.Monads]
Monad_law1 [in UniMath.CategoryTheory.Monads.Monads]
Monad_Kleisli_laws [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
Monad_law5 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
Monad_law4 [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
Monad_Mor_eq [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
monad_mor_bind_alt [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mor_bind [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
Monad_to_Kleisli_to_Monad_raw_data [in UniMath.CategoryTheory.Monads.Kleisli]
monad_to_comp_law1 [in UniMath.CategoryTheory.Monads.Derivative]
monad_comp_law3 [in UniMath.CategoryTheory.Monads.Derivative]
monad_comp_law2 [in UniMath.CategoryTheory.Monads.Derivative]
monad_comp_law1 [in UniMath.CategoryTheory.Monads.Derivative]
Monad_laws_from_hss [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad_law_2_from_hss [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad_law_1_from_hss [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad'_eq_raw_data [in UniMath.CategoryTheory.Monads.Monads]
monfunstnpr1_isInjective [in UniMath.CategoryTheory.SimplicialSets]
MonicAdmEpiIsIso [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
MonicPullbackisMonic [in UniMath.CategoryTheory.limits.pullbacks]
MonicPullbackisMonic' [in UniMath.CategoryTheory.limits.pullbacks]
MonicsAreKernels_opp_isCokernel [in UniMath.CategoryTheory.Abelian]
MonicsAreKernels_opp_eq [in UniMath.CategoryTheory.Abelian]
monics_Pullback_isPullback [in UniMath.CategoryTheory.Abelian]
monics_Pullback_eq3 [in UniMath.CategoryTheory.Abelian]
monics_Pullback_eq2 [in UniMath.CategoryTheory.Abelian]
monics_Pullback_eq1 [in UniMath.CategoryTheory.Abelian]
monic_epi_z_iso [in UniMath.CategoryTheory.Abelian]
monic_epi_is_iso [in UniMath.CategoryTheory.Abelian]
monic_epi_is_iso_inverses [in UniMath.CategoryTheory.Abelian]
monic_epi_is_iso_eq [in UniMath.CategoryTheory.Abelian]
monic_to_slice_precat_monic [in UniMath.CategoryTheory.slicecat]
monoidal_functor_map_codom_ok [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_functor_map_dom_ok [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidfunassoc [in UniMath.Algebra.Monoids]
monoidfunfromunit_ismonoidfun [in UniMath.Algebra.Monoids]
monoidfunidleft [in UniMath.Algebra.Monoids]
monoidfunidright [in UniMath.Algebra.Monoids]
monoidfuninvtoinv [in UniMath.Algebra.Groups]
monoidfuntounit_ismonoidfun [in UniMath.Algebra.Monoids]
monoidfun_inv [in UniMath.CategoryTheory.PreAdditive]
monoidfun_nat_to_monoid_fun [in UniMath.NumberSystems.Integers]
monoid_univalence_isweq [in UniMath.Algebra.Monoids]
monoid_free_forgetful_adjunction [in UniMath.CategoryTheory.categories.monoids]
monoid_forgetful_functor_is_faithful [in UniMath.CategoryTheory.categories.monoids]
monoid_equiv_iso_is_equiv [in UniMath.CategoryTheory.categories.monoids]
monoid_iso_equiv_is_equiv [in UniMath.CategoryTheory.categories.monoids]
monoid_equiv_iso [in UniMath.CategoryTheory.categories.monoids]
monoid_equiv_is_iso [in UniMath.CategoryTheory.categories.monoids]
monoid_iso_equiv [in UniMath.CategoryTheory.categories.monoids]
monoid_iso_is_equiv [in UniMath.CategoryTheory.categories.monoids]
monoid_assoc [in UniMath.CategoryTheory.categories.monoids]
monoid_id_right [in UniMath.CategoryTheory.categories.monoids]
monoid_id_left [in UniMath.CategoryTheory.categories.monoids]
MonoPlusIdentity [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
MonosAreInjective_HSET [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
montrafotargetbicat_pentagon_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_triangle_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_associator_aux2 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_associator_aux1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_right_unitor_aux2 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_right_unitor_aux1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_left_unitor_aux2 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_left_unitor_aux1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_tensor_comp_aux [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
MorMap_compose [in UniMath.CategoryTheory.LocalizingClass]
MorMap_iscontr_eq [in UniMath.CategoryTheory.LocalizingClass]
MorMap_iscontr [in UniMath.CategoryTheory.LocalizingClass]
MorMap_iscomprelfun [in UniMath.CategoryTheory.LocalizingClass]
MorMap_top_mor2_is_iso [in UniMath.CategoryTheory.LocalizingClass]
MorMap_top_mor1_is_iso [in UniMath.CategoryTheory.LocalizingClass]
MorphismCompComm [in UniMath.HomologicalAlgebra.Complexes]
MorphismCompEqrel [in UniMath.CategoryTheory.LocalizingClass]
MorphismEq [in UniMath.HomologicalAlgebra.Complexes]
MorphismEq' [in UniMath.HomologicalAlgebra.Complexes]
MorphismFromZero_comm [in UniMath.HomologicalAlgebra.Complexes]
MorphismOpComm [in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_isinv [in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_inv_comm [in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_isunit [in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_isassoc [in UniMath.HomologicalAlgebra.Complexes]
MorphismsIntoPullbackEqual [in UniMath.CategoryTheory.limits.pullbacks]
MorphismsOutofPushoutEqual [in UniMath.CategoryTheory.limits.pushouts]
Morphisms_isaset [in UniMath.HomologicalAlgebra.Complexes]
MorphismToZero_comm [in UniMath.HomologicalAlgebra.Complexes]
morphism_from_iso_is_incl [in UniMath.CategoryTheory.Groupoids]
mor_to_el_mor_comp [in UniMath.CategoryTheory.ElementsOp]
mor_to_el_mor_id [in UniMath.CategoryTheory.ElementsOp]
mor_disp_transportf_prewhisker [in UniMath.CategoryTheory.DisplayedCats.Core]
mor_disp_transportf_postwhisker [in UniMath.CategoryTheory.DisplayedCats.Core]
mor_to_elem [in UniMath.CategoryTheory.PreAdditive]
motivation_α_functors_stronger [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
motivation_λ_functors_stronger [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
motivation_ρ_functors_stronger [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
motivation_α_functors [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
motivation_λ_functors [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
motivation_ρ_functors [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
move_inv [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
mt_path_refl [in UniMath.Combinatorics.MetricTree]
multdivNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
multimodule_same_abgrp [in UniMath.Algebra.Modules.Multimodules]
multinvmultstable [in UniMath.PAdics.lemmas]
multNonnegativeRationals_le1_l [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_le1_r [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_lt_le [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_le_lt [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_ltcompat [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_eqcompat_r [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_eqcompat_l [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_lecompat_r' [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_lecompat_r [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_lecompat_l' [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_lecompat_l [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_ltcompat_r [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_ltcompat_l [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeRationals_correct [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeReals_lecompat [in UniMath.RealNumbers.Reals]
multnsm [in UniMath.Foundations.NaturalNumbers]
multsnm [in UniMath.Foundations.NaturalNumbers]
multx0_is_l [in UniMath.Algebra.BinaryOperations]
mult0x_is_l [in UniMath.Algebra.BinaryOperations]
mu_kleisli_natural [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
mweak_slice_as_bind_slice_ok [in UniMath.SubstitutionSystems.MonadsMultiSorted]
mweak_slice_as_bind_slice_agrees [in UniMath.SubstitutionSystems.MonadsMultiSorted]
mweak_slice_ok [in UniMath.SubstitutionSystems.MonadsMultiSorted]
m_minv [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
M_coalg_eq [in UniMath.Induction.M.Uniqueness]
M_carriers_eq [in UniMath.Induction.M.Uniqueness]
M_carriers_iso [in UniMath.Induction.M.Uniqueness]

N

NAction_axioms [in UniMath.CategoryTheory.DisplayedCats.Examples]
natbezoutstrong [in UniMath.PAdics.z_mod_p]
natcofaceleh [in UniMath.PAdics.lemmas]
natcofaceretractisretract [in UniMath.PAdics.lemmas]
natdiffplusdiff [in UniMath.Foundations.NaturalNumbers]
natdivleh [in UniMath.PAdics.lemmas]
natdivremandmultl [in UniMath.Foundations.NaturalNumbers]
natdivremandmultr [in UniMath.Foundations.NaturalNumbers]
natdivremrule [in UniMath.Foundations.NaturalNumbers]
natdivremunique [in UniMath.Foundations.NaturalNumbers]
natdoubleminus [in UniMath.PAdics.lemmas]
natgehchoice2 [in UniMath.Foundations.NaturalNumbers]
natgehchoice3 [in UniMath.Foundations.NaturalNumbers]
natgehdinn [in UniMath.Foundations.NaturalNumbers]
natgehgthtrans [in UniMath.Foundations.NaturalNumbers]
natgehimplnatgtbfalse [in UniMath.PAdics.lemmas]
natgehp1togth [in UniMath.Foundations.NaturalNumbers]
natgehsntogth [in UniMath.Foundations.NaturalNumbers]
natgehtogthsn [in UniMath.Foundations.NaturalNumbers]
natgthchoice2 [in UniMath.Foundations.NaturalNumbers]
natgthchoice3 [in UniMath.Foundations.NaturalNumbers]
natgthgehtrans [in UniMath.Foundations.NaturalNumbers]
natgthnegleh [in UniMath.Foundations.NaturalNumbers]
natgthp1togeh [in UniMath.Foundations.NaturalNumbers]
natgthsnn [in UniMath.Foundations.NaturalNumbers]
natgthsntogeh [in UniMath.Foundations.NaturalNumbers]
natgthsn0 [in UniMath.Foundations.NaturalNumbers]
natgthtogehp1 [in UniMath.Foundations.NaturalNumbers]
natgthtogehsn [in UniMath.Foundations.NaturalNumbers]
natgthtoneq [in UniMath.Foundations.NaturalNumbers]
nathomweq_after_adj [in UniMath.CategoryTheory.Adjunctions.Core]
natldistr [in UniMath.Foundations.NaturalNumbers]
natlehchoice2 [in UniMath.Foundations.NaturalNumbers]
natlehchoice3 [in UniMath.Foundations.NaturalNumbers]
natlehchoice4 [in UniMath.Foundations.NaturalNumbers]
natlehdecomp [in UniMath.PAdics.lemmas]
natlehdinsn [in UniMath.Foundations.NaturalNumbers]
natlehlthtrans [in UniMath.Foundations.NaturalNumbers]
natlehmultnatdiv [in UniMath.Foundations.NaturalNumbers]
natlehneggth [in UniMath.Foundations.NaturalNumbers]
natlehp1tolth [in UniMath.Foundations.NaturalNumbers]
natlehsminus [in UniMath.PAdics.lemmas]
natlehsnminussmsn [in UniMath.PAdics.lemmas]
natlehsntolth [in UniMath.Foundations.NaturalNumbers]
natlehtole [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
natlehtolthsn [in UniMath.Foundations.NaturalNumbers]
natleh_neq [in UniMath.Foundations.NaturalNumbers]
natleplusminus [in UniMath.MoreFoundations.Nat]
natlthchoice2 [in UniMath.Foundations.NaturalNumbers]
natlthchoice3 [in UniMath.Foundations.NaturalNumbers]
natlthlehtrans [in UniMath.Foundations.NaturalNumbers]
natlthminus0 [in UniMath.PAdics.lemmas]
natlthp1toleh [in UniMath.Foundations.NaturalNumbers]
natlthsnminussmsn [in UniMath.PAdics.lemmas]
natlthsntoleh [in UniMath.Foundations.NaturalNumbers]
natlthsntoleh [in UniMath.PAdics.lemmas]
natlthssminus [in UniMath.PAdics.lemmas]
natlthtolehp1 [in UniMath.Foundations.NaturalNumbers]
natlthtolehsn [in UniMath.Foundations.NaturalNumbers]
natlthtoneq [in UniMath.Foundations.NaturalNumbers]
natltltSlt [in UniMath.Foundations.NaturalNumbers]
natltminus1 [in UniMath.MoreFoundations.Nat]
natltplusS [in UniMath.Foundations.NaturalNumbers]
natminusminus [in UniMath.Foundations.NaturalNumbers]
natminusminus [in UniMath.MoreFoundations.Nat]
natminus0le [in UniMath.MoreFoundations.Nat]
natmultassoc [in UniMath.Foundations.NaturalNumbers]
natmultcomm [in UniMath.Foundations.NaturalNumbers]
natmultl1 [in UniMath.Foundations.NaturalNumbers]
natmultn0 [in UniMath.Foundations.NaturalNumbers]
natmultr1 [in UniMath.Foundations.NaturalNumbers]
natmultS [in UniMath.Algebra.Archimedean]
natmult_commringfrac [in UniMath.Algebra.Archimedean]
natmult_binophrel [in UniMath.Algebra.Archimedean]
natmult_op [in UniMath.Algebra.Archimedean]
natmult_mult [in UniMath.Algebra.Archimedean]
natmult_plus [in UniMath.Algebra.Archimedean]
natmult0n [in UniMath.Foundations.NaturalNumbers]
natnattohzandgth [in UniMath.NumberSystems.Integers]
natnattohzandlth [in UniMath.NumberSystems.Integers]
natneqinjS [in UniMath.Foundations.NaturalNumbers]
natneqsx0 [in UniMath.Foundations.NaturalNumbers]
natneq_iff_neq [in UniMath.Foundations.NaturalNumbers]
natneq0sx [in UniMath.Foundations.NaturalNumbers]
natneq0togth0 [in UniMath.Foundations.NaturalNumbers]
natnonzerocomm [in UniMath.NumberSystems.NaturalNumbersAlgebra]
natplusassoc [in UniMath.Foundations.NaturalNumbers]
natpluscomm [in UniMath.Foundations.NaturalNumbers]
natpluslcan [in UniMath.Foundations.NaturalNumbers]
natplusl0 [in UniMath.Foundations.NaturalNumbers]
natplusminus [in UniMath.MoreFoundations.Nat]
natplusminusle [in UniMath.Foundations.NaturalNumbers]
natplusnsm [in UniMath.Foundations.NaturalNumbers]
natplusrcan [in UniMath.Foundations.NaturalNumbers]
natplusr0 [in UniMath.Foundations.NaturalNumbers]
natrdistr [in UniMath.Foundations.NaturalNumbers]
natsummationae0bottom [in UniMath.PAdics.fps]
natsummationae0top [in UniMath.PAdics.fps]
natsummationandfpszero [in UniMath.PAdics.fps]
natsummationpathsupperfixed [in UniMath.PAdics.fps]
natsummationplusdistr [in UniMath.PAdics.fps]
natsummationplusshift [in UniMath.PAdics.padics]
natsummationreindexing [in UniMath.PAdics.fps]
natsummationshift [in UniMath.PAdics.fps]
natsummationshift0 [in UniMath.PAdics.fps]
natsummationsswapminus [in UniMath.PAdics.fps]
natsummationswap [in UniMath.PAdics.fps]
natsummationtimesdistl [in UniMath.PAdics.fps]
natsummationtimesdistr [in UniMath.PAdics.fps]
nattohzandlthinv [in UniMath.PAdics.lemmas]
nattohz_inj [in UniMath.NumberSystems.Integers]
nattorigS [in UniMath.Algebra.Archimedean]
nattorig_nat [in UniMath.NumberSystems.NaturalNumbersAlgebra]
nattorig_mult [in UniMath.Algebra.Archimedean]
nattorig_plus [in UniMath.Algebra.Archimedean]
nattorig_natmult [in UniMath.Algebra.Archimedean]
nattorig_nattohz [in UniMath.NumberSystems.Integers]
nattruncautocompstable [in UniMath.PAdics.fps]
nattruncautoinvisnattruncauto [in UniMath.PAdics.fps]
nattruncautoisinj [in UniMath.PAdics.fps]
nattruncbottomtopswapbound [in UniMath.PAdics.fps]
nattruncbottomtopswapisnattruncauto [in UniMath.PAdics.fps]
nattruncbottomtopswapselfinv [in UniMath.PAdics.fps]
nattruncreverseisnattruncauto [in UniMath.PAdics.fps]
natural_hom_weq_is_are_relative_adjoints [in UniMath.CategoryTheory.Adjunctions.Core]
nat_plus_commutativity [in UniMath.NumberSystems.NaturalNumbersAlgebra]
nat_to_NonnegativeReals_Sn [in UniMath.RealNumbers.NonnegativeReals]
nat_to_NonnegativeReals_O [in UniMath.RealNumbers.NonnegativeReals]
nat_nat_prod_abgr_monoidfun_paths [in UniMath.CategoryTheory.categories.abgrs]
Nat_η [in UniMath.Induction.ImpredicativeInductiveSets]
Nat_weak_eta [in UniMath.Induction.ImpredicativeInductiveSets]
Nat_β' [in UniMath.Induction.ImpredicativeInductiveSets]
Nat_β [in UniMath.Induction.ImpredicativeInductiveSets]
nat_rect_step [in UniMath.Algebra.Universal.Terms]
nat_to_hr_S [in UniMath.RealNumbers.Reals]
nat_to_hr_O [in UniMath.RealNumbers.Reals]
nat_trans_eq_alt [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_eq [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_split [in UniMath.Foundations.NaturalNumbers]
nat_eq_or_neq [in UniMath.Foundations.NaturalNumbers]
nat_nopath_to_neq [in UniMath.Foundations.NaturalNumbers]
nat_neq_to_nopath [in UniMath.Foundations.NaturalNumbers]
nat_ob_NNO [in UniMath.CategoryTheory.FunctorAlgebras]
nat_ob_rec_s [in UniMath.CategoryTheory.FunctorAlgebras]
nat_ob_rec_z [in UniMath.CategoryTheory.FunctorAlgebras]
nat_trafo_pointwise_z_iso_if_z_iso [in UniMath.CategoryTheory.FunctorCategory]
nat_trafo_z_iso_if_pointwise_z_iso [in UniMath.CategoryTheory.FunctorCategory]
nat_trans_comp_pointwise [in UniMath.CategoryTheory.FunctorCategory]
nat_trans_inv_pointwise_inv_after_p [in UniMath.CategoryTheory.FunctorCategory]
nat_trans_inv_pointwise_inv_after [in UniMath.CategoryTheory.FunctorCategory]
nat_trans_inv_pointwise_inv_before [in UniMath.CategoryTheory.FunctorCategory]
nat_trans_inv_is_iso [in UniMath.CategoryTheory.FunctorCategory]
nat_to_NonnegativeRationals_Sn [in UniMath.RealNumbers.NonnegativeRationals]
nat_to_NonnegativeRationals_O [in UniMath.RealNumbers.NonnegativeRationals]
nat_iso_inv_after_nat_iso [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
nat_trans_to_unit_eq [in UniMath.Bicategories.Colimits.Final]
nat_nat_prod_abmonoid_fun_unel [in UniMath.NumberSystems.Integers]
nat_nat_to_monoid_plus1 [in UniMath.NumberSystems.Integers]
nat_nat_monoid_fun_isbinopfun [in UniMath.NumberSystems.Integers]
nat_nat_to_monoid2 [in UniMath.NumberSystems.Integers]
nat_nat_to_monoid1 [in UniMath.NumberSystems.Integers]
nat_to_monoid_unel' [in UniMath.NumberSystems.Integers]
nat_to_abmonoid_fun_plus [in UniMath.NumberSystems.Integers]
nat_to_monoid_fun_S [in UniMath.NumberSystems.Integers]
nat_to_monoid_fun_unel [in UniMath.NumberSystems.Integers]
nat_trans_fix_snd_arg_ax [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg_ax [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg_ax [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg_ax [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_rect_step [in UniMath.Combinatorics.StandardFiniteSets]
nat_trans_to_dinatural_transformation [in UniMath.CategoryTheory.Profunctors.Core]
nat_plus_associativity' [in UniMath.Algebra.IteratedBinaryOperations]
nat_plus_associativity [in UniMath.Algebra.IteratedBinaryOperations]
nat_trans_proj_functor [in UniMath.SubstitutionSystems.MultiSorted]
nat_alg_is_preinitial_sec [in UniMath.Induction.W.Naturals]
nat_alg_func_is_unique [in UniMath.Induction.W.Naturals]
nat_alg_is_preinitial [in UniMath.Induction.W.Naturals]
nat_algs_eq [in UniMath.Induction.W.Naturals]
nat_functor_arr_false [in UniMath.Induction.W.Naturals]
nat_functor_arr_true [in UniMath.Induction.W.Naturals]
nat1gthtois0 [in UniMath.Foundations.NaturalNumbers]
ne [in UniMath.Combinatorics.Tests]
negbforalldectototal2neg [in UniMath.Combinatorics.StandardFiniteSets]
negforall_to_existsneg' [in UniMath.MoreFoundations.DoubleNegation]
negforall_to_existsneg [in UniMath.MoreFoundations.Propositions]
neghexisttoforallneg [in UniMath.Foundations.Propositions]
neghfiberdi [in UniMath.Foundations.NaturalNumbers]
neghfiberdni [in UniMath.Combinatorics.StandardFiniteSets]
neghfiberii1y [in UniMath.Foundations.PartC]
neghfiberii2x [in UniMath.Foundations.PartC]
neghfibernatplusr [in UniMath.Foundations.NaturalNumbers]
neghfiberstntonat [in UniMath.Combinatorics.StandardFiniteSets]
negimpl_to_conj [in UniMath.MoreFoundations.Propositions]
negintersectii1ii2 [in UniMath.Foundations.PartC]
negisdecnatprop [in UniMath.PAdics.lemmas]
negnatgthtoleh [in UniMath.Foundations.NaturalNumbers]
negnatgth0n [in UniMath.Foundations.NaturalNumbers]
negnatgth0tois0 [in UniMath.Foundations.NaturalNumbers]
negnatlehtogth [in UniMath.Foundations.NaturalNumbers]
negnatSleh [in UniMath.Foundations.NaturalNumbers]
negpathsconsnil [in UniMath.Combinatorics.MoreLists]
negpathsii1ii2 [in UniMath.Foundations.PartA]
negpathsii2ii1 [in UniMath.Foundations.PartA]
negpathsnilcons [in UniMath.Combinatorics.MoreLists]
negpathssx0 [in UniMath.Foundations.NaturalNumbers]
negpaths0sx [in UniMath.Foundations.NaturalNumbers]
negProp_to_uniqueChoice [in UniMath.MoreFoundations.NegativePropositions]
negProp_to_complementary [in UniMath.MoreFoundations.NegativePropositions]
negweqstnsn0 [in UniMath.Combinatorics.StandardFiniteSets]
negweqstn0sn [in UniMath.Combinatorics.StandardFiniteSets]
neg_isdecprop [in UniMath.MoreFoundations.DecidablePropositions]
neighborhood_equiv [in UniMath.Topology.Topology]
neighborhood_neighborhood [in UniMath.Topology.Topology]
neighborhood_point [in UniMath.Topology.Topology]
neighborhood_and [in UniMath.Topology.Topology]
neighborhood_forall [in UniMath.Topology.Topology]
neighborhood_imply [in UniMath.Topology.Topology]
neighborhood_isOpen [in UniMath.Topology.Topology]
ne_implies_apart [in UniMath.Combinatorics.OrderedSets]
ne_implies_dnegapart [in UniMath.Combinatorics.OrderedSets]
nil_concatenate [in UniMath.Combinatorics.Lists]
noeqinjS [in UniMath.Foundations.NaturalNumbers]
noil1 [in UniMath.Foundations.PartC]
NonnegativeRationals_to_NonnegativeReals_nattorig [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_mult [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_minus [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_plus [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_one [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_zero [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_le [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_NonnegativeReals_lt [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_Dcuts_notin_le [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_Dcuts_corr [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_Dcuts_open [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_Dcuts_bot [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_neq0_gt0 [in UniMath.RealNumbers.NonnegativeRationals]
NonnegativeRationals_eq0_le0 [in UniMath.RealNumbers.NonnegativeRationals]
NonnegativeReals_Archimedean [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeReals_dense [in UniMath.RealNumbers.NonnegativeReals]
nonzeroincommringfrac [in UniMath.Algebra.Domains_and_Fields]
nopathsfalsetotrue [in UniMath.Foundations.PartA]
nopathstruetofalse [in UniMath.Foundations.PartA]
notboth [in UniMath.Combinatorics.WellFoundedRelations]
noteq_ltorgtNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
notge_ltNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
notlt_leNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
notRlt_Rle [in UniMath.RealNumbers.Reals]
not_Dcuts_ap_eq [in UniMath.RealNumbers.NonnegativeReals]
not_EOlt_le [in UniMath.RealNumbers.Sets]
nozerodiv [in UniMath.PAdics.z_mod_p]
no_injective_pairing [in UniMath.MoreFoundations.NoInjectivePairing]
NQhalf_double [in UniMath.RealNumbers.NonnegativeRationals]
NQmax_le_r [in UniMath.RealNumbers.NonnegativeRationals]
NQmax_le_l [in UniMath.RealNumbers.NonnegativeRationals]
NQmax_case_strong [in UniMath.RealNumbers.NonnegativeRationals]
NQmax_case [in UniMath.RealNumbers.NonnegativeRationals]
NQmax_eq_zero [in UniMath.RealNumbers.NonnegativeRationals]
NRNRtoR_inv_neg [in UniMath.RealNumbers.Reals]
NRNRtoR_inv_pos [in UniMath.RealNumbers.Reals]
NRNRtoR_mult [in UniMath.RealNumbers.Reals]
NRNRtoR_minus [in UniMath.RealNumbers.Reals]
NRNRtoR_opp [in UniMath.RealNumbers.Reals]
NRNRtoR_plus [in UniMath.RealNumbers.Reals]
NRNRtoR_le [in UniMath.RealNumbers.Reals]
NRNRtoR_lt [in UniMath.RealNumbers.Reals]
NRNRtoR_ap [in UniMath.RealNumbers.Reals]
NRNRtoR_eq [in UniMath.RealNumbers.Reals]
NRNRtoR_one [in UniMath.RealNumbers.Reals]
NRNRtoR_zero [in UniMath.RealNumbers.Reals]
NRNRtoR_inside [in UniMath.RealNumbers.Reals]
NRNRtoR_RtoNRNR [in UniMath.RealNumbers.Reals]
NR_to_hr_abs [in UniMath.RealNumbers.Reals]
NR_to_hr_ap [in UniMath.RealNumbers.Reals]
NR_to_hr_le [in UniMath.RealNumbers.Reals]
NR_to_hr_lt [in UniMath.RealNumbers.Reals]
NR_to_hr_mult [in UniMath.RealNumbers.Reals]
NR_to_hr_minus [in UniMath.RealNumbers.Reals]
NR_to_hr_opp [in UniMath.RealNumbers.Reals]
NR_to_hr_plus [in UniMath.RealNumbers.Reals]
NR_to_hr_eq [in UniMath.RealNumbers.Reals]
NR_to_hr_inside [in UniMath.RealNumbers.Reals]
nth'_step [in UniMath.Combinatorics.Lists]

O

ObjectMorToComplexMor_comm [in UniMath.HomologicalAlgebra.Complexes]
ObjectToCoproduct [in UniMath.CategoryTheory.limits.FinOrdCoproducts]
OctaIsoMorComms [in UniMath.HomologicalAlgebra.Triangulated]
OctaIsoMorComm3 [in UniMath.HomologicalAlgebra.Triangulated]
OctaIsoMPMorMors [in UniMath.HomologicalAlgebra.Triangulated]
odot_x_otimes_y_functor_ok [in UniMath.CategoryTheory.Monoidal.Actions]
odot_x_odot_y_functor_ok [in UniMath.CategoryTheory.Monoidal.Actions]
odot_I_functor_ok [in UniMath.CategoryTheory.Monoidal.Actions]
onefiber [in UniMath.Foundations.PartA]
oneNonnegativeRationals_correct [in UniMath.RealNumbers.NonnegativeRationals]
one_type_bicat_laws [in UniMath.Bicategories.Core.Examples.OneTypes]
one_lt_twoNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
opexec_zero_b [in UniMath.Algebra.Universal.Terms]
opexec_just_b [in UniMath.Algebra.Universal.Terms]
opexec_just_f [in UniMath.Algebra.Universal.Terms]
opexec_dec [in UniMath.Algebra.Universal.Terms]
oplistexec_vecoplist2oplist [in UniMath.Algebra.Universal.Terms]
oplistexec_oplistsplit [in UniMath.Algebra.Universal.Terms]
oplistexec_concatenate [in UniMath.Algebra.Universal.Terms]
oplistexec_positive_b [in UniMath.Algebra.Universal.Terms]
oplistexec_zero_b [in UniMath.Algebra.Universal.Terms]
oplistexec_cons [in UniMath.Algebra.Universal.Terms]
oplistexec_nil [in UniMath.Algebra.Universal.Terms]
oplistsplit_self [in UniMath.Algebra.Universal.Terms]
oplistsplit_concatenate [in UniMath.Algebra.Universal.Terms]
oplistsplit_cons [in UniMath.Algebra.Universal.Terms]
oplistsplit_nil [in UniMath.Algebra.Universal.Terms]
oplistsplit_zero [in UniMath.Algebra.Universal.Terms]
oplist_build_isaterm [in UniMath.Algebra.Universal.Terms]
opposite_isSplitEpimorphism [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_isSplitMonomorphism [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_isSplit [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_isSplit2 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_directSumMap' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_directSumMap [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opp_sums_exts_lift [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opp_functor_essentially_surjective [in UniMath.CategoryTheory.opp_precat]
opp_functor_fully_faithful [in UniMath.CategoryTheory.opp_precat]
opp_is_inverse_in_precat [in UniMath.CategoryTheory.opp_precat]
opp_opp_precat [in UniMath.CategoryTheory.opp_precat]
opp_opp_precat_data [in UniMath.CategoryTheory.opp_precat]
opp_opp_precat_ob_mor_compute [in UniMath.CategoryTheory.opp_precat]
opp_opp_precat_ob_mor [in UniMath.CategoryTheory.opp_precat]
opp_ShortShortExact_isKernel [in UniMath.CategoryTheory.ShortExactSequences]
opp_opp_precat [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_opp_precat_data [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_opp_precat_ob_mor_compute [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_opp_precat_ob_mor [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_isPullback [in UniMath.CategoryTheory.limits.Opp]
opp_isPushout [in UniMath.CategoryTheory.limits.Opp]
opp_Cokernel_isKernel [in UniMath.CategoryTheory.limits.Opp]
opp_Cokernel_eq [in UniMath.CategoryTheory.limits.Opp]
opp_isKernel [in UniMath.CategoryTheory.limits.Opp]
opp_Kernel_isCokernel [in UniMath.CategoryTheory.limits.Opp]
opp_Kernel_eq [in UniMath.CategoryTheory.limits.Opp]
opp_isCokernel [in UniMath.CategoryTheory.limits.Opp]
opp_isCokernel_eq [in UniMath.CategoryTheory.limits.Opp]
opp_isCoequalizer [in UniMath.CategoryTheory.limits.Opp]
opp_isEqualizer [in UniMath.CategoryTheory.limits.Opp]
opp_ZeroArrow [in UniMath.CategoryTheory.limits.Opp]
opp_ZeroArrowFrom [in UniMath.CategoryTheory.limits.Opp]
opp_ZeroArrowTo [in UniMath.CategoryTheory.limits.Opp]
opp_isZero [in UniMath.CategoryTheory.limits.Opp]
opp_ShortShortExactData_Eq [in UniMath.CategoryTheory.Morphisms]
op_le_r' [in UniMath.Algebra.Lattice]
op_le_r [in UniMath.Algebra.Lattice]
op1_prebicat_laws [in UniMath.Bicategories.Core.Examples.OpMorBicat]
op2_prebicat_laws [in UniMath.Bicategories.Core.Examples.OpCellBicat]
OrderedSetEquivalence_rect [in UniMath.Combinatorics.OrderedSets]
OrderedSet_univalence [in UniMath.Combinatorics.OrderedSets]
other_adjoint [in UniMath.MoreFoundations.Equivalences]
otimes_U_functor_ok [in UniMath.CategoryTheory.Monoidal.Actions]

P

padicapartandplusprecarryl [in UniMath.PAdics.padics]
padicapartandplusprecarryr [in UniMath.PAdics.padics]
padicapartandtimesprecarryl [in UniMath.PAdics.padics]
padicapartcomputation [in UniMath.PAdics.padics]
padicapartiscomprel [in UniMath.PAdics.padics]
padicintsareintdom [in UniMath.PAdics.padics]
padiconecomputation [in UniMath.PAdics.padics]
padicplusisbinopapartl [in UniMath.PAdics.padics]
padicplusisbinopapartr [in UniMath.PAdics.padics]
padicplusisbinopapart0 [in UniMath.PAdics.padics]
padictimesisbinopapartl [in UniMath.PAdics.padics]
padictimesisbinopapartr [in UniMath.PAdics.padics]
padictimesisbinopapart0 [in UniMath.PAdics.padics]
padiczerocomputation [in UniMath.PAdics.padics]
PairPullbackKernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PairPullbackMap [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PairPushoutCokernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PairPushoutMap [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PairUniqueness1 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PairUniqueness2 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pair_falsehood [in UniMath.MoreFoundations.DecidablePropositions]
pair_truth [in UniMath.MoreFoundations.DecidablePropositions]
pair_inj [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
parameterized_distributivity_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_pentagon_eq_body_variant_implies [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_pentagon_eq_body_variant_follows [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant_implies [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant_follows [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant0_implies [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant0_follows [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
partial_sum_slot [in UniMath.Combinatorics.StandardFiniteSets]
partial_sum_prop [in UniMath.Combinatorics.StandardFiniteSets]
partial_sum_prop_aux [in UniMath.Combinatorics.StandardFiniteSets]
parts_from_whole [in UniMath.SubstitutionSystems.SubstitutionSystems]
PathOverConstant_map1_map2 [in UniMath.MoreFoundations.PathsOver]
pathOverEquations [in UniMath.MoreFoundations.PathsOver]
pathOverEquations1 [in UniMath.MoreFoundations.PathsOver]
PathOverUniqueness [in UniMath.MoreFoundations.PathsOver]
pathscomp_inv [in UniMath.Foundations.PartA]
pathscomp_cancel_right [in UniMath.Foundations.PartA]
pathscomp_cancel_left [in UniMath.Foundations.PartA]
pathscomp0_dep [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
pathscomp0_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
pathsfuntransposofnet1t2 [in UniMath.Foundations.PartC]
pathsfuntransposoft1 [in UniMath.Foundations.PartC]
pathsfuntransposoft2 [in UniMath.Foundations.PartC]
pathsinvcuntonweqoft [in UniMath.Foundations.PartD]
pathsinv0_weqtopaths [in UniMath.MoreFoundations.NoInjectivePairing]
pathsitertoplus [in UniMath.Foundations.NaturalNumbers]
pathslinvtorinv [in UniMath.Algebra.Domains_and_Fields]
pathsrecomplfxtoy [in UniMath.Foundations.PartC]
pathssminus [in UniMath.PAdics.lemmas]
paths_rect_step [in UniMath.Algebra.Universal.Terms]
path_internal_adjoint_equivalence [in UniMath.Bicategories.Core.AdjointUnique]
path_inverse_2cell [in UniMath.Bicategories.Core.Invertible_2cells]
path_to_ActionIsweq_iso [in UniMath.Algebra.GroupAction]
path_to_ctr [in UniMath.Foundations.PartA]
pbm_id_law [in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_deriv_eq_mult [in UniMath.CategoryTheory.Monads.Derivative]
pb_if_pointwise_pb [in UniMath.CategoryTheory.limits.pullbacks]
pb_LModule_comp_law [in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_is_functor [in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_Mor_law [in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_laws [in UniMath.CategoryTheory.Monads.LModules]
PCF_Functor_Initial [in UniMath.SubstitutionSystems.PCF_alt]
pdelta_preimage [in UniMath.CategoryTheory.precomp_fully_faithful]
pentagon [in UniMath.Bicategories.Core.Invertible_2cells]
pentagon_2 [in UniMath.Bicategories.Core.BicategoryLaws]
pentagon_identity [in UniMath.Bicategories.BicategoryOfBicat]
pentagon_eq_of_pointedfunctors [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
pentagon_eq_swapping_of_tensor [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
pentagon_eq_from_alt [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
pentagon_eq_nicer_implies_pentagon_eq_nice [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_eq_nice_implies_pentagon_eq_nicer [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_eq_nice_implies_pentagon_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_eq_implies_pentagon_eq_nice [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_eq_readable [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
PEq_Pullback_Eq2 [in UniMath.CategoryTheory.PseudoElements]
PEq_Pullback_Eq1 [in UniMath.CategoryTheory.PseudoElements]
PEq_Pullback_Eq [in UniMath.CategoryTheory.PseudoElements]
PEq_Diff_Eq2 [in UniMath.CategoryTheory.PseudoElements]
PEq_Diff_Eq1 [in UniMath.CategoryTheory.PseudoElements]
PEq_isExact [in UniMath.CategoryTheory.PseudoElements]
PEq_isEpi [in UniMath.CategoryTheory.PseudoElements]
PEq_isMonic' [in UniMath.CategoryTheory.PseudoElements]
PEq_isMonic [in UniMath.CategoryTheory.PseudoElements]
PEq_ZeroArrow [in UniMath.CategoryTheory.PseudoElements]
PEq_Eq_Zero [in UniMath.CategoryTheory.PseudoElements]
PEq_Eq_Zero_Eq [in UniMath.CategoryTheory.PseudoElements]
PEq_Zeros [in UniMath.CategoryTheory.PseudoElements]
PEq_Zero_Eq [in UniMath.CategoryTheory.PseudoElements]
PEq_Zero_Eq' [in UniMath.CategoryTheory.PseudoElements]
PEq_Comp_Eq [in UniMath.CategoryTheory.PseudoElements]
PEq_Im_Eq [in UniMath.CategoryTheory.PseudoElements]
PEq_to_hrel [in UniMath.CategoryTheory.PseudoElements]
PEq_issymm [in UniMath.CategoryTheory.PseudoElements]
PEq_isrefl [in UniMath.CategoryTheory.PseudoElements]
PEq_istrans [in UniMath.CategoryTheory.PseudoElements]
PEq_trans_eq [in UniMath.CategoryTheory.PseudoElements]
phi [in UniMath.CategoryTheory.precomp_ess_surj]
plusmn0m0 [in UniMath.MoreFoundations.Nat]
plusmn0n0 [in UniMath.MoreFoundations.Nat]
plusNonnegativeRationals_minus_l [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_minus_r [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_lt_l [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_lt_r [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_le_l [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_le_r [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_lt_le_ltcompat [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_le_lt_ltcompat [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_ltcompat [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_eqcompat_r [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_eqcompat_l [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_lecompat_l [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_lecompat_r [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_ltcompat_l [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_ltcompat_r [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeRationals_correct [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeReals_apcompat_r [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_apcompat_l [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_eqcompat_r [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_eqcompat_l [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_le_ltcompat [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_le_r [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_le_l [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_lecompat [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_lt_r [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_lt_l [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_ltcompat [in UniMath.RealNumbers.NonnegativeReals]
plus_n_Sm [in UniMath.Foundations.NaturalNumbers]
PL_fold_impl [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_fold_or [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_fold_and [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_fold_not [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_fold_var [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_functor_initial [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
pointed_one_type_bicat_laws [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
pointfree_is_equiv [in UniMath.CategoryTheory.Monads.Monads]
pointwisefamily_isdirected [in UniMath.Algebra.Dcpo]
pointwiselub_islub [in UniMath.Algebra.Dcpo]
pointwiselub_isdcpomorphism' [in UniMath.Algebra.Dcpo]
pointwiselub_preservesorder [in UniMath.Algebra.Dcpo]
pointwiselub_islubpointwise [in UniMath.Algebra.Dcpo]
pointwise_Colim_is_isColimFunctor [in UniMath.CategoryTheory.limits.graphs.colimits]
polynomial_alg_uncurried_equiv [in UniMath.Induction.PolynomialFunctors]
polynomial_functor_is_functor [in UniMath.Induction.PolynomialFunctors]
PosetEquivalence_rect [in UniMath.Combinatorics.OrderedSets]
posetofdcpomorphisms_isdirectedcomplete [in UniMath.Algebra.Dcpo]
posetStructureIdentity [in UniMath.Combinatorics.OrderedSets]
posetTransport_weq [in UniMath.Combinatorics.OrderedSets]
Poset_univalence_compute [in UniMath.Combinatorics.OrderedSets]
Poset_univalence [in UniMath.Combinatorics.OrderedSets]
Poset_univalence_compute [in UniMath.Combinatorics.OrderedSets]
Poset_univalence_0 [in UniMath.Combinatorics.OrderedSets]
postcompWithBinCoproductArrow [in UniMath.CategoryTheory.limits.bincoproducts]
postcompWithBinCoproductArrow [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
postcompWithBinCoproductArrowHSET [in UniMath.CategoryTheory.categories.HSET.Colimits]
postcompWithBinProductArrow [in UniMath.CategoryTheory.limits.graphs.binproducts]
postcompWithBinProductArrow [in UniMath.CategoryTheory.limits.binproducts]
postcompWithColimArrow [in UniMath.CategoryTheory.limits.graphs.colimits]
postcompWithCoproductArrow [in UniMath.CategoryTheory.limits.coproducts]
postcompWithCoproductArrow [in UniMath.CategoryTheory.RepresentableFunctors.Test]
postcompWithLimArrow [in UniMath.CategoryTheory.limits.cats.limits]
postCompWithLimArrow [in UniMath.CategoryTheory.limits.graphs.limits]
postcompWithLimOfArrows [in UniMath.CategoryTheory.limits.cats.limits]
postCompWithLimOfArrows [in UniMath.CategoryTheory.limits.graphs.limits]
postCompWithLimOfArrows_subproof [in UniMath.CategoryTheory.limits.cats.limits]
postCompWithLimOfArrows_subproof [in UniMath.CategoryTheory.limits.graphs.limits]
postcompWithProductArrow [in UniMath.CategoryTheory.limits.products]
postCompWithPullbackArrow [in UniMath.CategoryTheory.limits.pullbacks]
postCompWithPullbackArrow_subproof [in UniMath.CategoryTheory.limits.pullbacks]
postcomp_transportf [in UniMath.Bicategories.Core.Strictness]
postcomp_with_ZeroArrow [in UniMath.CategoryTheory.limits.graphs.zero]
post_whisker_as_rwhisker [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
post_composition_is_functor [in UniMath.CategoryTheory.whiskering]
post_whisker_composition [in UniMath.CategoryTheory.whiskering]
post_whisker_identity [in UniMath.CategoryTheory.whiskering]
post_whisker_z_iso_is_z_iso [in UniMath.CategoryTheory.whiskering]
post_whisker_iso_is_iso [in UniMath.CategoryTheory.whiskering]
post_comp_with_z_iso_inv_is_inj [in UniMath.CategoryTheory.Core.Isos]
post_comp_with_z_iso_is_inj [in UniMath.CategoryTheory.Core.Isos]
post_comp_with_iso_is_inj [in UniMath.CategoryTheory.Core.Isos]
Pow_cocone_subproof [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
po_reverse_correct [in UniMath.RealNumbers.Sets]
po_category_is_univalent_iff_is_antisymm [in UniMath.CategoryTheory.categories.preorder_categories]
po_homsets_isaprop [in UniMath.CategoryTheory.categories.preorder_categories]
PreAdditive_post_unel [in UniMath.CategoryTheory.PreAdditive]
PreAdditive_post_linear [in UniMath.CategoryTheory.PreAdditive]
PreAdditive_pre_unel [in UniMath.CategoryTheory.PreAdditive]
PreAdditive_pre_linear [in UniMath.CategoryTheory.PreAdditive]
PreAdditive_cancel_inv [in UniMath.CategoryTheory.PreAdditive]
PreAdditive_invrcomp [in UniMath.CategoryTheory.PreAdditive]
PreAdditive_invlcomp [in UniMath.CategoryTheory.PreAdditive]
PreAdditive_unel_zero [in UniMath.CategoryTheory.PreAdditive]
prebicat_prebicategory_coherence [in UniMath.Bicategories.BicategoryOfBicat]
prebicat_associator_and_unitors_are_iso [in UniMath.Bicategories.BicategoryOfBicat]
prebicat_laws_from_monoidal [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
precarryandcarry [in UniMath.PAdics.padics]
precarryandcarry_pointwise [in UniMath.PAdics.padics]
precarryandone [in UniMath.PAdics.padics]
precarryandtimesl [in UniMath.PAdics.padics]
precarryandzero [in UniMath.PAdics.padics]
precarryandzeromult [in UniMath.PAdics.padics]
precarryandzeromultl [in UniMath.PAdics.padics]
precarryandzeromultr [in UniMath.PAdics.padics]
precategory_RelMonad_axioms [in UniMath.CategoryTheory.Monads.RelativeMonads]
precategory_Monad_axioms [in UniMath.CategoryTheory.Monads.Monads]
precategory_monoid_has_homsets [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
precategory_skewMonoid_axioms [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
precategory_LModule_axioms [in UniMath.CategoryTheory.Monads.LModules]
precategory_Kleisli_axioms [in UniMath.CategoryTheory.Monads.KTriples]
precat_paths_in_sub_as_3_maps [in UniMath.CategoryTheory.Subcategory.Full]
precat_from_folds_precat_folds_precat_from_precat [in UniMath.Folds.from_precats_to_folds_and_back]
precompWithBinCoproductArrow [in UniMath.CategoryTheory.limits.bincoproducts]
precompWithBinCoproductArrow [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
precompWithBinCoproductArrow_eq [in UniMath.CategoryTheory.limits.bincoproducts]
precompWithBinProductArrow [in UniMath.CategoryTheory.limits.graphs.binproducts]
precompWithBinProductArrow [in UniMath.CategoryTheory.limits.binproducts]
precompWithColimOfArrows [in UniMath.CategoryTheory.limits.graphs.colimits]
preCompWithColimOfArrows_subproof [in UniMath.CategoryTheory.limits.graphs.colimits]
precompWithCoproductArrow [in UniMath.CategoryTheory.limits.coproducts]
precompWithCoproductArrow [in UniMath.CategoryTheory.RepresentableFunctors.Test]
precompwithnatcofaceisauto [in UniMath.PAdics.fps]
precompWithProductArrow [in UniMath.CategoryTheory.limits.products]
precomp_convertor_data_is_nat_trans [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_prod_functor_has_right_adjoint [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
precomp_transportf [in UniMath.Bicategories.Core.Strictness]
precomp_with_ZeroArrow [in UniMath.CategoryTheory.limits.graphs.zero]
precomp_with_epi_isincl [in UniMath.CategoryTheory.Epis]
predicateOnBaseConnectedType [in UniMath.MoreFoundations.Propositions]
predicateOnBasePointComponent [in UniMath.MoreFoundations.Propositions]
predicateOnConnectedType [in UniMath.MoreFoundations.Propositions]
PreFilterBase_le [in UniMath.Topology.Filters]
PreFilterBase_Generated [in UniMath.Topology.Filters]
PreFilterGenerated_correct [in UniMath.Topology.Filters]
PreFilterIm_incr [in UniMath.Topology.Filters]
PreFilterIntersection_glb [in UniMath.Topology.Filters]
PreFilterTop_correct [in UniMath.Topology.Filters]
prefix_remove_drop [in UniMath.Combinatorics.MoreLists]
prefix_remove_prefix [in UniMath.Combinatorics.MoreLists]
prefix_remove_concatenate2 [in UniMath.Combinatorics.MoreLists]
prefix_remove_concatenate [in UniMath.Combinatorics.MoreLists]
prefix_remove_self [in UniMath.Combinatorics.MoreLists]
prefix_remove_stepback [in UniMath.Combinatorics.MoreLists]
prefix_remove_stepneq [in UniMath.Combinatorics.MoreLists]
prefix_remove_stepeq [in UniMath.Combinatorics.MoreLists]
pregroupoid_hom_weq_iso_comp [in UniMath.CategoryTheory.Groupoids]
pregroupoid_hom_weq_iso_idtoiso [in UniMath.CategoryTheory.Groupoids]
pregroupoid_hom_weq_iso [in UniMath.CategoryTheory.Groupoids]
preIt_uniq [in UniMath.SubstitutionSystems.GenMendlerIteration]
preIt_ok [in UniMath.SubstitutionSystems.GenMendlerIteration]
preIt_uniq [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
preIt_ok [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
prejoin_from_hetsubst_τ [in UniMath.SubstitutionSystems.SubstitutionSystems]
prejoin_from_hetsubst_η [in UniMath.SubstitutionSystems.SubstitutionSystems]
presented_abgr_extend_comp [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_gr_extend_comp [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoid_extend_comp [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoid_extend_comp [in UniMath.Algebra.Free_Monoids_and_Groups]
preservesdirectedlub_isdcpomorphism [in UniMath.Algebra.Dcpo]
preserves_colimit_pre_composition_functor [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
preserves_colimit_functor_composite [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
preserves_colimit_identity [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
preserves_colimit_iso [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
preserves_colimit_slicecat_to_cat_HSET_direct [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
preserves_colimit_slicecat_to_cat_HSET [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
preserves_colimit_pre_composition_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
preserves_colimit_functor_composite [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
preserves_colimit_constant_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
preserves_colimit_identity [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
preserves_colimit_iso [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
presheaf_to_yoneda_is_functor [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_mor_is_modification [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_mor_modification_is_nat_trans [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_is_pstrans [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_is_nat_trans [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_is_functor [in UniMath.Bicategories.Core.YonedaLemma]
preZFS_Branch_issuperrigid [in UniMath.Combinatorics.ZFstructures]
preZFS_Branch_isWellFounded [in UniMath.Combinatorics.ZFstructures]
preZFS_univalence [in UniMath.Combinatorics.ZFstructures]
preZFS_isrigid [in UniMath.Combinatorics.ZFstructures]
pre_nat_isaset [in UniMath.Induction.ImpredicativeInductiveSets]
pre_sum_isaset [in UniMath.Induction.ImpredicativeInductiveSets]
pre_prod_isaset [in UniMath.Induction.ImpredicativeInductiveSets]
pre_whisker_as_lwhisker [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
pre_composition_is_functor [in UniMath.CategoryTheory.whiskering]
pre_whisker_composition [in UniMath.CategoryTheory.whiskering]
pre_whisker_identity [in UniMath.CategoryTheory.whiskering]
pre_whisker_on_nat_z_iso [in UniMath.CategoryTheory.whiskering]
pre_whisker_iso_is_iso [in UniMath.CategoryTheory.whiskering]
pre_comp_rezk_eta_opp_is_ess_surj [in UniMath.CategoryTheory.rezk_completion]
pre_comp_rezk_eta_opp_is_fully_faithful [in UniMath.CategoryTheory.rezk_completion]
pre_comp_rezk_eta_is_ess_surj [in UniMath.CategoryTheory.rezk_completion]
pre_comp_rezk_eta_is_fully_faithful [in UniMath.CategoryTheory.rezk_completion]
pre_composition_with_ess_surj_and_fully_faithful_is_fully_faithful [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition_with_ess_surj_and_full_is_fully_faithful [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition_with_ess_surj_and_full_is_full_and_faithful [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition_with_ess_surj_and_full_is_full [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition_with_ess_surj_is_faithful [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_comp_with_z_iso_inv_is_inj [in UniMath.CategoryTheory.Core.Isos]
pre_comp_with_z_iso_is_inj' [in UniMath.CategoryTheory.Core.Isos]
pre_comp_with_z_iso_is_inj [in UniMath.CategoryTheory.Core.Isos]
pre_comp_with_iso_is_inj [in UniMath.CategoryTheory.Core.Isos]
pre_composition_as_a_functor_data_is_fun [in UniMath.CategoryTheory.HorizontalComposition]
pre_composition_essentially_surjective [in UniMath.CategoryTheory.precomp_ess_surj]
primeandtimes [in UniMath.PAdics.padics]
primedivorcoprime [in UniMath.PAdics.padics]
prime_ideal_ax1_contraposition [in UniMath.Algebra.RigsAndRings.Ideals]
princop_build_term [in UniMath.Algebra.Universal.Terms]
ProductArrowEta [in UniMath.CategoryTheory.limits.products]
ProductArrowUnique [in UniMath.CategoryTheory.limits.products]
productMapUniqueness [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
ProductOfArrowsPr [in UniMath.CategoryTheory.limits.products]
ProductPrCommutes [in UniMath.CategoryTheory.limits.products]
ProductPr_idtoiso [in UniMath.CategoryTheory.limits.products]
ProductsHSET [in UniMath.CategoryTheory.categories.HSET.Limits]
ProductStrength1 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
ProductStrength1' [in UniMath.SubstitutionSystems.BinProductOfSignatures]
ProductStrength2 [in UniMath.SubstitutionSystems.BinProductOfSignatures]
ProductStrength2' [in UniMath.SubstitutionSystems.BinProductOfSignatures]
Products_PreShv [in UniMath.CategoryTheory.Presheaf]
Products_HSET_slice [in UniMath.CategoryTheory.categories.HSET.Slice]
Products_from_Lims [in UniMath.CategoryTheory.limits.products]
Product_univ_prop [in UniMath.Induction.ImpredicativeInductiveSets]
Product_classical_η [in UniMath.Induction.ImpredicativeInductiveSets]
Product_η [in UniMath.Induction.ImpredicativeInductiveSets]
Product_com_con [in UniMath.Induction.ImpredicativeInductiveSets]
Product_weak_η [in UniMath.Induction.ImpredicativeInductiveSets]
Product_beta [in UniMath.Induction.ImpredicativeInductiveSets]
product_of_functors_alt_eq_product_of_functors [in UniMath.CategoryTheory.limits.products]
Product_endo_is_identity [in UniMath.CategoryTheory.limits.products]
progressive_pointwise_lub [in UniMath.Algebra.FixedPointTheorems]
proofirrelevance [in UniMath.Foundations.PartB]
proofirrelevancecontr [in UniMath.Foundations.PartA]
proofirrGuidedHomotopy [in UniMath.SyntheticHomotopyTheory.AffineLine]
proof_by_contradiction [in UniMath.MoreFoundations.Propositions]
propositionalUnivalenceUAH [in UniMath.Foundations.UnivalenceAxiom]
pr_tuple_functor [in UniMath.CategoryTheory.ProductCategory]
pr1contr_to_contr [in UniMath.Combinatorics.ZFstructures]
pr1foldr_algmor_identity [in UniMath.CategoryTheory.Inductives.Lists]
pr1foldr_algmor_identity [in UniMath.CategoryTheory.Inductives.Trees]
Pr1IsAdmEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr1weq_injectivity [in UniMath.Algebra.GroupAction]
pr1_pr1_relmonadmor_eq_from_relmonadmor_iso_idtoiso [in UniMath.CategoryTheory.Monads.RelativeMonads]
pr1_pr1_relmonadmor_eq_from_relmonadmor_iso_idtoiso_aux [in UniMath.CategoryTheory.Monads.RelativeMonads]
pr1_issurjective [in UniMath.MoreFoundations.AxiomOfChoice]
pr1_category_is_functor [in UniMath.CategoryTheory.DisplayedCats.Core]
pr1_preserves_limit [in UniMath.CategoryTheory.DisplayedCats.Limits]
pr1_transportf_sigma_disp [in UniMath.CategoryTheory.DisplayedCats.Constructions]
pr1_transportf [in UniMath.MoreFoundations.PartA]
pr1_invweq [in UniMath.Foundations.PartA]
Pr2IsAdmEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr2_transportf_sigma_disp [in UniMath.CategoryTheory.DisplayedCats.Constructions]
pr2_transportf [in UniMath.MoreFoundations.PartA]
PseudoEq_iseqrel [in UniMath.CategoryTheory.PseudoElements]
psfunctor_to_lax_monoidal_functor_laws [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psfunctor_to_lax_monoidal_functor_data_is_functor [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psubst_interchange [in UniMath.SubstitutionSystems.STLC_alt]
ptd_composite_compose [in UniMath.CategoryTheory.PointedFunctorsComposition]
ptd_mor_z_iso_from_underlying_mor [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
PullbackArrowUnique [in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackArrowUnique [in UniMath.CategoryTheory.limits.pullbacks]
PullbackArrowUnique' [in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackArrowUnique' [in UniMath.CategoryTheory.limits.pullbacks]
PullbackArrow_PullbackPr2 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackArrow_PullbackPr1 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackArrow_PullbackPr2 [in UniMath.CategoryTheory.limits.pullbacks]
PullbackArrow_PullbackPr1 [in UniMath.CategoryTheory.limits.pullbacks]
PullbackEndo_is_identity [in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackEndo_is_identity [in UniMath.CategoryTheory.limits.pullbacks]
PullbackEpiIsEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pullbackiso [in UniMath.CategoryTheory.limits.pullbacks]
PullbackKernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PullbacksHSET [in UniMath.CategoryTheory.categories.HSET.Limits]
PullbacksHSET_from_Lims [in UniMath.CategoryTheory.categories.HSET.Limits]
PullbackSplitEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pullbacks_PreShv [in UniMath.CategoryTheory.Presheaf]
Pullbacks_from_Lims [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pullback_to_isPullback' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pullback_to_slice_pullback [in UniMath.CategoryTheory.slicecat]
pullback_to_binprod_inv [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
pullback_to_slice_binprod_inv [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
pullback_HSET_univprop_elements [in UniMath.CategoryTheory.categories.HSET.Structures]
PushoutArrowUnique [in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutArrowUnique [in UniMath.CategoryTheory.limits.pushouts]
PushoutArrowUnique' [in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutArrow_PushoutIn2 [in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutArrow_PushoutIn1 [in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutArrow_PushoutIn2 [in UniMath.CategoryTheory.limits.pushouts]
PushoutArrow_PushoutIn1 [in UniMath.CategoryTheory.limits.pushouts]
PushoutCokernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PushoutEndo_is_identity [in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutEndo_is_identity [in UniMath.CategoryTheory.limits.pushouts]
PushoutsHSET_from_Colims [in UniMath.CategoryTheory.categories.HSET.Colimits]
PushoutSplitMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pushouts_pw_epi [in UniMath.CategoryTheory.EpiFacts]
Pushout_to_isPushout' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pushout_from_Colims [in UniMath.CategoryTheory.limits.graphs.pushouts]
pushout_to_epi [in UniMath.CategoryTheory.limits.pushouts]
P_isaprop [in UniMath.Induction.M.ComputationalM]
P'_isaprop [in UniMath.Induction.M.ComputationalM]
p1types_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_disp_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_disp_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_disp_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]

Q

qF [in UniMath.CategoryTheory.precomp_ess_surj]
QuotcategoryAdditiveFunctor_isAdditiveFunctor [in UniMath.CategoryTheory.AdditiveFunctors]
QuotcategoryFunctor_isfunctor [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_isBinDirectSum [in UniMath.CategoryTheory.limits.BinDirectSums]
Quotcategory_isBinProduct [in UniMath.CategoryTheory.limits.BinDirectSums]
Quotcategory_isBinCoproduct [in UniMath.CategoryTheory.limits.BinDirectSums]
Quotcategory_isZero [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_isPreAdditive [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_postmor [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_premor [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_comp_linear [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_comp_iscontr [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_comp_iscontr_eq [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_comp_iscontr_PAS [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_comp_iscontr_PAS_eq [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_surj [in UniMath.CategoryTheory.PreAdditive]
quotientandtimesrearrangel [in UniMath.PAdics.padics]
quotientprecarryplus [in UniMath.PAdics.padics]
quotientringsumdecom [in UniMath.PAdics.z_mod_p]
quotient_map [in UniMath.Algebra.GroupAction]
quotient_product [in UniMath.Algebra.GroupAction]
quotient_1 [in UniMath.Algebra.GroupAction]
quotient_mult [in UniMath.Algebra.GroupAction]
quotient_uniqueness [in UniMath.Algebra.GroupAction]
quotient_times [in UniMath.Algebra.GroupAction]
QuotPrecatetgory_comp_iscontr_univ [in UniMath.CategoryTheory.PreAdditive]
quotrelimpl [in UniMath.Foundations.Sets]
quotrellogeq [in UniMath.Foundations.Sets]
quot_unel [in UniMath.CategoryTheory.PreAdditive]
Quot_assoc2 [in UniMath.CategoryTheory.PreAdditive]
Quot_assoc1 [in UniMath.CategoryTheory.PreAdditive]
quot_comp_unel_right [in UniMath.CategoryTheory.PreAdditive]
quot_comp_unel_left [in UniMath.CategoryTheory.PreAdditive]

R

Rabs_Ropp [in UniMath.RealNumbers.Reals]
Rabs_Rmult [in UniMath.RealNumbers.Reals]
Rabs_pr2RtoNRNR [in UniMath.RealNumbers.Reals]
Rabs_pr1RtoNRNR [in UniMath.RealNumbers.Reals]
rad_equivalence_of_cats [in UniMath.CategoryTheory.Equivalences.Core]
rad_form_adjunction [in UniMath.CategoryTheory.Equivalences.Core]
rad_eta_is_nat_trans [in UniMath.CategoryTheory.Equivalences.Core]
rad_eps_is_nat_trans [in UniMath.CategoryTheory.Equivalences.Core]
rad_is_functor [in UniMath.CategoryTheory.Equivalences.Core]
Rap_Rlt [in UniMath.RealNumbers.Reals]
Rarchimedean [in UniMath.RealNumbers.Reals]
rassociator_fun'_natural [in UniMath.Bicategories.Core.Bicat]
rassociator_fun_natural [in UniMath.Bicategories.Core.Bicat]
rassociator_rassociator [in UniMath.Bicategories.Core.Bicat]
rassociator_to_lassociator_pre [in UniMath.Bicategories.Core.Bicat]
rassociator_to_lassociator_post [in UniMath.Bicategories.Core.Bicat]
reflects_isos_cat_of_elems_forgetful [in UniMath.CategoryTheory.Elements]
reflects_isos_cat_of_elems_forgetful [in UniMath.CategoryTheory.ElementsOp]
reflects_all_limits_sub_precategory_inclusion [in UniMath.CategoryTheory.Subcategory.Limits]
relative_strength_from_actionbased_strength_laws [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
RelMonadMor_composed_radj_axioms [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonadMor_composed_axioms [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
relmonad_eq_from_relmonad_iso_idtoiso [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_composition_laws [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_identity_laws [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_eq_obsolete [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_eq [in UniMath.CategoryTheory.Monads.RelativeMonads]
rel_strength_from_signature_laws [in UniMath.SubstitutionSystems.Signatures]
rel_impl [in UniMath.CategoryTheory.categories.HSET.Colimits]
rel_strength_codom_ok [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_dom_ok [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel0_impl [in UniMath.CategoryTheory.categories.HSET.Colimits]
remakeweq [in UniMath.Foundations.PartA]
remakeweqboth [in UniMath.Foundations.PartA]
remakeweqboth_eq' [in UniMath.Foundations.PartA]
remakeweqboth_eq [in UniMath.Foundations.PartA]
remakeweqinv [in UniMath.Foundations.PartA]
remakeweqinv_eq' [in UniMath.Foundations.PartA]
remakeweqinv_eq [in UniMath.Foundations.PartA]
remakeweq_eq' [in UniMath.Foundations.PartA]
remakeweq_eq [in UniMath.Foundations.PartA]
remove_ε₁ [in UniMath.Bicategories.Core.AdjointUnique]
remove_η₂ [in UniMath.Bicategories.Core.AdjointUnique]
remove_id_right [in UniMath.CategoryTheory.Core.Categories]
remove_id_left [in UniMath.CategoryTheory.Core.Categories]
representable_faithful [in UniMath.Bicategories.Core.EquivToAdjequiv]
Representation_to_iso [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
restricted_adjunction_equivalence [in UniMath.CategoryTheory.Adjunctions.Restriction]
restriction_paths [in UniMath.AlgebraicGeometry.Spec]
retract_dec [in UniMath.MoreFoundations.DecidablePropositions]
reversal_LEM [in UniMath.MoreFoundations.DecidablePropositions]
reverseCommIsoSquare [in UniMath.CategoryTheory.Morphisms]
reverseCommIsoSquare' [in UniMath.CategoryTheory.Morphisms]
reversereverse [in UniMath.Combinatorics.FiniteSequences]
reverseStep [in UniMath.Combinatorics.Lists]
reverse_three_args_idempotent [in UniMath.CategoryTheory.PrecategoryBinProduct]
reverse_three_args_ok [in UniMath.CategoryTheory.PrecategoryBinProduct]
reverse_reverse [in UniMath.Combinatorics.Lists]
reverse_append [in UniMath.Combinatorics.Lists]
reverse_concatenate [in UniMath.Combinatorics.Lists]
reverse_nil [in UniMath.Combinatorics.Lists]
reverse_index' [in UniMath.Combinatorics.FiniteSequences]
reverse_index [in UniMath.Combinatorics.FiniteSequences]
rewrite_op [in UniMath.CategoryTheory.limits.BinDirectSums]
Rezk_eta_opp_Universal_Property [in UniMath.CategoryTheory.rezk_completion]
Rezk_initial_functor_from [in UniMath.CategoryTheory.rezk_completion]
Rezk_eta_Universal_Property [in UniMath.CategoryTheory.rezk_completion]
Rezk_eta_essentially_surjective [in UniMath.CategoryTheory.rezk_completion]
Rezk_eta_fully_faithful [in UniMath.CategoryTheory.rezk_completion]
rhs_left_inv_cell [in UniMath.Bicategories.Core.Bicat]
rhs_right_inv_cell [in UniMath.Bicategories.Core.Bicat]
rigfun_paths [in UniMath.Algebra.RigsAndRings]
rightDistribute [in UniMath.CategoryTheory.PreAdditive]
RightKanExtension_from_limits [in UniMath.CategoryTheory.RightKanExtension]
rightMinus [in UniMath.CategoryTheory.PreAdditive]
Right_rKleisli_is_functor [in UniMath.CategoryTheory.Monads.RelativeMonads]
right_inverse_of_iso_is_inverse [in UniMath.CategoryTheory.Core.Isos]
Right_Kleisli_is_functor [in UniMath.CategoryTheory.Monads.KleisliCategory]
right_adj_equiv_is_ess_sur [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
right_adj_equiv_is_ff [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
right_unitor_naturality [in UniMath.Bicategories.WkCatEnrichment.whiskering]
right_over_adj_preserves_cartesianness [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
right_adjoint_preserves_limit [in UniMath.CategoryTheory.limits.graphs.limits]
rigtoringassoc2 [in UniMath.Algebra.RigsAndRings]
rigtoringldistr [in UniMath.Algebra.RigsAndRings]
rigtoringlunit2 [in UniMath.Algebra.RigsAndRings]
rigtoringop2comp [in UniMath.Algebra.RigsAndRings]
rigtoringrdistr [in UniMath.Algebra.RigsAndRings]
rigtoringrunit2 [in UniMath.Algebra.RigsAndRings]
rig_univalence_isweq [in UniMath.Algebra.RigsAndRings]
rig_equiv_iso_is_equiv [in UniMath.CategoryTheory.categories.rigs]
rig_iso_equiv_is_equiv [in UniMath.CategoryTheory.categories.rigs]
rig_equiv_iso [in UniMath.CategoryTheory.categories.rigs]
rig_equiv_is_iso [in UniMath.CategoryTheory.categories.rigs]
rig_iso_equiv [in UniMath.CategoryTheory.categories.rigs]
rig_iso_is_equiv [in UniMath.CategoryTheory.categories.rigs]
ringaddhrelandfun [in UniMath.Algebra.RigsAndRings]
ringcarryequiv [in UniMath.PAdics.padics]
ringinvmultgtandfun [in UniMath.Algebra.RigsAndRings]
ringismultcancelableif [in UniMath.Algebra.RigsAndRings]
ringismultlcancelableif [in UniMath.Algebra.RigsAndRings]
ringismultrcancelableif [in UniMath.Algebra.RigsAndRings]
ringlmultminus [in UniMath.Algebra.RigsAndRings]
ringminusdistl [in UniMath.PAdics.lemmas]
ringminusdistr [in UniMath.PAdics.lemmas]
ringminusminus [in UniMath.Algebra.RigsAndRings]
ringmultgtandfun [in UniMath.Algebra.RigsAndRings]
ringmultgt0lt0 [in UniMath.Algebra.RigsAndRings]
ringmultlt0gt0 [in UniMath.Algebra.RigsAndRings]
ringmultlt0lt0 [in UniMath.Algebra.RigsAndRings]
ringmultminusminus [in UniMath.Algebra.RigsAndRings]
ringrmultminus [in UniMath.Algebra.RigsAndRings]
ring_equiv_iso_is_equiv [in UniMath.CategoryTheory.categories.rings]
ring_iso_equiv_is_equiv [in UniMath.CategoryTheory.categories.rings]
ring_equiv_iso [in UniMath.CategoryTheory.categories.rings]
ring_equiv_is_iso [in UniMath.CategoryTheory.categories.rings]
ring_iso_equiv [in UniMath.CategoryTheory.categories.rings]
ring_iso_is_equiv [in UniMath.CategoryTheory.categories.rings]
ring_assoc [in UniMath.CategoryTheory.categories.rings]
ring_id_right [in UniMath.CategoryTheory.categories.rings]
ring_id_left [in UniMath.CategoryTheory.categories.rings]
ring_univalence_isweq [in UniMath.Algebra.RigsAndRings]
rinvax [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
rinvunitor_natural [in UniMath.Bicategories.Core.BicategoryLaws]
Rlt_Rle [in UniMath.RealNumbers.Reals]
RmultapRzero [in UniMath.RealNumbers.Reals]
Rmult_apcompat_r' [in UniMath.RealNumbers.Reals]
Rmult_apcompat_r [in UniMath.RealNumbers.Reals]
Rmult_apcompat_l' [in UniMath.RealNumbers.Reals]
Rmult_apcompat_l [in UniMath.RealNumbers.Reals]
Rmult_lecompat_r' [in UniMath.RealNumbers.Reals]
Rmult_lecompat_r [in UniMath.RealNumbers.Reals]
Rmult_lecompat_l' [in UniMath.RealNumbers.Reals]
Rmult_lecompat_l [in UniMath.RealNumbers.Reals]
Rmult_ltcompat_r' [in UniMath.RealNumbers.Reals]
Rmult_ltcompat_r [in UniMath.RealNumbers.Reals]
Rmult_ltcompat_l' [in UniMath.RealNumbers.Reals]
Rmult_ltcompat_l [in UniMath.RealNumbers.Reals]
RoofEqclassCompInvRToId [in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassCompToRoofComp [in UniMath.CategoryTheory.LocalizingClass]
RoofEqClassEq1 [in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassToRoofComp [in UniMath.CategoryTheory.LocalizingClass]
RoofEqrel [in UniMath.CategoryTheory.LocalizingClass]
roof_comp_iscontr_eqclass [in UniMath.CategoryTheory.LocalizingClass]
roof_comp_iscontr_in [in UniMath.CategoryTheory.LocalizingClass]
roof_comp_iscontr [in UniMath.CategoryTheory.LocalizingClass]
roof_post_comp [in UniMath.CategoryTheory.LocalizingClass]
roof_pre_comp [in UniMath.CategoryTheory.LocalizingClass]
RotInvIso_Mor_Comm3 [in UniMath.HomologicalAlgebra.Triangulated]
RotInvIso_Mor_Comm2 [in UniMath.HomologicalAlgebra.Triangulated]
RotInvIso_Mor_Comm1 [in UniMath.HomologicalAlgebra.Triangulated]
RotMorphismComm [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismCommHomot1 [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismCommHomot2 [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismEq2' [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismInvComm [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoEq1 [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoEq2'_eq [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoEq2'' [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoEq2''_3 [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoEq2''_2 [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoEq2''_1 [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphism_comm2 [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphism_comm [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphism_comm' [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphism_is_z_isomorphism [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphism_is_z_isomorphism_inverses [in UniMath.HomologicalAlgebra.MappingCone]
RotTriMor_Comm3 [in UniMath.HomologicalAlgebra.Triangulated]
roundtrip1_ob_data_is_nat_trans [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip1_ob_as_equality [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip1_with_sections_bicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
roundtrip1_with_sections [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
roundtrip2_ob_data_is_nat_trans [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip2_ob_as_equality [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip2_with_sections_bicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
roundtrip2_with_sections [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Rplus_apcompat_r [in UniMath.RealNumbers.Reals]
Rplus_apcompat_l [in UniMath.RealNumbers.Reals]
Rplus_lecompat_r [in UniMath.RealNumbers.Reals]
Rplus_lecompat_l [in UniMath.RealNumbers.Reals]
Rplus_ltcompat_r [in UniMath.RealNumbers.Reals]
Rplus_ltcompat_l [in UniMath.RealNumbers.Reals]
rtoneq [in UniMath.Foundations.Sets]
RtoNRNR_NRNRtoR [in UniMath.RealNumbers.Reals]
runitor_natural [in UniMath.Bicategories.Core.Bicat]
runitor_lunitor_identity [in UniMath.Bicategories.Core.Unitors]
runitor_is_runitor_rwhisker [in UniMath.Bicategories.Core.Unitors]
runitor_triangle [in UniMath.Bicategories.Core.Unitors]
runitor_rwhisker_rwhisker [in UniMath.Bicategories.Core.Unitors]
rwhisker_hcomp [in UniMath.Bicategories.Core.BicategoryLaws]
rwhisker_rwhisker_alt [in UniMath.Bicategories.Core.Bicat]
rwhisker_lwhisker_rassociator [in UniMath.Bicategories.Core.Bicat]
rwhisker_id_inj [in UniMath.Bicategories.Core.Unitors]
R_is_functor [in UniMath.CategoryTheory.RightKanExtension]

S

samehfibers [in UniMath.Foundations.PartB]
same_sort_LHS_RHS [in UniMath.SubstitutionSystems.MonadsMultiSorted]
same_tensor_data [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
same_precategory_data [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
second_iso_on_functors [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
second_iso_nat_in_F [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
second_iso_nat_in_x [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
second_iso_on_sets [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
section_intersection [in UniMath.AlgebraicGeometry.Spec]
section_subset [in UniMath.AlgebraicGeometry.Spec]
sec_total2_distributivity [in UniMath.MoreFoundations.WeakEquivalences]
sec_fromempty [in UniMath.Induction.W.Naturals]
seqsonisaset [in UniMath.PAdics.fps]
SequenceAssembly [in UniMath.Combinatorics.FiniteSequences]
Sequence_rect_compute_cons [in UniMath.Combinatorics.FiniteSequences]
Sequence_rect_compute_nil [in UniMath.Combinatorics.FiniteSequences]
setcategory_eq_morphism_pi [in UniMath.CategoryTheory.Core.Setcategories]
SetCovering [in UniMath.MoreFoundations.AxiomOfChoice]
setofendabgr_un0 [in UniMath.Algebra.Modules.Core]
setquotbooleqintcomp [in UniMath.Foundations.Sets]
setquotbooleqtopaths [in UniMath.Foundations.Sets]
setquotfun2comm [in UniMath.Foundations.Sets]
setquotfun2_equal [in UniMath.MoreFoundations.QuotientSet]
setquotfun2_iscomprelfun2 [in UniMath.Foundations.Sets]
setquotl0 [in UniMath.Foundations.Sets]
setquotpathstobooleq [in UniMath.Foundations.Sets]
setquotpr [in UniMath.Foundations.Sets]
setquotprandpadicplus [in UniMath.PAdics.padics]
setquotprandpadictimes [in UniMath.PAdics.padics]
setquotprpathsandR [in UniMath.PAdics.lemmas]
setquotpr_linear [in UniMath.CategoryTheory.PreAdditive]
setquotuniv [in UniMath.Foundations.Sets]
setquotunivcomm [in UniMath.Foundations.Sets]
setquotunivprop [in UniMath.Foundations.Sets]
setquotunivprop' [in UniMath.MoreFoundations.Sets]
setquotuniv_equal [in UniMath.MoreFoundations.QuotientSet]
setquotuniv2comm [in UniMath.Foundations.Sets]
setquotuniv2prop [in UniMath.Foundations.Sets]
setquotuniv2prop' [in UniMath.MoreFoundations.Sets]
setquotuniv2_iscomprelfun [in UniMath.Foundations.Sets]
setquotuniv3prop [in UniMath.Foundations.Sets]
setquotuniv3prop' [in UniMath.MoreFoundations.Sets]
setquotuniv4prop [in UniMath.Foundations.Sets]
setquotuniv4prop' [in UniMath.MoreFoundations.Sets]
setquot_map_recovery [in UniMath.Ktheory.GrothendieckGroup]
setquot_map_epi [in UniMath.Ktheory.GrothendieckGroup]
setquot2univcomm [in UniMath.Foundations.Sets]
setwithbinop_univalence_isweq [in UniMath.Algebra.BinaryOperations]
setwith2binop_equiv_iso_is_equiv [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_iso_equiv_is_equiv [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_equiv_iso [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_equiv_is_iso [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_iso_equiv [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_iso_is_equiv [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_assoc [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_id_right [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_id_left [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_univalence_isweq [in UniMath.Algebra.BinaryOperations]
set_bijection_to_weq [in UniMath.Foundations.PartB]
ShortExactDiffsEq1 [in UniMath.CategoryTheory.FiveLemma]
ShortExactDiffsEq2 [in UniMath.CategoryTheory.FiveLemma]
ShortExactExacts1 [in UniMath.CategoryTheory.FiveLemma]
ShortExactExacts2 [in UniMath.CategoryTheory.FiveLemma]
ShortExactFiveLemma [in UniMath.CategoryTheory.FiveLemma]
ShortExactMorComm [in UniMath.CategoryTheory.FiveLemma]
ShortExact_ShortShortExact_isKernel [in UniMath.CategoryTheory.ShortExactSequences]
ShortExact_ShortShortExact_isKernel_Eq [in UniMath.CategoryTheory.ShortExactSequences]
ShortExact_from_ShortShortExact_eq [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExactData_Eq_to_object [in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExactData_Eq_from_object [in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExactData_opp_Eq [in UniMath.CategoryTheory.Morphisms]
ShortShortExact_isKernel_to_object [in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExact_isKernel_from_object [in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExact_from_isShortExact_isKernel [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isShortExact_isKernel_eq [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isSortExact_eq [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isCokernel_isKernel [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isCokernel_eq2 [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isCokernel_eq1 [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_isCokernel [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_isCokernel_eq2 [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_isCokernel_eq1 [in UniMath.CategoryTheory.ShortExactSequences]
shSet_eq_from_shSet_iso_idtoiso [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
shSet_iso_fiber [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
sieve_eq [in UniMath.CategoryTheory.Presheaf]
sigma_prebicat_laws [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_isweq_iso [in UniMath.CategoryTheory.DisplayedCats.Constructions]
SignatureCategoryToActionBasedStrongFunctorCategory_is_functor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
SignatureForgetfulFunctorFaithful [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureMor_eq [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureMor_ok [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureMor_comp_subproof [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureMor_id_subproof [in UniMath.SubstitutionSystems.SignatureCategory]
signature_from_rel_strength_laws [in UniMath.SubstitutionSystems.Signatures]
signature_mor_from_ab_strength_mor_diagram [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
signature_from_ab_strength_law2 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
signature_from_ab_strength_law1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Signature_category_in_diagram [in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_pr2_diagram [in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_pr1_diagram [in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_Hstandard [in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_Pisset [in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_ob_ok [in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_mor_diagram_pointwise [in UniMath.SubstitutionSystems.SignatureCategory]
simplify_cochain_cone [in UniMath.Induction.M.Chains]
simplify_cochain_step_idpath [in UniMath.Induction.M.Limits]
simplify_cochain_step [in UniMath.Induction.M.Limits]
size_map [in UniMath.CategoryTheory.Inductives.Trees]
size_node [in UniMath.CategoryTheory.Inductives.Trees]
skewMonoid_composition_laws [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_identity_laws [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
slicecat_functor_comp [in UniMath.CategoryTheory.slicecat]
slicecat_functor_comp_ob [in UniMath.CategoryTheory.slicecat]
slicecat_functor_identity [in UniMath.CategoryTheory.slicecat]
slicecat_functor_identity_ob [in UniMath.CategoryTheory.slicecat]
slicecat_functor_subproof [in UniMath.CategoryTheory.slicecat]
slice_precat_colims [in UniMath.CategoryTheory.slicecat]
slice_precat_colims_of_shape [in UniMath.CategoryTheory.slicecat]
slice_precat_ColimCocone [in UniMath.CategoryTheory.slicecat]
slice_precat_isColimCocone [in UniMath.CategoryTheory.slicecat]
slice_precat_iso_to_iso [in UniMath.CategoryTheory.slicecat]
slice_binprod_to_pullback_inv [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
slice_isBinProduct_to_isPullback [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
slice_fam_form_adj [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
smallestUniqueness [in UniMath.Combinatorics.OrderedSets]
smf_from_param_distr_bicat_is_strong2_inv_ok [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong2_aux [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong1_inv_ok [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong1_aux [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
SplitEpis_HSET [in UniMath.CategoryTheory.categories.HSET.Structures]
split_epi_is_epi [in UniMath.CategoryTheory.SplitMonicsAndEpis]
split_monic_is_monic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
squash_to_prop [in UniMath.Foundations.Propositions]
squash_map_epi [in UniMath.MoreFoundations.Propositions]
squash_map_uniqueness [in UniMath.MoreFoundations.Propositions]
squash_uniqueness [in UniMath.MoreFoundations.Propositions]
squash_rec [in UniMath.MoreFoundations.Propositions]
squash_to_hProp [in UniMath.MoreFoundations.Propositions]
squash_path [in UniMath.MoreFoundations.Notations]
SS_imp_S [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
stackconcatenate_opexec [in UniMath.Algebra.Universal.Terms]
starcomp [in UniMath.Algebra.Universal.SortedTypes]
staridfun [in UniMath.Algebra.Universal.SortedTypes]
std_auto [in UniMath.Combinatorics.OrderedSets]
step1 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
step1_disp_univalent [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
step1_disp_axioms [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
step2 [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
STLC_Functor_Initial [in UniMath.SubstitutionSystems.STLC]
STLC_Monad_ok [in UniMath.SubstitutionSystems.STLC_alt]
STLC_Functor_Initial [in UniMath.SubstitutionSystems.STLC_alt]
stnlt [in UniMath.Combinatorics.StandardFiniteSets]
stnneq [in UniMath.Combinatorics.StandardFiniteSets]
stnneq_iff_nopath [in UniMath.Combinatorics.StandardFiniteSets]
stnprod_eq [in UniMath.Combinatorics.StandardFiniteSets]
stnsdnegweqtoeq [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_diffs [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_lt [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_add [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_ge1 [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_first_le [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_last_le [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_const [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_1 [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_pos_0 [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_pos [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_dni [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_left_le' [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_left_le [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_left_right [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_le [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_eq [in UniMath.Combinatorics.StandardFiniteSets]
stnsum_step [in UniMath.Combinatorics.StandardFiniteSets]
stn_ord_bij [in UniMath.Combinatorics.StandardFiniteSets]
stn_ord_inj [in UniMath.Combinatorics.StandardFiniteSets]
stn_ord_incl [in UniMath.Combinatorics.StandardFiniteSets]
stn_right_first [in UniMath.Combinatorics.StandardFiniteSets]
stn_left_compare [in UniMath.Combinatorics.StandardFiniteSets]
stn_left_0 [in UniMath.Combinatorics.StandardFiniteSets]
stn_eq_or_neq [in UniMath.Combinatorics.StandardFiniteSets]
stn_ne_iff_neq [in UniMath.Combinatorics.StandardFiniteSets]
StrengthForSignature_eq [in UniMath.SubstitutionSystems.Signatures]
strength_law2_pw [in UniMath.SubstitutionSystems.ModulesFromSignatures]
strict_bicat_to_two_cat_to_strict_bicat [in UniMath.Bicategories.Core.Strictness]
strict_bicat_to_two_cat_laws [in UniMath.Bicategories.Core.Strictness]
strict_bicat_to_precategory_has_homsets [in UniMath.Bicategories.Core.Strictness]
strict_cat_prebicat_laws [in UniMath.Bicategories.Core.Examples.StrictCats]
stronginduction [in UniMath.PAdics.lemmas]
strongly_from_weakly_well_founded [in UniMath.Combinatorics.WellFoundedRelations]
StrongOrder_reverse_correct [in UniMath.RealNumbers.Sets]
Strong_Functor_category_Hstandard [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_category_Pisset [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_FunctorForgetfulFunctorFaithful [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_Mor_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_Mor_ok [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_category_ob_ok [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_Mor_comp_subproof [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_Mor_id_subproof [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Struc_univalence [in UniMath.MoreFoundations.StructureIdentity]
subsetFiniteness [in UniMath.Combinatorics.FiniteSets]
substructure_univalence [in UniMath.Combinatorics.ZFstructures]
subst_interchange_law [in UniMath.CategoryTheory.Monads.Monads]
subst_interchange_law_gen [in UniMath.CategoryTheory.Monads.Monads]
subst_interchange_law_instantiated [in UniMath.SubstitutionSystems.MonadsMultiSorted]
subst_slice_eqn_ok [in UniMath.SubstitutionSystems.MonadsMultiSorted]
subst_slice_as_bind_slice_agrees [in UniMath.SubstitutionSystems.MonadsMultiSorted]
subst_slice_ok [in UniMath.SubstitutionSystems.MonadsMultiSorted]
subst_interchange_law_instantiated [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
subst_interchange_law_gen_instantiated [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
subst_interchange [in UniMath.SubstitutionSystems.STLC_alt]
subterms_build_term [in UniMath.Algebra.Universal.Terms]
subtypeInjectivity [in UniMath.Foundations.PartB]
subtypeInjectivity_prop [in UniMath.Foundations.Propositions]
subtypePath [in UniMath.Foundations.PartB]
subtypePath_prop [in UniMath.Foundations.Propositions]
subtypePath' [in UniMath.Foundations.PartB]
subtype_deceq [in UniMath.MoreFoundations.Subtypes]
subtype_inc_comp [in UniMath.MoreFoundations.Subtypes]
subtype_containment_isPartialOrder [in UniMath.MoreFoundations.Subtypes]
subtype_containment_isantisymm [in UniMath.MoreFoundations.Subtypes]
subtype_containment_ispreorder [in UniMath.MoreFoundations.Subtypes]
subtype_containment_isrefl [in UniMath.MoreFoundations.Subtypes]
subtype_containment_istrans [in UniMath.MoreFoundations.Subtypes]
subtype_equal_cond [in UniMath.MoreFoundations.Subtypes]
subtype_notEqual_from_negEqual [in UniMath.MoreFoundations.Subtypes]
subtype_notEqual_to_negEqual [in UniMath.MoreFoundations.Subtypes]
subtype_notEqual_containedIn [in UniMath.MoreFoundations.Subtypes]
sumMapUniqueness [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
SumOfAdmissibleEpis [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SumOfAdmissibleMonos [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SumOfCokernels [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SumOfExactSequences [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SumOfKernelCokernelPairs [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SumOfKernels [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
sumofmaps_free_gr_unit [in UniMath.Algebra.Free_Monoids_and_Groups]
SumStrength1 [in UniMath.SubstitutionSystems.BinSumOfSignatures]
SumStrength1' [in UniMath.SubstitutionSystems.BinSumOfSignatures]
SumStrength1' [in UniMath.SubstitutionSystems.SumOfSignatures]
SumStrength2 [in UniMath.SubstitutionSystems.BinSumOfSignatures]
SumStrength2' [in UniMath.SubstitutionSystems.BinSumOfSignatures]
SumStrength2' [in UniMath.SubstitutionSystems.SumOfSignatures]
sum_of_fibers [in UniMath.MoreFoundations.PartD]
Sum_univ_prop [in UniMath.Induction.ImpredicativeInductiveSets]
Sum_η [in UniMath.Induction.ImpredicativeInductiveSets]
Sum_com_con [in UniMath.Induction.ImpredicativeInductiveSets]
Sum_weak_eta [in UniMath.Induction.ImpredicativeInductiveSets]
Sum_β_r [in UniMath.Induction.ImpredicativeInductiveSets]
Sum_β_l [in UniMath.Induction.ImpredicativeInductiveSets]
sum_entries2 [in UniMath.Algebra.Matrix]
sum_entries1 [in UniMath.Algebra.Matrix]
surjectionisepitosets [in UniMath.Foundations.Sets]
surjective_iscontr_im [in UniMath.Foundations.Sets]
swapping_of_strong_monoidal_functor_on_objects [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
swapping_of_lax_monoidal_functor_assoc [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
SwitchMapEqn [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SwitchMapEqnTo [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SwitchMapMapEqn [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
sym_eq_diag [in UniMath.CategoryTheory.limits.graphs.eqdiag]
s_compute_0 [in UniMath.SyntheticHomotopyTheory.Circle2]
S_imp_SS [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]

T

Tarski_fixpoint_theorem [in UniMath.Algebra.FixedPointTheorems]
tautological_RelModule_law [in UniMath.CategoryTheory.Monads.RelativeModules]
tautological_LModule_law [in UniMath.CategoryTheory.Monads.LModules]
tensor_comp [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
tensor_id [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
TerminalArrowEq [in UniMath.CategoryTheory.limits.terminal]
TerminalArrowUnique [in UniMath.CategoryTheory.limits.graphs.terminal]
TerminalArrowUnique [in UniMath.CategoryTheory.limits.terminal]
terminalcoalgebra_isiso [in UniMath.CategoryTheory.FunctorCoalgebras]
TerminalEndo_is_identity [in UniMath.CategoryTheory.limits.graphs.terminal]
TerminalEndo_is_identity [in UniMath.CategoryTheory.limits.terminal]
TerminalHSET [in UniMath.CategoryTheory.categories.HSET.Limits]
TerminalHSET_from_Lims [in UniMath.CategoryTheory.categories.HSET.Limits]
TerminalSortToC [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
TerminalSortToSet [in UniMath.SubstitutionSystems.CCS_alt]
TerminalSortToSet [in UniMath.SubstitutionSystems.STLC_alt]
TerminalToProduct [in UniMath.CategoryTheory.limits.FinOrdProducts]
TerminalType [in UniMath.CategoryTheory.categories.Type.Limits]
TerminalTypeToSet [in UniMath.SubstitutionSystems.PCF_alt]
Terminal_PreShv [in UniMath.CategoryTheory.Presheaf]
Terminal_from_Lims [in UniMath.CategoryTheory.limits.graphs.terminal]
Terminal_WOSET [in UniMath.CategoryTheory.categories.wosets]
Terminal_wosetfuncat [in UniMath.CategoryTheory.categories.wosets]
Terminal_slice_precat [in UniMath.CategoryTheory.slicecat]
Terminal_HSET_slice [in UniMath.CategoryTheory.categories.HSET.Slice]
terminal_in_full_subcategory [in UniMath.CategoryTheory.Subcategory.Limits]
terminal_binprod_unit_r [in UniMath.CategoryTheory.limits.binproducts]
terminal_binprod_unit_l [in UniMath.CategoryTheory.limits.binproducts]
term_ind_step [in UniMath.Algebra.Universal.Terms]
term_ind_onlength_nirrelevant [in UniMath.Algebra.Universal.Terms]
term_ind [in UniMath.Algebra.Universal.Terms]
term_ind_onlength [in UniMath.Algebra.Universal.Terms]
term_notnil [in UniMath.Algebra.Universal.Terms]
term_normalization [in UniMath.Algebra.Universal.Terms]
term_extens [in UniMath.Algebra.Universal.Terms]
Term.Tests.Dummett [in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests.not_tautology [in UniMath.Algebra.Universal.Examples.Bool]
testlemma1 [in UniMath.PAdics.z_mod_p]
testlemma2 [in UniMath.PAdics.z_mod_p]
testlemma21 [in UniMath.PAdics.z_mod_p]
testlemma3 [in UniMath.PAdics.z_mod_p]
testlemma9 [in UniMath.PAdics.z_mod_p]
TheoremOfHinzeAndWu [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
the_world_explodes [in UniMath.Paradoxes.GirardsParadox]
third_iso_on_functors [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
third_iso_nat_in_F [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
third_iso_nat_in_x [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
third_iso_on_sets [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
third_monad_law_from_hss [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
ThroughZeroIsZero [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
tightapSet_dec [in UniMath.Algebra.Apartness]
tightness [in UniMath.Combinatorics.OrderedSets]
timesazero [in UniMath.PAdics.lemmas]
tl_vec_map [in UniMath.Combinatorics.Vectors]
ToAcyclicComplexFromObject_Eq [in UniMath.HomologicalAlgebra.Complexes]
ToAcyclicComplexFromObject_mors_comm [in UniMath.HomologicalAlgebra.Complexes]
ToAcyclicComplexFromObject_mors_comm_eq2 [in UniMath.HomologicalAlgebra.Complexes]
ToAcyclicComplexFromObject_mors_comm_eq1 [in UniMath.HomologicalAlgebra.Complexes]
ToBinDirectSumFormulaUnique [in UniMath.CategoryTheory.limits.BinDirectSums]
ToBinDirectSumsEq [in UniMath.CategoryTheory.limits.BinDirectSums]
toBranch_hsubtype [in UniMath.Combinatorics.ZFstructures]
toforallpaths_induction [in UniMath.Foundations.UnivalenceAxiom]
toforallpaths_funextsec [in UniMath.MoreFoundations.Univalence]
tonegcoprod [in UniMath.Foundations.Propositions]
tonegdirprod [in UniMath.Foundations.Propositions]
toneghdisj [in UniMath.Foundations.Propositions]
topologydirprod_neighborhood [in UniMath.Topology.Topology]
topologydirprod_point [in UniMath.Topology.Topology]
topologydirprod_and [in UniMath.Topology.Topology]
topologydirprod_htrue [in UniMath.Topology.Topology]
topologydirprod_imply [in UniMath.Topology.Topology]
TopologyFromNeighborhood_correct [in UniMath.Topology.Topology]
topologyfromneighborhood_open [in UniMath.Topology.Topology]
TopologyGenerated_smallest [in UniMath.Topology.Topology]
TopologyGenerated_included [in UniMath.Topology.Topology]
topologygenerated_neighborhood [in UniMath.Topology.Topology]
topologygenerated_point [in UniMath.Topology.Topology]
topologygenerated_and [in UniMath.Topology.Topology]
topologygenerated_htrue [in UniMath.Topology.Topology]
topologygenerated_imply [in UniMath.Topology.Topology]
topologysubtype_neighborhood [in UniMath.Topology.Topology]
topologysubtype_point [in UniMath.Topology.Topology]
topologysubtype_and [in UniMath.Topology.Topology]
topologysubtype_htrue [in UniMath.Topology.Topology]
topologysubtype_imply [in UniMath.Topology.Topology]
TorsorIso_rect' [in UniMath.Algebra.GroupAction]
TorsorIso_rect [in UniMath.Algebra.GroupAction]
torsorMapIsIso [in UniMath.Algebra.GroupAction]
torsor_univalence_id [in UniMath.Algebra.GroupAction]
torsor_hlevel [in UniMath.Algebra.GroupAction]
tosecoverunit_compute [in UniMath.CategoryTheory.categories.HSET.Limits]
TOSubset_plus_point_initial [in UniMath.Combinatorics.WellOrderedSets]
TOSubset_plus_point_le [in UniMath.Combinatorics.WellOrderedSets]
TOSubset_plus_point_incl [in UniMath.Combinatorics.WellOrderedSets]
tosub_fidelity [in UniMath.Combinatorics.WellOrderedSets]
totalfst_display [in UniMath.MoreFoundations.PartD]
total_psfunctor_laws [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
total_sigma_cell_eq [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
total_cell_eq [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
total_category_has_homsets [in UniMath.CategoryTheory.DisplayedCats.Core]
total_category_is_precat [in UniMath.CategoryTheory.DisplayedCats.Core]
total_invmodification_laws [in UniMath.Bicategories.DisplayedBicats.DispModification]
total_modification_laws [in UniMath.Bicategories.DisplayedBicats.DispModification]
total_is_univalent_2 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
total_prebicat_laws [in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_pstrans_laws [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
total2asstol [in UniMath.Foundations.PartA]
total2asstor [in UniMath.Foundations.PartA]
total2withnattoleF [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
total2_assoc_fun_left [in UniMath.MoreFoundations.WeakEquivalences]
total2_paths_hProp_equiv [in UniMath.Foundations.Propositions]
total2_reassoc_paths' [in UniMath.MoreFoundations.PartA]
total2_reassoc_paths [in UniMath.MoreFoundations.PartA]
total2_paths_equiv [in UniMath.Foundations.PartA]
total2_section_path [in UniMath.Foundations.PartA]
total2_fiber_paths [in UniMath.Foundations.PartA]
total2_paths2_b [in UniMath.Foundations.PartA]
total2_paths2_f [in UniMath.Foundations.PartA]
total2_paths2 [in UniMath.Foundations.PartA]
total2_paths_b [in UniMath.Foundations.PartA]
total2_paths_f [in UniMath.Foundations.PartA]
total2_paths_equiv'_compute [in UniMath.MoreFoundations.AlternativeProofs]
total2_paths_equiv' [in UniMath.MoreFoundations.AlternativeProofs]
tot_nle_iff_gt [in UniMath.Combinatorics.OrderedSets]
tot_nge_to_le [in UniMath.Combinatorics.OrderedSets]
ToZeroIsEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
to_ListK [in UniMath.CategoryTheory.Inductives.Lists]
to_listK [in UniMath.CategoryTheory.Inductives.Lists]
to_initial_isEpi [in UniMath.CategoryTheory.limits.initial]
to_Pr2_isEpi [in UniMath.CategoryTheory.limits.BinDirectSums]
to_Pr1_isEpi [in UniMath.CategoryTheory.limits.BinDirectSums]
to_In2_isMonic [in UniMath.CategoryTheory.limits.BinDirectSums]
to_In1_isMonic [in UniMath.CategoryTheory.limits.BinDirectSums]
to_op_elem [in UniMath.CategoryTheory.PreAdditive]
to_inv_elem [in UniMath.CategoryTheory.PreAdditive]
to_inv_isEpi [in UniMath.CategoryTheory.PreAdditive]
to_inv_isMonic [in UniMath.CategoryTheory.PreAdditive]
to_inv_zero [in UniMath.CategoryTheory.PreAdditive]
to_rinvax' [in UniMath.CategoryTheory.PreAdditive]
to_linvax' [in UniMath.CategoryTheory.PreAdditive]
to_runax'' [in UniMath.CategoryTheory.PreAdditive]
to_lunax'' [in UniMath.CategoryTheory.PreAdditive]
to_postmor_unel' [in UniMath.CategoryTheory.PreAdditive]
to_premor_unel' [in UniMath.CategoryTheory.PreAdditive]
to_postmor_linear' [in UniMath.CategoryTheory.PreAdditive]
to_premor_linear' [in UniMath.CategoryTheory.PreAdditive]
to_binop_inv_comm_2 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_binop_inv_comm_1 [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_binop_inv_inv [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_assoc [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_rrw [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_lrw [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_rcan [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_lcan [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_inv_unel [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_isEpi [in UniMath.CategoryTheory.Additive]
to_isMonic [in UniMath.CategoryTheory.Additive]
to_Unel2' [in UniMath.CategoryTheory.Additive]
to_Unel1' [in UniMath.CategoryTheory.Additive]
trafotargetbicat_disp_cat_axioms [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotargetbicat_disp_cells_isaprop [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotargetbicat_disp_cat_id_comp [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_disp_cat_axioms [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_disp_cells_isaprop [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_disp_cat_id_comp [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
traho_of_Hinze_Wu_ok [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
transfiniteRecursion [in UniMath.Combinatorics.WellOrderedSets]
TranslationEquivCounitInvComm [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquivUnitInvComm [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv_is_iso2 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv_is_iso2_eq2 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv_is_iso2_eq1 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv_is_iso1_eq2 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv_is_iso1_eq1 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorHImEquality [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorHomotopies [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_isAdditiveFunctor [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_Mor_Im [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_comm [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_Mor_Comp [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_Mor_Id [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_Mor_unique [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorPreservesHomotopies [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor_eq [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor_isfunctor [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor_comm [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor_comp [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv_is_iso2_eq2' [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv_is_iso2_eq1' [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv_is_iso1_eq2' [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv_is_iso1_eq1' [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHInvTranslationH [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHInvTranslationHNatTrans_isnattrans [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHInvTranslationH_adjunction_eq2 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHInvTranslationH_adjunction_eq1 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationInvTranslation [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationInvTranslation_adjunction_eq2 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationInvTranslation_adjunction_eq1 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationInvTranslation_eq2 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationInvTranslation_eq1 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationTranslationInvNatTrans_isnattrans [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationTranslationInvNatTrans_Eq1 [in UniMath.HomologicalAlgebra.TranslationFunctors]
transportb_isotoid [in UniMath.CategoryTheory.Monads.RelativeMonads]
transportb_fun' [in UniMath.Foundations.PartA]
transportf_PreShv [in UniMath.CategoryTheory.Presheaf]
transportf_make_ob [in UniMath.CategoryTheory.ElementsOp]
transportf_make_ob_eq [in UniMath.CategoryTheory.ElementsOp]
transportf_isotoid_functor [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
transportf_yy [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
transportf_bind [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
transportf_fun_idpath [in UniMath.MoreFoundations.Equivalences]
transportf_isotoid' [in UniMath.CategoryTheory.limits.bincoproducts]
transportf_precompose_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
transportf_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
transportf_pathsinv0_var [in UniMath.CategoryTheory.DisplayedCats.Constructions]
transportf_fst_arg [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
transportf_fst_arg_type [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
transportf_isotoid_dep'' [in UniMath.CategoryTheory.Core.Univalence]
transportf_isotoid_dep' [in UniMath.CategoryTheory.Core.Univalence]
transportf_isotoid_dep [in UniMath.CategoryTheory.Core.Univalence]
transportf_isotoid' [in UniMath.CategoryTheory.Core.Univalence]
transportf_isotoid [in UniMath.CategoryTheory.Core.Univalence]
transportf_sec_constant [in UniMath.MoreFoundations.PartA]
transportf_paths_FlFr [in UniMath.MoreFoundations.PartA]
transportf_total2_const [in UniMath.MoreFoundations.PartA]
transportf_pair [in UniMath.MoreFoundations.PartA]
transportf_set [in UniMath.MoreFoundations.PartA]
transportf_comp_lemma_hset [in UniMath.MoreFoundations.PartA]
transportf_comp_lemma [in UniMath.MoreFoundations.PartA]
transportf_transpose_right [in UniMath.MoreFoundations.PartA]
transportf_total2_base [in UniMath.HomologicalAlgebra.TranslationFunctors]
transportf_fiber_total2_paths [in UniMath.Foundations.PartA]
transportf_paths [in UniMath.Foundations.PartA]
transportf_isotoid' [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
transportf2_comp [in UniMath.CategoryTheory.limits.graphs.eqdiag]
transportOverSet [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
transport_swap [in UniMath.CategoryTheory.limits.graphs.eqdiag]
transport_of_relmonad_bind_is_pointwise [in UniMath.CategoryTheory.Monads.RelativeMonads]
transport_of_relmonad_η_is_pointwise [in UniMath.CategoryTheory.Monads.RelativeMonads]
transport_comp [in UniMath.CategoryTheory.catiso]
transport_comp_target [in UniMath.CategoryTheory.catiso]
transport_id [in UniMath.CategoryTheory.catiso]
transport_mor [in UniMath.CategoryTheory.catiso]
transport_along_funextsec [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
transport_counit [in UniMath.Bicategories.Core.AdjointUnique]
transport_unit [in UniMath.Bicategories.Core.AdjointUnique]
transport_source_KernelIn [in UniMath.CategoryTheory.limits.kernels]
transport_source_KernelIn_eq [in UniMath.CategoryTheory.limits.kernels]
transport_of_functor_map_is_pointwise [in UniMath.CategoryTheory.FunctorCategory]
transport_source_ZeroArrow [in UniMath.CategoryTheory.limits.zero]
transport_target_ZeroArrow [in UniMath.CategoryTheory.limits.zero]
transport_source_isMonic [in UniMath.CategoryTheory.Monics]
transport_target_isMonic [in UniMath.CategoryTheory.Monics]
transport_functions [in UniMath.MoreFoundations.PartA]
transport_idfun [in UniMath.MoreFoundations.PartA]
transport_stn [in UniMath.Combinatorics.StandardFiniteSets]
transport_stnsum [in UniMath.Combinatorics.StandardFiniteSets]
transport_hz_to_Pr2' [in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_Pr2 [in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_Pr1' [in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_Pr1 [in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_In2' [in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_In2 [in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_In1' [in UniMath.HomologicalAlgebra.Complexes]
transport_hz_to_In1 [in UniMath.HomologicalAlgebra.Complexes]
transport_to_BinDirectSums_comm [in UniMath.HomologicalAlgebra.Complexes]
transport_to_BinDirectSums [in UniMath.HomologicalAlgebra.Complexes]
transport_hz_double_section_source_target [in UniMath.HomologicalAlgebra.Complexes]
transport_hz_double_section [in UniMath.HomologicalAlgebra.Complexes]
transport_hz_section' [in UniMath.HomologicalAlgebra.Complexes]
transport_hz_section [in UniMath.HomologicalAlgebra.Complexes]
transport_hz_target_source [in UniMath.HomologicalAlgebra.Complexes]
transport_hz_source_target [in UniMath.HomologicalAlgebra.Complexes]
transport_source_is_iso [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_target_is_iso [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_mor_funextfun [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_source_target_comm [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_target_source [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_source_target [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_source_path [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_target_path [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_compose' [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_compose [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_source_precompose [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_target_postcompose [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_source_to_binop [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
transport_target_to_binop [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
transport_source_to_inv [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
transport_target_to_inv [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
transport_source_ComplexHomotFunctor [in UniMath.HomologicalAlgebra.TranslationFunctors]
transport_target_ComplexHomotFunctor [in UniMath.HomologicalAlgebra.TranslationFunctors]
transport_two_cell_FlFr [in UniMath.Bicategories.Core.TransportLaws]
transport_source_isEpi [in UniMath.CategoryTheory.Epis]
transport_target_isEpi [in UniMath.CategoryTheory.Epis]
transposhfpsqstr [in UniMath.Foundations.PartA]
treeFunctor_Initial [in UniMath.CategoryTheory.Inductives.Trees]
treeInd [in UniMath.CategoryTheory.Inductives.Trees]
treeIndProp [in UniMath.CategoryTheory.Inductives.Trees]
Tree_univalence [in UniMath.Combinatorics.ZFstructures]
tree_isaset [in UniMath.Combinatorics.MetricTree]
tree_deceq [in UniMath.Combinatorics.MetricTree]
triangle_l_inv [in UniMath.Bicategories.Core.BicategoryLaws]
triangle_l [in UniMath.Bicategories.Core.BicategoryLaws]
triangle_r_inv [in UniMath.Bicategories.Core.BicategoryLaws]
triangle_r [in UniMath.Bicategories.Core.BicategoryLaws]
triangle_identity [in UniMath.Bicategories.BicategoryOfBicat]
triangle_eq_of_pointedfunctors [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
triangle_eq_swapping_of_tensor [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
triangle_eq_from_alt [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
triangle_eq_r [in UniMath.CategoryTheory.Adjunctions.Core]
triangle_eq_l [in UniMath.CategoryTheory.Adjunctions.Core]
triangle_2_from_1 [in UniMath.CategoryTheory.Equivalences.Core]
triangle_eq_nice_implies_triangle_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
triangle_eq_implies_triangle_eq_nice [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
triangle_eq_readable [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
triangle_1_from_2_for_equiv_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
triangle_2_from_1_for_equiv_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
triangle_identity' [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
triangle_1_from_2_for_equiv_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_2_from_1_for_equiv_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_id_inverse' [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
triangle_id_inverse [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
TriangulatedFiveLemma [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedFiveLemma1 [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedFiveLemma2 [in UniMath.HomologicalAlgebra.Triangulated]
trichotomy [in UniMath.Combinatorics.OrderedSets]
TriMorId_comm3 [in UniMath.HomologicalAlgebra.Triangulated]
TriMorId_comms [in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso_inv_is_iso [in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso_to_inv_Comm3 [in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso_to_inv_Comm [in UniMath.HomologicalAlgebra.Triangulated]
TriMor_comp_comm3 [in UniMath.HomologicalAlgebra.Triangulated]
TriMor_comp_comms [in UniMath.HomologicalAlgebra.Triangulated]
triviality_isomorphism_compute [in UniMath.Algebra.GroupAction]
trivialTorsorAuto_mult [in UniMath.Algebra.GroupAction]
trivialTorsorAuto_unit [in UniMath.Algebra.GroupAction]
trivial_disp_prebicat_laws [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
tri_2_GGεη [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
tri_1_GGεη [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
TRRGhomo_topath [in UniMath.Combinatorics.ZFstructures]
TRRGhomo_frompath [in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence_compute [in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence_weq1_idpath [in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence_weq2_idpath [in UniMath.Combinatorics.ZFstructures]
true_is_monic [in UniMath.CategoryTheory.SubobjectClassifier]
truncminus_pos' [in UniMath.Algebra.Lattice]
truncminus_pos [in UniMath.Algebra.Lattice]
truncminus_Lmin_l [in UniMath.Algebra.Lattice]
truncminus_Lmax_r [in UniMath.Algebra.Lattice]
truncminus_Lmax_l [in UniMath.Algebra.Lattice]
truncminus_le_l [in UniMath.Algebra.Lattice]
truncminus_le_r [in UniMath.Algebra.Lattice]
truncminus_truncminus [in UniMath.Algebra.Lattice]
truncminus_le [in UniMath.Algebra.Lattice]
truncminus_ge_0 [in UniMath.Algebra.Lattice]
truncminus_0_l_le0 [in UniMath.Algebra.Lattice]
truncminus_0_l_ge0 [in UniMath.Algebra.Lattice]
truncminus_eq_0 [in UniMath.Algebra.Lattice]
truncminus_0_r [in UniMath.Algebra.Lattice]
truncnattruncautobound [in UniMath.PAdics.fps]
truncnattruncautoisauto [in UniMath.PAdics.fps]
truncnattruncautoisinj [in UniMath.PAdics.fps]
truth_about_ε [in UniMath.SubstitutionSystems.GenMendlerIteration]
tuple_functor_axioms [in UniMath.CategoryTheory.ProductCategory]
twobinopiso_paths [in UniMath.Algebra.BinaryOperations]
twomor_naturality [in UniMath.Bicategories.WkCatEnrichment.whiskering]
twoNonnegativeRationals_correct [in UniMath.RealNumbers.NonnegativeRationals]
twooutofsixu [in UniMath.Foundations.PartA]
twooutofsixv [in UniMath.Foundations.PartA]
twooutofsixw [in UniMath.Foundations.PartA]
twooutof3a [in UniMath.Foundations.PartA]
twooutof3b [in UniMath.Foundations.PartA]
twooutof3c [in UniMath.Foundations.PartA]
twooutof3c_iff_2_homot [in UniMath.Foundations.PartA]
twooutof3c_iff_1_homot [in UniMath.Foundations.PartA]
twooutof3c_iff_1 [in UniMath.Foundations.PartA]
twooutof3c_iff_2 [in UniMath.Foundations.PartA]
two_cat_to_strict_bicat_to_two_cat [in UniMath.Bicategories.Core.Strictness]
two_cat_is_strict_bicat [in UniMath.Bicategories.Core.Strictness]
two_cat_to_prebicat_laws [in UniMath.Bicategories.Core.Strictness]
two_type_bicat_laws [in UniMath.Bicategories.Core.Examples.TwoType]
two_arg_paths_b [in UniMath.Foundations.PartA]
two_arg_paths_f [in UniMath.Foundations.PartA]
two_arg_paths [in UniMath.Foundations.PartA]
type_cone_homot_to_path [in UniMath.Induction.M.Limits]
type_cone [in UniMath.Induction.M.Limits]
T_assoc [in UniMath.Folds.folds_precat]
T_I_r [in UniMath.Folds.folds_precat]
T_I_l [in UniMath.Folds.folds_precat]
T_func_T [in UniMath.Folds.folds_precat]
T_contr [in UniMath.Folds.folds_precat]

U

UA_for_HLevels [in UniMath.Foundations.HLevels]
UA_for_Predicates [in UniMath.Foundations.HLevels]
uip [in UniMath.Foundations.PartB]
uip_injective_pairing [in UniMath.MoreFoundations.NoInjectivePairing]
uncurry_after_curry [in UniMath.CategoryTheory.PrecategoryBinProduct]
uncurry_functor_data_is_functor [in UniMath.CategoryTheory.PrecategoryBinProduct]
uncurry_curry [in UniMath.Foundations.PartA]
underlyingAction_injectivity [in UniMath.Algebra.GroupAction]
underlyingAction_incl [in UniMath.Algebra.GroupAction]
underlyingIso_injectivity [in UniMath.Algebra.GroupAction]
underlyingIso_incl [in UniMath.Algebra.GroupAction]
Under_precategories_mor_mor_eq [in UniMath.CategoryTheory.UnderCategories]
Under_comp_eq [in UniMath.CategoryTheory.UnderCategories]
unelabgrfun_ismonoidfun [in UniMath.Algebra.Groups]
unelabmonoidfun_ismonoidfun [in UniMath.Algebra.Monoids]
unelgrfun_ismonoidfun [in UniMath.Algebra.Groups]
unelmodulefun_ismodulefun [in UniMath.Algebra.Modules.Core]
unelmonoidfun_ismonoidfun [in UniMath.Algebra.Monoids]
unfold_inv_from_iso_α [in UniMath.CategoryTheory.Chains.Adamek]
union_not_contained_in [in UniMath.Topology.Prelim]
union_hProp [in UniMath.Topology.Prelim]
union_or [in UniMath.Topology.Prelim]
union_hfalse [in UniMath.Topology.Prelim]
UniqueConstruction_to_weq [in UniMath.Foundations.PartA]
uniqueExists [in UniMath.MoreFoundations.Propositions]
uniqueFiller [in UniMath.MoreFoundations.PartA]
Uniqueness.helper_D [in UniMath.MoreFoundations.Nat]
Uniqueness.helper_C [in UniMath.MoreFoundations.Nat]
Uniqueness.helper_B [in UniMath.MoreFoundations.Nat]
Uniqueness.helper_A [in UniMath.MoreFoundations.Nat]
Uniqueness.hNatRecursionUniq [in UniMath.MoreFoundations.Nat]
Uniqueness.hNatRecursion_weq [in UniMath.MoreFoundations.Nat]
unique_exists [in UniMath.Foundations.PartB]
unique_adjoint_equivalence_comp [in UniMath.Bicategories.Core.AdjointUnique]
unique_adjoint_equivalence_inv [in UniMath.Bicategories.Core.AdjointUnique]
unique_internal_adjoint_equivalence [in UniMath.Bicategories.Core.AdjointUnique]
unitl0 [in UniMath.Foundations.PartA]
unitl1 [in UniMath.Foundations.PartA]
unitl2 [in UniMath.Foundations.PartA]
unitl3 [in UniMath.Foundations.PartA]
unit_triangle [in UniMath.Bicategories.Core.Bicat]
unit_kleisli_natural [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
univalenceUAH [in UniMath.Foundations.UnivalenceAxiom]
univalence_pathsinv0 [in UniMath.MoreFoundations.NoInjectivePairing]
univalent_disp_cat_has_groupoid_obs [in UniMath.CategoryTheory.DisplayedCats.Core]
univalent_bicategory_0_cell_hlevel_4 [in UniMath.Bicategories.Core.AdjointUnique]
univalent_two_cat_2cells_are_prop [in UniMath.Bicategories.Core.Strictness]
univalent_bicategory_1_cell_hlevel_3 [in UniMath.Bicategories.Core.Univalence]
univalent_groupoid_arrow_weq_path [in UniMath.CategoryTheory.Groupoids]
univalent_category_has_groupoid_ob [in UniMath.CategoryTheory.Core.Univalence]
universalObjectFunctor_comm [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
univfromtwoaxioms [in UniMath.Foundations.UnivalenceAxiom]
univfromtwoaxiomshProp [in UniMath.Foundations.Propositions]
univ_arrow_mor_assoc [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
univ_surj_nt_unique [in UniMath.CategoryTheory.SetValuedFunctors]
univ_surj_nt_ax_pw_pw [in UniMath.CategoryTheory.SetValuedFunctors]
univ_surj_nt_ax_pw [in UniMath.CategoryTheory.SetValuedFunctors]
univ_surj_nt_ax [in UniMath.CategoryTheory.SetValuedFunctors]
univ_surj_unique [in UniMath.Foundations.Sets]
univ_surj_ax [in UniMath.Foundations.Sets]
unkleislify_kleislify [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
unkleislify_data_eq [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
unkleislify_mor_laws [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
unkleislify_laws [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
uOF_comp [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
uOF_identity [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
upto_eqn [in UniMath.Combinatorics.WellOrderedSets]
upto'_eqn [in UniMath.Combinatorics.WellOrderedSets]
UpUpid [in UniMath.Combinatorics.ZFstructures]
Upw_rooted [in UniMath.Combinatorics.ZFstructures]
Upw_transitive [in UniMath.Combinatorics.ZFstructures]
Upw_reflexive [in UniMath.Combinatorics.ZFstructures]
UU_rect [in UniMath.Foundations.UnivalenceAxiom]
U_action_plaw [in UniMath.CategoryTheory.Monoidal.Actions]
U_action_tlaw [in UniMath.CategoryTheory.Monoidal.Actions]
U_action_χ_is_nat_z_iso [in UniMath.CategoryTheory.Monoidal.Actions]
U_action_χ_nat_trans_ok [in UniMath.CategoryTheory.Monoidal.Actions]
U_action_ρ_nat_trans_ok [in UniMath.CategoryTheory.Monoidal.Actions]
U_action_alt_ok3 [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
U_action_alt_ok2 [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
U_action_alt_ok1 [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]

V

vassoc4 [in UniMath.Bicategories.Core.Bicat]
vcomp_lcancel [in UniMath.Bicategories.Core.Bicat]
vcomp_rcancel [in UniMath.Bicategories.Core.Bicat]
vcomp_move_L_pM [in UniMath.Bicategories.Core.Invertible_2cells]
vcomp_move_L_Mp [in UniMath.Bicategories.Core.Invertible_2cells]
vcomp_move_R_pM [in UniMath.Bicategories.Core.Invertible_2cells]
vcomp_move_R_Mp [in UniMath.Bicategories.Core.Invertible_2cells]
vcomp_move_L_pV [in UniMath.Bicategories.Core.Invertible_2cells]
vcomp_move_L_Vp [in UniMath.Bicategories.Core.Invertible_2cells]
vecoplist2oplist_inj [in UniMath.Algebra.Universal.Terms]
vecoplist2oplist_vcons [in UniMath.Algebra.Universal.Terms]
vector_hlevel [in UniMath.Combinatorics.FiniteSequences]
vec_map_const [in UniMath.Combinatorics.Vectors]
vec_append_lid [in UniMath.Combinatorics.Vectors]
vec_map_make_vec [in UniMath.Combinatorics.Vectors]
vec_map_comp [in UniMath.Combinatorics.Vectors]
vec_map_id [in UniMath.Combinatorics.Vectors]
vec_map_as_make_vec [in UniMath.Combinatorics.Vectors]
vec_ind [in UniMath.Combinatorics.Vectors]
vec_extens [in UniMath.Combinatorics.Vectors]

W

weak_fromnegdirprod [in UniMath.Foundations.Propositions]
weighting_coweighting_sum [in UniMath.Algebra.Matrix]
weqbweq [in UniMath.Foundations.PartD]
weqcutforstn [in UniMath.Combinatorics.StandardFiniteSets]
weqdicompl [in UniMath.MoreFoundations.NegativePropositions]
weqexistsnatlehnsn' [in UniMath.Combinatorics.StandardFiniteSets]
weqexistsnatlehn0 [in UniMath.Combinatorics.StandardFiniteSets]
weqfldfracgtintcomp_b [in UniMath.Algebra.Domains_and_Fields]
weqfldfracgtintcomp_f [in UniMath.Algebra.Domains_and_Fields]
weqforallnatlehnsn' [in UniMath.Combinatorics.StandardFiniteSets]
weqforallnatlehn0 [in UniMath.Combinatorics.StandardFiniteSets]
weqfromcoprodofstn [in UniMath.Combinatorics.StandardFiniteSets]
weqfromcoprodofstn_eq2 [in UniMath.Combinatorics.StandardFiniteSets]
weqfromcoprodofstn_eq1 [in UniMath.Combinatorics.StandardFiniteSets]
weqfromcoprodofstn_invmap_r0 [in UniMath.Combinatorics.StandardFiniteSets]
weqfromdecsubsetofstn [in UniMath.Combinatorics.StandardFiniteSets]
weqfromfunstntostn [in UniMath.Combinatorics.StandardFiniteSets]
weqfromhfiberfromstn [in UniMath.Combinatorics.StandardFiniteSets]
weqfromprodofstn [in UniMath.Combinatorics.StandardFiniteSets]
weqfromweqstntostn [in UniMath.Combinatorics.StandardFiniteSets]
weqfunfromcoprodtoprod [in UniMath.Foundations.PartD]
weqfunfromunit_HSET [in UniMath.CategoryTheory.categories.HSET.Limits]
weqfuntoprodtoprod [in UniMath.Foundations.PartD]
weqfweq [in UniMath.Foundations.PartD]
weqhfibercoprodf1 [in UniMath.Foundations.PartC]
weqhfibercoprodf2 [in UniMath.Foundations.PartC]
weqhfiberdnihfiberdi [in UniMath.Combinatorics.StandardFiniteSets]
weqhfibernoi1 [in UniMath.Foundations.PartC]
weqhfibernoi2 [in UniMath.Foundations.PartC]
weqhfibersgwtog [in UniMath.Foundations.PartA]
weqhfibershomot [in UniMath.Foundations.PartA]
weqhfibersofsumofmaps [in UniMath.Foundations.PartC]
weqhfibertobhfiber [in UniMath.Foundations.PartC]
weqhfibertocontr [in UniMath.Foundations.PartB]
weqhfibertohfp [in UniMath.Foundations.PartA]
weqhfibertounit [in UniMath.Foundations.PartB]
weqhfpcomm [in UniMath.Foundations.PartA]
weqhomot [in UniMath.MoreFoundations.PartA]
weqhrelhrel0abmonoidfrac [in UniMath.Algebra.Monoids]
weqhrelhrel0commringfrac [in UniMath.Algebra.RigsAndRings]
weqinvweq [in UniMath.Foundations.PartD]
weqishinhnegtoneg [in UniMath.Foundations.Propositions]
weqlcancelablercancelable [in UniMath.Algebra.BinaryOperations]
weqldistrrdistr [in UniMath.Algebra.BinaryOperations]
weqlinvertiblerinvertible [in UniMath.Algebra.BinaryOperations]
weqlinvrinv [in UniMath.Algebra.BinaryOperations]
weqlistfun [in UniMath.Combinatorics.Lists]
weqlunitrunit [in UniMath.Algebra.BinaryOperations]
weqnegtonegishinh [in UniMath.Foundations.Propositions]
weqOneSidedDcuts [in UniMath.RealNumbers.DedekindCuts]
weqoverdnicoprod_eq2 [in UniMath.Combinatorics.StandardFiniteSets]
weqoverdnicoprod_eq1' [in UniMath.Combinatorics.StandardFiniteSets]
weqoverdnicoprod_eq1 [in UniMath.Combinatorics.StandardFiniteSets]
weqpathsinpr_quot_functor [in UniMath.CategoryTheory.SetValuedFunctors]
weqpathsinsetquot [in UniMath.Foundations.Sets]
weqpathsinsetquot2 [in UniMath.Foundations.Sets]
weqpathssetquot2l1 [in UniMath.Foundations.Sets]
weqsecovercontr' [in UniMath.Combinatorics.FiniteSequences]
weqsetquottodirprod [in UniMath.Foundations.Sets]
weqstnprod [in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum [in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1_eq' [in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1_eq [in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1_prelim_eq' [in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1_prelim_eq [in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1_step [in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum2 [in UniMath.Combinatorics.StandardFiniteSets]
weqsubsetsplit [in UniMath.Foundations.PartB]
weqsubtypesdirprod [in UniMath.Foundations.Sets]
weqtoeqstn [in UniMath.Combinatorics.StandardFiniteSets]
weqtotal2 [in UniMath.MoreFoundations.PartA]
weqtotal2asstor [in UniMath.Foundations.PartA]
weqtotal2overcoprod [in UniMath.Foundations.PartA]
weqtotal2overunit [in UniMath.Foundations.PartA]
weqtransportbUAH [in UniMath.Foundations.UnivalenceAxiom]
weqtranspos [in UniMath.Foundations.PartC]
weqTwoSidedOneSided [in UniMath.RealNumbers.DedekindCuts]
weqweq [in UniMath.Foundations.PartD]
weqweqstnsn [in UniMath.Combinatorics.StandardFiniteSets]
weq_list [in UniMath.CategoryTheory.Inductives.Lists]
weq_subtypes_iff [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
weq_subtypes' [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
weq_Kleisli_Monad_categories [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
weq_ff_functor_on_weq_isobandf_compute [in UniMath.CategoryTheory.Core.Functors]
weq_ff_functor_on_iso_compute [in UniMath.CategoryTheory.Core.Functors]
weq_iso [in UniMath.CategoryTheory.slicecat]
weq_to_iso_SET [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
weq_iff_iso_SET [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
weq_matrix_1_1 [in UniMath.Combinatorics.FiniteSequences]
weq_vector_1 [in UniMath.Combinatorics.FiniteSequences]
weq1 [in UniMath.Foundations.HLevels]
weq2 [in UniMath.Foundations.HLevels]
wfs_wf_wfp_desc [in UniMath.Paradoxes.GirardsParadox]
whisker_ηg [in UniMath.Bicategories.Core.EquivToAdjequiv]
whisker_r_eq [in UniMath.Bicategories.Core.BicategoryLaws]
whisker_l_eq [in UniMath.Bicategories.Core.BicategoryLaws]
whisker_r_iso_id₁ [in UniMath.Bicategories.Core.BicategoryLaws]
whisker_l_iso_id₁ [in UniMath.Bicategories.Core.BicategoryLaws]
whisker_r_natural [in UniMath.Bicategories.Core.BicategoryLaws]
whisker_l_natural [in UniMath.Bicategories.Core.BicategoryLaws]
whisker_r_hcomp [in UniMath.Bicategories.Core.BicategoryLaws]
whisker_l_hcomp [in UniMath.Bicategories.Core.BicategoryLaws]
whisker_right_right [in UniMath.Bicategories.BicatOfBicategory]
whisker_left_right [in UniMath.Bicategories.BicatOfBicategory]
whisker_left_left [in UniMath.Bicategories.BicatOfBicategory]
whisker_right_on_comp [in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_right_id_inj [in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_right_inv [in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_right_id_2mor [in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_right_id_1mor [in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left_on_comp [in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left_id_inj [in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left_inv [in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left_id_2mor [in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left_id_1mor [in UniMath.Bicategories.WkCatEnrichment.whiskering]
whoa [in UniMath.Paradoxes.GirardsParadox]
whole_from_parts [in UniMath.SubstitutionSystems.SubstitutionSystems]
wma_decidable [in UniMath.MoreFoundations.DoubleNegation]
wma_dneg [in UniMath.MoreFoundations.DoubleNegation]
wofun_eq [in UniMath.Combinatorics.WellOrderedSets]
WOlt_trich [in UniMath.Combinatorics.WellOrderedSets]
WOlt_to_WOlt' [in UniMath.Combinatorics.WellOrderedSets]
WOlt_isirrefl [in UniMath.Combinatorics.WellOrderedSets]
WOlt_istrans [in UniMath.Combinatorics.WellOrderedSets]
WOlt'_to_WOlt [in UniMath.Combinatorics.WellOrderedSets]
wosub_le_isPartialOrder [in UniMath.Combinatorics.WellOrderedSets]
wosub_fidelity [in UniMath.Combinatorics.WellOrderedSets]
wosub_univalence_compute [in UniMath.Combinatorics.WellOrderedSets]
wosub_univalence [in UniMath.Combinatorics.WellOrderedSets]
wosub_le_isrefl [in UniMath.Combinatorics.WellOrderedSets]
WO_theUniqueSmallest [in UniMath.Combinatorics.WellOrderedSets]
WO_theSmallest [in UniMath.Combinatorics.WellOrderedSets]
wo_lt_to_le [in UniMath.Combinatorics.WellOrderedSets]
wrap_inverse' [in UniMath.CategoryTheory.Core.Isos]
wrap_inverse [in UniMath.CategoryTheory.Core.Isos]
W_alg_eq [in UniMath.Induction.W.Uniqueness]
W_carriers_eq [in UniMath.Induction.W.Uniqueness]
W_carriers_iso [in UniMath.Induction.W.Uniqueness]

X

X_aux_type_contr_eq [in UniMath.CategoryTheory.precomp_ess_surj]
X_aux_type_center_of_contr_proof [in UniMath.CategoryTheory.precomp_ess_surj]

Y

yoneda_to_presheaf_representable_is_natural [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable_is_modification [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable_component_mod_is_nat_trans [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_counit_is_natural [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_is_inverses [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_is_nat_trans [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_component_is_modification [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_component_mod_component_is_nat_trans [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_is_functor [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_fully_faithful [in UniMath.CategoryTheory.yoneda]
yoneda_iso_sets [in UniMath.CategoryTheory.yoneda]
yoneda_map_2_1 [in UniMath.CategoryTheory.yoneda]
yoneda_map_1_2 [in UniMath.CategoryTheory.yoneda]
yoneda_map_2_ax [in UniMath.CategoryTheory.yoneda]
yon_binprod_is_iso [in UniMath.CategoryTheory.YonedaBinproducts]
yy_comp_nat_trans [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
yy_natural [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Y_contr_eq [in UniMath.CategoryTheory.precomp_ess_surj]
Y_inhab_proof [in UniMath.CategoryTheory.precomp_ess_surj]

Z

zariski_topology_and [in UniMath.AlgebraicGeometry.Spec]
zariski_topology_htrue [in UniMath.AlgebraicGeometry.Spec]
zariski_topology_union [in UniMath.AlgebraicGeometry.Spec]
ZermeloWellOrdering [in UniMath.Combinatorics.WellOrderedSets]
ZeroArrowEq [in UniMath.CategoryTheory.limits.zero]
ZeroArrowFromUnique [in UniMath.CategoryTheory.limits.graphs.zero]
ZeroArrowFrom_opp [in UniMath.CategoryTheory.limits.Opp]
ZeroArrowToUnique [in UniMath.CategoryTheory.limits.graphs.zero]
ZeroArrowTo_opp [in UniMath.CategoryTheory.limits.Opp]
ZeroArrowUnique [in UniMath.CategoryTheory.limits.graphs.zero]
ZeroArrow_comp_right [in UniMath.CategoryTheory.limits.zero]
ZeroArrow_comp_left [in UniMath.CategoryTheory.limits.zero]
ZeroArrow_opp [in UniMath.CategoryTheory.limits.Opp]
zeroCriterion [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ZeroEndo_is_identity [in UniMath.CategoryTheory.limits.zero]
ZeroEndo_is_identity [in UniMath.CategoryTheory.limits.graphs.zero]
ZeroIdMap_isMonic [in UniMath.CategoryTheory.AbelianToAdditive]
ZeroIffInitialAndTerminal [in UniMath.CategoryTheory.limits.zero]
zeroincommringfrac [in UniMath.Algebra.Domains_and_Fields]
zeroLeft [in UniMath.CategoryTheory.PreAdditive]
ZeroMorphism_eq [in UniMath.HomologicalAlgebra.Complexes]
ZeroMorphism_comm [in UniMath.HomologicalAlgebra.Complexes]
zeroNonnegativeRationals_correct [in UniMath.RealNumbers.NonnegativeRationals]
ZeroObject_equals_TerminalObject [in UniMath.CategoryTheory.limits.graphs.zero]
ZeroObject_equals_InitialObject [in UniMath.CategoryTheory.limits.graphs.zero]
zeroRight [in UniMath.CategoryTheory.PreAdditive]
ZerosArrowEq [in UniMath.CategoryTheory.limits.zero]
zero_eq_zero_opp [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
ZFS_Branch_is_ZFS [in UniMath.Combinatorics.ZFstructures]
ZFS_univalence [in UniMath.Combinatorics.ZFstructures]
z_iso_comp_left_isweq [in UniMath.CategoryTheory.Core.Isos]
z_iso_comp_right_isweq [in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_z_iso_inv [in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_of_z_iso_id [in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_of_z_iso_comp [in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_to_right [in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_to_left [in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_on_left [in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_on_right [in UniMath.CategoryTheory.Core.Isos]
z_iso_eq_inv [in UniMath.CategoryTheory.Core.Isos]
z_iso_eq [in UniMath.CategoryTheory.Core.Isos]
z_iso_from_Equalizer_to_Equalizer_inverses [in UniMath.CategoryTheory.limits.equalizers]

_

_c_ [in UniMath.Combinatorics.StandardFiniteSets]

other

αinv_f_unique [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
αinv_f_commutes [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
α_functors_pointwise_is_z_iso [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
α'α_idFA [in UniMath.CategoryTheory.FunctorCoalgebras]
δ_law2_genoption [in UniMath.SubstitutionSystems.SignatureExamples]
δ_law1_genoption [in UniMath.SubstitutionSystems.SignatureExamples]
δ_comp_law2 [in UniMath.SubstitutionSystems.SignatureExamples]
δ_comp_law1 [in UniMath.SubstitutionSystems.SignatureExamples]
δ_law2_nicer_implies_δ_law2 [in UniMath.SubstitutionSystems.SignatureExamples]
δ_law2_implies_δ_law2_nicer [in UniMath.SubstitutionSystems.SignatureExamples]
ε_ses_ff_ax [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε₁_natural [in UniMath.Bicategories.Core.AdjointUnique]
η_whisker_r_hcomp [in UniMath.Bicategories.Core.EquivToAdjequiv]
η_whisker_l_hcomp [in UniMath.Bicategories.Core.EquivToAdjequiv]
η_natural [in UniMath.Bicategories.Core.EquivToAdjequiv]
η_bind [in UniMath.CategoryTheory.Monads.Monads]
η_bind_slice [in UniMath.SubstitutionSystems.MonadsMultiSorted]
η_slice_ok [in UniMath.SubstitutionSystems.MonadsMultiSorted]
η_bind_fun [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
θ_nat_2_pointwise [in UniMath.SubstitutionSystems.Signatures]
θ_nat_2 [in UniMath.SubstitutionSystems.Signatures]
θ_nat_1_pointwise [in UniMath.SubstitutionSystems.Signatures]
θ_nat_1 [in UniMath.SubstitutionSystems.Signatures]
θ_nat_1_pointfree [in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int_nicer_implies_θ_Strength2_int_nicest [in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int_nicest_implies_θ_Strength2_int_nicer [in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int_nicer_implies_θ_Strength2_int [in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int_implies_θ_Strength2_int_nicer [in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_implies_θ_Strength2_int [in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int_implies_θ_Strength2 [in UniMath.SubstitutionSystems.Signatures]
θ_Strength1_implies_θ_Strength1_int [in UniMath.SubstitutionSystems.Signatures]
θ_Strength1_int_implies_θ_Strength1 [in UniMath.SubstitutionSystems.Signatures]
θ_Strength1_int_implies_θ_Strength1_int_nicer [in UniMath.SubstitutionSystems.Signatures]
θ_Strength1_int_nicer_implies_θ_Strength1_int [in UniMath.SubstitutionSystems.Signatures]
θ_target_ok [in UniMath.SubstitutionSystems.Signatures]
θ_source_ok [in UniMath.SubstitutionSystems.Signatures]
θ_for_ab_strength_law2 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_ab_strength_law1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_ab_strength_ax [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_signature_is_nat_trans [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_Strength2_int_from_δ [in UniMath.SubstitutionSystems.SignatureExamples]
θ_Strength1_int_from_δ [in UniMath.SubstitutionSystems.SignatureExamples]
μ_3_μ_2_T_μ_2 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_3_T_μ_2_μ_2 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_2_is_ptd_mor [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_1_identity' [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_1_identity [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
π₀_universal_map_uniq [in UniMath.MoreFoundations.Sets]
π₀_universal_map_eqn [in UniMath.MoreFoundations.Sets]
σ_from_τ_is_conjugate [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ_lmodule_laws [in UniMath.SubstitutionSystems.ModulesFromSignatures]
τ_LamE_algebra_on_Lam [in UniMath.SubstitutionSystems.Lam]
τ_part_of_alg_mor [in UniMath.SubstitutionSystems.SubstitutionSystems]
τ_from_σ_is_conjugate [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
φ_ψ_μF_eq [in UniMath.SubstitutionSystems.GenMendlerIteration]
φ_adj_inv_natural_prepostcomp [in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_inv_natural_postcomp [in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_inv_natural_precomp [in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_natural_prepostcomp [in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_natural_postcomp [in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_natural_precomp [in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_inv_unit [in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_identity [in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_inv_after_φ_adj [in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_after_φ_adj_inv [in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_h_x_equals_initial_arrow [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
ψ_naturality [in UniMath.SubstitutionSystems.GenMendlerIteration]
ψ_nt [in UniMath.SubstitutionSystems.ModulesFromSignatures]
ϕo_determined [in UniMath.Folds.folds_isomorphism]
ϕo_ϕ₁_ϕ₂ [in UniMath.Folds.folds_isomorphism]
ϕo_id [in UniMath.Folds.folds_isomorphism]
ϕ₁_ϕ₂_are_inverse [in UniMath.Folds.folds_isomorphism]
ϕ₁_ϕ₂_id [in UniMath.Folds.folds_isomorphism]
ϕ₁_is_comp [in UniMath.Folds.folds_isomorphism]
ϕ₂_determined [in UniMath.Folds.folds_isomorphism]
ϕ₂_ϕ₁_id [in UniMath.Folds.folds_isomorphism]
ϕ₂_is_comp [in UniMath.Folds.folds_isomorphism]
ℤRecursionUniq [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤRecursion_weq_compute [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤRecursion_weq [in UniMath.SyntheticHomotopyTheory.AffineLine]

---

Constructor Index

F

false [in UniMath.Foundations.Preamble]

I

ii1 [in UniMath.Foundations.Preamble]
ii2 [in UniMath.Foundations.Preamble]

L

leF_S [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
leF_O [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]

O

O [in UniMath.Foundations.Preamble]

P

paths_refl [in UniMath.Foundations.Preamble]

S

S [in UniMath.Foundations.Preamble]

T

tpair [in UniMath.Foundations.Preamble]
true [in UniMath.Foundations.Preamble]
tt [in UniMath.Foundations.Preamble]

---

Axiom Index

F

funcontrAxiom [in UniMath.Foundations.UnivalenceAxiom]
funextcontrAxiom [in UniMath.Foundations.UnivalenceAxiom]
funextemptyAxiom [in UniMath.Foundations.UnivalenceAxiom]

I

isweqtoforallpathsAxiom [in UniMath.Foundations.UnivalenceAxiom]

P

propositionalUnivalenceAxiom [in UniMath.Foundations.UnivalenceAxiom]

U

univalenceAxiom [in UniMath.Foundations.UnivalenceAxiom]

---

Inductive Index

B

bool [in UniMath.Foundations.Preamble]

C

coprod [in UniMath.Foundations.Preamble]

E

empty [in UniMath.Foundations.Preamble]

L

leF [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]

N

nat [in UniMath.Foundations.Preamble]

P

paths [in UniMath.Foundations.Preamble]

U

unit [in UniMath.Foundations.Preamble]

---

Projection Index

P

pr1 [in UniMath.Foundations.Preamble]
pr2 [in UniMath.Foundations.Preamble]

---

Section Index

A

A [in UniMath.SyntheticHomotopyTheory.Circle]
A [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
A [in UniMath.CategoryTheory.Enriched.Enriched]
A [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A [in UniMath.Algebra.GroupAction]
A [in UniMath.PAdics.padics]
A [in UniMath.CategoryTheory.Monoidal.Actions]
A [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
A [in UniMath.SyntheticHomotopyTheory.Test]
A [in UniMath.SyntheticHomotopyTheory.Circle2]
A [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
abelian_kernel_cokernel [in UniMath.CategoryTheory.Abelian]
abelian_factorization [in UniMath.CategoryTheory.Abelian]
abelian_MonicToKernels [in UniMath.CategoryTheory.Abelian]
abelian_pushouts [in UniMath.CategoryTheory.Abelian]
abelian_equalizers [in UniMath.CategoryTheory.Abelian]
abelian_monic_pullbacks [in UniMath.CategoryTheory.Abelian]
abelian_monic_epi_iso [in UniMath.CategoryTheory.Abelian]
abelian_is_additive [in UniMath.CategoryTheory.AbelianToAdditive]
abgr_corollaries [in UniMath.CategoryTheory.categories.abgrs]
abgr_abelian [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernels_epi_cokernels [in UniMath.CategoryTheory.categories.abgrs]
abgr_monics_and_epis [in UniMath.CategoryTheory.categories.abgrs]
abgr_kernels_and_cokernels [in UniMath.CategoryTheory.categories.abgrs]
abgr_additive [in UniMath.CategoryTheory.categories.abgrs]
abgr_preadditive [in UniMath.CategoryTheory.categories.abgrs]
accessors [in UniMath.Algebra.Modules.Core]
Accessors [in UniMath.CategoryTheory.SubobjectClassifier]
Accessors [in UniMath.CategoryTheory.Equivalences.Core]
accessors_moduleiso [in UniMath.Algebra.Modules.Core]
ActionBased_Strength_Between_Homs_In_Bicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Action_From_Precomposition [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
acyclic_complexes [in UniMath.HomologicalAlgebra.Complexes]
additivefunctor_criteria [in UniMath.CategoryTheory.AdditiveFunctors]
additivefunctor_preserves_bindirectsums [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveToExact [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
additive_minus_monic [in UniMath.CategoryTheory.Additive]
additive_kernel_equalizers [in UniMath.CategoryTheory.Additive]
additive_quot_additive [in UniMath.CategoryTheory.Additive]
Add2Cell [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
AdjEquivFullyFaithful [in UniMath.Bicategories.Core.FullyFaithful]
AdjointEquivPregroupoid [in UniMath.Bicategories.Core.Univalence]
AdjointEquivUniqueCompInv [in UniMath.Bicategories.Core.AdjointUnique]
AdjointFolds [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
adjointification [in UniMath.CategoryTheory.Equivalences.Core]
AdjointUniqueMapCompose [in UniMath.Bicategories.Core.AdjointUnique]
Adjunction [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
adjunction [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
AdjunctionLemmas [in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions [in UniMath.CategoryTheory.Adjunctions.Core]
Adjunctions [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Adjunctions [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
adjunctions.left_adjoint_from_partial [in UniMath.CategoryTheory.Adjunctions.Core]
Adjunctions.notation [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjunctions.postcomp [in UniMath.CategoryTheory.Adjunctions.Core]
adjunctions.right_adjoint_from_partial [in UniMath.CategoryTheory.Adjunctions.Core]
Adjunction_HomSetIso_weq [in UniMath.CategoryTheory.Adjunctions.Core]
Adjunction_from_HomSetIso [in UniMath.CategoryTheory.Adjunctions.Core]
aint [in UniMath.PAdics.frac]
Algebra [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebras [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebras [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
Algebras.Algebra_precategory_data [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebras.Algebra_def [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_adjunction [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_category [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_Definition [in UniMath.CategoryTheory.FunctorAlgebras]
Algebra.DispAdjointEquivalenceToInvertible2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Algebra.GroupAlgebra [in UniMath.Algebra.Universal.Examples.Group]
Algebra.Invertible2CellToDispAdjointEquivalence [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
AltList.constcoprod_functor [in UniMath.CategoryTheory.Inductives.Lists]
AltList.constprod_functor [in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists [in UniMath.CategoryTheory.Inductives.Lists]
AltList.lists.list_induction [in UniMath.CategoryTheory.Inductives.Lists]
AltList.nat_examples [in UniMath.CategoryTheory.Inductives.Lists]
ApFunctor [in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
ApModification [in UniMath.Bicategories.Modifications.Examples.ApModification]
Append [in UniMath.Combinatorics.FiniteSequences]
apsetwithbinop_pty [in UniMath.Algebra.Apartness]
apsetwith2binop_pty [in UniMath.Algebra.Apartness]
ApTrans [in UniMath.Bicategories.Transformations.Examples.ApTransformation]
are_isomorphic [in UniMath.CategoryTheory.Core.Isos]
around_δ.iter1_dl [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.option_sig [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.genoption_sig [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.δ_mul [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.θ_from_δ [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.δ_for_id [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.def_of_δ.δ_laws [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ.def_of_δ [in UniMath.SubstitutionSystems.SignatureExamples]
around_δ [in UniMath.SubstitutionSystems.SignatureExamples]
arrow [in UniMath.CategoryTheory.DisplayedCats.Examples]
Arrow_Disp [in UniMath.CategoryTheory.DisplayedCats.Examples]
assoc [in UniMath.CategoryTheory.PrecategoryBinProduct]
associativity [in UniMath.CategoryTheory.HorizontalComposition]
Associativity [in UniMath.Bicategories.Transformations.Examples.Associativity]
Associativity [in UniMath.Bicategories.Modifications.Examples.Associativity]
Associators_Unitors_Natural_bicat [in UniMath.Bicategories.Core.Bicat]
Associators_Unitors_Natural [in UniMath.Bicategories.Core.Bicat]
Associators_Unitors_Iso [in UniMath.Bicategories.Core.Bicat]
Attempts [in UniMath.Combinatorics.WellFoundedRelations]
Auxiliary [in UniMath.Algebra.FixedPointTheorems]
Auxiliary [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Auxiliary [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Auxiliary [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
A.ActionBasedStrengths_Definition.ActionBasedStrengths_Natural_Transformation [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.ActionBasedStrengths_Definition [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Actions_Definition.Alternative_Definition [in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Projections [in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition.Actions_Natural_Transformations [in UniMath.CategoryTheory.Monoidal.Actions]
A.Actions_Definition [in UniMath.CategoryTheory.Monoidal.Actions]
A.Action_Lifting_Through_Strong_Monoidal_Functor [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
A.Alternative_Definition.Param_Distr.The_Laws [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition.Param_Distr [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Alternative_Definition [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
A.Def [in UniMath.CategoryTheory.Enriched.Enriched]
A.Def.Axioms [in UniMath.CategoryTheory.Enriched.Enriched]
A.Functors [in UniMath.CategoryTheory.Enriched.Enriched]
A.Functors.Axioms [in UniMath.CategoryTheory.Enriched.Enriched]
A.Strong_Monoidal_Functor_Action [in UniMath.CategoryTheory.Monoidal.Actions]

B

B [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
base [in UniMath.Topology.Filters]
BasePseudoFunctor [in UniMath.Bicategories.PseudoFunctors.Display.Base]
base_change.dependent_product [in UniMath.CategoryTheory.slicecat]
base_change [in UniMath.CategoryTheory.slicecat]
base_default [in UniMath.Topology.Topology]
basics [in UniMath.CategoryTheory.Presheaf]
BiadjunctionDataProjections [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionHom [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionInitial [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionProjections [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionTriangleLaws [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BiadjunctionUniqueMaps [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
BicatCleaving [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
BicatCleaving.Cartesian1cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
Bicat_From_Monoidal_Cat [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
Biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
BigProjections [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
BinaryCoproduct [in UniMath.Induction.ImpredicativeInductiveSets]
BinaryOperations [in UniMath.Algebra.IteratedBinaryOperations]
BinaryProduct [in UniMath.Induction.ImpredicativeInductiveSets]
BinCoproducts [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts_from_Colims [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_from_iso [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_zeroarrow [in UniMath.CategoryTheory.limits.bincoproducts]
bincoproduct_functor_adjunction [in UniMath.CategoryTheory.Adjunctions.Examples]
bincoproduct_def [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
bind [in UniMath.CategoryTheory.Monads.Monads]
Bind [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bindelta_functor_adjunction [in UniMath.CategoryTheory.Adjunctions.Examples]
BindingSig [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonadHSET [in UniMath.SubstitutionSystems.BindingSigToMonad]
bindirectsums_in_quot [in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_criteria [in UniMath.CategoryTheory.limits.BinDirectSums]
bindirectsums_monics_and_epis [in UniMath.CategoryTheory.limits.BinDirectSums]
BINOPS_precategory [in UniMath.CategoryTheory.category_binops]
BINOP_category [in UniMath.CategoryTheory.category_binops]
BinProducts [in UniMath.SubstitutionSystems.SignatureCategory]
BinProducts [in UniMath.CategoryTheory.limits.binproducts]
BinProducts_from_Lims [in UniMath.CategoryTheory.limits.binproducts]
binproduct_of_signatures.construction [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_of_signatures [in UniMath.SubstitutionSystems.BinProductOfSignatures]
binproduct_def [in UniMath.CategoryTheory.limits.graphs.binproducts]
binproduct_from_pullback [in UniMath.CategoryTheory.limits.pullbacks]
BinProduct_from_iso [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_zeroarrow [in UniMath.CategoryTheory.limits.binproducts]
binproduct_functor [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_unique [in UniMath.CategoryTheory.limits.binproducts]
binproduct_def [in UniMath.CategoryTheory.limits.binproducts]
binsum_of_signatures.construction [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binsum_of_signatures [in UniMath.SubstitutionSystems.BinSumOfSignatures]
bintrees [in UniMath.CategoryTheory.Inductives.Trees]
bintrees.tree_induction [in UniMath.CategoryTheory.Inductives.Trees]
Bool [in UniMath.Algebra.Universal.Examples.Tests]
BoundedLatticeObject_accessors [in UniMath.CategoryTheory.LatticeObject]
bounded_lattice_pty [in UniMath.Algebra.Lattice]
Bourbaki_Witt [in UniMath.Algebra.FixedPointTheorems]
Braided_Monoidal_Cat_Acessors [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
Braiding [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
Braiding.HexagonEquations [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
Builder [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
Builder_From_Unit_Counit [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
Build_Bicategory [in UniMath.Bicategories.BicategoryOfBicat]
B.ActionBasedStrength_Instantiates_To_RelativeStrength [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
B.RelativeStrengths_Natural_Transformation [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
B.RelativeStrength_Is_An_ActionBasedStrength [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]

C

carry [in UniMath.PAdics.padics]
CartesianFactorisationDispFunctor [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
CartesianFactorisationDispNatTrans [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_product [in UniMath.CategoryTheory.DisplayedCats.Examples]
cartesian_product_pb [in UniMath.CategoryTheory.DisplayedCats.Examples]
Categories [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
CategoryBinproductIsoWeq [in UniMath.CategoryTheory.PrecategoryBinProduct]
category_products [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
Category_of_Monoids [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
category_Algebra.fix_an_H.fix_a_Z [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra.fix_an_H [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra [in UniMath.SubstitutionSystems.LiftingInitial_alt]
category_Algebra [in UniMath.SubstitutionSystems.LiftingInitial]
CatIso_To_LeftAdjEquiv [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
CatsBinprodUMP [in UniMath.Bicategories.Colimits.Products]
cats_limits [in UniMath.CategoryTheory.categories.HSET.Limits]
cat_of_elems_theory [in UniMath.CategoryTheory.Elements]
cat_of_elems_def [in UniMath.CategoryTheory.Elements]
cat_of_elems_theory [in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_def [in UniMath.CategoryTheory.ElementsOp]
CCDR_pty [in UniMath.Algebra.ConstructiveStructures]
ccs [in UniMath.SubstitutionSystems.CCS_alt]
ccs [in UniMath.SubstitutionSystems.CCS]
CDR_pty [in UniMath.Algebra.ConstructiveStructures]
Cell_Transport [in UniMath.Bicategories.DisplayedBicats.DispBicat]
CF_pty [in UniMath.Algebra.ConstructiveStructures]
Chains [in UniMath.Algebra.FixedPointTheorems]
chaotic_bicat [in UniMath.Bicategories.Core.Bicat]
Check_Overview [in UniMath.Algebra.FixedPointTheorems]
Coalgebra_Definition [in UniMath.CategoryTheory.FunctorCoalgebras]
CochainCone [in UniMath.Induction.M.Chains]
CochainLimit [in UniMath.Induction.M.Limits]
cocont [in UniMath.CategoryTheory.Chains.Chains]
cocont_functors.cocont_slicecat_to_cat_HSET [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.functor_swap [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.post_composition_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.pre_composition_functor_kan [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.pre_composition_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.BinProduct_of_functors [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor.omega_cocont_binproduct [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.binprod_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.constprod_functors [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.coproduct_of_functors [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.BinCoproduct_of_functors [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.coprod_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.bincoprod_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.delta_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.bindelta_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.family_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.tuple_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.functor_into_product_category [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.pair_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.iter_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.functor_composite [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.constant_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.functor_identity [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.cocont_iso.preserves_colimit_iso [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors.cocont_iso [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocont_functors [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CodomainArrow [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
CodomainCleaving [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.CartesianToPullback [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.CartesianToPullback.PbUMP2AndEq [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.PullbackToCartesian [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.PullbackToCartesian.Lift1CellConeMor [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CodomainCleaving.PullbackToCartesian.Lift2CellConeCell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
Codomain_Disp [in UniMath.CategoryTheory.DisplayedCats.Codomain]
coequalizers_coincide [in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coevaluation [in UniMath.CategoryTheory.PrecategoryBinProduct]
Cofunctormaps [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
cokernels_epis [in UniMath.CategoryTheory.limits.cokernels]
cokernels_iso [in UniMath.CategoryTheory.limits.cokernels]
cokernels_coequalizers [in UniMath.CategoryTheory.limits.cokernels]
cokernel_out_paths [in UniMath.CategoryTheory.limits.cokernels]
ColimFunctor [in UniMath.CategoryTheory.limits.graphs.colimits]
colimits [in UniMath.CategoryTheory.categories.HSET.Colimits]
colimits.from_colim [in UniMath.CategoryTheory.categories.HSET.Colimits]
Colims [in UniMath.CategoryTheory.limits.graphs.colimits]
Colims.Universal_Unique [in UniMath.CategoryTheory.limits.graphs.colimits]
colim_initial_algebra.algebra_mor [in UniMath.CategoryTheory.Chains.Adamek]
colim_initial_algebra [in UniMath.CategoryTheory.Chains.Adamek]
colim_def [in UniMath.CategoryTheory.limits.graphs.colimits]
CommDivRig_pty [in UniMath.Algebra.DivisionRig]
Completeness [in UniMath.Algebra.FixedPointTheorems]
complexes_homotopies [in UniMath.HomologicalAlgebra.KA]
complexes_abelian [in UniMath.HomologicalAlgebra.Complexes]
complexes_additive [in UniMath.HomologicalAlgebra.Complexes]
complexes_precat [in UniMath.HomologicalAlgebra.Complexes]
CompositionEquivalence [in UniMath.Bicategories.Core.EquivToAdjequiv]
Compositor [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
comp_zero [in UniMath.HomologicalAlgebra.Triangulated]
comp_def.DistrLaws [in UniMath.CategoryTheory.Monads.Derivative]
comp_def [in UniMath.CategoryTheory.Monads.Derivative]
Cone [in UniMath.CategoryTheory.limits.cones]
CONE_category [in UniMath.CategoryTheory.limits.cones]
Conjugates [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Constant [in UniMath.Bicategories.PseudoFunctors.Examples.Constant]
ConstantCleaving [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
ConstantCleaving.Cartesian1CellToAdjEquiv [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
ConstantCleaving.TrivialCartesianOneCell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
constantly_constant_signature [in UniMath.SubstitutionSystems.SignatureExamples]
constr_indef_descr [in UniMath.Combinatorics.BoundedSearch]
const_comma_category_definition [in UniMath.CategoryTheory.CommaCategories]
Coproducts [in UniMath.CategoryTheory.limits.coproducts]
Coproducts [in UniMath.SubstitutionSystems.SignatureCategory]
CoproductsBool [in UniMath.CategoryTheory.limits.bincoproducts]
coproducts_from_colimits [in UniMath.CategoryTheory.limits.coproducts]
coproduct_def [in UniMath.CategoryTheory.limits.coproducts]
coproduct_unique [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_def [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_functor_adjunction [in UniMath.CategoryTheory.Adjunctions.Examples]
coproduct_unique [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
CorestrictImage [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
CorestrictImage.CorestrictFullImageLocalEquivalence [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
Cosets [in UniMath.Algebra.Monoids]
coslice_precat_def [in UniMath.CategoryTheory.coslicecat]
co.LimFunctor [in UniMath.CategoryTheory.limits.graphs.limits]
co.lim_def [in UniMath.CategoryTheory.limits.graphs.limits]
creates_preserves [in UniMath.CategoryTheory.DisplayedCats.Limits]
Creates_Limits [in UniMath.CategoryTheory.DisplayedCats.Limits]
Currying [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
Currying [in UniMath.CategoryTheory.PrecategoryBinProduct]
Currying.Def_Uncurry_Mor [in UniMath.CategoryTheory.PrecategoryBinProduct]
Currying.Def_Uncurry_Ob [in UniMath.CategoryTheory.PrecategoryBinProduct]
Currying.Def_Curry_Mor [in UniMath.CategoryTheory.PrecategoryBinProduct]
Currying.Def_Curry_Ob [in UniMath.CategoryTheory.PrecategoryBinProduct]
CwF [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
CwFRepresentation [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]

D

dcpo [in UniMath.Algebra.Dcpo]
dcpowithbottom [in UniMath.Algebra.Dcpo]
Dcuts_of_Dcuts' [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lim [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv' [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult' [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus [in UniMath.RealNumbers.NonnegativeReals]
Def [in UniMath.CategoryTheory.Subcategory.Reflective]
DefDistrLaw [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Definitions [in UniMath.Algebra.RigsAndRings.Ideals]
Defn [in UniMath.CategoryTheory.ArrowCategory]
def_ring_category [in UniMath.CategoryTheory.categories.rings]
def_ring_precategory [in UniMath.CategoryTheory.categories.rings]
def_grothendiecktopos [in UniMath.CategoryTheory.GrothendieckTopos]
def_grothendiecktopology [in UniMath.CategoryTheory.GrothendieckTopos]
def_additive_equivalence [in UniMath.CategoryTheory.AdditiveFunctors]
def_additive_quot_functor [in UniMath.CategoryTheory.AdditiveFunctors]
def_additivefunctor [in UniMath.CategoryTheory.AdditiveFunctors]
def_abelian [in UniMath.CategoryTheory.Abelian]
def_setwith2binop_category [in UniMath.CategoryTheory.categories.setwith2binops]
def_setwith2binop_precategory [in UniMath.CategoryTheory.categories.setwith2binops]
def_gr_category [in UniMath.CategoryTheory.categories.grs]
def_gr_precategory [in UniMath.CategoryTheory.categories.grs]
def_fld_category [in UniMath.CategoryTheory.categories.flds]
def_fld_precategory [in UniMath.CategoryTheory.categories.flds]
def_roofs [in UniMath.CategoryTheory.LocalizingClass]
def_kernels [in UniMath.CategoryTheory.limits.graphs.kernels]
def_terminal [in UniMath.CategoryTheory.limits.graphs.terminal]
def_abgr_zero [in UniMath.CategoryTheory.categories.abgrs]
def_abgr_category [in UniMath.CategoryTheory.categories.abgrs]
def_abgr_precategory [in UniMath.CategoryTheory.categories.abgrs]
def_cokernels [in UniMath.CategoryTheory.limits.graphs.cokernels]
def_coequalizers [in UniMath.CategoryTheory.limits.graphs.coequalizers]
def_functor_pointwise_coprod.coproduct_of_functors.vertex [in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod.coproduct_of_functors [in UniMath.CategoryTheory.limits.coproducts]
def_functor_pointwise_coprod [in UniMath.CategoryTheory.limits.coproducts]
def_initial [in UniMath.CategoryTheory.limits.initial]
def_ptd [in UniMath.CategoryTheory.PointedFunctorsComposition]
def_po.pushout_lemma [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po [in UniMath.CategoryTheory.limits.graphs.pushouts]
def_po [in UniMath.CategoryTheory.limits.pushouts]
def_functor_pointwise_coprod.BinCoproduct_of_functors.vertex [in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod.BinCoproduct_of_functors [in UniMath.CategoryTheory.limits.bincoproducts]
def_functor_pointwise_coprod [in UniMath.CategoryTheory.limits.bincoproducts]
def_quotobjects [in UniMath.CategoryTheory.Quotobjects]
def_equalizers [in UniMath.CategoryTheory.limits.graphs.equalizers]
def_pseudo_element [in UniMath.CategoryTheory.PseudoElements]
def_precategory_with_binops [in UniMath.CategoryTheory.CategoriesWithBinOps]
def_kernels [in UniMath.CategoryTheory.limits.kernels]
def_functor_pointwise_coprod.coproduct_functor [in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_functor_pointwise_coprod [in UniMath.CategoryTheory.RepresentableFunctors.Test]
def_zero [in UniMath.CategoryTheory.limits.zero]
def_cokernels [in UniMath.CategoryTheory.limits.cokernels]
def_equalizers [in UniMath.CategoryTheory.limits.equalizers]
def_FinOrdCoproducts [in UniMath.CategoryTheory.limits.FinOrdCoproducts]
def_bindirectsums [in UniMath.CategoryTheory.limits.BinDirectSums]
def_additive_kernel_cokernel [in UniMath.CategoryTheory.PreAdditive]
def_preadditive [in UniMath.CategoryTheory.PreAdditive]
def_subobjects [in UniMath.CategoryTheory.Subobjects]
def_kernel_cokernel_complex [in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_homotopy [in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_functor_additive [in UniMath.HomologicalAlgebra.CohomologyComplex]
def_quasi_isomorphisms [in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology'_complex [in UniMath.HomologicalAlgebra.CohomologyComplex]
def_cohomology_complex [in UniMath.HomologicalAlgebra.CohomologyComplex]
def_commrig_category [in UniMath.CategoryTheory.categories.commrigs]
def_commrig_precategory [in UniMath.CategoryTheory.categories.commrigs]
def_triangulated [in UniMath.HomologicalAlgebra.Triangulated]
def_pretrangulated [in UniMath.HomologicalAlgebra.Triangulated]
def_pretriangulated_data [in UniMath.HomologicalAlgebra.Triangulated]
def_pretriang_data [in UniMath.HomologicalAlgebra.Triangulated]
def_triangles [in UniMath.HomologicalAlgebra.Triangulated]
def_shortexactseqs [in UniMath.CategoryTheory.ShortExactSequences]
def_monic [in UniMath.CategoryTheory.Monics]
def_functor_pointwise_prod.product_of_functors.vertex [in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod.product_of_functors [in UniMath.CategoryTheory.limits.products]
def_functor_pointwise_prod [in UniMath.CategoryTheory.limits.products]
def_initial [in UniMath.CategoryTheory.limits.graphs.initial]
def_opposites' [in UniMath.CategoryTheory.limits.Opp]
def_opposites [in UniMath.CategoryTheory.limits.Opp]
def_FinOrdProducts [in UniMath.CategoryTheory.limits.FinOrdProducts]
def_rig_category [in UniMath.CategoryTheory.categories.rigs]
def_rig_precategory [in UniMath.CategoryTheory.categories.rigs]
def_complexes [in UniMath.HomologicalAlgebra.Complexes]
def_pb.pullback_lemma [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb [in UniMath.CategoryTheory.limits.graphs.pullbacks]
def_pb.pullback_lemma [in UniMath.CategoryTheory.limits.pullbacks]
def_pb [in UniMath.CategoryTheory.limits.pullbacks]
def_zero [in UniMath.CategoryTheory.limits.graphs.zero]
def_precategory_with_abgrops [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
def_additive [in UniMath.CategoryTheory.Additive]
def_monoid_category [in UniMath.CategoryTheory.categories.monoids]
def_monoid_precategory [in UniMath.CategoryTheory.categories.monoids]
def_coequalizers [in UniMath.CategoryTheory.limits.coequalizers]
def_intdom_category [in UniMath.CategoryTheory.categories.intdoms]
def_intdom_precategory [in UniMath.CategoryTheory.categories.intdoms]
def_ptd [in UniMath.CategoryTheory.PointedFunctors]
def_underprecategories [in UniMath.CategoryTheory.UnderCategories]
def_epi [in UniMath.CategoryTheory.Epis]
def_commring_category [in UniMath.CategoryTheory.categories.commrings]
def_commring_precategory [in UniMath.CategoryTheory.categories.commrings]
def_abmonoid_category [in UniMath.CategoryTheory.categories.abmonoids]
def_abmonoid_precategory [in UniMath.CategoryTheory.categories.abmonoids]
def_terminal [in UniMath.CategoryTheory.limits.terminal]
def_shortshortexactdata [in UniMath.CategoryTheory.Morphisms]
def_morphismpair [in UniMath.CategoryTheory.Morphisms]
def_functor_pointwise_binprod.BinProduct_of_functors.vertex [in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod.BinProduct_of_functors [in UniMath.CategoryTheory.limits.binproducts]
def_functor_pointwise_binprod [in UniMath.CategoryTheory.limits.binproducts]
delta_functor_adjunction [in UniMath.CategoryTheory.Adjunctions.Examples]
dep_product_precategory [in UniMath.CategoryTheory.ProductCategory]
Derived_laws [in UniMath.Bicategories.Core.Bicat]
diagram_def.diagram_from_functor [in UniMath.CategoryTheory.limits.graphs.colimits]
diagram_def [in UniMath.CategoryTheory.limits.graphs.colimits]
Dinatural [in UniMath.CategoryTheory.Profunctors.Core]
Dinatural.Accessors [in UniMath.CategoryTheory.Profunctors.Core]
Directed [in UniMath.Algebra.FixedPointTheorems]
directedfamily [in UniMath.Algebra.Dcpo]
Dirprod [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Dirprod_utils [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
discrete_bicat [in UniMath.Bicategories.Core.Bicat]
Discrete_Fiber [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fiber_Precategory [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
Discrete_Fibrations.Equivalence_disc_fibs_presheaves [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Discrete_Fibrations [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
DispAssocFunctors [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DispCartProdOfCats [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DispCartProdOfFunctors [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
DispDepprod [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DispDepprod.DepProdBicatDispGloballyUnivalent [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DispDepprod.DepProdBicatDispLocallyUnivalent [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
DispInvModification [in UniMath.Bicategories.DisplayedBicats.DispModification]
DisplayedBiadjunction [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
DisplayedBiequivalence [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
DisplayedBiequivalence.total_biequivalence [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
DisplayedInserter [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
DisplayedInserter.DispAdjEquivToInv2Cell [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
DisplayedInserter.Inv2CellToDispAdjEquiv [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
Displayed_Internal_Adjunction [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
Displayed_Global_Univalence [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Displayed_Local_Univalence [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Displayed_Equiv_Compose [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Displayed_Equiv_Inv [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
DispModification [in UniMath.Bicategories.DisplayedBicats.DispModification]
DispProjectionIsContractible [in UniMath.CategoryTheory.DisplayedCats.Projection]
DispProjectionIsFaithful [in UniMath.CategoryTheory.DisplayedCats.Projection]
DispProjectionIsFull [in UniMath.CategoryTheory.DisplayedCats.Projection]
DispProjectionIsFullAndFaithful [in UniMath.CategoryTheory.DisplayedCats.Projection]
DispProjectionIsPropositional [in UniMath.CategoryTheory.DisplayedCats.Projection]
DispPseudofunctor [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispPseudofunctorInvertible_2cell [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispPseudofunctor_comp [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispPseudofunctor_identity [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispPseudofunctor.DispPseudofunctorLaws [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispPseudofunctor.Projections [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
DispTransAssociativiy [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTransformation [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTransformation.DispPstransLaws [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTransUnitality [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTrans_rwhisker [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTrans_lwhisker [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTrans_comp [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTrans_identity [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
DispTwoInserter [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
Disp_Prebicat_Cells_Unit [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
Disp_Nat_Trans [in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Functor.Total_Functors [in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Functor.Functor_Properties.ff_reflects_isos [in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Functor.Functor_Properties [in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Functor.Functors_on_isos [in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Functor [in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Cat.Lemmas [in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Cat [in UniMath.CategoryTheory.DisplayedCats.Core]
Disp_Univalent_2 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_prebicat.total_prebicat [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.Derived_Laws [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.Display_Invertible_2cell.Def_inv_2cell [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.Display_Invertible_2cell [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.disp_prebicat_law_projections [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.disp_prebicat_laws [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat.disp_prebicat_ops_projections [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_fix_fst_arg [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
Disp_Dirprod [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
Disp_PreDirprod [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_adjunction.notation [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
disp_adjunction [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
DivRig_pty [in UniMath.Algebra.DivisionRig]
DomainArrow [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
DomainCleaving [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]

E

EffectiveEpi [in UniMath.CategoryTheory.EpiFacts]
Elements_Disp [in UniMath.CategoryTheory.DisplayedCats.Examples]
elems_slice_equiv [in UniMath.CategoryTheory.elems_slice_equiv]
Endofunctors_as_monoidal_category [in UniMath.CategoryTheory.Monoidal.EndofunctorsMonoidal]
Ends [in UniMath.CategoryTheory.Profunctors.Core]
eo_pty [in UniMath.RealNumbers.Sets]
EpiPushoutId [in UniMath.CategoryTheory.limits.pushouts]
epis_initial [in UniMath.CategoryTheory.limits.initial]
epis_functorcategories [in UniMath.CategoryTheory.Epis]
epis_subcategory [in UniMath.CategoryTheory.Epis]
epi_po [in UniMath.CategoryTheory.limits.pushouts]
Eqspec.Make_Monoid_Eqalgebra [in UniMath.Algebra.Universal.Examples.Monoid]
equalizers_coincide [in UniMath.CategoryTheory.limits.graphs.equalizers]
Equalizers' [in UniMath.CategoryTheory.limits.equalizers]
Equations [in UniMath.Algebra.Universal.Equations]
EquivalenceOfTwoDefinitions [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Equivalences [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Equivalences [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
EquivalentDefinition [in UniMath.CategoryTheory.limits.bincoproducts]
EquivalentDefinition [in UniMath.CategoryTheory.limits.binproducts]
EquivToAdjEquiv [in UniMath.Bicategories.Core.EquivToAdjequiv]
Equiv_Fibers [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Equiv_from_ff_plus_ess_split [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Equiv_Fibers [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Equiv_from_ff_plus_ess_split [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
eqv_inv [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
eqv_comp [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
Essential_Surjectivity [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
Essential_Surjectivity [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Evaluation [in UniMath.CategoryTheory.PrecategoryBinProduct]
ExactCategoryAccessFunctions [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryFacts [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryFacts.Tmp [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExponentialFunctor [in UniMath.CategoryTheory.categories.Type.Structures]
exponentials [in UniMath.CategoryTheory.exponentials]
exponentials [in UniMath.CategoryTheory.categories.HSET.Structures]
exponentials_functor_cat [in UniMath.CategoryTheory.categories.HSET.Structures]
ExtendPseudoFunctor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Ext_isomorphisms [in UniMath.HomologicalAlgebra.Triangulated]

F

facts [in UniMath.CategoryTheory.limits.zero]
Fiber [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Fibered [in UniMath.Induction.W.Fibered]
FiberOfBiequiv [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
FiberOfFunctor [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
Fiber_Functors.fix_context [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Fiber_Functors [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_functor_from_cleaving [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fiber_ext [in UniMath.HomologicalAlgebra.MappingCone]
Fibrations [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
filterbase [in UniMath.Topology.Filters]
filterdirprod [in UniMath.Topology.Filters]
filterdom [in UniMath.Topology.Filters]
filtergenerated [in UniMath.Topology.Filters]
filterim [in UniMath.Topology.Filters]
filterintersection [in UniMath.Topology.Filters]
filternat [in UniMath.Topology.Filters]
filtersubtype [in UniMath.Topology.Filters]
filtertop [in UniMath.Topology.Filters]
Filter_pty [in UniMath.Topology.Filters]
Filter_def [in UniMath.Topology.Filters]
Final [in UniMath.Bicategories.Colimits.Final]
Final_Bicategory [in UniMath.Bicategories.Core.Examples.Final]
FinOrdCoproduct_criteria [in UniMath.CategoryTheory.limits.FinOrdCoproducts]
FinOrdProduct_criteria [in UniMath.CategoryTheory.limits.FinOrdProducts]
five_lemma [in UniMath.CategoryTheory.FiveLemma]
five_lemma_opp [in UniMath.CategoryTheory.FiveLemma]
five_lemma_data [in UniMath.CategoryTheory.FiveLemma]
fixacategory [in UniMath.CategoryTheory.FunctorAlgebras]
FixAFinal [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
FixALocallyGrpd [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
FixAMonoidalCategory [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
FixAnInitial [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
FixDispTensor [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
Fixpoints [in UniMath.Algebra.FixedPointTheorems]
fix_a_category [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
fix_a_category.about_signatures.fix_a_θ.Strength_law_2_intensional [in UniMath.SubstitutionSystems.Signatures]
fix_a_category.about_signatures.fix_a_θ.Strength_law_1_intensional [in UniMath.SubstitutionSystems.Signatures]
fix_a_category.about_signatures.fix_a_θ [in UniMath.SubstitutionSystems.Signatures]
fix_a_category.about_signatures [in UniMath.SubstitutionSystems.Signatures]
fix_a_category [in UniMath.SubstitutionSystems.Signatures]
fix_a_category.def_hss.hssMor_equality [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss.from_identity_to_hss [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.def_hss [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.prep_hss.fix_a_prestrength [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.prep_hss.instantiate_with_identity [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.prep_hss.fix_a_pointed_functor [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category.prep_hss [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_a_category [in UniMath.SubstitutionSystems.SubstitutionSystems]
fix_disp_adjunction.DispHomSetIso_from_Adjunction [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fix_disp_adjunction [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
fld_struct [in UniMath.RealNumbers.Fields]
fld_proj [in UniMath.RealNumbers.Fields]
folds_precat_implies_univalent [in UniMath.Folds.folds_pre_2_cat]
folds_iso_def.iso_from_folds_from_iso [in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_folds_iso_to_iso [in UniMath.Folds.folds_isomorphism]
folds_iso_def.from_iso_to_folds_iso [in UniMath.Folds.folds_isomorphism]
folds_iso_def.folds_iso_comp [in UniMath.Folds.folds_isomorphism]
folds_iso_def.folds_iso_inverse [in UniMath.Folds.folds_isomorphism]
folds_iso_def.about_folds_isos.fix_a_folds_iso [in UniMath.Folds.folds_isomorphism]
folds_iso_def.about_folds_isos [in UniMath.Folds.folds_isomorphism]
folds_iso_def [in UniMath.Folds.folds_isomorphism]
ForgetLModFunctor [in UniMath.CategoryTheory.Monads.LModules]
Fractions [in UniMath.Algebra.Groups]
FreeAlgebras [in UniMath.Algebra.Universal.FreeAlgebras]
from_submodule [in UniMath.Algebra.Modules.Quotient]
from_fully_faithful_and_ess_surj_to_equivalence [in UniMath.CategoryTheory.Equivalences.Core]
from_equiv_to_fully_faithful [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
from_folds_to_precats [in UniMath.Folds.from_precats_to_folds_and_back]
from_precats_to_folds.data [in UniMath.Folds.from_precats_to_folds_and_back]
from_precats_to_folds [in UniMath.Folds.from_precats_to_folds_and_back]
FullSubBicat [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
FullyFaithful [in UniMath.CategoryTheory.Subcategory.Full]
full_sub_cat [in UniMath.CategoryTheory.Subcategory.Full]
full_subcat [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Function_Posets [in UniMath.Algebra.FixedPointTheorems]
Functor [in UniMath.CategoryTheory.DisplayedCats.Constructions]
FunctorAlg_saturated [in UniMath.CategoryTheory.FunctorAlgebras]
FunctorComposition [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
FunctorFromEmpty [in UniMath.CategoryTheory.categories.StandardCategories]
FunctorLaws [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
FunctorLaws [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
functors [in UniMath.CategoryTheory.ProductCategory]
functors [in UniMath.CategoryTheory.limits.coproducts]
functors [in UniMath.CategoryTheory.Core.Functors]
functors [in UniMath.CategoryTheory.limits.bincoproducts]
functors [in UniMath.CategoryTheory.PrecategoryBinProduct]
FunctorsDisplayed [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
functors_on_iso_with_inv [in UniMath.CategoryTheory.Core.Functors]
functors.Constant_Functor [in UniMath.CategoryTheory.Core.Functors]
functors.functors_and_idtoiso [in UniMath.CategoryTheory.Core.Functors]
FunctorToUnit [in UniMath.CategoryTheory.categories.StandardCategories]
Functor_from_RelModule [in UniMath.CategoryTheory.Monads.RelativeModules]
functor_equalities [in UniMath.CategoryTheory.Core.Functors]
Functor_Lifting [in UniMath.CategoryTheory.DisplayedCats.Core]
functor_algebras [in UniMath.CategoryTheory.DisplayedCats.Examples]
functor_fix_snd_arg [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_on_square.ff_es_functor_preserves_pb [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square.isPullback_if_functor_on_square_is [in UniMath.CategoryTheory.limits.pullbacks]
functor_on_square [in UniMath.CategoryTheory.limits.pullbacks]
functor_swap [in UniMath.CategoryTheory.Adjunctions.Examples]

G

generalized_option_functors.option_functor [in UniMath.CategoryTheory.limits.bincoproducts]
generalized_option_functors [in UniMath.CategoryTheory.limits.bincoproducts]
general_comma_categories [in UniMath.CategoryTheory.CommaCategories]
GenMenIt [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.fusion_law [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.fusion_law [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.special_case [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.general_case [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle [in UniMath.SubstitutionSystems.GenMendlerIteration]
GenMenIt.the_iteration_principle.special_case [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle.general_case [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
GenMenIt.the_iteration_principle [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
girard [in UniMath.Paradoxes.GirardsParadox]
GrCosets [in UniMath.Algebra.Groups]
Greatest [in UniMath.Algebra.FixedPointTheorems]
GreatestLowerBound [in UniMath.RealNumbers.Sets]

H

hcomp_functor [in UniMath.Bicategories.Core.Bicat]
HomDisplayedCategory [in UniMath.Bicategories.DisplayedBicats.DispBicat]
HomFunctors [in UniMath.CategoryTheory.categories.Type.Core]
homogeneous_case.strength_in_signature_is_a_relative_strength [in UniMath.SubstitutionSystems.Signatures]
homogeneous_case.relative_strength_instantiates_to_signature [in UniMath.SubstitutionSystems.Signatures]
homogeneous_case [in UniMath.SubstitutionSystems.Signatures]
HomSetIso_from_Adjunction [in UniMath.CategoryTheory.Adjunctions.Core]
HomtypeProperties [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
Hom_Spaces [in UniMath.Bicategories.Core.Bicat]
horizontal_composition [in UniMath.CategoryTheory.HorizontalComposition]
hProp_lattice [in UniMath.Algebra.Lattice]
hProp_logic [in UniMath.MoreFoundations.Propositions]
HSET_precategory [in UniMath.CategoryTheory.categories.HSET.Core]
HSET_Structures [in UniMath.CategoryTheory.categories.HSET.Limits]

I

Identitor [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
IdentityFunctor [in UniMath.Bicategories.PseudoFunctors.Examples.Identity]
Idtoiso [in UniMath.Bicategories.Core.Univalence]
IdTo2MorLaws [in UniMath.CategoryTheory.Core.TwoCategories]
id_signature [in UniMath.SubstitutionSystems.SignatureExamples]
Inclusion [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
InducedExactCategory [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Initial [in UniMath.Bicategories.Colimits.Initial]
InitialFunctorCat [in UniMath.CategoryTheory.limits.initial]
InitialRep [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.fix_a_representation [in UniMath.SubstitutionSystems.ModulesFromSignatures]
InitialRep.TauModuleMorphism [in UniMath.SubstitutionSystems.ModulesFromSignatures]
Initial_Bicategory [in UniMath.Bicategories.Core.Examples.Initial]
Initial_and_EmptyCoprod [in UniMath.CategoryTheory.limits.initial]
Initial_Unique [in UniMath.CategoryTheory.limits.initial]
Instantiation_To_Bicategory_Of_Categories [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.ActionBased_Strength_From_Signature.Morphisms [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.ActionBased_Strength_From_Signature.IndividualSignatures [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.ActionBased_Strength_From_Signature [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.Signature_From_ActionBased_Strength.Morphisms [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.Signature_From_ActionBased_Strength.IndividualStrongFunctors [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.Signature_From_ActionBased_Strength.IndividualFunctorsWithABStrength [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.Signature_From_ActionBased_Strength [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors.a_different_type_for_the_forgetful_functor_from_ptd [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Instantiation_To_FunctorCategory_And_PointedEndofunctors [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
interface [in UniMath.CategoryTheory.RepresentableFunctors.Test]
interface.coproduct_unique [in UniMath.CategoryTheory.RepresentableFunctors.Test]
Internal_Adjunction [in UniMath.Bicategories.Core.Adjunctions]
intersection_facts [in UniMath.AlgebraicGeometry.Topology]
InvestigateNotations [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
InvRot [in UniMath.MoreFoundations.PartA]
inv_rotation_mapping_cone [in UniMath.HomologicalAlgebra.MappingCone]
IsCartesianFromReindexDispCat [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
IsEffectivePw [in UniMath.CategoryTheory.EpiFacts]
IsoCommaCategory [in UniMath.CategoryTheory.IsoCommaCategory]
IsoCommaCategory.UniversalMappingProperty [in UniMath.CategoryTheory.IsoCommaCategory]
IsoCommaUMP [in UniMath.Bicategories.Colimits.Pullback]
Isofibrations [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
isofibration_from_disp_over_univalent [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
IsoInvertible2Cells [in UniMath.Bicategories.Core.Univalence]
IsoLModPb [in UniMath.CategoryTheory.Monads.LModules]
Isos [in UniMath.CategoryTheory.DisplayedCats.Core]
iso_presheaf [in UniMath.CategoryTheory.Presheaf]
iso_yoneda_binproducts [in UniMath.CategoryTheory.YonedaBinproducts]
is_univalent_implies_folds_precat [in UniMath.Folds.folds_pre_2_cat]
iterbuild [in UniMath.Algebra.Universal.Terms]

J

J20 [in UniMath.Bicategories.Core.Univalence]
J21 [in UniMath.Bicategories.Core.Univalence]

K

KAPreTriangulated [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KATriangulated [in UniMath.HomologicalAlgebra.KATriangulated]
kelly_left_pieces [in UniMath.Bicategories.WkCatEnrichment.whiskering]
KernelCokernelPairs [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
kernels_monics [in UniMath.CategoryTheory.limits.kernels]
kernels_iso [in UniMath.CategoryTheory.limits.kernels]
kernel_in_paths [in UniMath.CategoryTheory.limits.kernels]
kernel_equalizers [in UniMath.CategoryTheory.limits.kernels]
kernel_pair_Set [in UniMath.CategoryTheory.categories.HSET.Structures]
Kleisli_cat [in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_precat [in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_Categories [in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_precategory [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_defn [in UniMath.CategoryTheory.Monads.KTriples]

L

Lam [in UniMath.SubstitutionSystems.STLC]
Lam [in UniMath.SubstitutionSystems.STLC_alt]
Lam [in UniMath.SubstitutionSystems.LamFromBindingSig]
Lambda [in UniMath.SubstitutionSystems.Lam]
Lambda [in UniMath.SubstitutionSystems.LamSignature]
lambdacalculus [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
Lambeks_lemma [in UniMath.CategoryTheory.FunctorAlgebras]
Lambek_dual [in UniMath.CategoryTheory.FunctorCoalgebras]
LamHSET [in UniMath.SubstitutionSystems.LamHSET]
latticedec_gt [in UniMath.Algebra.Lattice]
latticedec_pty [in UniMath.Algebra.Lattice]
LatticeObject_accessors [in UniMath.CategoryTheory.LatticeObject]
LatticeObject_def [in UniMath.CategoryTheory.LatticeObject]
latticewithgt_pty [in UniMath.Algebra.Lattice]
lattice_abmonoid [in UniMath.Algebra.Lattice]
lattice_le [in UniMath.Algebra.Lattice]
lattice_pty [in UniMath.Algebra.Lattice]
laws [in UniMath.Bicategories.Core.BicategoryLaws]
LaxFunctorBicat [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
Least [in UniMath.Algebra.FixedPointTheorems]
leastfixedpoint [in UniMath.Algebra.Dcpo]
LeastUpperBound [in UniMath.RealNumbers.Sets]
leastupperbound [in UniMath.Algebra.Dcpo]
LeastUpperBounds [in UniMath.Algebra.FixedPointTheorems]
leftunit [in UniMath.CategoryTheory.HorizontalComposition]
LeftUnitality [in UniMath.Bicategories.Transformations.Examples.Unitality]
LeftUnitality [in UniMath.Bicategories.Modifications.Examples.Unitality]
LeftWhisker [in UniMath.Bicategories.Transformations.Examples.Whiskering]
left_right_shortexact_and_pullbacks_pushouts [in UniMath.CategoryTheory.ShortExactSequences]
Lemmas [in UniMath.Combinatorics.FiniteSequences]
lemmas_on_pushouts [in UniMath.CategoryTheory.limits.pushouts]
lemmas_on_pullbacks.pullback_iso [in UniMath.CategoryTheory.limits.pullbacks]
lemmas_on_pullbacks [in UniMath.CategoryTheory.limits.pullbacks]
lemmas_on_const_comma_cats [in UniMath.CategoryTheory.CommaCategories]
Lge_pty [in UniMath.Algebra.Lattice]
LiftEpiNatTrans [in UniMath.CategoryTheory.SetValuedFunctors]
Liftings [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Liftings [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Liftings.Lifting_from_dist_law [in UniMath.CategoryTheory.Monads.MonadAlgebras]
LiftSurjection [in UniMath.Foundations.Sets]
Lift2CellFibs [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
Lift2CellInvertible [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
LimFunctor [in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor [in UniMath.CategoryTheory.limits.graphs.limits]
limits [in UniMath.CategoryTheory.Presheaf]
limits [in UniMath.CategoryTheory.categories.HSET.Limits]
Limits [in UniMath.CategoryTheory.Subcategory.Limits]
Lims [in UniMath.CategoryTheory.limits.cats.limits]
Lims [in UniMath.CategoryTheory.limits.graphs.limits]
Lims.Universal_Unique [in UniMath.CategoryTheory.limits.cats.limits]
Lims.Universal_Unique [in UniMath.CategoryTheory.limits.graphs.limits]
lim_def [in UniMath.CategoryTheory.limits.cats.limits]
lim_def [in UniMath.CategoryTheory.limits.graphs.limits]
list [in UniMath.CategoryTheory.Inductives.Lists]
lists [in UniMath.CategoryTheory.Inductives.Lists]
lists [in UniMath.Combinatorics.Lists]
lists.list_induction [in UniMath.CategoryTheory.Inductives.Lists]
lists.Test [in UniMath.Combinatorics.Lists]
LModule_over_monad.LModule_precategory [in UniMath.CategoryTheory.Monads.LModules]
LModule_over_monad.LModule_def [in UniMath.CategoryTheory.Monads.LModules]
LModule_over_monad [in UniMath.CategoryTheory.Monads.LModules]
LocalIsoFibration [in UniMath.Bicategories.DisplayedBicats.Fibration]
LocalIsoFibration [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.LassociatorLassociator [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
LocalIsoFibration.Projections [in UniMath.Bicategories.DisplayedBicats.Fibration]
localization [in UniMath.Algebra.RigsAndRings.Ideals]
locally_base [in UniMath.Topology.Topology]
LocalNotation [in UniMath.Bicategories.Transformations.PseudoTransformation]
LowerBounds [in UniMath.Algebra.FixedPointTheorems]

M

M [in UniMath.Induction.M.Core]
Main [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
MainResult [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Main.ActionViaBicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Main.Functor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Main.FunctorViaBicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Main.FunctorViaBicat.IntoMonoidalFunctorBicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
map [in UniMath.CategoryTheory.limits.graphs.colimits]
map [in UniMath.CategoryTheory.limits.graphs.limits]
mapcocone_functor_composite [in UniMath.CategoryTheory.limits.graphs.colimits]
mapping_cylinder_KA_iso [in UniMath.HomologicalAlgebra.MappingCylinder]
mapping_cylinder [in UniMath.HomologicalAlgebra.MappingCylinder]
mapping_cone_octa [in UniMath.HomologicalAlgebra.MappingCone]
mapping_cone_ext [in UniMath.HomologicalAlgebra.MappingCone]
mapping_cone_of_id [in UniMath.HomologicalAlgebra.MappingCone]
mapping_cone [in UniMath.HomologicalAlgebra.MappingCone]
Map1Cells [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map1Cells.AllInvertible2CellToDispAdjEquiv [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map2Cells [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
MatrixMult [in UniMath.Algebra.Matrix]
maybe_def.deriv_def [in UniMath.CategoryTheory.Monads.Derivative]
maybe_def [in UniMath.CategoryTheory.Monads.Derivative]
MBindingSig [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig [in UniMath.SubstitutionSystems.MultiSorted]
MBindingSigMonadHSET [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.functor [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.functor [in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.functor.Sorted_Option_Functor [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.monad [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.monad [in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.omega_cocont [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.omega_cocont [in UniMath.SubstitutionSystems.MultiSorted]
MBindingSig.strength [in UniMath.SubstitutionSystems.MultiSorted_alt]
MBindingSig.strength [in UniMath.SubstitutionSystems.MultiSorted]
mineqrel [in UniMath.MoreFoundations.Sets]
Miscellaneous [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
MLTT79 [in UniMath.SubstitutionSystems.MLTT79]
Mod [in UniMath.CategoryTheory.categories.modules]
MonadInSortToC [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
MonadsInHSET_over_sort [in UniMath.SubstitutionSystems.MonadsMultiSorted]
MonadsUsingCoproducts [in UniMath.CategoryTheory.Monads.Monads]
MonadsUsingCoproducts.MonadSubst [in UniMath.CategoryTheory.Monads.Monads]
Monads_from_adjunctions [in UniMath.CategoryTheory.Monads.Monads]
Monad_eq_helper.Monad_Monad'_equiv [in UniMath.CategoryTheory.Monads.Monads]
Monad_eq_helper.Monad'_def [in UniMath.CategoryTheory.Monads.Monads]
Monad_eq_helper [in UniMath.CategoryTheory.Monads.Monads]
Monad_precategory [in UniMath.CategoryTheory.Monads.Monads]
Monad_def.pointfree [in UniMath.CategoryTheory.Monads.Monads]
Monad_def [in UniMath.CategoryTheory.Monads.Monads]
monad_algebras [in UniMath.CategoryTheory.DisplayedCats.Examples]
Monad_Lemmas [in UniMath.CategoryTheory.Monads.KleisliCategory]
monad_types_equiv [in UniMath.CategoryTheory.Monads.Kleisli]
Monad_of_Kleisli_Data [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_of_Kleisli_Data [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
monad_from_hss.mu_from_fbracket.third_monad_law_with_assoc [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss.mu_from_fbracket [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monad_from_hss [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
monics_and_epis_in_preadditive [in UniMath.CategoryTheory.PreAdditive]
monics_functorcategories [in UniMath.CategoryTheory.Monics]
monics_subcategory [in UniMath.CategoryTheory.Monics]
monics_and_epis_in_additive [in UniMath.CategoryTheory.Additive]
monics_terminal [in UniMath.CategoryTheory.limits.terminal]
monic_pb [in UniMath.CategoryTheory.limits.pullbacks]
Monoidal_Cat_From_Bicat [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
Monoidal_Functor.Monoidal_Functor_Conditions [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Monoidal_Functor [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Monoidal_Cat_Accessors [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
Monoidal_Precat [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_functor_to_psfunctor [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
Monoidal_Structure_on_Endofunctors [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Monoids [in UniMath.Algebra.IteratedBinaryOperations]
Monoids2 [in UniMath.Algebra.IteratedBinaryOperations]
more_lists [in UniMath.Combinatorics.Lists]
morphismofdcpos [in UniMath.Algebra.Dcpo]
MorphismPairs [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
MorphismPair_opp [in UniMath.CategoryTheory.Morphisms]
morphismsofdcpos_formdcpo [in UniMath.Algebra.Dcpo]
MorphismsOfRelativeMonads [in UniMath.CategoryTheory.Monads.RelativeMonads]
Mult [in UniMath.Algebra.IteratedBinaryOperations]

N

NAction [in UniMath.CategoryTheory.DisplayedCats.Examples]
Nat [in UniMath.Algebra.Universal.Examples.Tests]
NatCard [in UniMath.Algebra.IteratedBinaryOperations]
NatHom [in UniMath.Algebra.Universal.Examples.Tests]
NatLowLevel [in UniMath.Algebra.Universal.Examples.Tests]
Nats [in UniMath.CategoryTheory.FunctorAlgebras]
NaturalNumbers [in UniMath.Induction.ImpredicativeInductiveSets]
nat_examples [in UniMath.CategoryTheory.Inductives.Lists]
nat_trans.nat_trans_comp_laws [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans.nat_trans_functor [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans.nat_trans_eq [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_fix_snd_arg [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_examples [in UniMath.CategoryTheory.Inductives.Trees]
Nat_Trans_Disp_Inv [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
Neighborhood [in UniMath.Topology.Topology]
NiceBuilders [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
nno [in UniMath.CategoryTheory.NNO]
NotationTest [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]

O

Octa_isomorphisms [in UniMath.HomologicalAlgebra.Triangulated]
OneOp [in UniMath.Algebra.Matrix]
OneOpMat [in UniMath.Algebra.Matrix]
OneTypesBinprodUMP [in UniMath.Bicategories.Colimits.Products]
OneTypesPullbackUMP [in UniMath.Bicategories.Colimits.Pullback]
Open [in UniMath.Topology.Topology]
open_category [in UniMath.AlgebraicGeometry.SheavesOfRings]
OperationsDistrLaws [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Opfibrations [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
Oplists [in UniMath.Algebra.Universal.Terms]
OppositeExactCategory [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opp_abelian' [in UniMath.CategoryTheory.Abelian]
opp_abelian [in UniMath.CategoryTheory.Abelian]
opp_rezk_universal_property.fix_a_category [in UniMath.CategoryTheory.rezk_completion]
opp_rezk_universal_property [in UniMath.CategoryTheory.rezk_completion]
opp_functor_properties [in UniMath.CategoryTheory.opp_precat]
op2 [in UniMath.Bicategories.Core.Examples.OpCellBicat]
OrderedSets [in UniMath.Combinatorics.WellFoundedRelations]
OtherProperties [in UniMath.Combinatorics.OrderedSets]
OtherProperties.ClassicalProperties [in UniMath.Combinatorics.OrderedSets]
Overview [in UniMath.Algebra.FixedPointTheorems]
over_terminal_category [in UniMath.CategoryTheory.DisplayedCats.Examples]

P

PbmFunctor [in UniMath.CategoryTheory.Monads.LModules]
pb_criteria [in UniMath.CategoryTheory.limits.pullbacks]
pcf [in UniMath.SubstitutionSystems.PCF_alt]
Pi0 [in UniMath.MoreFoundations.Sets]
PL [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.FoldComputationLemmas [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL.PL_ind [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PointedFunctors_as_monoidal_category [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
PointedTypes [in UniMath.MoreFoundations.PartA]
Pointwise [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
PointwiseEpi [in UniMath.CategoryTheory.EpiFacts]
PolynomialFunctors [in UniMath.Induction.PolynomialFunctors]
power_precategory [in UniMath.CategoryTheory.ProductCategory]
po_criteria [in UniMath.CategoryTheory.limits.pushouts]
po_pty [in UniMath.RealNumbers.Sets]
po_category_def [in UniMath.CategoryTheory.categories.preorder_categories]
PreAdditive [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
preadditive_quotient [in UniMath.CategoryTheory.PreAdditive]
preadditive_inv_comp [in UniMath.CategoryTheory.PreAdditive]
preadditive_with_zero [in UniMath.CategoryTheory.PreAdditive]
PreAdditive.Foo [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PreAdditive.Tmp [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
preamble [in UniMath.SubstitutionSystems.MLTT79]
prebicat_law_projections [in UniMath.Bicategories.Core.Bicat]
PrecategoryOfRelativeMonads [in UniMath.CategoryTheory.Monads.RelativeMonads]
precategory_binproduct [in UniMath.CategoryTheory.PrecategoryBinProduct]
Precategory_of_SkewMonoids [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
precomp_w_ess_surj_ff_is_ess_surj.essentially_surjective.preimage [in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj.essentially_surjective [in UniMath.CategoryTheory.precomp_ess_surj]
precomp_w_ess_surj_ff_is_ess_surj [in UniMath.CategoryTheory.precomp_ess_surj]
PreFilter_pty [in UniMath.Topology.Filters]
Preparations [in UniMath.SubstitutionSystems.LamSignature]
presheaves [in UniMath.CategoryTheory.Presheaf]
pre_composition.precomp_with_ess_surj_full_functor_is_full.full [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition.precomp_with_ess_surj_full_functor_is_full [in UniMath.CategoryTheory.precomp_fully_faithful]
pre_composition [in UniMath.CategoryTheory.precomp_fully_faithful]
prime [in UniMath.Algebra.RigsAndRings.Ideals]
prime_facts [in UniMath.Algebra.RigsAndRings.Ideals]
Product [in UniMath.Bicategories.Colimits.Products]
Products [in UniMath.CategoryTheory.limits.products]
products_from_limits [in UniMath.CategoryTheory.limits.products]
product_functor [in UniMath.CategoryTheory.limits.products]
Product_unique [in UniMath.CategoryTheory.limits.products]
product_def [in UniMath.CategoryTheory.limits.products]
Product.Projections [in UniMath.Bicategories.Colimits.Products]
Product.UniversalMappingPropertyStatements [in UniMath.Bicategories.Colimits.Products]
ProgressiveMaps [in UniMath.Algebra.FixedPointTheorems]
Projection [in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
Projection [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Projections [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Projections [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
Projections [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
Projections [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
ProjectionsBinop [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
ProjectionsPointedBinop [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
Projections_and_Laws_2 [in UniMath.CategoryTheory.Monads.RelativeModules]
Projections2 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
Projections3 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
Prop_disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
PseudoFunctorBicat [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
PseudoFunctorData [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
PseudoFunctorDerivedLaws [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
PseudoFunctorLocalFunctor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
PseudoMorphism [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
psfunctor_to_monoidal_functor [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
Pullback [in UniMath.Bicategories.Colimits.Pullback]
Pullbacks [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Pullbacks [in UniMath.CategoryTheory.slicecat]
Pullbacks_Cartesian [in UniMath.CategoryTheory.DisplayedCats.Codomain]
pullbacks_slice_products_equiv [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
pullbacks_functor_category [in UniMath.CategoryTheory.limits.pullbacks]
pullbacks_pointwise [in UniMath.CategoryTheory.limits.pullbacks]
Pullbacks.OppositeIsoArrows [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pullback_deriv [in UniMath.CategoryTheory.Monads.Derivative]
pullback_paths [in UniMath.CategoryTheory.limits.pullbacks]
pullback_up_to_iso [in UniMath.CategoryTheory.limits.pullbacks]
Pullback_Composition [in UniMath.CategoryTheory.Monads.LModules]
Pullback_Identity_Module [in UniMath.CategoryTheory.Monads.LModules]
Pullback_Module_Morphism [in UniMath.CategoryTheory.Monads.LModules]
Pullback_module [in UniMath.CategoryTheory.Monads.LModules]
Pullback.UniversalMappingPropertyStatements [in UniMath.Bicategories.Colimits.Pullback]
pushout_coincide [in UniMath.CategoryTheory.limits.graphs.pushouts]
pushout_paths [in UniMath.CategoryTheory.limits.pushouts]
pushout_up_to_iso [in UniMath.CategoryTheory.limits.pushouts]
pushout_monic_pullback_epi [in UniMath.CategoryTheory.AbelianPushoutPullback]

Q

QuotientFunctor [in UniMath.CategoryTheory.SetValuedFunctors]
quotmod_def [in UniMath.Algebra.Modules.Quotient]
quotmod_submodule [in UniMath.Algebra.Modules.Quotient]
quotmod_rel [in UniMath.Algebra.Modules.Quotient]

R

Refinement [in UniMath.Induction.M.ComputationalM]
Reflects [in UniMath.CategoryTheory.limits.graphs.limits]
Reindexing [in UniMath.CategoryTheory.DisplayedCats.Core]
reindexing_disp_functor [in UniMath.CategoryTheory.DisplayedCats.Core]
RelAdjunctionWithKleisliCategory [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelatedFacts [in UniMath.SyntheticHomotopyTheory.Circle2]
RelativeAdjunction_by_natural_hom_weq [in UniMath.CategoryTheory.Adjunctions.Core]
RelativeMonads_saturated [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelModule_Category [in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Morphism_Definition.Part2 [in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Morphism_Definition.Part1 [in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Morphism_Definition [in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Definition.Projections_and_Laws [in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Definition [in UniMath.CategoryTheory.Monads.RelativeModules]
RepresentableFunctor [in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableModification [in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableTransformation [in UniMath.Bicategories.PseudoFunctors.Representable]
Restriction [in UniMath.CategoryTheory.Adjunctions.Restriction]
restriction [in UniMath.AlgebraicGeometry.Spec]
restriction_facts [in UniMath.AlgebraicGeometry.Spec]
RewritingAids [in UniMath.CategoryTheory.PreAdditive]
rezk [in UniMath.CategoryTheory.rezk_completion]
rezk_universal_property.fix_a_category [in UniMath.CategoryTheory.rezk_completion]
rezk_universal_property [in UniMath.CategoryTheory.rezk_completion]
RightKanExtension [in UniMath.CategoryTheory.RightKanExtension]
RightKanExtensionFromLims [in UniMath.CategoryTheory.RightKanExtension]
RightKanExtensionFromLims.fix_T [in UniMath.CategoryTheory.RightKanExtension]
RightUnitality [in UniMath.Bicategories.Transformations.Examples.Unitality]
RightUnitality [in UniMath.Bicategories.Modifications.Examples.Unitality]
RightWhisker [in UniMath.Bicategories.Transformations.Examples.Whiskering]
RMonad_def [in UniMath.CategoryTheory.Monads.RelativeMonads]
RMonad_transfer.RelMonad_transfer_radj_morphism [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_radj_object [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_morphism [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer.RelMonad_transfer_object [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RMonad_transfer [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
rotation_isos [in UniMath.HomologicalAlgebra.Triangulated]
rotation_mapping_cone [in UniMath.HomologicalAlgebra.MappingCone]

S

Sanity [in UniMath.CategoryTheory.ExactCategories.Tests]
Sanity2 [in UniMath.CategoryTheory.ExactCategories.Tests]
section [in UniMath.AlgebraicGeometry.Spec]
Sections [in UniMath.CategoryTheory.DisplayedCats.Core]
SectionsAndRetractions [in UniMath.CategoryTheory.Core.Categories]
section_tensor [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
section_commring [in UniMath.AlgebraicGeometry.Spec]
setquot [in UniMath.Ktheory.GrothendieckGroup]
set_slicecat.products_set_slice [in UniMath.CategoryTheory.categories.HSET.Slice]
set_slicecat [in UniMath.CategoryTheory.categories.HSET.Slice]
set_slice_fam_equiv [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
sheaf_commring [in UniMath.AlgebraicGeometry.SheavesOfRings]
sheaf_commring_prop [in UniMath.AlgebraicGeometry.SheavesOfRings]
shortexact_correspondence [in UniMath.CategoryTheory.ShortExactSequences]
shortexact_opp [in UniMath.CategoryTheory.ShortExactSequences]
shortshortexactdata_opp [in UniMath.CategoryTheory.Morphisms]
shortshortexact_iskernel_iscokernel [in UniMath.CategoryTheory.ShortExactSequences]
shortshortexact_to_leftshortexact [in UniMath.CategoryTheory.ShortExactSequences]
shortshortexact_cokernel [in UniMath.CategoryTheory.ShortExactSequences]
short_exact_five_lemma [in UniMath.CategoryTheory.FiveLemma]
short_short_exact_sequences [in UniMath.HomologicalAlgebra.Triangulated]
Sigma [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
Sigma [in UniMath.CategoryTheory.DisplayedCats.Constructions]
SigmaDisplayedUnivalent [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SigmaTotalUnivalent [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
SignatureCategory [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor.Signature_category_mor_diagram [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureCategory.Signature_category_mor [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureLiftModule [in UniMath.SubstitutionSystems.ModulesFromSignatures]
SIP [in UniMath.CategoryTheory.DisplayedCats.SIP]
slicecat_terminal [in UniMath.CategoryTheory.slicecat]
slicecat_initial [in UniMath.CategoryTheory.slicecat]
slicecat_coproducts [in UniMath.CategoryTheory.slicecat]
slicecat_bincoproducts [in UniMath.CategoryTheory.slicecat]
slicecat_binproducts [in UniMath.CategoryTheory.slicecat]
slicecat_colimits [in UniMath.CategoryTheory.slicecat]
slicecat_functor_theory [in UniMath.CategoryTheory.slicecat]
slicecat_functor_def [in UniMath.CategoryTheory.slicecat]
slicecat_theory [in UniMath.CategoryTheory.slicecat]
slice_precat_theory [in UniMath.CategoryTheory.slicecat]
slice_precat_def [in UniMath.CategoryTheory.slicecat]
some_lemmas_about_folds_precats [in UniMath.Folds.folds_precat]
SortedTypes [in UniMath.Algebra.Universal.Examples.Tests]
so_pty [in UniMath.Algebra.Lattice]
so_pty [in UniMath.RealNumbers.Sets]
spec [in UniMath.AlgebraicGeometry.Spec]
SplitEpis [in UniMath.CategoryTheory.SplitMonicsAndEpis]
SplitMonic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
SplitSequences [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SplitSequences.Foo [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
StandardFunctions [in UniMath.Bicategories.Colimits.Products]
StandardLimitHomot [in UniMath.Induction.M.Limits]
StandardLimits [in UniMath.Induction.M.Limits]
StandardLimitUP [in UniMath.Induction.M.Limits]
StrictCompositor [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
StrictIdentitor [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
Strictify [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
StrictProjection [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
StrictPseudoFunctorBicat [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
StrictPseudoFunctorData [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
StrictPseudoFunctorDerivedLaws [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
Strict_Fiber_Bicat [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
Strong_Functor_Category.AsDisplayedCategory [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category.Strong_Functor_Category_mor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Monoidal_Functor_Action_Reloaded [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
StructureIdentity [in UniMath.MoreFoundations.StructureIdentity]
Structures [in UniMath.Algebra.Matrix]
structure_sheaf [in UniMath.AlgebraicGeometry.Spec]
struct_hom [in UniMath.CategoryTheory.DisplayedCats.Constructions]
SubboundedlatticeObject [in UniMath.CategoryTheory.LatticeObject]
SublatticeObject [in UniMath.CategoryTheory.LatticeObject]
submodule_helpers [in UniMath.Algebra.Modules.Submodule]
subobj [in UniMath.CategoryTheory.Subobjects]
Subposets [in UniMath.Algebra.FixedPointTheorems]
Sub1CellBicategory [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
sum_of_signatures.construction [in UniMath.SubstitutionSystems.SumOfSignatures]
sum_of_signatures [in UniMath.SubstitutionSystems.SumOfSignatures]
swapped_tensor [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
swapped_tensor [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]

T

Tarski [in UniMath.Algebra.FixedPointTheorems]
Tautological_RelModule [in UniMath.CategoryTheory.Monads.RelativeModules]
Term [in UniMath.Algebra.Universal.Terms]
TermAlgebra [in UniMath.Algebra.Universal.TermAlgebras]
TerminalFunctorCat [in UniMath.CategoryTheory.limits.terminal]
Terminal_and_EmptyProd [in UniMath.CategoryTheory.limits.terminal]
Terminal_Unique [in UniMath.CategoryTheory.limits.terminal]
TermInduction [in UniMath.Algebra.Universal.Terms]
test [in UniMath.CategoryTheory.limits.binproducts]
Tests_el [in UniMath.Combinatorics.VectorsTests]
Test_search [in UniMath.Combinatorics.Tests]
Test_ord.TestLex2 [in UniMath.Combinatorics.Tests]
Test_ord.TestLex [in UniMath.Combinatorics.Tests]
Test_ord [in UniMath.Combinatorics.Tests]
Test_finite_sets [in UniMath.Combinatorics.Tests]
Test_seq [in UniMath.Combinatorics.Tests]
Test_fin.Test_isfinite_isdeceq [in UniMath.Combinatorics.Tests]
Test_fin [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqfromprodofstn [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqstnsum [in UniMath.Combinatorics.Tests]
Test_stn.Test2 [in UniMath.Combinatorics.Tests]
Test_stn.Test_weqdnicompl [in UniMath.Combinatorics.Tests]
Test_stn [in UniMath.Combinatorics.Tests]
Test_list [in UniMath.Combinatorics.Tests]
Test_assoc.Test [in UniMath.Algebra.Tests]
Test_vec_append [in UniMath.Combinatorics.VectorsTests]
Test_vec_foldr1 [in UniMath.Combinatorics.VectorsTests]
Test_vec_foldr [in UniMath.Combinatorics.VectorsTests]
Test_finsum.Iteration [in UniMath.NumberSystems.Tests]
Test_nat.Test_weqdicompl [in UniMath.NumberSystems.Tests]
Test_nat.Test_A [in UniMath.NumberSystems.Tests]
Test_weqtotal2overcoprod [in UniMath.Foundations.Tests]
Test_isweq_iso [in UniMath.Foundations.Tests]
theDefinition [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ThePseudoFunctors [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
ThePseudoFunctors.FunctorCategoryWithFixedSource [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
ThePseudoFunctors.ProductWithFixedSecondArgument [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
tiny_object_preshv [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
top [in UniMath.AlgebraicGeometry.Topology]
topologydirprod [in UniMath.Topology.Topology]
TopologyFromNeighborhood [in UniMath.Topology.Topology]
topologygenerated [in UniMath.Topology.Topology]
topologysubtype [in UniMath.Topology.Topology]
Topology_pty [in UniMath.Topology.Topology]
TotalDispProd [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
Total_invertible_2cells [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
Total_Internal_Adjunction [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
Total_Category.Total_Category_data [in UniMath.CategoryTheory.DisplayedCats.Core]
Total_Category [in UniMath.CategoryTheory.DisplayedCats.Core]
Total_Category_Globally_Univalent [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
Total_Category_Univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
translation_functor [in UniMath.HomologicalAlgebra.TranslationFunctors]
transport_kernels [in UniMath.CategoryTheory.limits.kernels]
transport_hz_toBinDirectSums [in UniMath.HomologicalAlgebra.Complexes]
transport_section' [in UniMath.HomologicalAlgebra.Complexes]
transport_morphisms [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
triangulated_five_lemma [in UniMath.HomologicalAlgebra.Triangulated]
Trivial_Displayed [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
truncminus_gt [in UniMath.Algebra.Lattice]
truncminus_pty [in UniMath.Algebra.Lattice]
TwoOps [in UniMath.Algebra.Matrix]
TwoTypeBiGroupoid [in UniMath.Bicategories.Core.Examples.TwoType]
two_cat_law_projections [in UniMath.CategoryTheory.Core.TwoCategories]

U

undercategories_morphisms [in UniMath.CategoryTheory.UnderCategories]
unfold_data [in UniMath.Bicategories.BicatOfBicategory]
union [in UniMath.AlgebraicGeometry.Topology]
union_facts [in UniMath.AlgebraicGeometry.Topology]
Uniqueness [in UniMath.Induction.W.Uniqueness]
Uniqueness [in UniMath.Bicategories.Colimits.Final]
Uniqueness [in UniMath.Induction.M.Uniqueness]
Uniqueness [in UniMath.Bicategories.Colimits.Initial]
UniquenessAdjoint [in UniMath.Bicategories.Core.AdjointUnique]
unitors [in UniMath.Bicategories.Core.Unitors]
Univalence [in UniMath.CategoryTheory.PrecategoryBinProduct]
UnivalenceImplications [in UniMath.Foundations.UnivalenceAxiom]
UnivalenceOfCodomain [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
UnivalenceOfCodomain.AdjEquivToDispAdjEquiv [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
Univalent_Categories [in UniMath.CategoryTheory.DisplayedCats.Core]
Universal_Unique [in UniMath.CategoryTheory.limits.pushouts]
Universal_Unique [in UniMath.CategoryTheory.limits.pullbacks]
UpperBounds [in UniMath.Algebra.FixedPointTheorems]
Upstream [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
UpstreamInBicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
UpstreamInBicat.EquivalenceInBicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Upstream.TheEquivalence [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Utilities [in UniMath.CategoryTheory.DisplayedCats.Core]

V

Variables [in UniMath.Algebra.Universal.VTerms]
Varieties [in UniMath.Algebra.Universal.EqAlgebras]
VCompDispIsInvertible [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
vecs [in UniMath.Combinatorics.Vectors]

W

W [in UniMath.Induction.W.Core]
Weighting [in UniMath.Algebra.Matrix]
Weqpaths [in UniMath.MoreFoundations.PartA]
whiskering [in UniMath.CategoryTheory.PrecategoryBinProduct]
Working [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
WOSET [in UniMath.CategoryTheory.categories.wosets]
wosetfuncat [in UniMath.CategoryTheory.categories.wosets]

Y

Yoneda [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Yoneda [in UniMath.Bicategories.PseudoFunctors.Yoneda]
YonedaLemma [in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.PresheafToYonedaMor [in UniMath.Bicategories.Core.YonedaLemma]
YonedaLemma.PresheafToYonedaOb [in UniMath.Bicategories.Core.YonedaLemma]
YonedaLocalEquivalence [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_functor_precomp.fix_object [in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp [in UniMath.CategoryTheory.yoneda]

Z

Zero_Unique [in UniMath.CategoryTheory.limits.zero]
zero_coincides [in UniMath.CategoryTheory.limits.graphs.zero]

other

Ω_PreShv [in UniMath.CategoryTheory.Presheaf]
θ_for_postcomposition [in UniMath.SubstitutionSystems.SignatureExamples]

---

Abbreviation Index

A

a [in UniMath.CategoryTheory.FunctorAlgebras]
A [in UniMath.CategoryTheory.FunctorAlgebras]
a [in UniMath.CategoryTheory.Chains.Adamek]
A [in UniMath.CategoryTheory.Chains.Adamek]
A [in UniMath.CategoryTheory.FunctorCoalgebras]
an [in UniMath.CategoryTheory.Chains.Adamek]

B

BINOP [in UniMath.CategoryTheory.category_binops]
BINOP [in UniMath.CategoryTheory.category_binops]
build_gterm [in UniMath.Algebra.Universal.Terms]

C

carrierM0 [in UniMath.Induction.M.ComputationalM]
CD [in UniMath.CategoryTheory.EpiFacts]
CD [in UniMath.CategoryTheory.EpiFacts]
comp_pbm [in UniMath.CategoryTheory.Monads.LModules]
corecM0 [in UniMath.Induction.M.ComputationalM]
C_SET [in UniMath.CategoryTheory.SetValuedFunctors]
C' [in UniMath.Folds.folds_isomorphism]

D

destrM0 [in UniMath.Induction.M.ComputationalM]
d_pb [in UniMath.CategoryTheory.Monads.Derivative]

E

E [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
E [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
EndC [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
eq [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
E₁ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
E₂ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]

F

F [in UniMath.Induction.W.Fibered]
F [in UniMath.Induction.M.Core]
F [in UniMath.Induction.W.Uniqueness]
F [in UniMath.Induction.M.ComputationalM]
F [in UniMath.Induction.M.Uniqueness]
F [in UniMath.CategoryTheory.Adjunctions.Core]
F [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
F [in UniMath.CategoryTheory.exponentials]
F [in UniMath.Induction.W.Core]
finv [in UniMath.Bicategories.Core.EquivToAdjequiv]
flip [in UniMath.MoreFoundations.PartA]
fromgterm [in UniMath.Algebra.Universal.Terms]
fromgtermstep [in UniMath.Algebra.Universal.Terms]
fromstn0 [in UniMath.Combinatorics.FiniteSequences]
FunctorAlg [in UniMath.CategoryTheory.FunctorAlgebras]
F_CoAlg [in UniMath.CategoryTheory.FunctorCoalgebras]
f_to_s [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
F' [in UniMath.CategoryTheory.exponentials]

G

G [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
g [in UniMath.CategoryTheory.categories.HSET.Structures]
ginv [in UniMath.Bicategories.Core.EquivToAdjequiv]
gterm [in UniMath.Algebra.Universal.Terms]
gtermset [in UniMath.Algebra.Universal.Terms]

H

hinhprinv [in UniMath.Foundations.Propositions]
HM_mod [in UniMath.SubstitutionSystems.ModulesFromSignatures]
homotsec [in UniMath.MoreFoundations.PartA]
HT_mod [in UniMath.SubstitutionSystems.ModulesFromSignatures]

I

I [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
I [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
idpath [in UniMath.Foundations.Preamble]
inl [in UniMath.Foundations.Preamble]
inr [in UniMath.Foundations.Preamble]
isasetdirprod [in UniMath.Foundations.PartB]
isassocisob [in UniMath.Algebra.BinaryOperations]
iscancelableisob [in UniMath.Algebra.BinaryOperations]
iscommisob [in UniMath.Algebra.BinaryOperations]
isdistrisob [in UniMath.Algebra.BinaryOperations]
islcancelableisob [in UniMath.Algebra.BinaryOperations]
isldistrisob [in UniMath.Algebra.BinaryOperations]
isrcancelableisob [in UniMath.Algebra.BinaryOperations]
isrdistrisob [in UniMath.Algebra.BinaryOperations]
issurjtwooutof3c [in UniMath.Foundations.Propositions]

J

j_mor [in UniMath.SubstitutionSystems.ModulesFromSignatures]

M

Mf [in UniMath.SubstitutionSystems.ModulesFromSignatures]
MOD [in UniMath.CategoryTheory.Monads.LModules]
monoid [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
M_mod [in UniMath.SubstitutionSystems.ModulesFromSignatures]

N

negnatgthnn [in UniMath.Foundations.NaturalNumbers]
negnatlthnn [in UniMath.Foundations.NaturalNumbers]
nonempty [in UniMath.Foundations.Propositions]
Notation.ap [in UniMath.Tactics.Utilities]
nts [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]

P

pbmid [in UniMath.CategoryTheory.Monads.LModules]
pbmT [in UniMath.CategoryTheory.Monads.LModules]
pbmT' [in UniMath.CategoryTheory.Monads.LModules]
pbm_comp [in UniMath.CategoryTheory.Monads.LModules]
pb_d [in UniMath.CategoryTheory.Monads.Derivative]

R

r₁ [in UniMath.Bicategories.Core.AdjointUnique]
r₁ [in UniMath.Bicategories.Core.AdjointUnique]
r₁_to_r₂ [in UniMath.Bicategories.Core.AdjointUnique]
r₁_to_r₂ [in UniMath.Bicategories.Core.AdjointUnique]
r₂ [in UniMath.Bicategories.Core.AdjointUnique]
r₂ [in UniMath.Bicategories.Core.AdjointUnique]
r₂_to_r₁ [in UniMath.Bicategories.Core.AdjointUnique]
r₂_to_r₁ [in UniMath.Bicategories.Core.AdjointUnique]

S

squash_element [in UniMath.MoreFoundations.Notations]
squash_fun2 [in UniMath.MoreFoundations.Notations]
squash_fun [in UniMath.MoreFoundations.Notations]
s_to_f [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]

T

tensor [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
tensor [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
tensor [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
T_hss [in UniMath.SubstitutionSystems.ModulesFromSignatures]
T_func [in UniMath.SubstitutionSystems.ModulesFromSignatures]
T_mon [in UniMath.SubstitutionSystems.ModulesFromSignatures]
T_alg [in UniMath.SubstitutionSystems.ModulesFromSignatures]
T_mod [in UniMath.SubstitutionSystems.ModulesFromSignatures]
T_mon [in UniMath.SubstitutionSystems.ModulesFromSignatures]

other

Σ [in UniMath.Algebra.Matrix]
Σ [in UniMath.Algebra.Matrix]
α [in UniMath.CategoryTheory.FunctorCoalgebras]
α' [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
α' [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
ε [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
εiso [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
ε₁ [in UniMath.Bicategories.Core.AdjointUnique]
ε₁ [in UniMath.Bicategories.Core.AdjointUnique]
ε₂ [in UniMath.Bicategories.Core.AdjointUnique]
ε₂ [in UniMath.Bicategories.Core.AdjointUnique]
η [in UniMath.SubstitutionSystems.ModulesFromSignatures]
η [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
η [in UniMath.SubstitutionSystems.SubstitutionSystems]
η [in UniMath.SubstitutionSystems.SubstitutionSystems]
η [in UniMath.SubstitutionSystems.SubstitutionSystems]
η [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
ηiso [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
η₁ [in UniMath.Bicategories.Core.AdjointUnique]
η₁ [in UniMath.Bicategories.Core.AdjointUnique]
η₂ [in UniMath.Bicategories.Core.AdjointUnique]
η₂ [in UniMath.Bicategories.Core.AdjointUnique]
θ_nat_1_pw [in UniMath.SubstitutionSystems.ModulesFromSignatures]
θ_nat_2_pw [in UniMath.SubstitutionSystems.ModulesFromSignatures]
θ_nat_1_pw [in UniMath.SubstitutionSystems.ModulesFromSignatures]
θ_nat_2_pw [in UniMath.SubstitutionSystems.ModulesFromSignatures]
λ' [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
λ' [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
μ [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
π [in UniMath.CategoryTheory.DisplayedCats.Limits]
ρ' [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
ρ' [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
σ [in UniMath.SubstitutionSystems.ModulesFromSignatures]
σ [in UniMath.CategoryTheory.Monads.LModules]
σ [in UniMath.CategoryTheory.Monads.LModules]
σ [in UniMath.CategoryTheory.Monads.LModules]
τ [in UniMath.SubstitutionSystems.SubstitutionSystems]
τ [in UniMath.SubstitutionSystems.SubstitutionSystems]
τ [in UniMath.SubstitutionSystems.SubstitutionSystems]
φ₁ [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
φ₂ [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
ℕ [in UniMath.SyntheticHomotopyTheory.Halfline]
ℕ [in UniMath.Induction.W.Naturals]

---

Definition Index

A

A [in UniMath.Algebra.Universal.Examples.Tests]
A [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
AaInitial [in UniMath.CategoryTheory.FunctorAlgebras]
AbelianData [in UniMath.CategoryTheory.Abelian]
AbelianData_opp [in UniMath.CategoryTheory.Abelian]
AbelianData1_opp [in UniMath.CategoryTheory.Abelian]
AbelianData2_opp [in UniMath.CategoryTheory.Abelian]
AbelianPreCat [in UniMath.CategoryTheory.Abelian]
AbelianPreCat_homset_inv [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianPreCat_homset_zero [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianToAdditive [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianTocategoryWithAbgrops [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianTocategoryWithAbgropsData [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianToPreAdditive [in UniMath.CategoryTheory.AbelianToAdditive]
AbelianToprecategoryWithBinops [in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_opp [in UniMath.CategoryTheory.Abelian]
Abelian_mor_from_to_BinProd [in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_mor_to_BinProd [in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_op [in UniMath.CategoryTheory.AbelianToAdditive]
Abelian_minus_op [in UniMath.CategoryTheory.AbelianToAdditive]
abgr [in UniMath.Algebra.Groups]
abgrconstr [in UniMath.Algebra.Groups]
abgrdiff [in UniMath.Algebra.Groups]
abgrdiffcarrier [in UniMath.Algebra.Groups]
abgrdiffinv [in UniMath.Algebra.Groups]
abgrdiffinvint [in UniMath.Algebra.Groups]
abgrdiffphi [in UniMath.Algebra.Groups]
abgrdiffrel [in UniMath.Algebra.Groups]
abgrdiffrelint [in UniMath.Algebra.Groups]
abgrdiffrelint' [in UniMath.Algebra.Groups]
abgrdiffrel' [in UniMath.Algebra.Groups]
abgrdirprod [in UniMath.Algebra.Groups]
abgrfunfromunit [in UniMath.Algebra.Groups]
abgrfuntounit [in UniMath.Algebra.Groups]
abgrquot [in UniMath.Algebra.Groups]
abgrquotpr_monoidfun [in UniMath.CategoryTheory.PreAdditive]
abgrshomabgr [in UniMath.Algebra.Groups]
abgrshombinop_rinvax [in UniMath.Algebra.Groups]
abgrshombinop_linvax [in UniMath.Algebra.Groups]
abgrshombinop_inv [in UniMath.Algebra.Groups]
abgrshombinop_inv_ismonoidfun [in UniMath.Algebra.Groups]
abgrtoabmonoid [in UniMath.Algebra.Groups]
abgrtogr [in UniMath.Algebra.Groups]
abgr_isKernel_Criteria [in UniMath.CategoryTheory.categories.abgrs]
abgr_isKernel_iscontr [in UniMath.CategoryTheory.categories.abgrs]
abgr_Abelian [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_comp [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_isCokernel [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_eq [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_monoidfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_data_unel [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_data_unel_eq [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_data_mult [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_CokernelOut_mult_eq [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_cokernel_out_kernel_hsubtype [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_Kernel_isKernel [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_Kernel_isKernel_uniqueness [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_Kernel_eq [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_monoidfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_ismonoidfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_hfiber_unel [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_hfiber_mult [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_kernel_in_hfiber_iscontr [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_isInjective [in UniMath.CategoryTheory.categories.abgrs]
abgr_monic_isincl [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_issurjective [in UniMath.CategoryTheory.categories.abgrs]
abgr_epi_hfiber_inhabited [in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel [in UniMath.CategoryTheory.categories.abgrs]
abgr_isCokernel [in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelOut [in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelOut_ismonoidfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelOut_map [in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelArrowOutUniv_iscomprelfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_eq [in UniMath.CategoryTheory.categories.abgrs]
abgr_CokernelArrow [in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_abgr [in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_abgr_isbinoprel [in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_eqrel [in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_eqrel_issymm [in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_eqrel_isrefl [in UniMath.CategoryTheory.categories.abgrs]
abgr_Cokernel_eqrel_istrans [in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernel [in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernel_isKernel [in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernel_isKernel_uniqueness [in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernel_isKernel_KernelArrrow [in UniMath.CategoryTheory.categories.abgrs]
abgr_KernelArrowIn [in UniMath.CategoryTheory.categories.abgrs]
abgr_KernelArrowIn_map [in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernel_eq [in UniMath.CategoryTheory.categories.abgrs]
abgr_Kernel_monoidfun [in UniMath.CategoryTheory.categories.abgrs]
abgr_Additive [in UniMath.CategoryTheory.categories.abgrs]
abgr_AdditiveStructure [in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumIn2 [in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumIn1 [in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumPr2 [in UniMath.CategoryTheory.categories.abgrs]
abgr_DirectSumPr1 [in UniMath.CategoryTheory.categories.abgrs]
abgr_PreAdditive [in UniMath.CategoryTheory.categories.abgrs]
abgr_isPreAdditive [in UniMath.CategoryTheory.categories.abgrs]
abgr_WithAbGrops [in UniMath.CategoryTheory.categories.abgrs]
abgr_WithBinOps [in UniMath.CategoryTheory.categories.abgrs]
abgr_WithBinOpsData [in UniMath.CategoryTheory.categories.abgrs]
abgr_Zero [in UniMath.CategoryTheory.categories.abgrs]
abgr_isZero [in UniMath.CategoryTheory.categories.abgrs]
abgr_univalent_category [in UniMath.CategoryTheory.categories.abgrs]
abgr_category_is_univalent [in UniMath.CategoryTheory.categories.abgrs]
abgr_category_isweq [in UniMath.CategoryTheory.categories.abgrs]
abgr_equiv_weq_iso [in UniMath.CategoryTheory.categories.abgrs]
abgr_iso_equiv_weq [in UniMath.CategoryTheory.categories.abgrs]
abgr_equiv_iso [in UniMath.CategoryTheory.categories.abgrs]
abgr_category [in UniMath.CategoryTheory.categories.abgrs]
abgr_precategory [in UniMath.CategoryTheory.categories.abgrs]
abgr_precategory_data [in UniMath.CategoryTheory.categories.abgrs]
abgr_precategory_ob_mor [in UniMath.CategoryTheory.categories.abgrs]
abgr_fun_space [in UniMath.CategoryTheory.categories.abgrs]
abgr_image [in UniMath.Algebra.Groups]
abgr_image_issubgr [in UniMath.Algebra.Groups]
abgr_Kernel_monoidfun_ismonoidfun [in UniMath.Algebra.Groups]
abgr_Kernel_subabgr [in UniMath.Algebra.Groups]
abgr_Kernel_subabgr_issubgr [in UniMath.Algebra.Groups]
abgr_image_hsubtype [in UniMath.Algebra.Groups]
abgr_kernel_hsubtype [in UniMath.Algebra.Groups]
abgr_univalence [in UniMath.Algebra.Groups]
abgr_univalence_map [in UniMath.Algebra.Groups]
abgr_univalence_weq3 [in UniMath.Algebra.Groups]
abgr_univalence_weq2 [in UniMath.Algebra.Groups]
abgr_univalence_weq1' [in UniMath.Algebra.Groups]
abgr_univalence_weq1 [in UniMath.Algebra.Groups]
abgr_of_gr [in UniMath.Algebra.Groups]
abgr_precategory_integer_fun_iscomprelfun [in UniMath.NumberSystems.Integers]
abgr' [in UniMath.Algebra.Groups]
abmonoid [in UniMath.Algebra.Monoids]
abmonoiddirprod [in UniMath.Algebra.Monoids]
abmonoidfrac [in UniMath.Algebra.Monoids]
abmonoidfracop [in UniMath.Algebra.Monoids]
abmonoidfracopint [in UniMath.Algebra.Monoids]
abmonoidfracrel [in UniMath.Algebra.Monoids]
abmonoidfracrelint [in UniMath.Algebra.Monoids]
abmonoidfunfromunit [in UniMath.Algebra.Monoids]
abmonoidfuntounit [in UniMath.Algebra.Monoids]
abmonoidMultipleOperation [in UniMath.Algebra.IteratedBinaryOperations]
abmonoidquot [in UniMath.Algebra.Monoids]
abmonoidrer [in UniMath.Algebra.Monoids]
abmonoidshomabmonoid [in UniMath.Algebra.Monoids]
abmonoidshombinop [in UniMath.Algebra.Monoids]
abmonoidtomonoid [in UniMath.Algebra.Monoids]
abmonoid_univalence [in UniMath.Algebra.Monoids]
abmonoid_univalence_map [in UniMath.Algebra.Monoids]
abmonoid_univalence_weq3 [in UniMath.Algebra.Monoids]
abmonoid_univalence_weq2 [in UniMath.Algebra.Monoids]
abmonoid_univalence_weq1' [in UniMath.Algebra.Monoids]
abmonoid_univalence_weq1 [in UniMath.Algebra.Monoids]
abmonoid_of_monoid [in UniMath.Algebra.Monoids]
abmonoid_perm210 [in UniMath.Tactics.Abmonoids_Tactics]
abmonoid_perm201 [in UniMath.Tactics.Abmonoids_Tactics]
abmonoid_perm120 [in UniMath.Tactics.Abmonoids_Tactics]
abmonoid_perm102 [in UniMath.Tactics.Abmonoids_Tactics]
abmonoid_perm021 [in UniMath.Tactics.Abmonoids_Tactics]
abmonoid_to_absemigr [in UniMath.Tactics.Abmonoids_Tactics]
abmonoid_univalent_category [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_category_is_univalent [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_category [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_precategory_isweq [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_equiv_weq_iso [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_iso_equiv_weq [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_precategory [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_precategory_data [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_precategory_ob_mor [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid_fun_space [in UniMath.CategoryTheory.categories.abmonoids]
abmonoid' [in UniMath.Algebra.Monoids]
absemigr_perm210 [in UniMath.Tactics.Abmonoids_Tactics]
absemigr_perm201 [in UniMath.Tactics.Abmonoids_Tactics]
absemigr_perm120 [in UniMath.Tactics.Abmonoids_Tactics]
absemigr_perm102 [in UniMath.Tactics.Abmonoids_Tactics]
absemigr_perm021 [in UniMath.Tactics.Abmonoids_Tactics]
Abs_Sig [in UniMath.SubstitutionSystems.LamSignature]
Abs_θ [in UniMath.SubstitutionSystems.LamSignature]
Abs_θ_data [in UniMath.SubstitutionSystems.LamSignature]
Abs_θ_data_data [in UniMath.SubstitutionSystems.LamSignature]
Abs_H [in UniMath.SubstitutionSystems.LamSignature]
ab_strong_functor_strength [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ab_strength_composition [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ab_strength_identity_functor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ab_strength_pentagon [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ab_strength_triangle [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ab_strength_mor_from_signature_mor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_mor_from_signature_mor_nat_trans [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strong_functor_from_signature [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_from_signature [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_for_functors_and_pointed_functors_to_actionbased_strength [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_for_functors_and_pointed_functors [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_on_homs_in_bicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_target_action [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ab_strength_domain_action [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
acommring [in UniMath.PAdics.lemmas]
acommringapartrel [in UniMath.PAdics.lemmas]
acommringconstr [in UniMath.PAdics.lemmas]
acommringfps [in UniMath.PAdics.fps]
acommringofpadicints [in UniMath.PAdics.padics]
acommringtocommring [in UniMath.PAdics.lemmas]
acommring_hzmod [in UniMath.PAdics.z_mod_p]
acommring_acotrans [in UniMath.PAdics.lemmas]
acommring_asymm [in UniMath.PAdics.lemmas]
acommring_airrefl [in UniMath.PAdics.lemmas]
acommring_amult [in UniMath.PAdics.lemmas]
acommring_aadd [in UniMath.PAdics.lemmas]
actfromprecomp [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
Action [in UniMath.Algebra.GroupAction]
action [in UniMath.CategoryTheory.Monoidal.Actions]
ActionBasedStrongFunctorCategoryToSignatureCategory [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
ActionBasedStrongFunctorCategoryToSignatureCategory_data [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
actionbased_strength_from_relative_strength [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strong_functor_from_alt [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strong_functor_to_functor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strong_functor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_to_nat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq_variant2 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq_variant1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_pentagon_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_triangle_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_nat_funclass [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_nat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_codom [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
actionbased_strength_dom [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ActionIso [in UniMath.Algebra.GroupAction]
ActionMap [in UniMath.Algebra.GroupAction]
ActionStructure [in UniMath.Algebra.GroupAction]
actions_bicat [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_locally_groupoid [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_bicat [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_prebicat [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_prebicat_data [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_prebicat_1_id_comp_cells [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_2cell_struct [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_cat_data [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_cat_id_comp [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
actions_disp_cat_ob_mor [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
action_from_precomp [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
Action_univalence_inv_comp_eval [in UniMath.Algebra.GroupAction]
Action_univalence_inv_comp [in UniMath.Algebra.GroupAction]
Action_univalence_inv [in UniMath.Algebra.GroupAction]
Action_univalence_comp [in UniMath.Algebra.GroupAction]
Action_univalence [in UniMath.Algebra.GroupAction]
Action_univalence_prelim_comp [in UniMath.Algebra.GroupAction]
Action_univalence_prelim [in UniMath.Algebra.GroupAction]
action_op [in UniMath.Algebra.GroupAction]
action_from_alt [in UniMath.CategoryTheory.Monoidal.Actions]
action_pentagon_eq [in UniMath.CategoryTheory.Monoidal.Actions]
action_second_triangle_eq [in UniMath.CategoryTheory.Monoidal.Actions]
action_triangle_eq [in UniMath.CategoryTheory.Monoidal.Actions]
action_convertor_to_nat_trans [in UniMath.CategoryTheory.Monoidal.Actions]
action_convertor_funclass [in UniMath.CategoryTheory.Monoidal.Actions]
action_convertor [in UniMath.CategoryTheory.Monoidal.Actions]
action_right_unitor_to_nat_trans [in UniMath.CategoryTheory.Monoidal.Actions]
action_right_unitor_funclass [in UniMath.CategoryTheory.Monoidal.Actions]
action_right_unitor [in UniMath.CategoryTheory.Monoidal.Actions]
action_on_itself [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
act_assoc [in UniMath.Algebra.GroupAction]
act_unit [in UniMath.Algebra.GroupAction]
act_mult [in UniMath.Algebra.GroupAction]
act_pentagon [in UniMath.CategoryTheory.Monoidal.Actions]
act_triangle [in UniMath.CategoryTheory.Monoidal.Actions]
act_χ [in UniMath.CategoryTheory.Monoidal.Actions]
act_ϱ [in UniMath.CategoryTheory.Monoidal.Actions]
act_odot [in UniMath.CategoryTheory.Monoidal.Actions]
AcyclicComplexFromObject [in UniMath.HomologicalAlgebra.Complexes]
AcyclicComplexFromObject_mors [in UniMath.HomologicalAlgebra.Complexes]
AcyclicComplexFromObject_obs [in UniMath.HomologicalAlgebra.Complexes]
ac_assoc [in UniMath.Algebra.GroupAction]
ac_mult [in UniMath.Algebra.GroupAction]
ac_str [in UniMath.Algebra.GroupAction]
ac_type [in UniMath.Algebra.GroupAction]
ac_set [in UniMath.Algebra.GroupAction]
ad [in UniMath.CategoryTheory.Chains.Adamek]
add [in UniMath.Foundations.Preamble]
addabmonoideqrel [in UniMath.Algebra.RigsAndRings]
AddEquiv [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounit [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitComm [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitInv [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitInvMor [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitInvMor_is_inverse_in_precat [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitInvMor_is_iso_with_inv_data [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivCounitIso [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivLeftTriangle [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivRightTriangle [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnit [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitComm [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitInv [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitInvMor [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitInvMor_is_inverse_in_precat [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitInvMor_is_iso_with_inv_data [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquivUnitIso [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquiv_are_adjoints [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquiv1 [in UniMath.CategoryTheory.AdditiveFunctors]
AddEquiv2 [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveCategory [in UniMath.CategoryTheory.Additive]
AdditiveCoequalizerToCokernel [in UniMath.CategoryTheory.Additive]
AdditiveCokernelToCoequalizer [in UniMath.CategoryTheory.Additive]
AdditiveComposite [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveEqualizerToKernel [in UniMath.CategoryTheory.Additive]
AdditiveFunctor [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctorCriteria [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctor_isAdditiveFunctor [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveFunctor_Functor [in UniMath.CategoryTheory.AdditiveFunctors]
AdditiveKernelToEqualizer [in UniMath.CategoryTheory.Additive]
AdditiveStructure [in UniMath.CategoryTheory.Additive]
AdditiveToExact [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdditiveZeroArrow [in UniMath.CategoryTheory.Additive]
Additive_to_PreAdditive [in UniMath.CategoryTheory.Additive]
Additive_PreAdditive [in UniMath.CategoryTheory.Additive]
addStructure [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
addsubgr [in UniMath.Algebra.RigsAndRings]
adds_properties_weq_locally_contractible [in UniMath.CategoryTheory.DisplayedCats.Projection]
adds_structure_weq_locally_propositional [in UniMath.CategoryTheory.DisplayedCats.Projection]
adds_properties [in UniMath.CategoryTheory.DisplayedCats.Projection]
adds_structure [in UniMath.CategoryTheory.DisplayedCats.Projection]
add_mu [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
add_unit [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
add_cell_disp_cat_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
add_cell_disp_cat_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
add_cell_disp_cat_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
add_cell_disp_cat [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
add_cell_disp_cat_id_comp [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
add_cell_disp_cat_data [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
add_one [in UniMath.SyntheticHomotopyTheory.AffineLine]
adjcounit [in UniMath.CategoryTheory.Adjunctions.Core]
adjcounitiso [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjcounitiso [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
adjequiv_in_E₂_weq [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
adjequiv_in_E₂_inv [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
adjequiv_in_E₂ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
adjequiv_ps_base_weq [in UniMath.Bicategories.PseudoFunctors.Display.Base]
adjequiv_ps_base_inv [in UniMath.Bicategories.PseudoFunctors.Display.Base]
adjequiv_ps_base [in UniMath.Bicategories.PseudoFunctors.Display.Base]
adjequiv_to_weq [in UniMath.Bicategories.Core.Examples.OneTypes]
adjev [in UniMath.Foundations.PartA]
adjev2 [in UniMath.Foundations.PartA]
adjointification_triangle_2 [in UniMath.CategoryTheory.Equivalences.Core]
adjointification_triangle_1 [in UniMath.CategoryTheory.Equivalences.Core]
adjointificiation [in UniMath.CategoryTheory.Equivalences.Core]
adjoints_from_is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
adjoint_equivalence [in UniMath.Bicategories.Core.Adjunctions]
adjoint_unique_map_iso [in UniMath.Bicategories.Core.AdjointUnique]
adjoint_unique_map [in UniMath.Bicategories.Core.AdjointUnique]
adjoint_equivalence_is_weq [in UniMath.Bicategories.Core.Examples.OneTypes]
adjoint_equivalence_precategory [in UniMath.Bicategories.Core.Univalence]
adjoint_equivalence_precategory_data [in UniMath.Bicategories.Core.Univalence]
adjunction [in UniMath.Bicategories.Core.Adjunctions]
adjunction [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjunction [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
adjunction_of_adjoint_equivalence [in UniMath.Bicategories.Core.Adjunctions]
adjunction_data_disc_fib [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
adjunction_hom_weq [in UniMath.CategoryTheory.Adjunctions.Core]
adjunction_data_from_is_left_adjoint [in UniMath.CategoryTheory.Adjunctions.Core]
adjunction_data [in UniMath.CategoryTheory.Adjunctions.Core]
adjunction_data_from_equivalence_of_cats [in UniMath.CategoryTheory.Equivalences.Core]
adjunction_of_equiv_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjunction_of_right_adjoint_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjunction_of_right_adjoint_over_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjunction_of_equiv_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
adjunction_of_right_adjoint_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
adjunction_of_right_adjoint_over_id_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
adjunit [in UniMath.CategoryTheory.Adjunctions.Core]
adjunitiso [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adjunitiso [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
adj_equiv_fully_faithful [in UniMath.Bicategories.Core.FullyFaithful]
adj_equiv_fully_faithful_inv_cell_is_inv_cell [in UniMath.Bicategories.Core.FullyFaithful]
adj_equiv_fully_faithful_inv_cell [in UniMath.Bicategories.Core.FullyFaithful]
adj_equiv_faithful [in UniMath.Bicategories.Core.FullyFaithful]
adj_equivalence_of_cats_inv [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
adj_equivalence_disc_fib [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
adj_int_equivalence [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
adj_from_nathomweq [in UniMath.CategoryTheory.Adjunctions.Core]
adj_equivalence_inv [in UniMath.CategoryTheory.Equivalences.Core]
adj_from_equiv [in UniMath.CategoryTheory.Equivalences.Core]
adj_equivalence_of_cats [in UniMath.CategoryTheory.Equivalences.Core]
adj_equivalence_to_left_equivalence [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
adj_equiv_is_equiv_cat [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
adj_equiv_to_equiv_cat [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
adj_from_adj_equiv [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adj_equiv_of_precats_from_adj [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adj_equiv [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
adj_over_data_from_adj_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
AdmEpiToMap [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmEpiToMap' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmissibleEpimorphism [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmissibleMonomorphism [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmMonoToMap [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
AdmMonoToMap' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ad_mor [in UniMath.CategoryTheory.Chains.Adamek]
affine_line_value [in UniMath.SyntheticHomotopyTheory.AffineLine]
affine_line_map [in UniMath.SyntheticHomotopyTheory.AffineLine]
affine_line_point [in UniMath.SyntheticHomotopyTheory.AffineLine]
affine_line [in UniMath.SyntheticHomotopyTheory.AffineLine]
afld [in UniMath.PAdics.lemmas]
afldfrac [in UniMath.PAdics.frac]
afldfracapart [in UniMath.PAdics.frac]
afldfracapartrel [in UniMath.PAdics.frac]
afldfracapartrelpre [in UniMath.PAdics.frac]
afldfracmultinv [in UniMath.PAdics.frac]
afldfracmultinvint [in UniMath.PAdics.frac]
afldfrac0 [in UniMath.PAdics.frac]
afldtoaintdom [in UniMath.PAdics.lemmas]
agree_on_intersections [in UniMath.AlgebraicGeometry.SheavesOfRings]
agree_on_intersections_section [in UniMath.AlgebraicGeometry.Spec]
ahzmod [in UniMath.PAdics.z_mod_p]
AiM_chain [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
aintdom [in UniMath.PAdics.lemmas]
aintdomazerosubmonoid [in UniMath.PAdics.lemmas]
aintdomconstr [in UniMath.PAdics.lemmas]
AlgConstr [in UniMath.SubstitutionSystems.GenMendlerIteration]
AlgConstr [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Algebra [in UniMath.CategoryTheory.Monads.MonadAlgebras]
algebra [in UniMath.Algebra.Universal.Algebras]
algebras_disp [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
algebra_mor_homot_id [in UniMath.Induction.W.Fibered]
algebra_section_path_to_homot [in UniMath.Induction.W.Fibered]
algebra_sec_homot_id [in UniMath.Induction.W.Fibered]
algebra_mor_homot [in UniMath.Induction.W.Fibered]
algebra_mor_to_algsec [in UniMath.Induction.W.Fibered]
algebra_sec_homot [in UniMath.Induction.W.Fibered]
algebra_section [in UniMath.Induction.W.Fibered]
Algebra_mor_eq [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_mor_comp [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_mor_id [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_mor_commutes [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_mor [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_multlaw [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_idlaw [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_data_from_Algebra [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_laws [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Algebra_data [in UniMath.CategoryTheory.Monads.MonadAlgebras]
algebra_idtoiso [in UniMath.CategoryTheory.FunctorAlgebras]
algebra_iso_rearrange [in UniMath.CategoryTheory.FunctorAlgebras]
algebra_iso_first_iso [in UniMath.CategoryTheory.FunctorAlgebras]
algebra_ob_eq [in UniMath.CategoryTheory.FunctorAlgebras]
algebra_eq_type [in UniMath.CategoryTheory.FunctorAlgebras]
algebra_mor_eq [in UniMath.CategoryTheory.FunctorAlgebras]
algebra_mor_comp [in UniMath.CategoryTheory.FunctorAlgebras]
algebra_mor_id [in UniMath.CategoryTheory.FunctorAlgebras]
algebra_mor [in UniMath.CategoryTheory.FunctorAlgebras]
algebra_ob [in UniMath.CategoryTheory.FunctorAlgebras]
algebra_of_eqalgebra [in UniMath.Algebra.Universal.EqAlgebras]
Algebra.group_inv [in UniMath.Algebra.Universal.Examples.Group]
Algebra.group_id [in UniMath.Algebra.Universal.Examples.Group]
Algebra.group_mul [in UniMath.Algebra.Universal.Examples.Group]
Algebra.group_algebra [in UniMath.Algebra.Universal.Examples.Group]
Algebra.group_inv_op [in UniMath.Algebra.Universal.Examples.Group]
Algebra.group_id_op [in UniMath.Algebra.Universal.Examples.Group]
Algebra.group_mul_op [in UniMath.Algebra.Universal.Examples.Group]
alg_disp_cat_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
alg_disp_cat_id_comp [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
alg_disp_cat [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
Alg_adjunction_monad_eq [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Alg_map [in UniMath.CategoryTheory.Monads.MonadAlgebras]
Alg_carrier [in UniMath.CategoryTheory.Monads.MonadAlgebras]
alg_map [in UniMath.CategoryTheory.FunctorAlgebras]
alg_carrier [in UniMath.CategoryTheory.FunctorAlgebras]
alg_from_hetsubst [in UniMath.SubstitutionSystems.SubstitutionSystems]
alg_map [in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
alg_map_data_is_pstrans [in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
alg_map_data [in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
alg2fibered_alg [in UniMath.Induction.W.Fibered]
all_is_adjequiv_is_is_adjequiv [in UniMath.Bicategories.PseudoFunctors.Display.Base]
all_is_adjequiv_to_is_adjequiv [in UniMath.Bicategories.PseudoFunctors.Display.Base]
all_is_invertible_is_is_invertible_2cell [in UniMath.Bicategories.PseudoFunctors.Display.Base]
all_is_invertible_to_is_invertible_2cell [in UniMath.Bicategories.PseudoFunctors.Display.Base]
all_invertible_2cell_is_disp_adjoint_equivalence [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_2cell_to_disp_adjoint_equivalence [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_counit [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_unit [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_right_adj [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_left_adj [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_map1cells [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
all_invertible_map1cells_inv [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
alpha [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
alternative_inv_to_relmonadmor_iso [in UniMath.CategoryTheory.Monads.RelativeMonads]
AltList.cons [in UniMath.CategoryTheory.Inductives.Lists]
AltList.constcoprod_functor [in UniMath.CategoryTheory.Inductives.Lists]
AltList.constprod_functor [in UniMath.CategoryTheory.Inductives.Lists]
AltList.cons_nat [in UniMath.CategoryTheory.Inductives.Lists]
AltList.cons_map [in UniMath.CategoryTheory.Inductives.Lists]
AltList.foldr [in UniMath.CategoryTheory.Inductives.Lists]
AltList.foldr_map [in UniMath.CategoryTheory.Inductives.Lists]
AltList.length [in UniMath.CategoryTheory.Inductives.Lists]
AltList.List [in UniMath.CategoryTheory.Inductives.Lists]
AltList.listFunctor [in UniMath.CategoryTheory.Inductives.Lists]
AltList.make_listAlgebra [in UniMath.CategoryTheory.Inductives.Lists]
AltList.map [in UniMath.CategoryTheory.Inductives.Lists]
AltList.natHSET [in UniMath.CategoryTheory.Inductives.Lists]
AltList.nil [in UniMath.CategoryTheory.Inductives.Lists]
AltList.nil_map [in UniMath.CategoryTheory.Inductives.Lists]
AltList.pr1foldr_algmor [in UniMath.CategoryTheory.Inductives.Lists]
AltList.P'HSET [in UniMath.CategoryTheory.Inductives.Lists]
AltList.stream [in UniMath.CategoryTheory.Inductives.Lists]
AltList.sum [in UniMath.CategoryTheory.Inductives.Lists]
AltList.testlist [in UniMath.CategoryTheory.Inductives.Lists]
AltList.testlistS [in UniMath.CategoryTheory.Inductives.Lists]
AltList.Unnamed_thm [in UniMath.CategoryTheory.Inductives.Lists]
andb [in UniMath.MoreFoundations.Bool]
Annihilator [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
antisymmetric [in UniMath.Combinatorics.ZFstructures]
antisymm_po_univalent_category [in UniMath.CategoryTheory.categories.preorder_categories]
apart [in UniMath.PAdics.lemmas]
apbinop [in UniMath.Algebra.Apartness]
apbinop_pr1 [in UniMath.Algebra.Apartness]
apd [in UniMath.MoreFoundations.PathsOver]
apd_comparison [in UniMath.SyntheticHomotopyTheory.Circle2]
apfun [in UniMath.MoreFoundations.PartA]
apNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
append [in UniMath.Combinatorics.GraphPaths]
append [in UniMath.Combinatorics.Lists]
append [in UniMath.Combinatorics.FiniteSequences]
append_vec_compute_2 [in UniMath.Combinatorics.FiniteSequences]
append_vec_compute_1 [in UniMath.Combinatorics.FiniteSequences]
append_vec [in UniMath.Combinatorics.FiniteSequences]
applyFunctorToBinDirectSum [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
applyFunctorToIsBinDirectSum [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
applyFunctorToPair [in UniMath.CategoryTheory.Morphisms]
applyFunctorToPairIsomorphism [in UniMath.CategoryTheory.Morphisms]
applyFunctorToShortExactSequence [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
applyFunctorToZero [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
apply_on_chain [in UniMath.Induction.M.Chains]
app_map [in UniMath.SubstitutionSystems.STLC]
app_source [in UniMath.SubstitutionSystems.STLC]
app_map [in UniMath.SubstitutionSystems.CCS_alt]
app_source [in UniMath.SubstitutionSystems.CCS_alt]
app_map' [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
app_map [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
app_map [in UniMath.SubstitutionSystems.STLC_alt]
app_source [in UniMath.SubstitutionSystems.STLC_alt]
App_Sig [in UniMath.SubstitutionSystems.LamSignature]
App_θ [in UniMath.SubstitutionSystems.LamSignature]
App_θ_data [in UniMath.SubstitutionSystems.LamSignature]
App_H [in UniMath.SubstitutionSystems.LamSignature]
app_map [in UniMath.SubstitutionSystems.CCS]
app_source [in UniMath.SubstitutionSystems.CCS]
app_map [in UniMath.SubstitutionSystems.LamFromBindingSig]
App_Sig [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
aprel [in UniMath.Algebra.Apartness]
aprel_pr1 [in UniMath.Algebra.Apartness]
apSet [in UniMath.Algebra.Apartness]
apsetwithbinop [in UniMath.Algebra.Apartness]
apsetwithbinop_setwithbinop [in UniMath.Algebra.Apartness]
apsetwithbinop_pr1 [in UniMath.Algebra.Apartness]
apsetwith2binop [in UniMath.Algebra.Apartness]
apsetwith2binop_apsetwithbinop2 [in UniMath.Algebra.Apartness]
apsetwith2binop_apsetwithbinop1 [in UniMath.Algebra.Apartness]
apsetwith2binop_setwith2binop [in UniMath.Algebra.Apartness]
apsetwith2binop_pr1 [in UniMath.Algebra.Apartness]
apSet_pr2 [in UniMath.Algebra.Apartness]
apSet_pr1 [in UniMath.Algebra.Apartness]
apstar [in UniMath.MoreFoundations.PathsOver]
ap_multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
ap_plusNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
ap_modification [in UniMath.Bicategories.Modifications.Examples.ApModification]
ap_modification_is_modification [in UniMath.Bicategories.Modifications.Examples.ApModification]
ap_modification_data [in UniMath.Bicategories.Modifications.Examples.ApModification]
ap_PreShv [in UniMath.CategoryTheory.elems_slice_equiv]
ap_pstrans [in UniMath.Bicategories.Transformations.Examples.ApTransformation]
ap_pstrans_laws [in UniMath.Bicategories.Transformations.Examples.ApTransformation]
ap_pstrans_data [in UniMath.Bicategories.Transformations.Examples.ApTransformation]
ap_psfunctor [in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
ap_functor_laws [in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
ap_functor_data [in UniMath.Bicategories.PseudoFunctors.Examples.ApFunctor]
ar [in UniMath.Algebra.Universal.Signatures]
ar [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
arecompatibleactions [in UniMath.Algebra.Modules.Multimodules]
are_adjoint_monad_form_kleislify [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
are_isomorphic [in UniMath.CategoryTheory.Core.Isos]
are_relative_adjoints [in UniMath.CategoryTheory.Adjunctions.Core]
are_adjoints_to_is_right_adjoint [in UniMath.CategoryTheory.Adjunctions.Core]
are_adjoints_to_is_left_adjoint [in UniMath.CategoryTheory.Adjunctions.Core]
are_adjoints [in UniMath.CategoryTheory.Adjunctions.Core]
are_adjoints_from_adjunction [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
are_adjoints_from_adjunction [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
are_conjugates' [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
are_conjugates [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
are_adjoints_slice_fam [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
arity [in UniMath.Algebra.Universal.Signatures]
arity [in UniMath.SubstitutionSystems.MultiSorted_alt]
arity [in UniMath.SubstitutionSystems.MultiSorted]
Arity_to_Signature [in UniMath.SubstitutionSystems.BindingSigToMonad]
arrow [in UniMath.CategoryTheory.DisplayedCats.Examples]
arrow [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
arrow_Poset [in UniMath.Algebra.FixedPointTheorems]
arrow_of_adjunction [in UniMath.Bicategories.Core.Adjunctions]
arrow_disp [in UniMath.CategoryTheory.DisplayedCats.Examples]
arrow_data [in UniMath.CategoryTheory.DisplayedCats.Examples]
arrow_id_comp [in UniMath.CategoryTheory.DisplayedCats.Examples]
arrow_disp_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Examples]
arrow_mor_mor_assoc [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
arrow_mor_id [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
arrow_morphism_composition [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
arrow_category_eq_comma_category [in UniMath.CategoryTheory.ArrowCategory]
arrow_category [in UniMath.CategoryTheory.ArrowCategory]
arrow_precategory_data [in UniMath.CategoryTheory.ArrowCategory]
arrow' [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
assembleSequence [in UniMath.Combinatorics.FiniteSequences]
assemble_disassemble [in UniMath.Combinatorics.WellFoundedRelations]
assemble_attempt [in UniMath.Combinatorics.WellFoundedRelations]
assignment [in UniMath.Algebra.Universal.VTerms]
assoc [in UniMath.CategoryTheory.Core.Categories]
assocax [in UniMath.Algebra.Monoids]
assocax_is [in UniMath.Algebra.BinaryOperations]
AssociativeMultipleOperation [in UniMath.Algebra.IteratedBinaryOperations]
associativity_as_nat_z_iso [in UniMath.CategoryTheory.HorizontalComposition]
associator [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
associator [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
associator_of_pointedfunctors [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
associator_swapping_of_tensor [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
associator_to_nat_trans [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
associator_funclass [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
associator_and_unitors_are_iso [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
associator_2mor [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
associator_trans [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
associator_trans_type [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
assocPathOver [in UniMath.MoreFoundations.PathsOver]
assoc_disp_var [in UniMath.CategoryTheory.DisplayedCats.Core]
assoc_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
assoc_right [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
assoc_left [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
assoc_right_gen [in UniMath.CategoryTheory.HorizontalComposition]
assoc_left_gen [in UniMath.CategoryTheory.HorizontalComposition]
assoc' [in UniMath.CategoryTheory.Core.Categories]
attempt [in UniMath.Combinatorics.WellFoundedRelations]
attempt_paths [in UniMath.Combinatorics.WellFoundedRelations]
attempt_lemma [in UniMath.Combinatorics.WellFoundedRelations]
attempt_comp [in UniMath.Combinatorics.WellFoundedRelations]
attempt_fun [in UniMath.Combinatorics.WellFoundedRelations]
autos_comp_apply [in UniMath.Algebra.GroupAction]
autos_comp [in UniMath.Algebra.GroupAction]
aux [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
aux_iso_2_inv [in UniMath.SubstitutionSystems.LiftingInitial_alt]
aux_iso_1_inv [in UniMath.SubstitutionSystems.LiftingInitial_alt]
aux_iso_1 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
aux_inject_N [in UniMath.SubstitutionSystems.MonadsMultiSorted]
aux_fh [in UniMath.SubstitutionSystems.MonadsMultiSorted]
aux_iso_2_inv [in UniMath.SubstitutionSystems.LiftingInitial]
aux_iso_1_inv [in UniMath.SubstitutionSystems.LiftingInitial]
aux_iso_1 [in UniMath.SubstitutionSystems.LiftingInitial]
auxμ [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
auxρ [in UniMath.CategoryTheory.Monoidal.Actions]
auxχ_codom [in UniMath.CategoryTheory.Monoidal.Actions]
auxχ_dom [in UniMath.CategoryTheory.Monoidal.Actions]
AxiomOfChoice [in UniMath.MoreFoundations.AxiomOfChoice]
AxiomOfChoice_surj [in UniMath.MoreFoundations.AxiomOfChoice]
AxiomOfDecidableChoice [in UniMath.MoreFoundations.AxiomOfChoice]
axioms_of_left_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
axioms_of_left_equivalence [in UniMath.Bicategories.Core.Adjunctions]
axioms_of_left_adjoint [in UniMath.Bicategories.Core.Adjunctions]
axioms_of_equiv_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
axioms_of_equiv_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
a' [in UniMath.CategoryTheory.FunctorAlgebras]

B

B [in UniMath.Algebra.GroupAction]
bandfmap [in UniMath.Foundations.PartA]
bar [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
base [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
BaseOfFilter [in UniMath.Topology.Filters]
BaseOfPreFilter [in UniMath.Topology.Filters]
basepoint [in UniMath.MoreFoundations.PartA]
BasePointComponent [in UniMath.MoreFoundations.Propositions]
BasePointComponent_weq [in UniMath.MoreFoundations.Propositions]
basePointComponent_inclusion [in UniMath.MoreFoundations.Propositions]
base_change_functor [in UniMath.CategoryTheory.slicecat]
base_change_functor_data [in UniMath.CategoryTheory.slicecat]
base_of_neighborhood_default [in UniMath.Topology.Topology]
base_default [in UniMath.Topology.Topology]
base_of_neighborhood [in UniMath.Topology.Topology]
base_category_iso_weq_aux [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_category_iso_fam_weq [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_category_iso_fam_to_iso [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_category_iso_to_iso_fam [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_category [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_precategory [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_precategory_data [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
base_precategory_ob_mor [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
bcat [in UniMath.Bicategories.BicatOfBicategory]
bcat_data [in UniMath.Bicategories.BicatOfBicategory]
bcat_2_id_comp_struct [in UniMath.Bicategories.BicatOfBicategory]
bcat_1_id_comp_cells [in UniMath.Bicategories.BicatOfBicategory]
bcat_ob_mor_cells [in UniMath.Bicategories.BicatOfBicategory]
bcat_cell_struct [in UniMath.Bicategories.BicatOfBicategory]
bcat_precategory_ob_mor [in UniMath.Bicategories.BicatOfBicategory]
BCD [in UniMath.SubstitutionSystems.SignatureCategory]
bc_whisker_r [in UniMath.Bicategories.Core.Invertible_2cells]
bc_whisker_l [in UniMath.Bicategories.Core.Invertible_2cells]
bhfiber [in UniMath.Foundations.PartC]
biadj_preserves_biinitial [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_preserves_unique_maps [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_equiv [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_equivalence [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_right_left [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_right_left_is_nat_trans [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_right_left_data [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_left_right [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_left_right_is_nat_trans [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_hom_left_right_data [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_right_hom [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_right_hom_is_functor [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_right_hom_data [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_left_hom [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_left_hom_is_functor [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_left_hom_data [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_triangle_r [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_triangle_l [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_triangle_r_law [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_triangle_r_lhs [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_triangle_l_law [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_triangle_l_lhs [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_counit [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_unit [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
biadj_right_adjoint [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
bicat [in UniMath.Bicategories.Core.Bicat]
bicategorical_yoneda_lemma_inv [in UniMath.Bicategories.Core.YonedaLemma]
bicategorical_yoneda_lemma [in UniMath.Bicategories.Core.YonedaLemma]
bicategory [in UniMath.Bicategories.WkCatEnrichment.bicategory]
bicate_data [in UniMath.Bicategories.BicategoryOfBicat]
bicate_lassociator [in UniMath.Bicategories.BicategoryOfBicat]
bicate_lassociator_fun [in UniMath.Bicategories.BicategoryOfBicat]
bicate_id_comp [in UniMath.Bicategories.BicategoryOfBicat]
bicate_ob_hom [in UniMath.Bicategories.BicategoryOfBicat]
bicat_from_monoidal [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
bicat_algebra_is_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
bicat_algebra_is_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
bicat_algebra_is_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
bicat_algebra [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
bicat_of_strict_bicat [in UniMath.Bicategories.Core.Strictness]
bicat_with_binprod_to_bicat [in UniMath.Bicategories.Colimits.Products]
bicat_with_binprod [in UniMath.Bicategories.Colimits.Products]
bicat_adjoint_equivalence_is_op2_bicat_adjoint_equivalence [in UniMath.Bicategories.Core.Examples.OpCellBicat]
bicat_left_adjoint_equivalence_to_op2_bicat_left_adjoint_equivalence [in UniMath.Bicategories.Core.Examples.OpCellBicat]
bicat_invertible_2cell_is_op2_bicat_invertible_2cell [in UniMath.Bicategories.Core.Examples.OpCellBicat]
bicat_is_invertible_2cell_to_op2_bicat_is_invertible_2cell [in UniMath.Bicategories.Core.Examples.OpCellBicat]
bicat_of_univ_cats [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
bicat_of_cats [in UniMath.Bicategories.Core.Examples.BicatOfCats]
bicat_ob [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
bicat_adjoint_equivalence_is_fullsub_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
bicat_left_adjoint_equivalence_to_fullsub_left_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
bicat_is_invertible_2cell_is_fullsub_is_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
bicat_is_invertible_2cell_to_fullsub_is_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
bicat_adjoint_equivalence_is_op1_bicat_adjoint_equivalence [in UniMath.Bicategories.Core.Examples.OpMorBicat]
bicat_left_adjoint_equivalence_to_op1_bicat_left_adjoint_equivalence [in UniMath.Bicategories.Core.Examples.OpMorBicat]
bicat_invertible_2cell_is_op1_bicat_invertible_2cell [in UniMath.Bicategories.Core.Examples.OpMorBicat]
bicat_is_invertible_2cell_to_op1_bicat_is_invertible_2cell [in UniMath.Bicategories.Core.Examples.OpMorBicat]
bicat_of_strict_cats [in UniMath.Bicategories.Core.Examples.StrictCats]
bicat_to_hcomp_bicat_to_bicat [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
bicat_to_hcomp_bicat [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
bicat_to_hcomp_bicat_laws [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
bicat_to_hcomp_bicat_data [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
biequivalence_to_object_equivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
biequiv_path_groupoid [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
BiFinal [in UniMath.Bicategories.Colimits.Final]
bifinal_unique [in UniMath.Bicategories.Colimits.Final]
bifinal_unique_adj_eqv [in UniMath.Bicategories.Colimits.Final]
bifinal_unique_adj_data [in UniMath.Bicategories.Colimits.Final]
bifinal_unique_adj_counit [in UniMath.Bicategories.Colimits.Final]
bifinal_unique_adj_unit [in UniMath.Bicategories.Colimits.Final]
bifinal_cats [in UniMath.Bicategories.Colimits.Final]
bifinal_1_types [in UniMath.Bicategories.Colimits.Final]
bifinal_inv_counit [in UniMath.Bicategories.Colimits.Final]
bifinal_inv_counit_is_nat_trans [in UniMath.Bicategories.Colimits.Final]
bifinal_inv_counit_data [in UniMath.Bicategories.Colimits.Final]
bifinal_inv_unit [in UniMath.Bicategories.Colimits.Final]
bifinal_inv_unit_is_nat_trans [in UniMath.Bicategories.Colimits.Final]
bifinal_inv_unit_data [in UniMath.Bicategories.Colimits.Final]
bifinal_inv [in UniMath.Bicategories.Colimits.Final]
bifinal_inv_is_functor [in UniMath.Bicategories.Colimits.Final]
bifinal_inv_data [in UniMath.Bicategories.Colimits.Final]
bifinal_eq [in UniMath.Bicategories.Colimits.Final]
bifinal_eq_property [in UniMath.Bicategories.Colimits.Final]
bifinal_2cell [in UniMath.Bicategories.Colimits.Final]
bifinal_2cell_property [in UniMath.Bicategories.Colimits.Final]
bifinal_1cell [in UniMath.Bicategories.Colimits.Final]
bifinal_1cell_property [in UniMath.Bicategories.Colimits.Final]
bifunctor_assoc [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
bifunctor_comm [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
bigmonad [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_is_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_is_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_is_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_to_monad [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_laws [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_mu [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_unit [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_map [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
bigmonad_obj [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
BiInitial [in UniMath.Bicategories.Colimits.Initial]
biinitial_unique [in UniMath.Bicategories.Colimits.Initial]
biinitial_unique_adj_eqv [in UniMath.Bicategories.Colimits.Initial]
biinitial_unique_adj_data [in UniMath.Bicategories.Colimits.Initial]
biinitial_unique_adj_counit [in UniMath.Bicategories.Colimits.Initial]
biinitial_unique_adj_unit [in UniMath.Bicategories.Colimits.Initial]
biinitial_cats [in UniMath.Bicategories.Colimits.Initial]
biinitial_1_types [in UniMath.Bicategories.Colimits.Initial]
biinitial_weq_biinitial' [in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_counit [in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_counit_is_nat_trans [in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_counit_data [in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_unit [in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_unit_is_nat_trans [in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_unit_data [in UniMath.Bicategories.Colimits.Initial]
biinitial_inv [in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_is_functor [in UniMath.Bicategories.Colimits.Initial]
biinitial_inv_data [in UniMath.Bicategories.Colimits.Initial]
biinitial_eq [in UniMath.Bicategories.Colimits.Initial]
biinitial_eq_property [in UniMath.Bicategories.Colimits.Initial]
biinitial_2cell [in UniMath.Bicategories.Colimits.Initial]
biinitial_2cell_property [in UniMath.Bicategories.Colimits.Initial]
biinitial_1cell [in UniMath.Bicategories.Colimits.Initial]
biinitial_1cell_property [in UniMath.Bicategories.Colimits.Initial]
biinitial_to_unique_maps [in UniMath.Bicategories.Colimits.Initial]
bimodule [in UniMath.Algebra.Modules.Examples]
bimodule_struct' [in UniMath.Algebra.Modules.Examples]
BinaryProduct [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binaryProductFunctor [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binaryProductMap [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binaryProductMap_2 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
BinaryProducts [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binaryProduct_pr_2_eqn [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binaryProduct_pr_1_eqn [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
BinarySum [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySumMap [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySumMap_2 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySumProperty [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
BinarySums [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySum_in_2_eqn [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binarySum_in_1_eqn [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
binary_intersection_open [in UniMath.AlgebraicGeometry.Topology]
BinCoprod [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductArrow [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductArrow [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductCocone [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductIn1 [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn1 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductIn2 [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductIn2 [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductObject [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductObject [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductOfArrows [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproductOfArrows [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductOfArrows_comp [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
BinCoproductsFinSet [in UniMath.CategoryTheory.categories.FinSet]
BinCoproductsHSET2 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
BinCoproducts_functor_precat [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproducts_opp [in UniMath.CategoryTheory.limits.Opp]
BinCoproduct_of_functors [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_data [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_mor [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_ob [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_alt2 [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_of_functors_alt [in UniMath.CategoryTheory.limits.bincoproducts]
bincoproduct_functor [in UniMath.CategoryTheory.limits.bincoproducts]
bincoproduct_functor_data [in UniMath.CategoryTheory.limits.bincoproducts]
bincoproduct_diagram [in UniMath.CategoryTheory.limits.bincoproducts]
BinCoproduct_opp [in UniMath.CategoryTheory.limits.Opp]
bincoproduct_diagram [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
bind [in UniMath.CategoryTheory.Monads.Monads]
bind [in UniMath.CategoryTheory.Monads.KTriples]
bindelta_pair_pr2_iso [in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr2 [in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr2_is_nat_trans [in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr2_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr1_iso [in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr1 [in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr1_is_nat_trans [in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_pr1_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_functor [in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_pair_functor_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_functor [in UniMath.CategoryTheory.PrecategoryBinProduct]
bindelta_functor_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
BindingSig [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BindingSig [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigIndex [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigIsaset [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigMap [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonad [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BindingSigToMonad [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToMonadHSET [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToSignature [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
BindingSigToSignature [in UniMath.SubstitutionSystems.BindingSigToMonad]
BindingSigToSignatureHSET [in UniMath.SubstitutionSystems.BindingSigToMonad]
BinDirectSum [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIndAr [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIndArEq [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIndArFormula [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIndAr' [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIn1Commutes [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumIn2Commutes [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumOb [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumPr1Commutes [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSumPr2Commutes [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_BinProducts [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_isProduct [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_isCoproduct [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_eq5 [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_eq4 [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_eq3 [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_eq2 [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSums_from_binproduct_bincoproducts_eq1 [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSum_from_BinProduct [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSum_BinProduct [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSum_BinCoproduct [in UniMath.CategoryTheory.limits.BinDirectSums]
BinDirectSum_isBinDirectSum [in UniMath.CategoryTheory.limits.BinDirectSums]
bind_relmonadmor_eq_from_relmonadmor_iso [in UniMath.CategoryTheory.Monads.RelativeMonads]
bind_bind [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bind_unit [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bind_kt [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
bind_slice [in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_instantiated [in UniMath.SubstitutionSystems.MonadsMultiSorted]
bind_fun [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
bind_η [in UniMath.CategoryTheory.Monads.KTriples]
bind_bind [in UniMath.CategoryTheory.Monads.KTriples]
binop [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
binop [in UniMath.Foundations.PartA]
binopeqrel [in UniMath.Algebra.BinaryOperations]
binopeqrelabgrdiff [in UniMath.Algebra.Groups]
binopeqrelabmonoidfrac [in UniMath.Algebra.Monoids]
binopeqrel_of_binopfun [in UniMath.Algebra.BinaryOperations]
binopeqrel_eq [in UniMath.Algebra.BinaryOperations]
binopeqrel_resp_right [in UniMath.Algebra.BinaryOperations]
binopeqrel_resp_left [in UniMath.Algebra.BinaryOperations]
binopfun [in UniMath.Algebra.BinaryOperations]
binopfuncomp [in UniMath.Algebra.BinaryOperations]
binopfuncomp_assoc [in UniMath.CategoryTheory.category_binops]
binopfunisbinopfun [in UniMath.Algebra.BinaryOperations]
binophrel [in UniMath.Algebra.BinaryOperations]
binophrelmodule_eqrel [in UniMath.Algebra.Modules.Quotient]
binophrel_resp_right [in UniMath.Algebra.BinaryOperations]
binophrel_resp_left [in UniMath.Algebra.BinaryOperations]
binopincltobinopfun [in UniMath.Algebra.BinaryOperations]
binopiso [in UniMath.Algebra.BinaryOperations]
binopisocomp [in UniMath.Algebra.BinaryOperations]
binopisotobinopmono [in UniMath.Algebra.BinaryOperations]
binopmono [in UniMath.Algebra.BinaryOperations]
binopmonocomp [in UniMath.Algebra.BinaryOperations]
binopPathOver [in UniMath.MoreFoundations.PathsOver]
binoppo [in UniMath.Algebra.BinaryOperations]
binops_precategory_ob_mor [in UniMath.CategoryTheory.category_binops]
binops_fun_space [in UniMath.CategoryTheory.category_binops]
binop_category [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
binop_precategory_is_univalent [in UniMath.CategoryTheory.category_binops]
binop_category [in UniMath.CategoryTheory.category_binops]
binop_precategory_isweq [in UniMath.CategoryTheory.category_binops]
binop_equiv_weq_iso [in UniMath.CategoryTheory.category_binops]
binop_iso_equiv_weq [in UniMath.CategoryTheory.category_binops]
binop_precategory [in UniMath.CategoryTheory.category_binops]
binop_precategory_data [in UniMath.CategoryTheory.category_binops]
binop_weq_bck [in UniMath.Algebra.BinaryOperations]
binop_weq_fwd [in UniMath.Algebra.BinaryOperations]
binop1fun [in UniMath.Algebra.BinaryOperations]
binop1iso [in UniMath.Algebra.BinaryOperations]
binop1mono [in UniMath.Algebra.BinaryOperations]
binop2fun [in UniMath.Algebra.BinaryOperations]
binop2iso [in UniMath.Algebra.BinaryOperations]
binop2mono [in UniMath.Algebra.BinaryOperations]
binprod [in UniMath.Bicategories.Colimits.Products]
Binproduct [in UniMath.CategoryTheory.limits.binproducts]
BinProduct [in UniMath.CategoryTheory.limits.binproducts]
BinProductArrow [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductArrow [in UniMath.CategoryTheory.limits.binproducts]
BinProductCone [in UniMath.CategoryTheory.limits.graphs.binproducts]
binproductleft_psfunctor [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
binproductleft_map_laws [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
binproductleft_map_data [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
BinProductObject [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductObject [in UniMath.CategoryTheory.limits.binproducts]
BinProductOfArrows [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductOfArrows [in UniMath.CategoryTheory.limits.binproducts]
BinProductOfArrows_comp [in UniMath.CategoryTheory.limits.binproducts]
BinProductPr1 [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductPr1 [in UniMath.CategoryTheory.limits.binproducts]
BinProductPr2 [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProductPr2 [in UniMath.CategoryTheory.limits.binproducts]
BinProducts [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProducts [in UniMath.CategoryTheory.limits.binproducts]
BinProductsFinSet [in UniMath.CategoryTheory.categories.FinSet]
BinProductsFromPullbacks [in UniMath.CategoryTheory.limits.pullbacks]
BinProductsHSET2 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
BinProductsHSET2 [in UniMath.SubstitutionSystems.LamFromBindingSig]
BinProducts_slice_precat [in UniMath.CategoryTheory.slicecat]
BinProducts_opp [in UniMath.CategoryTheory.limits.Opp]
BinProducts_functor_precat [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_Signatures [in UniMath.SubstitutionSystems.BinProductOfSignatures]
BinProduct_of_Signatures [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
binproduct_diagram [in UniMath.CategoryTheory.limits.graphs.binproducts]
BinProduct_opp [in UniMath.CategoryTheory.limits.Opp]
BinProduct_Pullback [in UniMath.CategoryTheory.limits.pullbacks]
binproduct_nat_trans [in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_data [in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_pr2 [in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_pr2_data [in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_pr1 [in UniMath.CategoryTheory.limits.binproducts]
binproduct_nat_trans_pr1_data [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_functors [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_functors_data [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_functors_mor [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_functors_ob [in UniMath.CategoryTheory.limits.binproducts]
BinProduct_of_functors_alt [in UniMath.CategoryTheory.limits.binproducts]
binproduct_functor [in UniMath.CategoryTheory.limits.binproducts]
binproduct_functor_data [in UniMath.CategoryTheory.limits.binproducts]
binproduct_diagram [in UniMath.CategoryTheory.limits.binproducts]
binprod_ump_2_cell_unique_univ_cat [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_pr2_univ_cat [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_pr1_univ_cat [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_univ_cat [in UniMath.Bicategories.Colimits.Products]
binprod_ump_1_univ_cat [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_unique_one_types [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_pr2_one_types [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_pr1_one_types [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2_cell_one_types [in UniMath.Bicategories.Colimits.Products]
binprod_ump_1_one_types [in UniMath.Bicategories.Colimits.Products]
binprod_pr2 [in UniMath.Bicategories.Colimits.Products]
binprod_pr1 [in UniMath.Bicategories.Colimits.Products]
binprod_of [in UniMath.Bicategories.Colimits.Products]
binprod_cat_ump [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2cell_invertible [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2cell_unique_alt [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2cell_unique [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2cell_pr2 [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2cell_pr1 [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2cell [in UniMath.Bicategories.Colimits.Products]
binprod_ump_1cell_pr2 [in UniMath.Bicategories.Colimits.Products]
binprod_ump_1cell_pr1 [in UniMath.Bicategories.Colimits.Products]
binprod_ump_1cell [in UniMath.Bicategories.Colimits.Products]
binprod_ump_2 [in UniMath.Bicategories.Colimits.Products]
binprod_ump_1 [in UniMath.Bicategories.Colimits.Products]
binprod_1cell_pr2 [in UniMath.Bicategories.Colimits.Products]
binprod_1cell_pr1 [in UniMath.Bicategories.Colimits.Products]
binprod_1cell_1cell [in UniMath.Bicategories.Colimits.Products]
binprod_1cell [in UniMath.Bicategories.Colimits.Products]
binprod_cone_pr2 [in UniMath.Bicategories.Colimits.Products]
binprod_cone_pr1 [in UniMath.Bicategories.Colimits.Products]
binprod_cone_obj [in UniMath.Bicategories.Colimits.Products]
binprod_cone [in UniMath.Bicategories.Colimits.Products]
binprod_swap [in UniMath.CategoryTheory.LatticeObject]
binprod_delta [in UniMath.CategoryTheory.LatticeObject]
binprod_assoc [in UniMath.CategoryTheory.LatticeObject]
binprod_to_pullback [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
BinSum_of_Signatures [in UniMath.SubstitutionSystems.BinSumOfSignatures]
binswap_pair_functor [in UniMath.CategoryTheory.PrecategoryBinProduct]
bla [in UniMath.SubstitutionSystems.Lam]
bla' [in UniMath.SubstitutionSystems.Lam]
bla'_inv [in UniMath.SubstitutionSystems.Lam]
boolascoprod [in UniMath.Foundations.PartA]
boolchoice [in UniMath.Foundations.PartA]
boolDcuts [in UniMath.RealNumbers.DecidableDedekindCuts]
booleq [in UniMath.Foundations.PartB]
boolset [in UniMath.Foundations.Sets]
boolsumfun [in UniMath.Foundations.PartA]
boolsumtocoprod [in UniMath.Foundations.PartA]
bool_unit_binop_structure [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
bool_valuation [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
bool_algebra [in UniMath.Algebra.Universal.Examples.Bool]
bool_signature [in UniMath.Algebra.Universal.Examples.Bool]
bool_to_type [in UniMath.Foundations.PartA]
bot_mor [in UniMath.CategoryTheory.LatticeObject]
bot_op [in UniMath.Algebra.Universal.Examples.Tests]
bounded_lattice_to_lattice [in UniMath.Algebra.Lattice]
bounded_lattice [in UniMath.Algebra.Lattice]
bounded_latticeop [in UniMath.Algebra.Lattice]
bounded_latticeob_to_latticeob [in UniMath.CategoryTheory.LatticeObject]
bounded_latticeob [in UniMath.CategoryTheory.LatticeObject]
bounded_latticeop_cat [in UniMath.CategoryTheory.LatticeObject]
bounded_search [in UniMath.Combinatorics.BoundedSearch]
bound01 [in UniMath.Combinatorics.FiniteSets]
Bourbaki_Witt_property [in UniMath.Algebra.FixedPointTheorems]
Bourbaki_Witt_fixpoint_theorem_statement [in UniMath.Algebra.FixedPointTheorems]
bracket [in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_for_InitAlg [in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_Thm15 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
bracket_for_LamE_algebra_on_Lam [in UniMath.SubstitutionSystems.Lam]
bracket_for_LamE_algebra_on_Lam_at [in UniMath.SubstitutionSystems.Lam]
bracket_parts [in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_property_parts_identity_nicer [in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_parts_at [in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_property_parts [in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_at [in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_property [in UniMath.SubstitutionSystems.SubstitutionSystems]
bracket_for_initial_algebra [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
bracket_for_InitAlg [in UniMath.SubstitutionSystems.LiftingInitial]
bracket_Thm15 [in UniMath.SubstitutionSystems.LiftingInitial]
braided_monoidal_cat_second_hexagon_eq [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
braided_monoidal_cat_first_hexagon_eq [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
braided_monoidal_cat_braiding [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
braided_monoidal_cat_monoidal_cat [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
braided_monoidal_cat [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
braiding [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
Branch [in UniMath.Combinatorics.ZFstructures]
Branch_of_Branch_to_Branch_inv [in UniMath.Combinatorics.ZFstructures]
Branch_of_Branch_to_Branch [in UniMath.Combinatorics.ZFstructures]
brel [in UniMath.Foundations.Sets]
breltodecrel [in UniMath.Foundations.Sets]
build_associator [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
build_right_unitor [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
build_left_unitor [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
build_term_curried [in UniMath.Algebra.Universal.VTerms]
build_term [in UniMath.Algebra.Universal.VTerms]
build_prebicat_data [in UniMath.Bicategories.Core.Bicat]
build_bicategory [in UniMath.Bicategories.Core.Bicat]
build_adjoint_equivalence [in UniMath.Bicategories.Core.Adjunctions]
build_gterm_curried [in UniMath.Algebra.Universal.Terms]
build_term [in UniMath.Algebra.Universal.Terms]

C

c [in UniMath.Combinatorics.Tests]
c [in UniMath.SyntheticHomotopyTheory.Circle2]
cancel_whisker_right [in UniMath.Bicategories.WkCatEnrichment.whiskering]
cardinalityFiniteSet [in UniMath.Combinatorics.FiniteSets]
carrier [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
carrier [in UniMath.Foundations.Sets]
carrierM [in UniMath.Induction.M.ComputationalM]
carrierofasubabgr [in UniMath.Algebra.Groups]
carrierofasubcommrig [in UniMath.Algebra.RigsAndRings]
carrierofasubcommring [in UniMath.Algebra.RigsAndRings]
carrierofasubgr [in UniMath.Algebra.Groups]
carrierofasubmodule [in UniMath.Algebra.Modules.Submodule]
carrierofasubrig [in UniMath.Algebra.RigsAndRings]
carrierofasubring [in UniMath.Algebra.RigsAndRings]
carrierofasubsetwithbinop [in UniMath.Algebra.BinaryOperations]
carrierofPartialOrder [in UniMath.Foundations.Sets]
carrierofpo [in UniMath.Foundations.Sets]
carrierofposet [in UniMath.Foundations.Sets]
carrierofposetmorphism [in UniMath.Foundations.Sets]
carrierofPreorderedSet [in UniMath.Foundations.Sets]
carrierofsubabmonoid [in UniMath.Algebra.Monoids]
carrierofsubmonoid [in UniMath.Algebra.Monoids]
carrierofsubsetwith2binop [in UniMath.Algebra.BinaryOperations]
carrier_of_sub_category [in UniMath.CategoryTheory.Subcategory.Core]
carrier_of_sub_precategory [in UniMath.CategoryTheory.Subcategory.Core]
carrier_subset [in UniMath.Foundations.Sets]
carrier_set [in UniMath.MoreFoundations.Subtypes]
carry [in UniMath.PAdics.padics]
carryequiv [in UniMath.PAdics.padics]
carryequiv0 [in UniMath.PAdics.padics]
cartesian [in UniMath.CategoryTheory.DisplayedCats.Examples]
cartesian_1cell_to_is_pb [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cartesian_ump_eq [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cartesian_ump_2 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cartesian_1cell_pb_ump_1 [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cartesian_comp_psfunctor [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_id_psfunctor [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_disp_psfunctor [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_2cell_weq_cartesian [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_to_cartesian_2cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_2cell_to_cartesian [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_1cell_lift_2cell_invertible [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_lift_2cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_1cell_lift_2cell_commutes [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_1cell_lift_2cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_1cell_lift_1cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_1cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cartesian_cubical_sets_exponentials [in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_cubical_sets [in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_cube_category_binproducts [in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_cube_category [in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_cube_precategory [in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_cube_precategory_data [in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_cube_precategory_ob_mor [in UniMath.CategoryTheory.categories.CartesianCubicalSets]
cartesian_iff_isPullback [in UniMath.CategoryTheory.DisplayedCats.Codomain]
cartesian_isPullback_in_cod_disp [in UniMath.CategoryTheory.DisplayedCats.Codomain]
cartesian_factorisation_disp_functor_cell_is_cartesian [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor_cell [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor_cell_axioms [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor_cell_data [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor_is_cartesian [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor_axioms [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_functor_data [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_nat_trans [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_nat_trans_axioms [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_disp_nat_trans_data [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_lifts_iso_commutes [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_lifts_iso [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_lift_is_cartesian [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_lift [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_commutes' [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation' [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_unique [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation_commutes [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cartesian_factorisation [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cast [in UniMath.MoreFoundations.PartA]
castAction [in UniMath.Algebra.GroupAction]
castTorsor [in UniMath.Algebra.GroupAction]
CAT [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
CAT [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
catbinprodmor [in UniMath.CategoryTheory.PrecategoryBinProduct]
catDelta [in UniMath.CategoryTheory.SimplicialSets]
category [in UniMath.CategoryTheory.Core.Categories]
categoryEmbedding [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
categoryIsomorphism [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
categoryOfSheaves [in UniMath.CategoryTheory.GrothendieckTopos]
categoryWithAbgrops [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
categoryWithAbgropsData [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
categoryWithAbgrops_precategoryWithBinOps [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
CategoryWithAdditiveStructure [in UniMath.CategoryTheory.Additive]
categoryWithStructure [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
category_RelMonad [in UniMath.CategoryTheory.Monads.RelativeMonads]
category_from_bicat_and_ob [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
category_Monad [in UniMath.CategoryTheory.Monads.Monads]
category_monoid [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
category_Rezk_completion [in UniMath.CategoryTheory.rezk_completion]
category_FunctorAlg [in UniMath.CategoryTheory.FunctorAlgebras]
category_from_setcategory [in UniMath.CategoryTheory.Core.Setcategories]
category_algebras [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
category_HSET [in UniMath.CategoryTheory.categories.HSET.Univalence]
category_binproduct_iso_weq [in UniMath.CategoryTheory.PrecategoryBinProduct]
category_binproduct_iso_inv [in UniMath.CategoryTheory.PrecategoryBinProduct]
category_binproduct_iso_map [in UniMath.CategoryTheory.PrecategoryBinProduct]
category_binproduct [in UniMath.CategoryTheory.PrecategoryBinProduct]
category_CONE [in UniMath.CategoryTheory.limits.cones]
category_of_discrete_bicategory [in UniMath.Bicategories.Discreteness]
category_eqalgebras [in UniMath.CategoryTheory.categories.Universal_Algebra.EqAlgebras]
category_LModule [in UniMath.CategoryTheory.Monads.LModules]
category_Ptd [in UniMath.CategoryTheory.PointedFunctors]
category_from_two_cat_data [in UniMath.CategoryTheory.Core.TwoCategories]
category_Kleisli [in UniMath.CategoryTheory.Monads.KTriples]
category_to_precategory [in UniMath.CategoryTheory.Core.Categories]
catiso [in UniMath.CategoryTheory.catiso]
catiso_to_precategory_ob_mor_path [in UniMath.CategoryTheory.catiso]
catiso_fully_faithful_weq [in UniMath.CategoryTheory.catiso]
catiso_to_precategory_ob_path [in UniMath.CategoryTheory.catiso]
catiso_ob_weq [in UniMath.CategoryTheory.catiso]
catiso_is_path_precat [in UniMath.CategoryTheory.CategoryEquality]
catiso_to_cat_equiv [in UniMath.CategoryTheory.CategoryEquality]
catiso_reord [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
Catlike_triangle [in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_pentagon [in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_right_unitor_is_iso [in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_right_unitor [in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_left_unitor_is_iso [in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_left_unitor [in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_associator_is_iso [in UniMath.Bicategories.WkCatEnrichment.Cat]
Catlike_associator [in UniMath.Bicategories.WkCatEnrichment.Cat]
cats_limset [in UniMath.CategoryTheory.categories.HSET.Limits]
cats_limset_UU [in UniMath.CategoryTheory.categories.HSET.Limits]
cat_fully_faithful_weq_fully_faithful_1cell [in UniMath.Bicategories.Core.FullyFaithful]
cat_fully_faithful_1cell_is_fully_faithful [in UniMath.Bicategories.Core.FullyFaithful]
cat_fully_faithful_is_fully_faithful_1cell [in UniMath.Bicategories.Core.FullyFaithful]
cat_faithful_weq_faithful_1cell [in UniMath.Bicategories.Core.FullyFaithful]
cat_faithful_1cell_is_faithful [in UniMath.Bicategories.Core.FullyFaithful]
cat_faithful_is_faithful_1cell [in UniMath.Bicategories.Core.FullyFaithful]
cat_of_elems_forgetful [in UniMath.CategoryTheory.Elements]
cat_of_elems_on_nat_trans [in UniMath.CategoryTheory.Elements]
cat_of_elems_on_nat_trans_data [in UniMath.CategoryTheory.Elements]
cat_of_elems [in UniMath.CategoryTheory.Elements]
cat_of_elems_data [in UniMath.CategoryTheory.Elements]
cat_of_elems_ob_mor [in UniMath.CategoryTheory.Elements]
cat_of_elems_forgetful [in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_on_nat_trans [in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_on_nat_trans_data [in UniMath.CategoryTheory.ElementsOp]
cat_of_elems [in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_data [in UniMath.CategoryTheory.ElementsOp]
cat_of_elems_ob_mor [in UniMath.CategoryTheory.ElementsOp]
cat_n [in UniMath.CategoryTheory.categories.StandardCategories]
cat_precat_subtype [in UniMath.CategoryTheory.categories.Cats]
cat_equiv_to_catiso_weq [in UniMath.CategoryTheory.CategoryEquality]
cat_equiv_to_catiso [in UniMath.CategoryTheory.CategoryEquality]
cat_equiv [in UniMath.CategoryTheory.CategoryEquality]
cat_eq_1_to_cat_eq_2 [in UniMath.CategoryTheory.CategoryEquality]
cat_eq_2 [in UniMath.CategoryTheory.CategoryEquality]
cat_path_to_cat_eq_1 [in UniMath.CategoryTheory.CategoryEquality]
cat_eq_1 [in UniMath.CategoryTheory.CategoryEquality]
cat_monad_map_as_bind [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_monad_μμ [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_monad_μη [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_monad_ημ [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
cat_to_slicecat [in UniMath.CategoryTheory.slicecat]
cat_to_slicecat_data [in UniMath.CategoryTheory.slicecat]
cat_iso_to_adjequiv [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
cat_iso_counit [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
cat_iso_unit [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
cat_prebicat_data [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
cat_prebicat_nouniv_data [in UniMath.Bicategories.Core.Examples.BicatOfCats]
cat_from_skewmonoidal [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
Cauchy_seq_impl_ex_lim_seq [in UniMath.RealNumbers.NonnegativeReals]
Cauchy_lim_seq [in UniMath.RealNumbers.NonnegativeReals]
Cauchy_seq [in UniMath.RealNumbers.NonnegativeReals]
Cauchy_seq [in UniMath.RealNumbers.Reals]
ccAiB_K [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
ccAiM_K [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CCD [in UniMath.SubstitutionSystems.SignatureCategory]
CCDRap [in UniMath.Algebra.ConstructiveStructures]
CCDRdiv [in UniMath.Algebra.ConstructiveStructures]
CCDRinv [in UniMath.Algebra.ConstructiveStructures]
CCDRmult [in UniMath.Algebra.ConstructiveStructures]
CCDRone [in UniMath.Algebra.ConstructiveStructures]
CCDRplus [in UniMath.Algebra.ConstructiveStructures]
CCDRzero [in UniMath.Algebra.ConstructiveStructures]
ccFy [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
CCHSET [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
cComma [in UniMath.CategoryTheory.CommaCategories]
cComma_mor_functor_data [in UniMath.CategoryTheory.CommaCategories]
cComma_mor_mor [in UniMath.CategoryTheory.CommaCategories]
cComma_mor_ob [in UniMath.CategoryTheory.CommaCategories]
cComma_pr1 [in UniMath.CategoryTheory.CommaCategories]
ccomma_pr1_functor_data [in UniMath.CategoryTheory.CommaCategories]
cComma_precat [in UniMath.CategoryTheory.CommaCategories]
ccomma_precategory_data [in UniMath.CategoryTheory.CommaCategories]
ccomma_precategory_ob_mor [in UniMath.CategoryTheory.CommaCategories]
ccomma_comp [in UniMath.CategoryTheory.CommaCategories]
ccomma_id [in UniMath.CategoryTheory.CommaCategories]
cComma_mor_eq [in UniMath.CategoryTheory.CommaCategories]
ccomma_morphism [in UniMath.CategoryTheory.CommaCategories]
ccomma_object [in UniMath.CategoryTheory.CommaCategories]
CCS [in UniMath.SubstitutionSystems.CCS]
CCS_M [in UniMath.SubstitutionSystems.CCS_alt]
CCS_Monad [in UniMath.SubstitutionSystems.CCS_alt]
CCS_Functor [in UniMath.SubstitutionSystems.CCS_alt]
CCS_Signature [in UniMath.SubstitutionSystems.CCS_alt]
CCS_Sig [in UniMath.SubstitutionSystems.CCS_alt]
CCS_Monad [in UniMath.SubstitutionSystems.CCS]
CCS_Functor [in UniMath.SubstitutionSystems.CCS]
CCS_Signature [in UniMath.SubstitutionSystems.CCS]
CCS_Sig [in UniMath.SubstitutionSystems.CCS]
CC_LchnF [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
CDRap [in UniMath.Algebra.ConstructiveStructures]
CDRdiv [in UniMath.Algebra.ConstructiveStructures]
CDRinv [in UniMath.Algebra.ConstructiveStructures]
CDRmult [in UniMath.Algebra.ConstructiveStructures]
CDRone [in UniMath.Algebra.ConstructiveStructures]
CDRplus [in UniMath.Algebra.ConstructiveStructures]
CDRzero [in UniMath.Algebra.ConstructiveStructures]
cellfullsub [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
cellset_initial_prebicat [in UniMath.Bicategories.Core.Examples.Initial]
cellset_property [in UniMath.Bicategories.Core.Bicat]
cell_from_invertible_2cell [in UniMath.Bicategories.Core.Bicat]
cell_E₂_to_E₁_is_invertible [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₁_to_E₂_is_invertible [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₂_to_E₁_vcomp [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₁_to_E₂_vcomp [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₂_to_E₁_id₂ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₁_to_E₂_id₂ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₂_to_E₁ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_E₁_to_E₂ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
cell_transportb [in UniMath.Bicategories.DisplayedBicats.DispBicat]
cell_transportf [in UniMath.Bicategories.DisplayedBicats.DispBicat]
cell_of_fullsub [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
cell₁ [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
CFap [in UniMath.Algebra.ConstructiveStructures]
CFdiv [in UniMath.Algebra.ConstructiveStructures]
CFinv [in UniMath.Algebra.ConstructiveStructures]
CFminus [in UniMath.Algebra.ConstructiveStructures]
CFmult [in UniMath.Algebra.ConstructiveStructures]
CFone [in UniMath.Algebra.ConstructiveStructures]
CFopp [in UniMath.Algebra.ConstructiveStructures]
CFplus [in UniMath.Algebra.ConstructiveStructures]
CFzero [in UniMath.Algebra.ConstructiveStructures]
Chain [in UniMath.Algebra.FixedPointTheorems]
chain [in UniMath.Combinatorics.WellFoundedRelations]
chain_lub' [in UniMath.Algebra.FixedPointTheorems]
chain_lub [in UniMath.Algebra.FixedPointTheorems]
Chain_of_Chain_hsubtype [in UniMath.Algebra.FixedPointTheorems]
Chain_hsubtype [in UniMath.Algebra.FixedPointTheorems]
chain_property [in UniMath.Algebra.FixedPointTheorems]
chain_family [in UniMath.Algebra.FixedPointTheorems]
chain_index [in UniMath.Algebra.FixedPointTheorems]
chain_mor [in UniMath.CategoryTheory.Chains.Chains]
chain_union_TOSubset [in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel_eqn [in UniMath.Combinatorics.WellOrderedSets]
chain_union_rel [in UniMath.Combinatorics.WellOrderedSets]
chaotic_bicat [in UniMath.Bicategories.Core.Bicat]
chaotic_prebicat [in UniMath.Bicategories.Core.Bicat]
chaotic_prebicat_data [in UniMath.Bicategories.Core.Bicat]
characteristic_morphism [in UniMath.CategoryTheory.SubobjectClassifier]
check_paths_any [in UniMath.SyntheticHomotopyTheory.AffineLine]
check_paths [in UniMath.SyntheticHomotopyTheory.AffineLine]
check_values [in UniMath.SyntheticHomotopyTheory.AffineLine]
check_paths [in UniMath.SyntheticHomotopyTheory.Halfline]
check_values [in UniMath.SyntheticHomotopyTheory.Halfline]
choice [in UniMath.MoreFoundations.DecidablePropositions]
choice_compute_no [in UniMath.MoreFoundations.DecidablePropositions]
choice_compute_yes [in UniMath.MoreFoundations.DecidablePropositions]
choice_fun [in UniMath.Combinatorics.WellOrderedSets]
chooser [in UniMath.MoreFoundations.DecidablePropositions]
circle [in UniMath.SyntheticHomotopyTheory.Circle]
circle [in UniMath.SyntheticHomotopyTheory.Circle2]
Circle [in UniMath.SyntheticHomotopyTheory.Circle2]
CircleEquiv [in UniMath.SyntheticHomotopyTheory.Circle2]
CircleInduction [in UniMath.SyntheticHomotopyTheory.Circle]
CircleInduction [in UniMath.SyntheticHomotopyTheory.Circle2]
CircleInductionMatch [in UniMath.SyntheticHomotopyTheory.Circle2]
CircleInduction' [in UniMath.SyntheticHomotopyTheory.Circle2]
CircleRecursion [in UniMath.SyntheticHomotopyTheory.Circle2]
CircleRecursion' [in UniMath.SyntheticHomotopyTheory.Circle2]
circle_map'' [in UniMath.SyntheticHomotopyTheory.Circle]
circle_map' [in UniMath.SyntheticHomotopyTheory.Circle]
circle_map_conjugation [in UniMath.SyntheticHomotopyTheory.Circle]
circle_map_check_paths [in UniMath.SyntheticHomotopyTheory.Circle]
circle_map_check_values [in UniMath.SyntheticHomotopyTheory.Circle]
circle_map [in UniMath.SyntheticHomotopyTheory.Circle]
circle_loop [in UniMath.SyntheticHomotopyTheory.Circle]
Circle' [in UniMath.SyntheticHomotopyTheory.Circle2]
ClassifyingSpace [in UniMath.Algebra.GroupAction]
cleaving [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cleaving_of_bicats_rwhisker_cartesian [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cleaving_of_bicats_lwhisker_cartesian [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cleaving_of_bicats_global_cleaving [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cleaving_of_bicats_local_cleaving [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cleaving_of_bicats [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
cleaving_reindex_disp_cat [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
cleaving_mor [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cleaving_ob [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
cleaving_of_fibs [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_global_cleaving [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_mor_cartesian [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_unit_disp_cat [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_mor_lift_2cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_unique_2_lifts [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_2cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_axioms [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_2cell_data [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_mor_lift_1cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_mor [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lift_obj [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_rwhisker_cartesian [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_lwhisker_cartesian [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_local_cleaving [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_cartesian_2cell_is_pointwise_cartesian [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
cleaving_of_fibs_is_cartesian_2cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
coalgebra [in UniMath.CategoryTheory.FunctorCoalgebras]
coalgebra_homo_comp [in UniMath.CategoryTheory.FunctorCoalgebras]
coalgebra_homo_id [in UniMath.CategoryTheory.FunctorCoalgebras]
coalgebra_homo_eq [in UniMath.CategoryTheory.FunctorCoalgebras]
coalgebra_homo [in UniMath.CategoryTheory.FunctorCoalgebras]
coalgebra_mor [in UniMath.CategoryTheory.FunctorCoalgebras]
coalgebra_ob [in UniMath.CategoryTheory.FunctorCoalgebras]
CoAlg_category [in UniMath.CategoryTheory.FunctorCoalgebras]
CoAlg_precategory [in UniMath.CategoryTheory.FunctorCoalgebras]
CoAlg_precategory_data [in UniMath.CategoryTheory.FunctorCoalgebras]
CoAlg_precategory_ob_mor [in UniMath.CategoryTheory.FunctorCoalgebras]
cobase [in UniMath.CategoryTheory.categories.HSET.Colimits]
cochain_mor [in UniMath.CategoryTheory.Chains.Cochains]
cochain_weq [in UniMath.CategoryTheory.Chains.Cochains]
cochain_limit_cone [in UniMath.Induction.M.Limits]
cochain_limit [in UniMath.Induction.M.Limits]
cocone [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
cocone [in UniMath.CategoryTheory.limits.graphs.colimits]
coconeIn [in UniMath.CategoryTheory.limits.graphs.colimits]
cocone_functor [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
cocone_pr2_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocone_pr1_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
cocone_over_alg [in UniMath.CategoryTheory.Chains.Adamek]
cocone_pointwise [in UniMath.CategoryTheory.limits.graphs.colimits]
Cocone_by_postcompose [in UniMath.CategoryTheory.limits.graphs.colimits]
cocone_paths [in UniMath.CategoryTheory.limits.graphs.colimits]
coconusf [in UniMath.Foundations.PartA]
coconusfromt [in UniMath.Foundations.PartA]
coconusfromtpair [in UniMath.Foundations.PartA]
coconusfromtpr1 [in UniMath.Foundations.PartA]
coconustot [in UniMath.Foundations.PartA]
coconustotpair [in UniMath.Foundations.PartA]
coconustotpr1 [in UniMath.Foundations.PartA]
cod_fibration_one_types [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cod_cleaving_of_bicats [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cod_global_cleaving [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cod_local_cleaving [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cod_invertible_is_cartesian_2cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cod_disp_data [in UniMath.CategoryTheory.DisplayedCats.Codomain]
cod_id_comp [in UniMath.CategoryTheory.DisplayedCats.Codomain]
cod_disp_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Codomain]
cod_disp_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_weq_disp_adj_equiv [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_adj_to_adj_to_disp [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_to_adj [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_adj_equiv_to_adj_equiv [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_help [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_disp_adj [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_counit_homot [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_counit [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_unit_homot [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_unit [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_right_adj [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_adj_equiv_to_disp_adj_equiv_map [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_1cell_path [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_1cell_path_help [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_2cell_path [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_invertible_2_cell_weq_disp_invertible [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_invertible_invertible_2_cell [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_invertible_2_cell_to_disp_invertible [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_invertible_2_cell_to_disp_invertible_help [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_bicat_help [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_has_disp_cellset [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_prebicat_laws [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_prebicat_data [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_prebicat_ops [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
cod_disp_prebicat_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
Coequalizer [in UniMath.CategoryTheory.Abelian]
Coequalizer [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Coequalizer [in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizer [in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerArrow [in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerArrow [in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerArrowEq [in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerCokernel [in UniMath.CategoryTheory.limits.cokernels]
CoequalizerEqAr [in UniMath.CategoryTheory.limits.coequalizers]
coequalizerEquation [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
coequalizerMap [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
CoequalizerObject [in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerObject [in UniMath.CategoryTheory.limits.coequalizers]
CoequalizerOfArrows [in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerOut [in UniMath.CategoryTheory.limits.graphs.coequalizers]
CoequalizerOut [in UniMath.CategoryTheory.limits.coequalizers]
Coequalizers [in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizers [in UniMath.CategoryTheory.limits.coequalizers]
Coequalizers_opp [in UniMath.CategoryTheory.limits.Opp]
Coequalizer_eq2 [in UniMath.CategoryTheory.Abelian]
Coequalizer_eq1 [in UniMath.CategoryTheory.Abelian]
Coequalizer_Pushout [in UniMath.CategoryTheory.Abelian]
Coequalizer_isEpi [in UniMath.CategoryTheory.Abelian]
Coequalizer_cocone [in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizer_diagram [in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizer_graph [in UniMath.CategoryTheory.limits.graphs.coequalizers]
Coequalizer_opp [in UniMath.CategoryTheory.limits.Opp]
coevaluation_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
coevaluation_pstrans_data [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
coevaluation_functor [in UniMath.CategoryTheory.PrecategoryBinProduct]
coherent_homot [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
CohomologyComplex [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor_i [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor8 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor7 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor6 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor5 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor4 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor3 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor2 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_Mor1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_CokerKerIso [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplexIso_KerCokerIso [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyComplex' [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctor [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHIm [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHImEq [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorHImMor [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Additive [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_functor_data [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctorH_Mor [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctor_Additive [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyFunctor_data [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyMorphism [in UniMath.HomologicalAlgebra.CohomologyComplex]
CohomologyMorphism_Mor [in UniMath.HomologicalAlgebra.CohomologyComplex]
coh_strictness_from_univalent_2_1 [in UniMath.Bicategories.Core.Strictness]
coh_strictness_structure [in UniMath.Bicategories.Core.Strictness]
CoImage [in UniMath.CategoryTheory.Abelian]
CoImage [in UniMath.CategoryTheory.ShortExactSequences]
CoIm_to_Im_eq [in UniMath.CategoryTheory.Abelian]
CoIm_to_Im [in UniMath.CategoryTheory.Abelian]
CoIm_to_Im_eq2 [in UniMath.CategoryTheory.Abelian]
CoIm_to_Im_eq1 [in UniMath.CategoryTheory.Abelian]
CoIm_ar [in UniMath.CategoryTheory.Abelian]
Cokernel [in UniMath.CategoryTheory.Abelian]
Cokernel [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Cokernel [in UniMath.CategoryTheory.limits.graphs.cokernels]
Cokernel [in UniMath.CategoryTheory.limits.cokernels]
CokernelArrow [in UniMath.CategoryTheory.limits.cokernels]
CokernelCoequalizer [in UniMath.CategoryTheory.limits.cokernels]
CokernelCommutes [in UniMath.CategoryTheory.limits.cokernels]
CokernelComplex [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelCompZero [in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp [in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp_mor2 [in UniMath.CategoryTheory.limits.cokernels]
CokernelEpiComp_mor1 [in UniMath.CategoryTheory.limits.cokernels]
cokernelEquation [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
CokernelisCokernel [in UniMath.CategoryTheory.limits.cokernels]
CokernelKernelCohomology1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_Mor2 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology1_Mor1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology2 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology2_Mor2 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelCohomology2_Mor1 [in UniMath.HomologicalAlgebra.CohomologyComplex]
CokernelKernelMorphism [in UniMath.HomologicalAlgebra.CohomologyComplex]
cokernelMap [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
CokernelMorphism_eq [in UniMath.HomologicalAlgebra.Complexes]
CokernelOb [in UniMath.CategoryTheory.limits.cokernels]
CokernelOfDiagonal [in UniMath.CategoryTheory.AbelianToAdditive]
CokernelOfIdentity [in UniMath.CategoryTheory.limits.cokernels]
CokernelOfKernelOfPr1 [in UniMath.CategoryTheory.AbelianToAdditive]
CokernelOfKernelOfPr2 [in UniMath.CategoryTheory.AbelianToAdditive]
CokernelofZeroArrow [in UniMath.CategoryTheory.limits.cokernels]
CokernelofZeroArrow_iso [in UniMath.CategoryTheory.limits.cokernels]
CokernelOut [in UniMath.CategoryTheory.limits.cokernels]
CokernelOutPaths_is_iso_mor [in UniMath.CategoryTheory.limits.cokernels]
CokernelPath [in UniMath.CategoryTheory.limits.cokernels]
Cokernels [in UniMath.CategoryTheory.limits.cokernels]
Cokernels_opp [in UniMath.CategoryTheory.limits.Opp]
CokernelZeroEpi [in UniMath.CategoryTheory.Abelian]
CokernelZeroEpi_kernel [in UniMath.CategoryTheory.Abelian]
Cokernel_up_to_iso2 [in UniMath.CategoryTheory.limits.cokernels]
Cokernel_up_to_iso2_isCoequalizer [in UniMath.CategoryTheory.limits.cokernels]
Cokernel_up_to_iso2_eq [in UniMath.CategoryTheory.limits.cokernels]
Cokernel_up_to_iso [in UniMath.CategoryTheory.limits.cokernels]
Cokernel_opp [in UniMath.CategoryTheory.limits.Opp]
col [in UniMath.Combinatorics.FiniteSequences]
colim [in UniMath.CategoryTheory.limits.graphs.colimits]
colimAlgInitial [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
colimAlgInitial [in UniMath.CategoryTheory.Chains.Adamek]
colimArrow [in UniMath.CategoryTheory.limits.graphs.colimits]
colimCocone [in UniMath.CategoryTheory.limits.graphs.colimits]
ColimCocone [in UniMath.CategoryTheory.limits.graphs.colimits]
ColimCoconeHSET [in UniMath.CategoryTheory.categories.HSET.Colimits]
colimCoconeHSET [in UniMath.CategoryTheory.categories.HSET.Colimits]
ColimFunctor [in UniMath.CategoryTheory.limits.graphs.colimits]
ColimFunctor_data [in UniMath.CategoryTheory.limits.graphs.colimits]
ColimFunctor_mor [in UniMath.CategoryTheory.limits.graphs.colimits]
ColimFunctor_ob [in UniMath.CategoryTheory.limits.graphs.colimits]
colimHSET [in UniMath.CategoryTheory.categories.HSET.Colimits]
ColimHSETArrow [in UniMath.CategoryTheory.categories.HSET.Colimits]
colimIn [in UniMath.CategoryTheory.limits.graphs.colimits]
Colimit [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Colimits [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
colimOfArrows [in UniMath.CategoryTheory.limits.graphs.colimits]
Colims [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
Colims [in UniMath.CategoryTheory.limits.graphs.colimits]
ColimsFunctorCategory_of_shape [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
Colims_of_shape [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
Colims_of_shape [in UniMath.CategoryTheory.limits.graphs.colimits]
colim_functor [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
colim_algebra_mor [in UniMath.CategoryTheory.Chains.Adamek]
colim_nat_trans_in_data [in UniMath.CategoryTheory.limits.graphs.colimits]
collection_of_sieves [in UniMath.CategoryTheory.GrothendieckTopos]
col_vec [in UniMath.Combinatorics.FiniteSequences]
comm [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
commax [in UniMath.Algebra.Monoids]
commax_is [in UniMath.Algebra.BinaryOperations]
comma_codomain [in UniMath.CategoryTheory.CommaCategories]
comma_domain [in UniMath.CategoryTheory.CommaCategories]
comma_category [in UniMath.CategoryTheory.CommaCategories]
comma_precategory [in UniMath.CategoryTheory.CommaCategories]
comma_cat_data_assoc' [in UniMath.CategoryTheory.CommaCategories]
comma_cat_data_assoc [in UniMath.CategoryTheory.CommaCategories]
comma_cat_data_id_right [in UniMath.CategoryTheory.CommaCategories]
comma_cat_data_id_left [in UniMath.CategoryTheory.CommaCategories]
comma_cat_data [in UniMath.CategoryTheory.CommaCategories]
comma_cat_id_comp [in UniMath.CategoryTheory.CommaCategories]
comma_cat_comp [in UniMath.CategoryTheory.CommaCategories]
comma_cat_id [in UniMath.CategoryTheory.CommaCategories]
comma_cat_ob_mor [in UniMath.CategoryTheory.CommaCategories]
comma_cat_mor [in UniMath.CategoryTheory.CommaCategories]
comma_cat_ob [in UniMath.CategoryTheory.CommaCategories]
CommDivRig [in UniMath.Algebra.DivisionRig]
CommDivRig_isrdistr [in UniMath.Algebra.DivisionRig]
CommDivRig_isldistr [in UniMath.Algebra.DivisionRig]
CommDivRig_isrinv [in UniMath.Algebra.DivisionRig]
CommDivRig_islinv [in UniMath.Algebra.DivisionRig]
CommDivRig_iscomm_mult [in UniMath.Algebra.DivisionRig]
CommDivRig_isrunit_one [in UniMath.Algebra.DivisionRig]
CommDivRig_islunit_one [in UniMath.Algebra.DivisionRig]
CommDivRig_isassoc_mult [in UniMath.Algebra.DivisionRig]
CommDivRig_iscomm_plus [in UniMath.Algebra.DivisionRig]
CommDivRig_isrunit_zero [in UniMath.Algebra.DivisionRig]
CommDivRig_islunit_zero [in UniMath.Algebra.DivisionRig]
CommDivRig_isassoc_plus [in UniMath.Algebra.DivisionRig]
CommDivRig_DivRig [in UniMath.Algebra.DivisionRig]
CommDivRig_hnnq [in UniMath.RealNumbers.NonnegativeRationals]
commhfp [in UniMath.Foundations.PartA]
common_initial [in UniMath.Combinatorics.WellOrderedSets]
commrig [in UniMath.Algebra.RigsAndRings]
commrigconstr [in UniMath.Algebra.RigsAndRings]
commrigdirprod [in UniMath.Algebra.RigsAndRings]
commrigmultabmonoid [in UniMath.Algebra.RigsAndRings]
commrigop2axs [in UniMath.Algebra.RigsAndRings]
commrigquot [in UniMath.Algebra.RigsAndRings]
commrigtocommring [in UniMath.Algebra.RigsAndRings]
commrigtorig [in UniMath.Algebra.RigsAndRings]
commrig_hnnq [in UniMath.RealNumbers.NonnegativeRationals]
commrig_univalent_category [in UniMath.CategoryTheory.categories.commrigs]
commrig_category_is_univalent [in UniMath.CategoryTheory.categories.commrigs]
commrig_category [in UniMath.CategoryTheory.categories.commrigs]
commrig_precategory_isweq [in UniMath.CategoryTheory.categories.commrigs]
commrig_equiv_weq_iso [in UniMath.CategoryTheory.categories.commrigs]
commrig_iso_equiv_weq [in UniMath.CategoryTheory.categories.commrigs]
commrig_precategory [in UniMath.CategoryTheory.categories.commrigs]
commrig_precategory_data [in UniMath.CategoryTheory.categories.commrigs]
commrig_precategory_ob_mor [in UniMath.CategoryTheory.categories.commrigs]
commrig_fun_space [in UniMath.CategoryTheory.categories.commrigs]
commrig_univalence [in UniMath.Algebra.RigsAndRings]
commrig_univalence_map [in UniMath.Algebra.RigsAndRings]
commrig_univalence_weq3 [in UniMath.Algebra.RigsAndRings]
commrig_univalence_weq2 [in UniMath.Algebra.RigsAndRings]
commrig_univalence_weq1' [in UniMath.Algebra.RigsAndRings]
commrig_univalence_weq1 [in UniMath.Algebra.RigsAndRings]
commrig' [in UniMath.Algebra.RigsAndRings]
commring [in UniMath.Algebra.RigsAndRings]
commringconstr [in UniMath.Algebra.RigsAndRings]
commringdirprod [in UniMath.Algebra.RigsAndRings]
commringfrac [in UniMath.Algebra.RigsAndRings]
commringfracgt [in UniMath.Algebra.RigsAndRings]
commringfracinv1 [in UniMath.Algebra.RigsAndRings]
commringfracinv1int [in UniMath.Algebra.RigsAndRings]
commringfracop1 [in UniMath.Algebra.RigsAndRings]
commringfracop1int [in UniMath.Algebra.RigsAndRings]
commringfracop2 [in UniMath.Algebra.RigsAndRings]
commringfracop2int [in UniMath.Algebra.RigsAndRings]
commringfracunel1 [in UniMath.Algebra.RigsAndRings]
commringfracunel1int [in UniMath.Algebra.RigsAndRings]
commringfracunel2 [in UniMath.Algebra.RigsAndRings]
commringfracunel2int [in UniMath.Algebra.RigsAndRings]
commringfracunit1 [in UniMath.Algebra.RigsAndRings]
commringofpadicints [in UniMath.PAdics.padics]
commringop2axs [in UniMath.Algebra.RigsAndRings]
commringquot [in UniMath.Algebra.RigsAndRings]
commringtocommrig [in UniMath.Algebra.RigsAndRings]
commringtoring [in UniMath.Algebra.RigsAndRings]
commring_univalence [in UniMath.Algebra.RigsAndRings]
commring_univalence_map [in UniMath.Algebra.RigsAndRings]
commring_univalence_weq3 [in UniMath.Algebra.RigsAndRings]
commring_univalence_weq2 [in UniMath.Algebra.RigsAndRings]
commring_univalence_weq1' [in UniMath.Algebra.RigsAndRings]
commring_univalence_weq1 [in UniMath.Algebra.RigsAndRings]
commring_bimodule [in UniMath.Algebra.Modules.Examples]
commring_univalent_category [in UniMath.CategoryTheory.categories.commrings]
commring_category_is_univalent [in UniMath.CategoryTheory.categories.commrings]
commring_category [in UniMath.CategoryTheory.categories.commrings]
commring_precategory_isweq [in UniMath.CategoryTheory.categories.commrings]
commring_equiv_weq_iso [in UniMath.CategoryTheory.categories.commrings]
commring_iso_equiv_weq [in UniMath.CategoryTheory.categories.commrings]
commring_precategory [in UniMath.CategoryTheory.categories.commrings]
commring_precategory_data [in UniMath.CategoryTheory.categories.commrings]
commring_precategory_ob_mor [in UniMath.CategoryTheory.categories.commrings]
commring_fun_space [in UniMath.CategoryTheory.categories.commrings]
commring' [in UniMath.Algebra.RigsAndRings]
commsqstr [in UniMath.Foundations.PartA]
commsqZtohfp [in UniMath.Foundations.PartA]
commsqZtohfphomot [in UniMath.Foundations.PartA]
commsqZtohfphomot' [in UniMath.Foundations.PartA]
comm_functor_data_2 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
comm_functor [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
comm_functor_data [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
comparable [in UniMath.Algebra.FixedPointTheorems]
compevmapset [in UniMath.Foundations.Sets]
compfun [in UniMath.Foundations.Sets]
compfuncomp [in UniMath.Foundations.Sets]
compl [in UniMath.Foundations.PartC]
complementary [in UniMath.Foundations.PartB]
ComplementaryPair [in UniMath.MoreFoundations.DecidablePropositions]
complementary_to_neg_iff [in UniMath.Foundations.PartB]
CompleteSpace [in UniMath.RealNumbers.Sets]
Complex [in UniMath.HomologicalAlgebra.Complexes]
ComplexCat [in UniMath.HomologicalAlgebra.Complexes]
ComplexFromObject [in UniMath.HomologicalAlgebra.Complexes]
ComplexFromObject_mors [in UniMath.HomologicalAlgebra.Complexes]
ComplexFromObject_obs [in UniMath.HomologicalAlgebra.Complexes]
ComplexHomot [in UniMath.HomologicalAlgebra.KA]
ComplexHomotFunctor [in UniMath.HomologicalAlgebra.KA]
ComplexHomotMorphism [in UniMath.HomologicalAlgebra.KA]
ComplexHomotSubgrp [in UniMath.HomologicalAlgebra.KA]
ComplexHomotSubset [in UniMath.HomologicalAlgebra.KA]
ComplexHomot_Additive [in UniMath.HomologicalAlgebra.KA]
ComplexMonicKernelIn [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCatAbelianMonicKernelsData_isKernel [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCatCokernelOut [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_AbelianPreCat [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Epi_Cokernel_Complex [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Monic_Kernel_Complex [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernels [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_CokernelArrow [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Cokernel [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Kernels [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_KernelIn [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_KernelArrow [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Kernel [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_Additive [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_categoryWithAbgrops [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_precategoryWithBinOps [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_data [in UniMath.HomologicalAlgebra.Complexes]
ComplexPreCat_ob_mor [in UniMath.HomologicalAlgebra.Complexes]
Complex_Funclass [in UniMath.HomologicalAlgebra.Complexes]
complxstr [in UniMath.Foundations.PartA]
compl_ne [in UniMath.MoreFoundations.NegativePropositions]
component [in UniMath.MoreFoundations.Sets]
compose [in UniMath.CategoryTheory.Core.Categories]
composeActionIso [in UniMath.Algebra.GroupAction]
composeActionMap [in UniMath.Algebra.GroupAction]
composeExactFunctors [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
composeMultipleOperation [in UniMath.Algebra.IteratedBinaryOperations]
composePathOver [in UniMath.MoreFoundations.PathsOver]
composePathOverIdpath [in UniMath.MoreFoundations.PathsOver]
composePathOverLeftInverse [in UniMath.MoreFoundations.PathsOver]
composePathOverLeftUnit [in UniMath.MoreFoundations.PathsOver]
composePathOverPath [in UniMath.MoreFoundations.PathsOver]
composePathOverPath_compute [in UniMath.MoreFoundations.PathsOver]
composePathOverRightInverse [in UniMath.MoreFoundations.PathsOver]
composePathOverRightUnit [in UniMath.MoreFoundations.PathsOver]
composePathOver_weq [in UniMath.MoreFoundations.PathsOver]
composePathPathOver [in UniMath.MoreFoundations.PathsOver]
composePathPathOver_compute [in UniMath.MoreFoundations.PathsOver]
composeSequence [in UniMath.Combinatorics.FiniteSequences]
composeSequence' [in UniMath.Combinatorics.FiniteSequences]
composeUnorderedSequence [in UniMath.Combinatorics.FiniteSequences]
compose_functor [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
compose' [in UniMath.CategoryTheory.categories.StandardCategories]
compose1 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
compose2h [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
compose2h_iso [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
CompositionIsAdditive [in UniMath.CategoryTheory.AdditiveFunctors]
composition_of_triangles [in UniMath.Bicategories.Core.AdjointUnique]
compositor_is_disp_univalent_2 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
compositor_is_disp_univalent_2_0 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
compositor_is_disp_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
compositor_disp_cat [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
compositor_disp_cat_id_comp [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
compositor_disp_cat_data [in UniMath.Bicategories.PseudoFunctors.Display.Compositor]
comprehension_cat_structure [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
compute_iscontrweqb_weqfibtototal_3 [in UniMath.MoreFoundations.MoreEquivalences]
compute_pr2_invmap_weqfibtototal [in UniMath.MoreFoundations.MoreEquivalences]
compute_pr1_invmap_weqfibtototal [in UniMath.MoreFoundations.MoreEquivalences]
compute_iscontrweqb_weqfibtototal_1 [in UniMath.MoreFoundations.MoreEquivalences]
compute_pr1_dni_first [in UniMath.Combinatorics.StandardFiniteSets]
compute_pr1_dni_last [in UniMath.Combinatorics.StandardFiniteSets]
comp_psfunctor_psfunctor_comp [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
comp_psfunctor_psfunctor_id [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
comp_psfunctor_cell [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
comp_psfunctor [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
comp_is_ps [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
comp_psfunctor_data [in UniMath.Bicategories.PseudoFunctors.Examples.Composition]
comp_adjequiv [in UniMath.Bicategories.Core.EquivToAdjequiv]
comp_equiv [in UniMath.Bicategories.Core.EquivToAdjequiv]
comp_counit_isiso [in UniMath.Bicategories.Core.EquivToAdjequiv]
comp_counit [in UniMath.Bicategories.Core.EquivToAdjequiv]
comp_unit_isiso [in UniMath.Bicategories.Core.EquivToAdjequiv]
comp_unit [in UniMath.Bicategories.Core.EquivToAdjequiv]
comp_pseudo_morphism [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
comp_fully_faithful [in UniMath.Bicategories.Core.FullyFaithful]
comp_faithful [in UniMath.Bicategories.Core.FullyFaithful]
comp_pb_2cell [in UniMath.Bicategories.Colimits.Pullback]
comp_pstrans [in UniMath.Bicategories.Transformations.PseudoTransformation]
comp_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
comp_coslice_precat [in UniMath.CategoryTheory.coslicecat]
comp_of_invertible_2cell [in UniMath.Bicategories.Core.Invertible_2cells]
comp_slice_precat [in UniMath.CategoryTheory.slicecat]
comp_slice_precat_subproof [in UniMath.CategoryTheory.slicecat]
comp_adj_equivalence_of_cats [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
comp_adjoint_equivalence [in UniMath.Bicategories.Core.Univalence]
comp_func_on_mor [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
comp_distr_laws [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
comp_pred [in UniMath.Folds.from_precats_to_folds_and_back]
conat_graph [in UniMath.CategoryTheory.Chains.Cochains]
concat [in UniMath.Combinatorics.GraphPaths]
concatenate [in UniMath.CategoryTheory.Inductives.Lists]
concatenate [in UniMath.Combinatorics.Lists]
concatenate [in UniMath.Combinatorics.FiniteSequences]
concatenateFiniteOrderedSets [in UniMath.Combinatorics.OrderedSets]
concatenateStep [in UniMath.Combinatorics.FiniteSequences]
concatenate_0 [in UniMath.Combinatorics.FiniteSequences]
concatenate_length [in UniMath.Combinatorics.FiniteSequences]
concatenate' [in UniMath.Combinatorics.StandardFiniteSets]
concatenate'_r0' [in UniMath.Combinatorics.StandardFiniteSets]
concatenate'_r0 [in UniMath.Combinatorics.StandardFiniteSets]
cone [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
cone [in UniMath.CategoryTheory.limits.cats.limits]
CONE [in UniMath.CategoryTheory.limits.cones]
Cone [in UniMath.CategoryTheory.limits.cones]
cone [in UniMath.CategoryTheory.limits.graphs.limits]
ConeConnect [in UniMath.CategoryTheory.limits.cones]
ConeConnectIso [in UniMath.CategoryTheory.limits.cones]
ConeData [in UniMath.HomologicalAlgebra.Triangulated]
ConeData [in UniMath.CategoryTheory.limits.cones]
ConeDataOb [in UniMath.HomologicalAlgebra.Triangulated]
ConeData_from_Cone [in UniMath.CategoryTheory.limits.cones]
ConeData1 [in UniMath.HomologicalAlgebra.Triangulated]
ConeData2 [in UniMath.HomologicalAlgebra.Triangulated]
ConeMor [in UniMath.CategoryTheory.limits.cones]
coneOut [in UniMath.CategoryTheory.limits.cats.limits]
coneOut [in UniMath.CategoryTheory.limits.graphs.limits]
ConeProp [in UniMath.CategoryTheory.limits.cones]
ConeProp_from_Cone [in UniMath.CategoryTheory.limits.cones]
ConeTop [in UniMath.CategoryTheory.limits.cones]
ConeTri [in UniMath.HomologicalAlgebra.Triangulated]
cone_squash_map [in UniMath.MoreFoundations.NullHomotopies]
cone_cell_to_pb_2cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cone_cell_weq_lift_2cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cone_cell_to_lift_2cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
cone_functor [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
cone_pointwise [in UniMath.CategoryTheory.limits.cats.limits]
cone_in_full_subcategory [in UniMath.CategoryTheory.Subcategory.Limits]
Cone_precategory_data [in UniMath.CategoryTheory.limits.cones]
Cone_precategory_ob_mor [in UniMath.CategoryTheory.limits.cones]
Cone_comp [in UniMath.CategoryTheory.limits.cones]
Cone_id [in UniMath.CategoryTheory.limits.cones]
Cone_Mor [in UniMath.CategoryTheory.limits.cones]
Cone_eq [in UniMath.CategoryTheory.limits.cones]
cone_pointwise [in UniMath.CategoryTheory.limits.graphs.limits]
confirm_not_equal [in UniMath.Foundations.Sets]
confirm_equal [in UniMath.Foundations.Sets]
confun [in UniMath.MoreFoundations.PartA]
conj_op [in UniMath.Algebra.Universal.Examples.Tests]
cons [in UniMath.CategoryTheory.Inductives.Lists]
cons [in UniMath.Combinatorics.GraphPaths]
cons [in UniMath.Combinatorics.Lists]
cons [in UniMath.Combinatorics.WellFoundedRelations]
consecutive [in UniMath.Combinatorics.OrderedSets]
consecutive [in UniMath.Foundations.Sets]
conservative [in UniMath.CategoryTheory.Core.Functors]
constant [in UniMath.Bicategories.PseudoFunctors.Examples.Constant]
constantFunctor [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
constant_PreShv [in UniMath.CategoryTheory.Presheaf]
constant_functor [in UniMath.CategoryTheory.Core.Functors]
constant_functor_data [in UniMath.CategoryTheory.Core.Functors]
constant_nat_trans [in UniMath.SubstitutionSystems.LiftingInitial_alt]
constant_nat_trans [in UniMath.CategoryTheory.Core.NaturalTransformations]
constant_invertible_cells [in UniMath.Bicategories.PseudoFunctors.Examples.Constant]
constant_laws [in UniMath.Bicategories.PseudoFunctors.Examples.Constant]
constant_data [in UniMath.Bicategories.PseudoFunctors.Examples.Constant]
constant_nat_trans [in UniMath.SubstitutionSystems.LiftingInitial]
ConstConstSignature [in UniMath.SubstitutionSystems.SignatureExamples]
constcoprod_functor2 [in UniMath.CategoryTheory.limits.bincoproducts]
constcoprod_functor1 [in UniMath.CategoryTheory.limits.bincoproducts]
constHSET_slice [in UniMath.SubstitutionSystems.MonadsMultiSorted]
constHSET_slice [in UniMath.SubstitutionSystems.MultiSorted]
constprod_functor2 [in UniMath.CategoryTheory.exponentials]
constprod_functor1 [in UniMath.CategoryTheory.exponentials]
ConstrTerms [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
ConstructiveCommutativeDivisionRig [in UniMath.Algebra.ConstructiveStructures]
ConstructiveCommutativeDivisionRig_ConstructiveDivisionRig [in UniMath.Algebra.ConstructiveStructures]
ConstructiveCommutativeDivisionRig_commrig [in UniMath.Algebra.ConstructiveStructures]
ConstructiveDivisionRig [in UniMath.Algebra.ConstructiveStructures]
ConstructiveDivisionRig_apsetwith2binop [in UniMath.Algebra.ConstructiveStructures]
ConstructiveDivisionRig_rig [in UniMath.Algebra.ConstructiveStructures]
ConstructiveField [in UniMath.Algebra.ConstructiveStructures]
ConstructiveField_ConstructiveCommutativeDivisionRig [in UniMath.Algebra.ConstructiveStructures]
ConstructiveField_commring [in UniMath.Algebra.ConstructiveStructures]
ConstructiveTotalEffectivellyOrderedSet [in UniMath.RealNumbers.Sets]
ConstructiveTotalEffectiveOrder [in UniMath.RealNumbers.Sets]
constr1 [in UniMath.Foundations.PartA]
Const_plus_H [in UniMath.SubstitutionSystems.LiftingInitial_alt]
const_true [in UniMath.CategoryTheory.SubobjectClassifier]
const_matrix [in UniMath.Combinatorics.FiniteSequences]
const_vec [in UniMath.Combinatorics.FiniteSequences]
const_htrue [in UniMath.CategoryTheory.categories.HSET.Structures]
Const_plus_H [in UniMath.SubstitutionSystems.LiftingInitial]
cons_nat [in UniMath.CategoryTheory.Inductives.Lists]
cons_map [in UniMath.CategoryTheory.Inductives.Lists]
cons_idx [in UniMath.Algebra.Universal.Examples.ListDataType]
cons' [in UniMath.Combinatorics.WellFoundedRelations]
cons1 [in UniMath.Combinatorics.WellFoundedRelations]
continuous [in UniMath.Topology.Topology]
continuous_base_at [in UniMath.Topology.Topology]
continuous_on [in UniMath.Topology.Topology]
continuous_at [in UniMath.Topology.Topology]
continuous2d [in UniMath.Topology.Topology]
continuous2d_base_at [in UniMath.Topology.Topology]
continuous2d_at [in UniMath.Topology.Topology]
CopCocone [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
coprodasstol [in UniMath.Foundations.PartA]
coprodasstor [in UniMath.Foundations.PartA]
coprodcomm [in UniMath.Foundations.PartA]
coprodf [in UniMath.Foundations.PartA]
coprodf1 [in UniMath.Foundations.PartA]
coprodf2 [in UniMath.Foundations.PartA]
coprodtobool [in UniMath.Foundations.PartA]
coprodtoboolsum [in UniMath.Foundations.PartA]
Coproduct [in UniMath.CategoryTheory.limits.coproducts]
CoproductArrow [in UniMath.CategoryTheory.limits.coproducts]
CoproductArrow [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductCocone [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductIn [in UniMath.CategoryTheory.limits.coproducts]
CoproductIn1 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductIn2 [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductObject [in UniMath.CategoryTheory.limits.coproducts]
CoproductObject [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductOfArrows [in UniMath.CategoryTheory.limits.coproducts]
CoproductOfArrows [in UniMath.CategoryTheory.RepresentableFunctors.Test]
CoproductOfArrows_comp [in UniMath.CategoryTheory.limits.coproducts]
Coproducts [in UniMath.CategoryTheory.limits.coproducts]
Coproducts [in UniMath.CategoryTheory.RepresentableFunctors.Test]
Coproducts_cocone [in UniMath.CategoryTheory.limits.coproducts]
coproducts_diagram [in UniMath.CategoryTheory.limits.coproducts]
Coproducts_functor_precat [in UniMath.CategoryTheory.limits.coproducts]
Coproducts_functor_precat [in UniMath.CategoryTheory.RepresentableFunctors.Test]
coproduct_nat_trans [in UniMath.CategoryTheory.limits.coproducts]
coproduct_nat_trans_data [in UniMath.CategoryTheory.limits.coproducts]
coproduct_nat_trans_in [in UniMath.CategoryTheory.limits.coproducts]
coproduct_nat_trans_in_data [in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors [in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors_data [in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors_mor [in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors_ob [in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors_alt [in UniMath.CategoryTheory.limits.coproducts]
coproduct_of_functors_alt_old [in UniMath.CategoryTheory.limits.coproducts]
coproduct_functor [in UniMath.CategoryTheory.limits.coproducts]
coproduct_functor_data [in UniMath.CategoryTheory.limits.coproducts]
coproduct_nat_trans [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_data [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_in2 [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_in2_data [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_in1 [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_nat_trans_in1_data [in UniMath.CategoryTheory.limits.bincoproducts]
coproduct_functor [in UniMath.CategoryTheory.RepresentableFunctors.Test]
coprod_rect_compute_2 [in UniMath.MoreFoundations.PartA]
coprod_rect_compute_1 [in UniMath.MoreFoundations.PartA]
coprod_stn_assoc [in UniMath.Combinatorics.StandardFiniteSets]
corecM [in UniMath.Induction.M.ComputationalM]
corestrict_full_image_weak_equivalence [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image_local_equivalence [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image_local_equivalence_right_adj [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image_essentially_surjective [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image_invertibles [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image_laws [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
corestrict_full_image_data [in UniMath.Bicategories.PseudoFunctors.Examples.CorestrictImage]
Coroof [in UniMath.CategoryTheory.LocalizingClass]
CoroofMor1 [in UniMath.CategoryTheory.LocalizingClass]
CoroofMor2 [in UniMath.CategoryTheory.LocalizingClass]
CoroofMor2Is [in UniMath.CategoryTheory.LocalizingClass]
CoroofOb [in UniMath.CategoryTheory.LocalizingClass]
coslicecat_mor_comm [in UniMath.CategoryTheory.coslicecat]
coslicecat_mor_morphism [in UniMath.CategoryTheory.coslicecat]
coslicecat_ob_morphism [in UniMath.CategoryTheory.coslicecat]
coslicecat_ob_object [in UniMath.CategoryTheory.coslicecat]
coslicecat_mor [in UniMath.CategoryTheory.coslicecat]
coslicecat_ob [in UniMath.CategoryTheory.coslicecat]
coslice_precat [in UniMath.CategoryTheory.coslicecat]
coslice_precat_data [in UniMath.CategoryTheory.coslicecat]
coslice_precat_ob_mor [in UniMath.CategoryTheory.coslicecat]
counit [in UniMath.CategoryTheory.Adjunctions.Core]
counitcounit_of_is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
counitunit_of_is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
counit_from_hom [in UniMath.CategoryTheory.Adjunctions.Core]
counit_left_from_partial [in UniMath.CategoryTheory.Adjunctions.Core]
counit_from_right_adjoint [in UniMath.CategoryTheory.Adjunctions.Core]
counit_from_left_adjoint [in UniMath.CategoryTheory.Adjunctions.Core]
counit_from_are_adjoints [in UniMath.CategoryTheory.Adjunctions.Core]
counit_iso_from_adj_equivalence_of_cats [in UniMath.CategoryTheory.Equivalences.Core]
counit_nat_iso_from_adj_equivalence_of_cats [in UniMath.CategoryTheory.Equivalences.Core]
counit_pointwise_iso_from_adj_equivalence [in UniMath.CategoryTheory.Equivalences.Core]
counit_of_disp_left_biadj [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
counit_of_is_disp_biequivalence [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
counit_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
counit_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
counit_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
counit_of_is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
covyoneda [in UniMath.CategoryTheory.covyoneda]
covyoneda_functor_data [in UniMath.CategoryTheory.covyoneda]
covyoneda_morphisms [in UniMath.CategoryTheory.covyoneda]
covyoneda_morphisms_data [in UniMath.CategoryTheory.covyoneda]
covyoneda_objects [in UniMath.CategoryTheory.covyoneda]
covyoneda_ob_functor_data [in UniMath.CategoryTheory.covyoneda]
covyoneda_objects_ob [in UniMath.CategoryTheory.covyoneda]
cov_hom_functor [in UniMath.CategoryTheory.categories.Type.Core]
coweighting [in UniMath.Algebra.Matrix]
co.cone [in UniMath.CategoryTheory.limits.graphs.limits]
co.coneOut [in UniMath.CategoryTheory.limits.graphs.limits]
co.get_cocone [in UniMath.CategoryTheory.limits.graphs.limits]
co.get_diagram [in UniMath.CategoryTheory.limits.graphs.limits]
co.hasLims [in UniMath.CategoryTheory.limits.graphs.limits]
co.isLimCone [in UniMath.CategoryTheory.limits.graphs.limits]
co.isLimCone_LimCone [in UniMath.CategoryTheory.limits.graphs.limits]
co.lim [in UniMath.CategoryTheory.limits.graphs.limits]
co.limArrow [in UniMath.CategoryTheory.limits.graphs.limits]
co.limCone [in UniMath.CategoryTheory.limits.graphs.limits]
co.LimCone [in UniMath.CategoryTheory.limits.graphs.limits]
co.limOfArrows [in UniMath.CategoryTheory.limits.graphs.limits]
co.limOut [in UniMath.CategoryTheory.limits.graphs.limits]
co.Lims [in UniMath.CategoryTheory.limits.graphs.limits]
co.make_LimCone [in UniMath.CategoryTheory.limits.graphs.limits]
co.make_cone [in UniMath.CategoryTheory.limits.graphs.limits]
co.opp_diagram [in UniMath.CategoryTheory.limits.graphs.limits]
cp [in UniMath.MoreFoundations.PathsOver]
cp_apstar' [in UniMath.MoreFoundations.PathsOver]
cp_apstar [in UniMath.MoreFoundations.PathsOver]
cp_inverse_cp [in UniMath.MoreFoundations.PathsOver]
cp_irrelevance [in UniMath.MoreFoundations.PathsOver]
cp_in_family [in UniMath.MoreFoundations.PathsOver]
cp_right [in UniMath.MoreFoundations.PathsOver]
cp_left [in UniMath.MoreFoundations.PathsOver]
cp_idpath [in UniMath.MoreFoundations.PathsOver]
cp_irrelevance_circle [in UniMath.SyntheticHomotopyTheory.Circle2]
cQ [in UniMath.SyntheticHomotopyTheory.Circle2]
creates_limits_functor_alg [in UniMath.CategoryTheory.DisplayedCats.Examples]
creates_limits [in UniMath.CategoryTheory.DisplayedCats.Limits]
creates_limit [in UniMath.CategoryTheory.DisplayedCats.Limits]
ctlong [in UniMath.Foundations.Sets]
curry [in UniMath.Foundations.PartA]
currying_biajd [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
currying_biajd_triangle_r_law [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
currying_biajd_triangle_l_law [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
currying_biajd_unit_counit [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
curry_nattrans [in UniMath.CategoryTheory.PrecategoryBinProduct]
curry_functor [in UniMath.CategoryTheory.PrecategoryBinProduct]
curry_functor_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
cutonweq [in UniMath.Foundations.PartD]
cwf [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_is_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_is_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_is_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_representation [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_fiber_representation [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_fiber_rep_ax [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
cwf_fiber_rep_data [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
c_hat [in UniMath.SyntheticHomotopyTheory.Circle2]
c_tilde [in UniMath.SyntheticHomotopyTheory.Circle2]
c' [in UniMath.Combinatorics.Tests]

D

DataEquiv [in UniMath.MoreFoundations.StructureIdentity]
DatatypeOfBindingSig [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
DatatypeOfBindingSig [in UniMath.SubstitutionSystems.BindingSigToMonad]
data_of_left_equivalence [in UniMath.Bicategories.Core.Adjunctions]
data_of_left_adjoint [in UniMath.Bicategories.Core.Adjunctions]
data_cat_eq_1_to_2 [in UniMath.CategoryTheory.CategoryEquality]
data_cat_eq_2 [in UniMath.CategoryTheory.CategoryEquality]
data_cat_eq_1 [in UniMath.CategoryTheory.CategoryEquality]
data_of_right_adjoint_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
data_of_disp_adjunction [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
data_from_adjunction [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
data_of_right_adjoint_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
data_of_disp_adjunction_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
data_from_adjunction [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
data_from_skewmonoidal [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
Data1 [in UniMath.CategoryTheory.Abelian]
Data2 [in UniMath.CategoryTheory.Abelian]
DComm3 [in UniMath.HomologicalAlgebra.Triangulated]
DCompletion [in UniMath.HomologicalAlgebra.Triangulated]
dcpo [in UniMath.Algebra.Dcpo]
dcpoisdirectedcomplete [in UniMath.Algebra.Dcpo]
dcpomorphism [in UniMath.Algebra.Dcpo]
dcpomorphism_posetmorphism [in UniMath.Algebra.Dcpo]
dcpoofdcpomorphisms [in UniMath.Algebra.Dcpo]
dcpoposet [in UniMath.Algebra.Dcpo]
dcpowithbottom [in UniMath.Algebra.Dcpo]
dcpowithbottom_ofdcpomorphisms [in UniMath.Algebra.Dcpo]
dcpowithbottom_bottom [in UniMath.Algebra.Dcpo]
dcpowithbottom_isMinimal [in UniMath.Algebra.Dcpo]
dcpowithbottom_dcpo [in UniMath.Algebra.Dcpo]
dcpo_mklub_islub [in UniMath.Algebra.Dcpo]
dcpo_mklub [in UniMath.Algebra.Dcpo]
Dcuts [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts'_val [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_of_Dcuts_val [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lim_cauchy_seq [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_Cauchy_seq [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lim_cauchy_val [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_half_val [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_min_val [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_max_val [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_minus_val [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_ConstructiveCommutativeDivisionRig [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_commrig [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_setwith2binop [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_inv_val [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_mult_val [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_NQmult_val [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_plus_val [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_two [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_one [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_zero [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_ap_rel [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_eq [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_eq_rel [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_gt [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lt [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_ge [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_le [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_lt_rel [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_le_rel [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_set [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_hsubtype [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_def_corr [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_def_finite [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_def_open [in UniMath.RealNumbers.NonnegativeReals]
Dcuts_def_bot [in UniMath.RealNumbers.NonnegativeReals]
ddualand [in UniMath.Foundations.PartA]
deceq_to_decrel [in UniMath.Foundations.Sets]
decfun1 [in UniMath.Foundations.PartB]
decfun2 [in UniMath.Foundations.PartB]
decfun3 [in UniMath.Foundations.PartB]
decidabilityProperty [in UniMath.MoreFoundations.DecidablePropositions]
decidable [in UniMath.Foundations.PartB]
decidableAnd [in UniMath.MoreFoundations.DecidablePropositions]
decidableNot [in UniMath.MoreFoundations.DecidablePropositions]
decidableOr [in UniMath.MoreFoundations.DecidablePropositions]
DecidableProposition [in UniMath.MoreFoundations.DecidablePropositions]
DecidableProposition_to_hProp [in UniMath.MoreFoundations.DecidablePropositions]
DecidableProposition_to_isdecprop [in UniMath.MoreFoundations.DecidablePropositions]
DecidableRelation [in UniMath.MoreFoundations.DecidablePropositions]
DecidableRelation_to_hrel [in UniMath.MoreFoundations.DecidablePropositions]
DecidableSubtype [in UniMath.MoreFoundations.DecidablePropositions]
decidableSubtypeCarrier [in UniMath.MoreFoundations.DecidablePropositions]
decidableSubtypeCarrier_weq [in UniMath.MoreFoundations.DecidablePropositions]
decidableSubtypeCarrier' [in UniMath.MoreFoundations.DecidablePropositions]
DecidableSubtype_to_hsubtype [in UniMath.MoreFoundations.DecidablePropositions]
decidable_to_DecidableProposition [in UniMath.MoreFoundations.DecidablePropositions]
decidable_to_isdecprop_2 [in UniMath.MoreFoundations.DecidablePropositions]
decidable_to_isdecprop [in UniMath.MoreFoundations.DecidablePropositions]
decidable_prop [in UniMath.MoreFoundations.DecidablePropositions]
decidable_dirprod [in UniMath.Foundations.PartB]
decidable_to_complementary [in UniMath.Foundations.PartB]
decproperty [in UniMath.Combinatorics.DecSet]
decquotrel [in UniMath.Foundations.Sets]
decrel [in UniMath.Foundations.Sets]
decreltobrel [in UniMath.Foundations.Sets]
decrel_to_DecidableRelation [in UniMath.MoreFoundations.DecidablePropositions]
decSet [in UniMath.Combinatorics.DecSet]
delta [in UniMath.CategoryTheory.precomp_fully_faithful]
deltap [in UniMath.Foundations.PartA]
delta_functor [in UniMath.CategoryTheory.ProductCategory]
delta_functor_data [in UniMath.CategoryTheory.ProductCategory]
dependent_choice [in UniMath.MoreFoundations.DecidablePropositions]
depth [in UniMath.Algebra.Universal.Terms]
deriv_dist_is_monad_dist [in UniMath.CategoryTheory.Monads.Derivative]
deriv_dist [in UniMath.CategoryTheory.Monads.Derivative]
destrM [in UniMath.Induction.M.ComputationalM]
destrM' [in UniMath.Induction.M.ComputationalM]
DExt [in UniMath.HomologicalAlgebra.Triangulated]
DExtIso [in UniMath.HomologicalAlgebra.Triangulated]
DExts [in UniMath.HomologicalAlgebra.Triangulated]
di [in UniMath.Foundations.NaturalNumbers]
diag [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
DiagonalMap [in UniMath.CategoryTheory.AbelianToAdditive]
diagonal_from_section [in UniMath.CategoryTheory.limits.pullbacks]
diagram [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
diagram [in UniMath.CategoryTheory.limits.graphs.colimits]
diagram_pointwise [in UniMath.CategoryTheory.limits.graphs.colimits]
diagram_from_functor [in UniMath.CategoryTheory.limits.graphs.colimits]
diag_set [in UniMath.Bicategories.Core.Strictness]
Diff [in UniMath.HomologicalAlgebra.Complexes]
DiffInvTranslationComplex [in UniMath.HomologicalAlgebra.TranslationFunctors]
DiffTranslationComplex [in UniMath.HomologicalAlgebra.TranslationFunctors]
dinatural_transformation_is_dinatural [in UniMath.CategoryTheory.Profunctors.Core]
dinatural_transformation_get_data [in UniMath.CategoryTheory.Profunctors.Core]
dinatural_transformation [in UniMath.CategoryTheory.Profunctors.Core]
dinatural_transformation_data [in UniMath.CategoryTheory.Profunctors.Core]
directeduntruncated [in UniMath.Algebra.Dcpo]
directed_lub [in UniMath.Algebra.FixedPointTheorems]
Directed_of_Directed_hsubtype [in UniMath.Algebra.FixedPointTheorems]
Directed_hsubtype [in UniMath.Algebra.FixedPointTheorems]
directed_property [in UniMath.Algebra.FixedPointTheorems]
directed_family [in UniMath.Algebra.FixedPointTheorems]
directed_index [in UniMath.Algebra.FixedPointTheorems]
Directed_family [in UniMath.Algebra.FixedPointTheorems]
DirectSum [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
DirectSumComplex [in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexIn1 [in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexIn2 [in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexPr1 [in UniMath.HomologicalAlgebra.Complexes]
DirectSumComplexPr2 [in UniMath.HomologicalAlgebra.Complexes]
directSumMap [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
directSumMapSwitch [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
dirprod [in UniMath.Foundations.PartA]
dirprodadj [in UniMath.Foundations.PartA]
dirprodf [in UniMath.Foundations.PartA]
dirprodpr1_disp_functor [in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprodpr1_disp_functor_axioms [in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprodpr1_disp_functor_data [in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprodpr2_disp_functor [in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprodpr2_disp_functor_axioms [in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprodpr2_disp_functor_data [in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprodtosetquot [in UniMath.Foundations.Sets]
dirprod_pair_maps [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
dirprod_maps [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
dirprod_assoc [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
dirprod_paths [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
dirprod_disp_cat [in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprod_disp_cat_axioms [in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprod_disp_cat_data [in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprod_disp_cat_id_comp [in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprod_disp_cat_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Constructions]
dirprod_hSet [in UniMath.Foundations.Sets]
dirprod_pr2 [in UniMath.Foundations.PartA]
dirprod_pr1 [in UniMath.Foundations.PartA]
disassembleSequence [in UniMath.Combinatorics.FiniteSequences]
disassemble_attempt [in UniMath.Combinatorics.WellFoundedRelations]
Discern.E [in UniMath.MoreFoundations.Nat]
Discern.helper_D [in UniMath.MoreFoundations.Nat]
Discern.helper_C [in UniMath.MoreFoundations.Nat]
Discern.helper_B [in UniMath.MoreFoundations.Nat]
Discern.helper_A [in UniMath.MoreFoundations.Nat]
Discern.nat_dist_anti [in UniMath.MoreFoundations.Nat]
Discern.nat_discern [in UniMath.MoreFoundations.Nat]
Discern.Unnamed_thm0 [in UniMath.MoreFoundations.Nat]
Discern.Unnamed_thm [in UniMath.MoreFoundations.Nat]
discrete [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
discrete_prebicat [in UniMath.Bicategories.Core.Bicat]
discrete_prebicat_data [in UniMath.Bicategories.Core.Bicat]
discrete_category_hset [in UniMath.CategoryTheory.categories.StandardCategories]
discrete_fiber_category [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_precategory [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_is_precategory [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_lassociator_disp_invertible [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_rassociator [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_lassociator [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_runitor_disp_invertible [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_rinvunitor [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_runitor [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_lunitor_disp_invertible [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_linvunitor [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_lunitor [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_precategory_data [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fiber_ob_mor [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
discrete_fibration [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
discrete_cat_nat_trans [in UniMath.CategoryTheory.Groupoids]
discrete_category_is_setcategory [in UniMath.CategoryTheory.Groupoids]
discrete_category_is_discrete [in UniMath.CategoryTheory.Groupoids]
discrete_category_to_univalent_groupoid [in UniMath.CategoryTheory.Groupoids]
discrete_category [in UniMath.CategoryTheory.Groupoids]
discrete_has_homsets [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
disc_fib_from_preshv [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
disj_op [in UniMath.Algebra.Universal.Examples.Tests]
display [in UniMath.MoreFoundations.PartD]
displayed_tensor [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_locally_groupoid_presheaf [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_2cells_isaprop_presheaf [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_is_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_is_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_idtoiso_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_adjequiv_weq [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_adjequiv_inv [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_adjequiv [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_is_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaves_all_invertible [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_prebicat_data [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_prebicat_ops [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_prebicat_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_cat_data [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_presheaf_cat_ob_mor [in UniMath.Bicategories.DisplayedBicats.Examples.ContravariantFunctor]
disp_bicat_of_fibs_disp_invertible_2cell_pointwise_inv [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_fibs_is_disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_fibs [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_fibs_help [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_fibs_cat_data [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_fibs_id_comp [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_fibs_ob_mor [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_univ_disp_cats_is_disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_univ_disp_cats_is_disp_invertible_2cell_natural [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_univ_disp_cats [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_prebicat_of_univ_disp_cats [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_prebicat_of_univ_disp_cats_data [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_univ_disp_cats_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_bicat_of_univ_disp_cats_disp_cat_data [in UniMath.Bicategories.DisplayedBicats.Examples.DispBicatOfDispCats]
disp_inserter_bicat_pseudo_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_bicat_pseudo_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_bicat_pseudo [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_bicat_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_adjequiv_to_inv2cell [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_adjequiv_to_inv2cell_inv_cell [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_adjequiv_to_inv2cell_cell_inv [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_adjequiv_to_inv2cell_inv [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_adjequiv_to_inv2cell_cell [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_bicat_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_locally_groupoidal [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_locally_sym [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_locally_propositional [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_ops_laws [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_ops [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_prebicat_1 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_disp_cat_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_disp_cat_id_comp [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_inserter_disp_cat [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
disp_hom_disp_iso_weq_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_hom_disp_invertible_2cell_to_iso [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_hom_disp_iso_to_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_rwhisker [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_lwhisker [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_rassociator [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_lassociator [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_rinvunitor [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_runitor [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_lunitor [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_iso_to_invetible_2cell_weq [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_iso_to_invetible_2cell_inv [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_iso_to_invetible_2cell [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_to_disp_iso_weq [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_to_disp_iso_inv [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_invertible_2cell_to_disp_iso [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_iso_total [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_id2_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
disp_locally_groupoid_disp_cwf [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
disp_2cells_isaprop_disp_cwf [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
disp_cwf [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
disp_cwf' [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
disp_cat_is_locally_propositional [in UniMath.CategoryTheory.DisplayedCats.Projection]
disp_hcomp_is_cartesian_2cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
disp_cell_lift_2cell_factor [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
disp_cell_lift_1cell_factor [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
disp_mor_lift_1cell_factor [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
disp_pseudo_comp [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_pseudo_comp_data [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_cell_transportb [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_pseudo_id [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_pseudo_id_data [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_to_disp_psfunctor_data [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_vcomp2_alt [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_vcomp2 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_id2 [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_rwhisker_law [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_lwhisker_law [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_lassociator_law [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_runitor_law [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_lunitor_law [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_vcomp2_law [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_id2_law [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_comp [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_id [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_cell [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_mor [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_ob [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_psfunctor_data [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
disp_sub1cell_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_sub1cell_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_sub1cell_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_sub1cell_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_sub1cell_disp_cat_data [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_sub1cell_disp_cat_id_comp [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_sub1cell_disp_cat [in UniMath.Bicategories.DisplayedBicats.Examples.Sub1Cell]
disp_identity_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_internal_adjunction_data_identity [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_equivalence_of_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_adjunction_of_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_of_adjunction [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_arrow_of_adjunction [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_adjunction [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_of_left_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_equivalence_axioms [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_axioms_of_left_adjoint [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_data_of_left_adjoint [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_internal_triangle2 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_internal_triangle1 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_axioms [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_counit [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_unit [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_right_adjoint [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_left_adjoint_data [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
disp_biequiv_data_unit_counit_path_pgroupoid [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_counit_counit_inv [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_counit_inv_counit [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_unit_inv_unit [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_unit_unit_inv [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_unit_inv [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_counit_inv [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_unit [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid_counit [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_path_pgroupoid [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_objects_of_pgrpd [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
disp_locally_groupoid_morphisms_of_presheaves_display [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_2cells_isaprop_morphisms_of_presheaves_display [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_locally_groupoid_cofunctormaps [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_2cells_isaprop_cofunctormaps [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_bicat_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_bicat_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_bicat_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_cat_data [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_cat_id_comp [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_cofunctormaps_cat_ob_mor [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_two_presheaves_is_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_two_presheaves_is_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_two_presheaves_is_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_two_presheaves [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_presheaf [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
disp_locally_groupoid_cell_unit_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_2cells_isaprop_cell_unit_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_idtoiso [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_adjoint_equivalent [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_left_adjoint_equivalence_weq [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_disp_cellset [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_left_adjoint_equivalence_inv [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_left_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_is_disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_cell_unit_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_prebicat_cells_unit_data [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_prebicat_cells_unit_ops [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_prebicat_cells_unit [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
disp_locally_groupoid_kleisli [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
disp_locally_groupoid_kleisli_help [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
disp_2cells_isaprop_kleisli [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
disp_2cellsisaprop [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
disp_adjequiv_sigma_help_weq [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
disp_adjequiv_sigma_help_inv [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
disp_adjequiv_sigma_help [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
disp_locally_groupoid_sigma [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
disp_2cells_isaprop_sigma [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
disp_locally_groupoid_alg [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_2cells_isaprop_alg [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_adjoint_equivalence_weq [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_adjoint_equivalence_inv [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat_disp_is_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_ops_laws [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_ops [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_lassociator [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_runitor [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_runitor_help [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_lunitor [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_alg_prebicat_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
disp_two_inserter_locally_groupoid [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_cells_isaprop [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_disp_cat_data [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_disp_cat_id_comp [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_two_inserter_disp_cat [in UniMath.Bicategories.DisplayedBicats.Examples.Displayed2Inserter]
disp_nat_trans_eq [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_comp [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_comp_ax [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_id [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_id_ax [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_ax [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_pr1 [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_axioms [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_nat_trans_data [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_disp_ess_split_surj [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ess_split_surj [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff_reflects_isos [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff_inv [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff_weq [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_ff [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_on_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_on_is_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_identity [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_composite [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_composite_data [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_comp_var [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_comp [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_id [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_data_from_disp_functor [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_axioms [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_on_morphisms [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_on_objects [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_functor_data [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_univalent_category_is_univalent_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_of_disp_univalent_cat [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_univalent_category [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_data_from_disp_cat [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_axioms [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_ob_mor_from_disp_cat_data [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_data [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_id_comp [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_cat' [in UniMath.CategoryTheory.DisplayedCats.Core]
disp_modification_of_invmodification [in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_invmodification_to_disp_invmodification_data [in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_invmodification [in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_invmodification_data [in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_modification_to_disp_modification_data [in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_modification [in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_modification_data [in UniMath.Bicategories.DisplayedBicats.DispModification]
disp_cartesian' [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cartesian_axioms [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cartesian_data [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cartesian_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_domain [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_arrow [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_arrow_axioms [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_arrow_data [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cartesian [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_over_unit [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_over_unit_axioms [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_over_unit_data [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cat_monad_alg [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cat_monad_alg_over_functor_alg [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cat_functor_alg [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_cat_of_elements [in UniMath.CategoryTheory.DisplayedCats.Examples]
disp_univalent_2_1_of_2 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_univalent_2_0_of_2 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_univalent_2 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_idtoiso_2_0 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_isotoid_idtoiso_2_1 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_idtoiso_isotoid_2_1 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_idtoiso_2_1_inv [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_1cell_transport_rwhisker [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_isotoid_2_1 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_idtoiso_2_1 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
disp_adjoint_equivalence_to_all_invertible_2cell [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
disp_top [in UniMath.Topology.CategoryTop]
disp_locally_groupoid_monad [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
disp_2cells_isaprop_monad [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
disp_functor_cat [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_struct [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_struct_axioms [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_struct_data [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_struct_id_comp [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_struct_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_full_sub [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_full_sub_axioms [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_full_sub_data [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_full_sub_id_comp [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_full_sub_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Constructions]
disp_hom [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_hom_laws [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_hom_data [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_hom_id_comp [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_hom_ob_mor [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_locally_groupoid_over_id [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_locally_sym [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_locally_groupoid [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_2cells_isaprop [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_cellset_property [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_of_disp_bicat [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_bicat [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_rcancel [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_runitor_alt [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_rwhisker_alt [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_whisker_alt [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_vcomp_alt [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_vcomp_alt [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_linv [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_rinv [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_inv_cell [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_cell_from_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_hcomp [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_lassociator [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_runitor_rwhisker [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rassociator_lassociator [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_rassociator [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rinvunitor_runitor [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_runitor_rinvunitor [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_linvunitor_lunitor [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lunitor_linvunitor [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_whisker [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_rwhisker [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_lwhisker [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_lwhisker [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_runitor [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_lunitor [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_vcomp [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_vcomp [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_rwhisker [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_id2 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vassocr' [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vassocr [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_right [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_left [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_data_from_disp_prebicat [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_laws [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_lassociator_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_runitor_rwhisker_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rassociator_lassociator_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator_rassociator_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rinvunitor_runitor_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_runitor_rinvunitor_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_linvunitor_lunitor_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lunitor_linvunitor_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_whisker_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_rwhisker_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_lwhisker_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_lwhisker_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_runitor_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp_lunitor_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker_vcomp_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_vcomp_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_rwhisker_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker_id2_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vassocr_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_right_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2_left_law [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rwhisker [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lwhisker [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_vcomp2 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lassociator [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rassociator [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_rinvunitor [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_linvunitor [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_runitor [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_lunitor [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_id2 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_ops_from_disp_prebicat_data [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_ob_mor_cells_1_id_comp_from_disp_prebicat_data [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_data [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_ops [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_2cells [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_cat_data_from_disp_prebicat_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_prebicat_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_2cell_struct [in UniMath.Bicategories.DisplayedBicats.DispBicat]
disp_codomain [in UniMath.CategoryTheory.DisplayedCats.Codomain]
disp_pstrans_rassociator [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_rassociator_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_lassociator_pstrans [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_lassociator_pstrans_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_rinvunitor_pstrans [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_rinvunitor_pstrans_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_runitor_pstrans [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_runitor_pstrans_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_linvunitor [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_linvunitor_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_lunitor_pstrans [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_lunitor_pstrans_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_right_whisker [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_right_whisker_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_left_whisker [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_left_whisker_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_inv_invertible [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_comp_pstrans [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_comp_pstrans_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_id_pstrans [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_id_pstrans_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_to_disp_pstrans_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_comp_law [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_id_law [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_psnaturality_natural_law [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_psnaturality_of [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pscomponent_of [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_pstrans_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
disp_iso_to_is_cartesian [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
disp_cat_from_preshv [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
disp_cat_from_discrete_fibration [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
disp_local_iso_cleaving_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Fibration]
disp_assoc_left [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_functor_fix_fst_arg [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_functor_fix_fst_arg_axioms [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_functor_fix_fst_arg_data [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_functor_fix_fst_arg_mor [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_functor_fix_fst_arg_ob [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_unassoc [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_unassoc_data [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_assoc [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_assoc_data [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_pair_functor [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_pair_functor_data [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_data [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_id_comp [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_binprod_ob_mor [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
disp_locally_groupoid_prod [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_2cells_isaprop_prod [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_dirprod_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_dirprod_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_dirprod_brebicat_laws [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_dirprod_prebicat_data [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_dirprod_prebicat_ops [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_dirprod_prebicat_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
disp_locally_groupoid_add_cell [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
disp_2cells_isaprop_add_cell [in UniMath.Bicategories.DisplayedBicats.Examples.Add2Cell]
disp_depprod_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_idtotiso_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_adjequiv_weq [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_adjequiv_inv [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_adjequiv_map [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_idtotiso_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_invertible_2cell_weq [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_invertible_2cell_inv_map [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_is_invertible_2cell_pr [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_invertible_2cell_map [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_locally_groupoid_depprod [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat_disp_is_invertible_2cell_map [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_2cells_isaprop_depprod [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_prebicat_laws [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_prebicat_laws_help [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_prebicat_data [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_disp_prebicat_ops [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_disp_2cell_struct [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_cat_data [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_depprod_cat_ob_mor [in UniMath.Bicategories.DisplayedBicats.Examples.DispDepProd]
disp_morph [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
disp_left_biadj_data [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
disp_left_biadj_right_triangle [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
disp_left_biadj_left_triangle [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
disp_left_biadj_unit_counit [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
disp_is_biequivalence_data [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
disp_functor_id_ff_reflects_isos [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
disp_adjunction [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
disp_adjunction_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
disp_locally_groupoid_fullsubbicat [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
disp_2cells_isaprop_fullsubbicat [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
disp_univalent_2_0_fullsubbicat [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
disp_fullsubbicat_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
disp_fullsubbicat [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
disp_fullsubprebicat [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
disp_functor_id_ff_reflects_isos [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
disp_adjunction_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
disp_adjunction_id_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
disp_adjunction [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
disp_adjunction_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
disp_locally_groupoid_cod_one_types [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
disp_locally_groupoid_cod [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
disp_cat_from_SIP_data [in UniMath.CategoryTheory.DisplayedCats.SIP]
DistributiveLaw [in UniMath.SubstitutionSystems.SignatureExamples]
distributive_law2 [in UniMath.SubstitutionSystems.SignatureExamples]
distributive_law1 [in UniMath.SubstitutionSystems.SignatureExamples]
DistrLaw [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
DistrLaw_data [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
divDivRig [in UniMath.Algebra.DivisionRig]
divNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
divNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
DivRig [in UniMath.Algebra.DivisionRig]
DivRig_isrdistr [in UniMath.Algebra.DivisionRig]
DivRig_isldistr [in UniMath.Algebra.DivisionRig]
DivRig_isrinv [in UniMath.Algebra.DivisionRig]
DivRig_islinv [in UniMath.Algebra.DivisionRig]
DivRig_isrunit_one [in UniMath.Algebra.DivisionRig]
DivRig_islunit_one [in UniMath.Algebra.DivisionRig]
DivRig_isassoc_mult [in UniMath.Algebra.DivisionRig]
DivRig_iscomm_plus [in UniMath.Algebra.DivisionRig]
DivRig_isrunit_zero [in UniMath.Algebra.DivisionRig]
DivRig_islunit_zero [in UniMath.Algebra.DivisionRig]
DivRig_isassoc_plus [in UniMath.Algebra.DivisionRig]
DivRig_isDivRig [in UniMath.Algebra.DivisionRig]
div_fld [in UniMath.RealNumbers.Fields]
DL_option_list [in UniMath.SubstitutionSystems.MultiSorted_alt]
DL_sorted_option_functor [in UniMath.SubstitutionSystems.MultiSorted_alt]
DL_iter_functor1 [in UniMath.SubstitutionSystems.SignatureExamples]
DL_comp [in UniMath.SubstitutionSystems.SignatureExamples]
DL_id [in UniMath.SubstitutionSystems.SignatureExamples]
DL_option_list [in UniMath.SubstitutionSystems.MultiSorted]
DL_sorted_option_functor [in UniMath.SubstitutionSystems.MultiSorted]
dmor [in UniMath.CategoryTheory.limits.graphs.colimits]
dneg [in UniMath.Foundations.PartA]
dneganddnegimpldneg [in UniMath.Foundations.PartA]
dnegelim [in UniMath.MoreFoundations.DecidablePropositions]
dnegf [in UniMath.Foundations.PartA]
dnegnegtoneg [in UniMath.Foundations.PartA]
dni [in UniMath.Combinatorics.StandardFiniteSets]
dnitocompl [in UniMath.Combinatorics.StandardFiniteSets]
dni_lastelement [in UniMath.Combinatorics.StandardFiniteSets]
dni_firstelement [in UniMath.Combinatorics.StandardFiniteSets]
dob [in UniMath.CategoryTheory.limits.graphs.colimits]
dom [in UniMath.Algebra.Universal.Algebras]
dom [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
domain_action [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
domi [in UniMath.Paradoxes.GirardsParadox]
domicom [in UniMath.Paradoxes.GirardsParadox]
dom_disp_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_invertible_2cell_weq_disp_adj_equiv [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_adj_equiv_to_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_invertible_2cell_to_disp_adj_equiv [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_locally_groupoid [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_locally_sym [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_2cells_isaprop [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_prebicat_laws [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_prebicat_data [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_prebicat_ops [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_prebicat_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_cat_data [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_cat_id_comp [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_disp_cat_ob_mor [in UniMath.Bicategories.DisplayedBicats.Examples.Domain]
dom_cleaving_of_bicats [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
dom_global_cleaving [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
dom_cartesian_1cell_is_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
dom_invertible_2cell_is_cartesian_1cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
dom_local_cleaving [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
dom_is_cartesian_2cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.DomainCleaving]
double_transport [in UniMath.CategoryTheory.Core.Univalence]
DownwardClosure [in UniMath.Combinatorics.ZFstructures]
drop [in UniMath.Combinatorics.Vectors]
drop [in UniMath.Combinatorics.MoreLists]
drop [in UniMath.Combinatorics.FiniteSequences]
drop_and_append' [in UniMath.Combinatorics.FiniteSequences]
drop_and_append [in UniMath.Combinatorics.FiniteSequences]
drop' [in UniMath.Combinatorics.FiniteSequences]
ds [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
DSq [in UniMath.HomologicalAlgebra.Complexes]
ds_issum [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_isprod [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_id [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_in [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
ds_pr [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
DTri [in UniMath.HomologicalAlgebra.Triangulated]
DTriisDTri [in UniMath.HomologicalAlgebra.Triangulated]
DTrisUnderIso [in UniMath.HomologicalAlgebra.Triangulated]
DTriTri [in UniMath.HomologicalAlgebra.Triangulated]
dualelement [in UniMath.Combinatorics.StandardFiniteSets]
d0 [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
d1 [in UniMath.Foundations.PartA]
d1g [in UniMath.Foundations.PartA]
d2 [in UniMath.Foundations.PartA]
d2g [in UniMath.Foundations.PartA]
d3g [in UniMath.Foundations.PartA]

E

E [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
E [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
E [in UniMath.Folds.folds_pre_2_cat]
E [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
E [in UniMath.Algebra.GroupAction]
EC_PushoutMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_PullbackEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_ComposeEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_ComposeMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_ExactToCokernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_ExactToKernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_ExactToKernelCokernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_IdentityIsEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_IdentityIsMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_IsomorphicToExact' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
EC_IsomorphicToExact [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Ed [in UniMath.Combinatorics.ZFstructures]
edge [in UniMath.Combinatorics.Graph]
edge [in UniMath.CategoryTheory.limits.graphs.colimits]
EffectivelyOrderedSet [in UniMath.RealNumbers.Sets]
EffectivelyOrdered_NonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
EffectiveOrder [in UniMath.RealNumbers.Sets]
el [in UniMath.Combinatorics.Vectors]
el [in UniMath.SubstitutionSystems.CCS_alt]
el [in UniMath.SubstitutionSystems.CCS]
elem [in UniMath.SyntheticHomotopyTheory.Circle2]
elements_universal [in UniMath.CategoryTheory.DisplayedCats.Examples]
elements_data [in UniMath.CategoryTheory.DisplayedCats.Examples]
elements_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Examples]
element_to_nattrans [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
elem_sort_idx [in UniMath.Algebra.Universal.Examples.ListDataType]
elem12 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
elem12_isiso [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
elem21 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
elem21_isiso [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
embeddingRepresentability [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
embeddingToFunctor [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
emptyHSET [in UniMath.CategoryTheory.categories.HSET.Core]
empty_sieve [in UniMath.CategoryTheory.Presheaf]
empty_PreShv [in UniMath.CategoryTheory.Presheaf]
empty_graph [in UniMath.CategoryTheory.limits.graphs.terminal]
empty_category [in UniMath.CategoryTheory.categories.StandardCategories]
empty_woset [in UniMath.Combinatorics.WellOrderedSets]
empty_graph [in UniMath.CategoryTheory.limits.graphs.initial]
empty_vec [in UniMath.Combinatorics.FiniteSequences]
empty_1_type [in UniMath.Bicategories.Colimits.Initial]
empty_hlevel [in UniMath.Bicategories.Colimits.Initial]
End [in UniMath.CategoryTheory.Profunctors.Core]
endo [in UniMath.SubstitutionSystems.Signatures]
end_wedge [in UniMath.CategoryTheory.Profunctors.Core]
end_ob [in UniMath.CategoryTheory.Profunctors.Core]
enriched_functor_comp [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_comp_data [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_on_comp [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_on_identity [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_to_enriched_functor_data [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_comp_ax [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_unit_ax [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_on_morphisms [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_on_objects [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_functor_data [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_precat_to_enriched_precat_data [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_precat [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_id_ax [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_assoc_ax [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_cat_comp [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_cat_id [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_cat_mor [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_cat_ob [in UniMath.CategoryTheory.Enriched.Enriched]
enriched_precat_data [in UniMath.CategoryTheory.Enriched.Enriched]
entrywise [in UniMath.Algebra.Matrix]
entrywise_abmonoidop [in UniMath.Algebra.Matrix]
entrywise_monoidop [in UniMath.Algebra.Matrix]
entrywise_comm [in UniMath.Algebra.Matrix]
entrywise_unit [in UniMath.Algebra.Matrix]
entrywise_runit [in UniMath.Algebra.Matrix]
entrywise_lunit [in UniMath.Algebra.Matrix]
entrywise_assoc [in UniMath.Algebra.Matrix]
EOge [in UniMath.RealNumbers.Sets]
EOge_rel [in UniMath.RealNumbers.Sets]
EOgt [in UniMath.RealNumbers.Sets]
EOgt_rel [in UniMath.RealNumbers.Sets]
EOle [in UniMath.RealNumbers.Sets]
EOle_rel [in UniMath.RealNumbers.Sets]
EOlt [in UniMath.RealNumbers.Sets]
EOlt_rel [in UniMath.RealNumbers.Sets]
eo_Dcuts [in UniMath.RealNumbers.NonnegativeReals]
Epi [in UniMath.CategoryTheory.Epis]
EpiArrow [in UniMath.CategoryTheory.Epis]
EpiCokernelZero [in UniMath.CategoryTheory.Abelian]
EpiCokernelZero_isCokernel [in UniMath.CategoryTheory.Abelian]
EpiisEpi [in UniMath.CategoryTheory.Epis]
EpisAreCokernels [in UniMath.CategoryTheory.Abelian]
EpisAreCokernels_opp [in UniMath.CategoryTheory.Abelian]
EpisAreEffective [in UniMath.CategoryTheory.EpiFacts]
epis_Pushout [in UniMath.CategoryTheory.Abelian]
epis_Pushout_isPushout [in UniMath.CategoryTheory.Abelian]
epis_Pushout_eq3 [in UniMath.CategoryTheory.Abelian]
epis_Pushout_eq2 [in UniMath.CategoryTheory.Abelian]
epis_Pushout_eq1 [in UniMath.CategoryTheory.Abelian]
epis_are_split [in UniMath.CategoryTheory.SplitMonicsAndEpis]
EpiToCokernel [in UniMath.CategoryTheory.Abelian]
EpiToCokernel' [in UniMath.CategoryTheory.Abelian]
EpiToZero [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Epi_opp [in UniMath.CategoryTheory.limits.Opp]
Epi_comp [in UniMath.CategoryTheory.Epis]
eps [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eps [in UniMath.CategoryTheory.slicecat]
eps [in UniMath.CategoryTheory.categories.HSET.Slice]
eps [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
eps [in UniMath.CategoryTheory.RightKanExtension]
epsinv_morph [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eps_natural [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eps_morph [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eps_n [in UniMath.CategoryTheory.RightKanExtension]
eps' [in UniMath.CategoryTheory.exponentials]
eqalgebra [in UniMath.Algebra.Universal.EqAlgebras]
eqalgebra_proof [in UniMath.Algebra.Universal.EqAlgebras]
eqalg_disp [in UniMath.CategoryTheory.categories.Universal_Algebra.EqAlgebras]
eqax0 [in UniMath.Foundations.Sets]
eqax1 [in UniMath.Foundations.Sets]
eqax2 [in UniMath.Foundations.Sets]
eqbx [in UniMath.Foundations.PartC]
eqh [in UniMath.Foundations.Sets]
eqr [in UniMath.CategoryTheory.categories.HSET.Colimits]
eqrel [in UniMath.Foundations.Sets]
eqrelabgrdiff [in UniMath.Algebra.Groups]
eqrelabmonoidfrac [in UniMath.Algebra.Monoids]
eqrelcommringfrac [in UniMath.Algebra.RigsAndRings]
eqrelconstr [in UniMath.Foundations.Sets]
eqreldirprod [in UniMath.Foundations.Sets]
eqrelrefl [in UniMath.Foundations.Sets]
eqrelrigtoring [in UniMath.Algebra.RigsAndRings]
eqrelsubmodule [in UniMath.Algebra.Modules.Quotient]
eqrelsymm [in UniMath.Foundations.Sets]
eqreltrans [in UniMath.Foundations.Sets]
eqrel_from_hrel [in UniMath.MoreFoundations.Sets]
eqrel_on_bool [in UniMath.MoreFoundations.AxiomOfChoice]
eqrel_reverse [in UniMath.RealNumbers.Sets]
eqrel_closure [in UniMath.Combinatorics.Equivalence_Relations]
eqrel_closure_hrel [in UniMath.Combinatorics.Equivalence_Relations]
eqset [in UniMath.Foundations.Sets]
eqset_to_path [in UniMath.MoreFoundations.Sets]
eqsort [in UniMath.Algebra.Universal.Equations]
eqspec [in UniMath.Algebra.Universal.Equations]
Eqspec.G [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_eqalgebra [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_eqspec [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_axioms [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_mul_rid [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_mul_lid [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_mul_assoc [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_equation [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_inv [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_id [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_mul [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.group_varspec [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.id [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.is_eqalgebra_monoid [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.make_monoid_eqalgebra [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.Mon [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_eqalgebra [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_eqspec [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_axioms [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_mul_rid [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_mul_lid [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_mul_assoc [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_equation [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.monoid_varspec [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.mul [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.x [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.x [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.y [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.y [in UniMath.Algebra.Universal.Examples.Monoid]
Eqspec.z [in UniMath.Algebra.Universal.Examples.Group]
Eqspec.z [in UniMath.Algebra.Universal.Examples.Monoid]
eqsystem [in UniMath.Algebra.Universal.Equations]
eqsystemids [in UniMath.Algebra.Universal.Equations]
eqtohomot [in UniMath.Foundations.PartA]
equality_by_case [in UniMath.Foundations.PartA]
equality_cases [in UniMath.Foundations.PartA]
Equalization [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Equalizer [in UniMath.CategoryTheory.Abelian]
Equalizer [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Equalizer [in UniMath.CategoryTheory.limits.graphs.equalizers]
Equalizer [in UniMath.CategoryTheory.limits.equalizers]
EqualizerArrow [in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerArrow [in UniMath.CategoryTheory.limits.equalizers]
EqualizerArrowEq [in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerEqAr [in UniMath.CategoryTheory.limits.equalizers]
equalizerEquation [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
EqualizerIn [in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerIn [in UniMath.CategoryTheory.limits.equalizers]
EqualizerKernel [in UniMath.CategoryTheory.limits.kernels]
equalizerMap [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
EqualizerObject [in UniMath.CategoryTheory.limits.graphs.equalizers]
EqualizerObject [in UniMath.CategoryTheory.limits.equalizers]
Equalizers [in UniMath.CategoryTheory.limits.graphs.equalizers]
Equalizers [in UniMath.CategoryTheory.limits.equalizers]
Equalizers_opp [in UniMath.CategoryTheory.limits.Opp]
Equalizer_eq2 [in UniMath.CategoryTheory.Abelian]
Equalizer_eq1 [in UniMath.CategoryTheory.Abelian]
Equalizer_Pullback [in UniMath.CategoryTheory.Abelian]
Equalizer_isMonic [in UniMath.CategoryTheory.Abelian]
Equalizer_cone [in UniMath.CategoryTheory.limits.graphs.equalizers]
Equalizer_diagram [in UniMath.CategoryTheory.limits.graphs.equalizers]
Equalizer_graph [in UniMath.CategoryTheory.limits.graphs.equalizers]
Equalizer_opp [in UniMath.CategoryTheory.limits.Opp]
equation [in UniMath.Algebra.Universal.Equations]
equations [in UniMath.Algebra.Universal.Equations]
Equivalence [in UniMath.MoreFoundations.Equivalences]
EquivalenceSignaturesABStrongFunctors [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Equivalence_to_weq [in UniMath.MoreFoundations.Equivalences]
Equivalence_toAdjointness [in UniMath.MoreFoundations.Equivalences]
Equivalence_toSourceHomotopy [in UniMath.MoreFoundations.Equivalences]
Equivalence_toTargetHomotopy [in UniMath.MoreFoundations.Equivalences]
Equivalence_toInverseFunction [in UniMath.MoreFoundations.Equivalences]
Equivalence_to_isEquivalence [in UniMath.MoreFoundations.Equivalences]
Equivalence_toFunction [in UniMath.MoreFoundations.Equivalences]
Equivalence_to_invweq [in UniMath.MoreFoundations.MoreEquivalences]
equivalence_of_cats [in UniMath.CategoryTheory.Equivalences.Core]
equivariance [in UniMath.Algebra.GroupAction]
equiv_to_adjequiv [in UniMath.Bicategories.Core.EquivToAdjequiv]
equiv_to_isadjequiv [in UniMath.Bicategories.Core.EquivToAdjequiv]
equiv_to_adjequiv_d [in UniMath.Bicategories.Core.EquivToAdjequiv]
equiv_Kernel2 [in UniMath.CategoryTheory.limits.graphs.kernels]
equiv_Kernel1 [in UniMath.CategoryTheory.limits.graphs.kernels]
equiv_Terminal2 [in UniMath.CategoryTheory.limits.graphs.terminal]
equiv_Terminal1 [in UniMath.CategoryTheory.limits.graphs.terminal]
equiv_Cokernel2 [in UniMath.CategoryTheory.limits.graphs.cokernels]
equiv_Cokernel1 [in UniMath.CategoryTheory.limits.graphs.cokernels]
equiv_Coequalizer2 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
equiv_Coequalizer1 [in UniMath.CategoryTheory.limits.graphs.coequalizers]
equiv_Pushout2 [in UniMath.CategoryTheory.limits.graphs.pushouts]
equiv_Pushout1 [in UniMath.CategoryTheory.limits.graphs.pushouts]
equiv_Equalizers2 [in UniMath.CategoryTheory.limits.graphs.equalizers]
equiv_Equalizer2 [in UniMath.CategoryTheory.limits.graphs.equalizers]
equiv_Equalizers1 [in UniMath.CategoryTheory.limits.graphs.equalizers]
equiv_Equalizer1 [in UniMath.CategoryTheory.limits.graphs.equalizers]
equiv_Initial2 [in UniMath.CategoryTheory.limits.graphs.initial]
equiv_Initial1 [in UniMath.CategoryTheory.limits.graphs.initial]
equiv_cat_to_adj_equiv [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
equiv_of_is_equiv_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
equiv_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
equiv_from_adj_equiv [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
equiv_inv [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
equiv_of_is_equiv_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
equiv_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
equiv_Pullbacks_2 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
equiv_Pullback_2 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
equiv_Pullbacks_1 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
equiv_Pullback_1 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
equiv_Zero2 [in UniMath.CategoryTheory.limits.graphs.zero]
equiv_Zero1 [in UniMath.CategoryTheory.limits.graphs.zero]
eqweqmap [in UniMath.Foundations.UnivalenceAxiom]
eqweqmapap_inv' [in UniMath.MoreFoundations.MoreEquivalences]
eqweqmapap_inv [in UniMath.MoreFoundations.MoreEquivalences]
eqweqmaphProp [in UniMath.Foundations.Propositions]
eqweqmap_ap' [in UniMath.MoreFoundations.Univalence]
eqweqmap_ap [in UniMath.MoreFoundations.Univalence]
eq_diag_liftlimcone [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag_liftcolimcocone [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_diag [in UniMath.CategoryTheory.limits.graphs.eqdiag]
eq_pb_1cell [in UniMath.Bicategories.Colimits.Pullback]
eq_lift_2cell_alt [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
eq_lift_2cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
eq_mor_slicecat_weq [in UniMath.CategoryTheory.slicecat]
eq_binprod_1cell [in UniMath.Bicategories.Colimits.Products]
eq2 [in UniMath.CategoryTheory.Monads.MonadAlgebras]
essentially_surjective [in UniMath.CategoryTheory.Core.Functors]
essentially_surjective [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
eta [in UniMath.CategoryTheory.slicecat]
eta [in UniMath.CategoryTheory.categories.HSET.Slice]
eta [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
etainv_morph [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
etainv_data [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_natural [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_morph [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_data [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_arrow [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
eta_data [in UniMath.CategoryTheory.slicecat]
eta_from_alg [in UniMath.SubstitutionSystems.SubstitutionSystems]
eta' [in UniMath.CategoryTheory.exponentials]
euclidean [in UniMath.PAdics.z_mod_p]
EVAL [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
eval [in UniMath.Algebra.Universal.FreeAlgebras]
eval [in UniMath.CategoryTheory.categories.HSET.Structures]
evalat [in UniMath.MoreFoundations.PartA]
evalhom [in UniMath.Algebra.Universal.FreeAlgebras]
evaluation_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
evaluation_pstrans_data [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
evaluation_functor [in UniMath.CategoryTheory.PrecategoryBinProduct]
ExactCategory [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryData [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryDataToAdditiveCategory [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryProperties [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryProperties_Quillen [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactCategoryToData [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactFunctor [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ExactFunctorToFunctor [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
exch [in UniMath.SubstitutionSystems.STLC_alt]
exists_monotone [in UniMath.Algebra.FixedPointTheorems]
exp [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
Exponentials [in UniMath.CategoryTheory.exponentials]
Exponentials_HSET [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
exponential_functor_cat [in UniMath.CategoryTheory.categories.HSET.Structures]
exponential_functor [in UniMath.CategoryTheory.categories.HSET.Structures]
exp_functor [in UniMath.CategoryTheory.categories.Type.Structures]
exp_functor_data [in UniMath.CategoryTheory.categories.Type.Structures]
exp_functor_arr [in UniMath.CategoryTheory.categories.Type.Structures]
exp_functor_ob [in UniMath.CategoryTheory.categories.Type.Structures]
exp_I [in UniMath.CategoryTheory.categories.CartesianCubicalSets]
exp_functor_list [in UniMath.SubstitutionSystems.MultiSorted_alt]
exp_functor [in UniMath.SubstitutionSystems.MultiSorted_alt]
exp_functor_list [in UniMath.SubstitutionSystems.MultiSorted]
exp_functor [in UniMath.SubstitutionSystems.MultiSorted]
ext [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
extend_psfunctor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
ExtMor1 [in UniMath.HomologicalAlgebra.Triangulated]
ExtMor2 [in UniMath.HomologicalAlgebra.Triangulated]
extruncminus [in UniMath.Algebra.Lattice]
exts_lift_sums [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
exts_lift [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ex_lim_seq [in UniMath.RealNumbers.NonnegativeReals]
ex_lim_seq [in UniMath.RealNumbers.Reals]
ex_lim_base [in UniMath.Topology.Topology]
ex_lim [in UniMath.Topology.Topology]
ex_filter_lim_base [in UniMath.Topology.Topology]
ex_filter_lim [in UniMath.Topology.Topology]
ezmap [in UniMath.Foundations.PartA]
ezmaphf [in UniMath.Foundations.PartA]
ezmappr1 [in UniMath.Foundations.PartA]
ezmap1 [in UniMath.Foundations.PartA]
ezweq [in UniMath.Foundations.PartA]
ezweqg [in UniMath.Foundations.PartA]
ezweqhf [in UniMath.Foundations.PartA]
ezweqpr1 [in UniMath.Foundations.PartA]
ezweq1 [in UniMath.Foundations.PartA]
ezweq1g [in UniMath.Foundations.PartA]
ezweq1pr1 [in UniMath.Foundations.PartA]
ezweq2 [in UniMath.Foundations.PartA]
ezweq2g [in UniMath.Foundations.PartA]
ezweq3g [in UniMath.Foundations.PartA]
E_is_good_to_I_and_T [in UniMath.Folds.folds_pre_2_cat]
E₁_to_E₂ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
E₁_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
E₁_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
E₂_to_E₁_weq [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
E₂_to_E₁ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]

F

F [in UniMath.AlgebraicGeometry.SheavesOfRings]
f [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
f [in UniMath.CategoryTheory.FunctorCoalgebras]
FAa [in UniMath.CategoryTheory.FunctorAlgebras]
factorial [in UniMath.Foundations.NaturalNumbers]
factorization1_monic [in UniMath.CategoryTheory.Abelian]
factorization1_epi [in UniMath.CategoryTheory.Abelian]
factorization2 [in UniMath.CategoryTheory.Abelian]
factorization2_epi [in UniMath.CategoryTheory.Abelian]
factorization2_monic [in UniMath.CategoryTheory.Abelian]
fact0 [in UniMath.SyntheticHomotopyTheory.Circle2]
faithful [in UniMath.CategoryTheory.Core.Functors]
faithful_invertible [in UniMath.Bicategories.Core.FullyFaithful]
faithful_1cell_weq_faithful [in UniMath.Bicategories.Core.FullyFaithful]
faithful_to_faithful_1cell [in UniMath.Bicategories.Core.FullyFaithful]
faithful_1cell_to_faithful [in UniMath.Bicategories.Core.FullyFaithful]
faithful_1cell_eq_cell [in UniMath.Bicategories.Core.FullyFaithful]
faithful_1cell [in UniMath.Bicategories.Core.FullyFaithful]
falsetonegtrue [in UniMath.Foundations.PartA]
falseWitness [in UniMath.MoreFoundations.DecidablePropositions]
fam [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
famhomotfun [in UniMath.Foundations.PartA]
famhomothomothomot [in UniMath.Foundations.PartA]
family_lub [in UniMath.Algebra.FixedPointTheorems]
family_functor [in UniMath.CategoryTheory.ProductCategory]
family_functor_data [in UniMath.CategoryTheory.ProductCategory]
fam_counit [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_all_iso [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_unit [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_unit_fun [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_unit_fun_fun [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_to_slice [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_to_slice_data [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_to_slice_mor [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
fam_to_slice_fun [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
Fa' [in UniMath.CategoryTheory.FunctorAlgebras]
fbracket [in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_for_LamE_algebra_on_Lam [in UniMath.SubstitutionSystems.Lam]
fbracket_unique_target_pointwise [in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_unique [in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_unique_pointwise [in UniMath.SubstitutionSystems.SubstitutionSystems]
fbracket_for_LamE_algebra_on_Lam [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
FComm1 [in UniMath.CategoryTheory.FiveLemma]
FComm2 [in UniMath.CategoryTheory.FiveLemma]
FComm3 [in UniMath.CategoryTheory.FiveLemma]
FComm4 [in UniMath.CategoryTheory.FiveLemma]
FDiff1 [in UniMath.CategoryTheory.FiveLemma]
FDiff2 [in UniMath.CategoryTheory.FiveLemma]
FDiff3 [in UniMath.CategoryTheory.FiveLemma]
FDiff4 [in UniMath.CategoryTheory.FiveLemma]
FEq1 [in UniMath.CategoryTheory.FiveLemma]
FEq2 [in UniMath.CategoryTheory.FiveLemma]
FEq3 [in UniMath.CategoryTheory.FiveLemma]
FEx1 [in UniMath.CategoryTheory.FiveLemma]
FEx2 [in UniMath.CategoryTheory.FiveLemma]
FEx3 [in UniMath.CategoryTheory.FiveLemma]
ffgg [in UniMath.Foundations.PartA]
FFinv_on_iso_is_iso [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
FFinv_on_iso_is_iso [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
fginv [in UniMath.Algebra.Free_Monoids_and_Groups]
fginv_binopfun_homot [in UniMath.Algebra.Free_Monoids_and_Groups]
fginv_binopfun [in UniMath.Algebra.Free_Monoids_and_Groups]
fiber [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
fibered_uniqueness [in UniMath.Induction.W.Fibered]
fibered_alg2alg [in UniMath.Induction.W.Fibered]
fibered_alg [in UniMath.Induction.W.Fibered]
fibered_algebra_nat [in UniMath.Induction.W.Naturals]
FiberExt [in UniMath.HomologicalAlgebra.MappingCone]
FiberExtMor [in UniMath.HomologicalAlgebra.MappingCone]
FiberExt_is_z_isomorphism [in UniMath.HomologicalAlgebra.MappingCone]
fiberwise_univalent_2_0_to_disp_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
fiberwise_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
fiberwise_local_univalent_is_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
fiberwise_local_univalent [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
fiber_functor [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
fiber_is_functor [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
fiber_functor_data [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
fiber_binopeqrel [in UniMath.Algebra.Monoids]
fiber_nat_trans [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_functor [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_functor_data [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_category [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_precategory [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_category_data [in UniMath.CategoryTheory.DisplayedCats.Constructions]
fiber_functor_from_cleaving [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fiber_functor_from_cleaving_data [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fiber_functor_ess_split_surj [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
fiber_equiv [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
fiber_is_left_adj [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
fiber_functor_ess_split_surj [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
fiber_paths [in UniMath.Foundations.PartA]
fiber_equivalence [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_counit_iso [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_counit_nat_iso [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_counit [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_counit_is_nat_trans [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_unit_iso [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_unit_nat_iso [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_unit [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fiber_unit_is_nat_trans [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
fibration [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fibration_from_discrete_fibration [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
fibseqg [in UniMath.Foundations.PartA]
fibseqhf [in UniMath.Foundations.PartA]
fibseqpr1 [in UniMath.Foundations.PartA]
fibseqstr [in UniMath.Foundations.PartA]
fibseqstrtocomplxstr [in UniMath.Foundations.PartA]
fibseq1 [in UniMath.Foundations.PartA]
fibseq1g [in UniMath.Foundations.PartA]
fibseq2 [in UniMath.Foundations.PartA]
fibseq2g [in UniMath.Foundations.PartA]
fibseq3g [in UniMath.Foundations.PartA]
fill [in UniMath.Combinatorics.MoreLists]
Filter [in UniMath.Topology.Filters]
FilterBase [in UniMath.Topology.Filters]
filterbase [in UniMath.Topology.Filters]
FilterDirprod [in UniMath.Topology.Filters]
filterdirprod [in UniMath.Topology.Filters]
FilterDom [in UniMath.Topology.Filters]
filterdom [in UniMath.Topology.Filters]
FilterGenerated [in UniMath.Topology.Filters]
filtergenerated [in UniMath.Topology.Filters]
FilterIm [in UniMath.Topology.Filters]
filterim [in UniMath.Topology.Filters]
FilterIntersection [in UniMath.Topology.Filters]
filterintersection [in UniMath.Topology.Filters]
filterlim [in UniMath.Topology.Filters]
FilterNat [in UniMath.Topology.Filters]
filternat [in UniMath.Topology.Filters]
FilterPr1 [in UniMath.Topology.Filters]
FilterPr2 [in UniMath.Topology.Filters]
FilterSubtype [in UniMath.Topology.Filters]
filtersubtype [in UniMath.Topology.Filters]
FilterTop [in UniMath.Topology.Filters]
filtertop [in UniMath.Topology.Filters]
filter_le [in UniMath.Topology.Filters]
final_bicat_is_univalent_2 [in UniMath.Bicategories.Core.Examples.Final]
final_bicat_is_univalent_2_0 [in UniMath.Bicategories.Core.Examples.Final]
final_bicat_is_univalent_2_1 [in UniMath.Bicategories.Core.Examples.Final]
final_bicat_adjoint_equivalence [in UniMath.Bicategories.Core.Examples.Final]
final_bicat_invertible_2cell [in UniMath.Bicategories.Core.Examples.Final]
final_bicat [in UniMath.Bicategories.Core.Examples.Final]
final_prebicat [in UniMath.Bicategories.Core.Examples.Final]
final_prebicat_data [in UniMath.Bicategories.Core.Examples.Final]
final_2_id_comp_struct [in UniMath.Bicategories.Core.Examples.Final]
final_1_id_comp_cells [in UniMath.Bicategories.Core.Examples.Final]
final_psfunctor_eq [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor_2cell [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor_2cell_is_modification [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor_2cell_data [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor_1cell [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor_1cell_is_pstrans [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor_1cell_data [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
final_psfunctor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
fincard [in UniMath.Combinatorics.FiniteSets]
fincard_standardSubset [in UniMath.Combinatorics.FiniteSets]
fincard_subset [in UniMath.Combinatorics.FiniteSets]
FiniteDirectSums [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
finitenessProperty [in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSet [in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSetDecidableEquality [in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSetDecidableInequality [in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSetDecidableLessThan [in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSetDecidableOrdering [in UniMath.Combinatorics.OrderedSets]
FiniteOrderedSet_segment [in UniMath.Combinatorics.OrderedSets]
FiniteSet [in UniMath.Combinatorics.FiniteSets]
FiniteSetSum [in UniMath.Combinatorics.FiniteSets]
FiniteSet_to_hSet [in UniMath.Combinatorics.FiniteSets]
FiniteStructure [in UniMath.Combinatorics.OrderedSets]
finite_intersection [in UniMath.Topology.Prelim]
finite_subtype [in UniMath.CategoryTheory.categories.FinSet]
FinOrdCoproducts [in UniMath.CategoryTheory.limits.FinOrdCoproducts]
FinOrdProducts [in UniMath.CategoryTheory.limits.FinOrdProducts]
FinSet [in UniMath.CategoryTheory.categories.FinSet]
FinSig [in UniMath.SubstitutionSystems.MLTT79]
FinSigConstructors [in UniMath.SubstitutionSystems.MLTT79]
FinSigElim [in UniMath.SubstitutionSystems.MLTT79]
FinSigFun [in UniMath.SubstitutionSystems.MLTT79]
finstruct [in UniMath.Combinatorics.FiniteSets]
finstructonbool [in UniMath.Combinatorics.FiniteSets]
finstructoncompl [in UniMath.Combinatorics.FiniteSets]
finstructoncontr [in UniMath.Combinatorics.FiniteSets]
finstructoncoprod [in UniMath.Combinatorics.FiniteSets]
finstructoncoprodwithunit [in UniMath.Combinatorics.FiniteSets]
finstructondecsubset [in UniMath.Combinatorics.FiniteSets]
finstructondirprod [in UniMath.Combinatorics.FiniteSets]
finstructonempty [in UniMath.Combinatorics.FiniteSets]
finstructonempty2 [in UniMath.Combinatorics.FiniteSets]
finstructonforall [in UniMath.Combinatorics.FiniteSets]
finstructonfun [in UniMath.Combinatorics.FiniteSets]
finstructonstn [in UniMath.Combinatorics.FiniteSets]
finstructontotal2 [in UniMath.Combinatorics.FiniteSets]
finstructonunit [in UniMath.Combinatorics.FiniteSets]
finstructonweq [in UniMath.Combinatorics.FiniteSets]
finstructToFunction [in UniMath.Combinatorics.FiniteSets]
finstructweqb [in UniMath.Combinatorics.FiniteSets]
finstructweqf [in UniMath.Combinatorics.FiniteSets]
finsum [in UniMath.NumberSystems.NaturalNumbersAlgebra]
finsum' [in UniMath.Algebra.IteratedBinaryOperations]
firstelement [in UniMath.Combinatorics.StandardFiniteSets]
firstValue [in UniMath.Combinatorics.StandardFiniteSets]
first_hexagon_eq [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
FiveRow [in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffs [in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffsEq [in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffsEq_opp [in UniMath.CategoryTheory.FiveLemma]
FiveRowDiffs_opp [in UniMath.CategoryTheory.FiveLemma]
FiveRowExacts [in UniMath.CategoryTheory.FiveLemma]
FiveRowExacts_opp [in UniMath.CategoryTheory.FiveLemma]
FiveRowMorphism [in UniMath.CategoryTheory.FiveLemma]
FiveRowMorphism_opp [in UniMath.CategoryTheory.FiveLemma]
FiveRowMorphism_Comms [in UniMath.CategoryTheory.FiveLemma]
FiveRowMorphism_Mors [in UniMath.CategoryTheory.FiveLemma]
FiveRowMors [in UniMath.CategoryTheory.FiveLemma]
FiveRowMorsComm [in UniMath.CategoryTheory.FiveLemma]
FiveRowMorsComm_opp [in UniMath.CategoryTheory.FiveLemma]
FiveRowMors_opp [in UniMath.CategoryTheory.FiveLemma]
FiveRowObs [in UniMath.CategoryTheory.FiveLemma]
FiveRowObs_opp [in UniMath.CategoryTheory.FiveLemma]
FiveRow_opp [in UniMath.CategoryTheory.FiveLemma]
FiveRow_Exacts [in UniMath.CategoryTheory.FiveLemma]
FiveRow_DiffsEq [in UniMath.CategoryTheory.FiveLemma]
FiveRow_Diffs [in UniMath.CategoryTheory.FiveLemma]
FiveRow_Obs [in UniMath.CategoryTheory.FiveLemma]
Fixedpoint [in UniMath.Algebra.FixedPointTheorems]
fixedpoint_property [in UniMath.Algebra.FixedPointTheorems]
fixpoint_for_monotone_on_dcpo_statement [in UniMath.Algebra.FixedPointTheorems]
flatmap [in UniMath.Combinatorics.Maybe]
FLATTEN [in UniMath.SubstitutionSystems.Lam]
flatten [in UniMath.CategoryTheory.Inductives.Trees]
flatten [in UniMath.Combinatorics.Lists]
flatten [in UniMath.Combinatorics.FiniteSequences]
flattenStep [in UniMath.Combinatorics.FiniteSequences]
flattenStep' [in UniMath.Combinatorics.FiniteSequences]
flattenUnorderedSequence [in UniMath.Combinatorics.FiniteSequences]
flatten_partition [in UniMath.Combinatorics.FiniteSequences]
flatten' [in UniMath.Combinatorics.StandardFiniteSets]
Flat_Sig [in UniMath.SubstitutionSystems.LamSignature]
Flat_θ [in UniMath.SubstitutionSystems.LamSignature]
Flat_θ_data [in UniMath.SubstitutionSystems.LamSignature]
Flat_H [in UniMath.SubstitutionSystems.LamSignature]
Flat_Sig [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
fld [in UniMath.Algebra.Domains_and_Fields]
fldchoice [in UniMath.Algebra.Domains_and_Fields]
fldfrac [in UniMath.Algebra.Domains_and_Fields]
fldfracgt [in UniMath.Algebra.Domains_and_Fields]
fldfracmultinvint [in UniMath.Algebra.Domains_and_Fields]
fldfracmultinv0 [in UniMath.Algebra.Domains_and_Fields]
fldmultinv [in UniMath.Algebra.Domains_and_Fields]
fldmultinvpair [in UniMath.Algebra.Domains_and_Fields]
fldtointdom [in UniMath.Algebra.Domains_and_Fields]
fld_univalent_category [in UniMath.CategoryTheory.categories.flds]
fld_category_is_univalent [in UniMath.CategoryTheory.categories.flds]
fld_category [in UniMath.CategoryTheory.categories.flds]
fld_precategory_isweq [in UniMath.CategoryTheory.categories.flds]
fld_equiv_weq_iso [in UniMath.CategoryTheory.categories.flds]
fld_iso_equiv_weq [in UniMath.CategoryTheory.categories.flds]
fld_precategory [in UniMath.CategoryTheory.categories.flds]
fld_precategory_data [in UniMath.CategoryTheory.categories.flds]
fld_precategory_ob_mor [in UniMath.CategoryTheory.categories.flds]
fld_fun_space [in UniMath.CategoryTheory.categories.flds]
fld_univalence [in UniMath.Algebra.Domains_and_Fields]
fld_univalence_map [in UniMath.Algebra.Domains_and_Fields]
fld_univalence_weq2 [in UniMath.Algebra.Domains_and_Fields]
fld_univalence_weq1 [in UniMath.Algebra.Domains_and_Fields]
fld_to_monoid2 [in UniMath.RealNumbers.Fields]
fld_to_monoid1 [in UniMath.RealNumbers.Fields]
fld_to_gr1 [in UniMath.RealNumbers.Fields]
flipsec [in UniMath.MoreFoundations.PartA]
flipsec_weq [in UniMath.MoreFoundations.PartA]
flip_iso [in UniMath.CategoryTheory.exponentials]
fmap_directed [in UniMath.Algebra.FixedPointTheorems]
fmap_is_directed [in UniMath.Algebra.FixedPointTheorems]
fmap_chain [in UniMath.Algebra.FixedPointTheorems]
fmap_is_chain [in UniMath.Algebra.FixedPointTheorems]
Fmor [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Fmor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Fmor_univ [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Fmor_is_functor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
Fmor_data [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
FMor1 [in UniMath.CategoryTheory.FiveLemma]
FMor2 [in UniMath.CategoryTheory.FiveLemma]
FMor3 [in UniMath.CategoryTheory.FiveLemma]
FMor4 [in UniMath.CategoryTheory.FiveLemma]
FMor5 [in UniMath.CategoryTheory.FiveLemma]
Fobj [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
FOb1 [in UniMath.CategoryTheory.FiveLemma]
FOb2 [in UniMath.CategoryTheory.FiveLemma]
FOb3 [in UniMath.CategoryTheory.FiveLemma]
FOb4 [in UniMath.CategoryTheory.FiveLemma]
FOb5 [in UniMath.CategoryTheory.FiveLemma]
foldleft [in UniMath.Combinatorics.StandardFiniteSets]
foldr [in UniMath.CategoryTheory.Inductives.Lists]
foldr [in UniMath.CategoryTheory.Inductives.Trees]
foldr [in UniMath.Combinatorics.GraphPaths]
foldr [in UniMath.Combinatorics.Lists]
foldright [in UniMath.Combinatorics.StandardFiniteSets]
foldr_map [in UniMath.CategoryTheory.Inductives.Lists]
foldr_map [in UniMath.SubstitutionSystems.STLC]
foldr_map [in UniMath.SubstitutionSystems.CCS_alt]
foldr_map' [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
foldr_map [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
foldr_map [in UniMath.SubstitutionSystems.STLC_alt]
foldr_map [in UniMath.SubstitutionSystems.CCS]
foldr_map [in UniMath.SubstitutionSystems.LamFromBindingSig]
foldr_map [in UniMath.CategoryTheory.Inductives.Trees]
foldr1 [in UniMath.Combinatorics.Lists]
folds_2_iso_id [in UniMath.Folds.folds_pre_2_cat]
folds_iso [in UniMath.Folds.folds_pre_2_cat]
folds_3_from_folds_2 [in UniMath.Folds.folds_pre_2_cat]
folds_pre_2_cat [in UniMath.Folds.folds_pre_2_cat]
folds_id_comp_from_folds_precat [in UniMath.Folds.folds_pre_2_cat]
folds_pre_3_cat [in UniMath.Folds.folds_pre_2_cat]
folds_ax_comp [in UniMath.Folds.folds_pre_2_cat]
folds_ax_id [in UniMath.Folds.folds_pre_2_cat]
folds_ob_mor_from_folds_id_comp [in UniMath.Folds.folds_pre_2_cat]
folds_3_id_comp_eq [in UniMath.Folds.folds_pre_2_cat]
folds_double_transport [in UniMath.Folds.folds_pre_2_cat]
folds_3_morphisms [in UniMath.Folds.folds_pre_2_cat]
folds_3_ob_mor [in UniMath.Folds.folds_pre_2_cat]
folds_id_comp_from_folds_precat [in UniMath.Folds.folds_precat]
folds_precat [in UniMath.Folds.folds_precat]
folds_ax_T [in UniMath.Folds.folds_precat]
folds_ax_I [in UniMath.Folds.folds_precat]
folds_ob_mor_from_folds_id_comp [in UniMath.Folds.folds_precat]
folds_id_T [in UniMath.Folds.folds_precat]
folds_morphisms [in UniMath.Folds.folds_precat]
folds_ob_mor [in UniMath.Folds.folds_precat]
folds_iso_from_iso [in UniMath.Folds.folds_isomorphism]
folds_iso_data_from_z_iso [in UniMath.Folds.folds_isomorphism]
folds_iso_comp_data [in UniMath.Folds.folds_isomorphism]
folds_iso_data_from_folds_iso [in UniMath.Folds.folds_isomorphism]
folds_iso [in UniMath.Folds.folds_isomorphism]
folds_iso_prop [in UniMath.Folds.folds_isomorphism]
folds_iso_data [in UniMath.Folds.folds_isomorphism]
folds_precat_from_precat [in UniMath.Folds.from_precats_to_folds_and_back]
folds_id_comp_from_precat_data [in UniMath.Folds.from_precats_to_folds_and_back]
foo [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
foralltohfiber [in UniMath.Foundations.PartD]
foralltototal [in UniMath.Foundations.PartD]
forall_Poset [in UniMath.Algebra.FixedPointTheorems]
forall_map [in UniMath.SubstitutionSystems.CCS_alt]
forall_source [in UniMath.SubstitutionSystems.CCS_alt]
forall_hProp [in UniMath.Foundations.Propositions]
forall_map [in UniMath.SubstitutionSystems.CCS]
forall_source [in UniMath.SubstitutionSystems.CCS]
forall_hSet [in UniMath.Foundations.Sets]
forget [in UniMath.SubstitutionSystems.Signatures]
forget [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
forgetful_functor_from_ptd_as_strong_monoidal_functor [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
forgetful_functor_from_ptd_as_strong_monoidal_functor_alt [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
forgetful_HSET [in UniMath.CategoryTheory.categories.HSET.Structures]
forgetfunctor_RelMonad [in UniMath.CategoryTheory.Monads.RelativeMonads]
forgetfunctor_Monad [in UniMath.CategoryTheory.Monads.Monads]
forgetfunctor_Kleisli [in UniMath.CategoryTheory.Monads.KTriples]
forget_unit_structure_faithful [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
forget_unit_property_adds_properties [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
forget_free_is_T [in UniMath.CategoryTheory.Monads.MonadAlgebras]
forget_Alg [in UniMath.CategoryTheory.Monads.MonadAlgebras]
forget_Alg_data [in UniMath.CategoryTheory.Monads.MonadAlgebras]
forget_algebras [in UniMath.CategoryTheory.FunctorAlgebras]
forget_algebras_data [in UniMath.CategoryTheory.FunctorAlgebras]
forget_from_trafotargetbicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
forget_from_trafotarget [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
forms_equivalence [in UniMath.CategoryTheory.Equivalences.Core]
forms_cocone [in UniMath.CategoryTheory.limits.graphs.colimits]
forms_cone [in UniMath.CategoryTheory.limits.graphs.limits]
form_adjunction [in UniMath.CategoryTheory.Adjunctions.Core]
form_adjunction' [in UniMath.CategoryTheory.Adjunctions.Core]
form_equiv_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
form_disp_adjunction [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
form_equiv_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
form_disp_adjunction_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
form_equiv [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
four_rec [in UniMath.SubstitutionSystems.MLTT79]
fpmap [in UniMath.Foundations.PartA]
fps [in UniMath.PAdics.fps]
fpsapart [in UniMath.PAdics.fps]
fpsapart0 [in UniMath.PAdics.fps]
fpscommring [in UniMath.PAdics.fps]
fpsminus [in UniMath.PAdics.fps]
fpsone [in UniMath.PAdics.fps]
fpsplus [in UniMath.PAdics.fps]
fpsring [in UniMath.PAdics.fps]
fpsshift [in UniMath.PAdics.fps]
fpstimes [in UniMath.PAdics.fps]
fpszero [in UniMath.PAdics.fps]
free_forgetful_are_adjoints [in UniMath.CategoryTheory.Monads.MonadAlgebras]
free_Alg [in UniMath.CategoryTheory.Monads.MonadAlgebras]
free_Alg_data [in UniMath.CategoryTheory.Monads.MonadAlgebras]
free_Algebra [in UniMath.CategoryTheory.Monads.MonadAlgebras]
free_algebra [in UniMath.Algebra.Universal.FreeAlgebras]
free_abgrfun [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_universal_property [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_extend [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_unit [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_pr [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr' [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abgr_hrel [in UniMath.Algebra.Free_Monoids_and_Groups]
free_grfun [in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_universal_property [in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_extend [in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_unit [in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_pr [in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr [in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr' [in UniMath.Algebra.Free_Monoids_and_Groups]
free_gr_hrel [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoidfun [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_universal_property [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_extend [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_unit [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_pr [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid' [in UniMath.Algebra.Free_Monoids_and_Groups]
free_abmonoid_hrel [in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoidfun [in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid_universal_property [in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid_extend [in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid_unit [in UniMath.Algebra.Free_Monoids_and_Groups]
free_monoid [in UniMath.Algebra.Free_Monoids_and_Groups]
FromAcyclicComplexFromObject [in UniMath.HomologicalAlgebra.Complexes]
FromAcyclicComplexFromObject_mors [in UniMath.HomologicalAlgebra.Complexes]
FromBinDirectSum [in UniMath.CategoryTheory.limits.BinDirectSums]
FromBinDirectSumFormula [in UniMath.CategoryTheory.limits.BinDirectSums]
FromBinDirectSumUnique [in UniMath.CategoryTheory.limits.BinDirectSums]
fromcoconusf [in UniMath.Foundations.PartA]
fromcompltodisjoint [in UniMath.Foundations.PartC]
fromcompltoii1x [in UniMath.Foundations.PartC]
fromcompltoii2y [in UniMath.Foundations.PartC]
fromdsubtypesdirprodcarrier [in UniMath.Foundations.Sets]
fromempty [in UniMath.Foundations.PartA]
fromemptysec [in UniMath.MoreFoundations.PartA]
fromPathOverIdpath [in UniMath.MoreFoundations.PathsOver]
fromstn0 [in UniMath.Combinatorics.Vectors]
fromsubquot [in UniMath.Foundations.Sets]
fromterm [in UniMath.Algebra.Universal.VTerms]
fromterm [in UniMath.Algebra.Universal.Terms]
fromtotal2overcoprod [in UniMath.Foundations.PartA]
fromtotal2overunit [in UniMath.Foundations.PartA]
from_matrix [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_col [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_row [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
from_Coequalizer_to_Coequalizer [in UniMath.CategoryTheory.limits.graphs.coequalizers]
from_Pushout_to_Pushout [in UniMath.CategoryTheory.limits.graphs.pushouts]
from_Pushout_to_Pushout [in UniMath.CategoryTheory.limits.pushouts]
from_BinCoproduct_to_BinCoproduct [in UniMath.CategoryTheory.limits.bincoproducts]
from_Equalizer_to_Equalizer [in UniMath.CategoryTheory.limits.graphs.equalizers]
from_Kernel_to_Kernel [in UniMath.CategoryTheory.limits.kernels]
from_Coproduct_to_Coproduct [in UniMath.CategoryTheory.RepresentableFunctors.Test]
from_op_op_to_op [in UniMath.CategoryTheory.opp_precat]
from_opp_opp_to_opp [in UniMath.CategoryTheory.opp_precat]
from_opp_to_opp_opp [in UniMath.CategoryTheory.opp_precat]
from_Cokernel_to_Cokernel [in UniMath.CategoryTheory.limits.cokernels]
from_Equalizer_to_Equalizer [in UniMath.CategoryTheory.limits.equalizers]
from_colimHSET [in UniMath.CategoryTheory.categories.HSET.Colimits]
from_cobase_eqrel [in UniMath.CategoryTheory.categories.HSET.Colimits]
from_cobase_rel [in UniMath.CategoryTheory.categories.HSET.Colimits]
from_cobase [in UniMath.CategoryTheory.categories.HSET.Colimits]
from_total2 [in UniMath.MoreFoundations.PartA]
from_Pullback_to_Pullback [in UniMath.CategoryTheory.limits.graphs.pullbacks]
from_Pullback_to_Pullback [in UniMath.CategoryTheory.limits.pullbacks]
from_Coequalizer_to_Coequalizer [in UniMath.CategoryTheory.limits.coequalizers]
from_BinCoproduct_to_BinCoproduct [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
full [in UniMath.CategoryTheory.Core.Functors]
fullsub [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
fullsubbicat [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
fullsub_left_adjoint_equivalence_is_bicat_left_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
fullsub_left_adjoint_equivalence_to_bicat_left_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
fullsub_is_invertible_2cell_to_bicat_is_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
fullsub_to_cell [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
fullsub_to_mor [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
fully_faithful_inv_nat_trans [in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_inv_is_nat_trans [in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_inv_nat_trans_data [in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_invertible [in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell_weq_fully_faithful [in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_to_fully_faithful_1cell [in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell_to_fully_faithful [in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell_inv_map_eq [in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell_inv_map [in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell_eq [in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell_faithful [in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_1cell [in UniMath.Bicategories.Core.FullyFaithful]
fully_faithful_inv_hom [in UniMath.CategoryTheory.Core.Functors]
fully_faithful [in UniMath.CategoryTheory.Core.Functors]
fully_faithful_pr1_category [in UniMath.CategoryTheory.DisplayedCats.Core]
fully_faithful_reord1_functor [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
full_img_functor_data [in UniMath.CategoryTheory.Subcategory.Full]
full_img_functor_obj [in UniMath.CategoryTheory.Subcategory.Full]
full_img_sub_precategory [in UniMath.CategoryTheory.Subcategory.Full]
full_sub_category [in UniMath.CategoryTheory.Subcategory.Full]
full_sub_precategory [in UniMath.CategoryTheory.Subcategory.Full]
full_image [in UniMath.Bicategories.Core.Examples.Image]
full_and_faithful [in UniMath.CategoryTheory.Core.Functors]
full_subcat_nat_trans_is_iso [in UniMath.CategoryTheory.Adjunctions.Restriction]
funcomp [in UniMath.Foundations.PartA]
funcontr [in UniMath.Foundations.UnivalenceAxiom]
funcontrFromUnivalence [in UniMath.Foundations.UnivalenceAxiom]
funcontrStatement [in UniMath.Foundations.UnivalenceAxiom]
functionToHVec [in UniMath.Algebra.Universal.HVectors]
functionToList [in UniMath.Combinatorics.Lists]
functionToList' [in UniMath.Combinatorics.Lists]
functionToSequence [in UniMath.Combinatorics.FiniteSequences]
functionToUnorderedSequence [in UniMath.Combinatorics.FiniteSequences]
function_to_functor [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
function_to_functor_laws [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
function_to_functor_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
functor [in UniMath.CategoryTheory.Core.Functors]
FunctorcategoryPullbacks [in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_nat_trans2 [in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_nat_trans1 [in UniMath.CategoryTheory.limits.pullbacks]
FunctorcategoryPullbacks_functor [in UniMath.CategoryTheory.limits.pullbacks]
functorcategoryright_psfunctor [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
functorcategoryright_map_laws [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
functorcategoryright_map_data [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
functorial_composition [in UniMath.CategoryTheory.HorizontalComposition]
functorial_composition_data [in UniMath.CategoryTheory.HorizontalComposition]
functorial_composition_legacy [in UniMath.CategoryTheory.HorizontalComposition]
functorial_composition_legacy_data [in UniMath.CategoryTheory.HorizontalComposition]
functorMvOp [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functorOp [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functorOpEmb [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functorOp' [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
FunctorPrecatMorToNatTrans [in UniMath.CategoryTheory.GrothendieckTopos]
FunctorPrecatObToFunctor [in UniMath.CategoryTheory.GrothendieckTopos]
functorRmOp [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
FunctorToLocalization [in UniMath.CategoryTheory.LocalizingClass]
FunctorToLocalization_is_iso [in UniMath.CategoryTheory.LocalizingClass]
functorWithStructures [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_iso_pointwise_if_iso' [in UniMath.CategoryTheory.Monads.RelativeMonads]
functor_from_relmodule [in UniMath.CategoryTheory.Monads.RelativeModules]
functor_data_from_relmodule [in UniMath.CategoryTheory.Monads.RelativeModules]
functor_from_catiso [in UniMath.CategoryTheory.catiso]
functor_with_μ_from_adjunction [in UniMath.CategoryTheory.Monads.Monads]
functor_data_from_raw_Monad_data [in UniMath.CategoryTheory.Monads.Monads]
functor_with_μ_from_Monad_data [in UniMath.CategoryTheory.Monads.Monads]
functor_from_functor_with_μ [in UniMath.CategoryTheory.Monads.Monads]
functor_with_μ [in UniMath.CategoryTheory.Monads.Monads]
functor_data_from_bifunctor_ob_mor_cell [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
functor_on_morphisms_add [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
functor_full_img [in UniMath.CategoryTheory.Subcategory.Full]
functor_from_empty [in UniMath.CategoryTheory.categories.StandardCategories]
functor_from_empty_data [in UniMath.CategoryTheory.categories.StandardCategories]
functor_to_unit [in UniMath.CategoryTheory.categories.StandardCategories]
functor_to_unit_data [in UniMath.CategoryTheory.categories.StandardCategories]
functor_of_kleisli_triple [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
functor_laws_of_kleisli_triple [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
functor_data_of_kleisli_triple [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
functor_kleislify [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
functor_data_kleislify [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
functor_unkleislify [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
functor_data_unkleislify [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
functor_precat_coproduct_cocone [in UniMath.CategoryTheory.limits.coproducts]
functor_on_z_iso [in UniMath.CategoryTheory.Core.Functors]
functor_on_is_z_isomorphism [in UniMath.CategoryTheory.Core.Functors]
functor_identity [in UniMath.CategoryTheory.Core.Functors]
functor_identity_data [in UniMath.CategoryTheory.Core.Functors]
functor_composite [in UniMath.CategoryTheory.Core.Functors]
functor_composite_data [in UniMath.CategoryTheory.Core.Functors]
functor_on_iso [in UniMath.CategoryTheory.Core.Functors]
functor_comp [in UniMath.CategoryTheory.Core.Functors]
functor_id [in UniMath.CategoryTheory.Core.Functors]
functor_eq_eq_from_functor_ob_eq [in UniMath.CategoryTheory.Core.Functors]
functor_data_from_functor [in UniMath.CategoryTheory.Core.Functors]
functor_compax [in UniMath.CategoryTheory.Core.Functors]
functor_idax [in UniMath.CategoryTheory.Core.Functors]
functor_on_morphisms [in UniMath.CategoryTheory.Core.Functors]
functor_on_objects [in UniMath.CategoryTheory.Core.Functors]
functor_data_constr [in UniMath.CategoryTheory.Core.Functors]
functor_data [in UniMath.CategoryTheory.Core.Functors]
functor_compose [in UniMath.CategoryTheory.whiskering]
functor_from [in UniMath.CategoryTheory.rezk_completion]
functor_precat_coproduct_cocone [in UniMath.CategoryTheory.limits.bincoproducts]
Functor_eq_map [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
functor_lifting [in UniMath.CategoryTheory.DisplayedCats.Core]
functor_alg_comp [in UniMath.CategoryTheory.DisplayedCats.Examples]
functor_alg_id [in UniMath.CategoryTheory.DisplayedCats.Examples]
functor_alg_mor [in UniMath.CategoryTheory.DisplayedCats.Examples]
functor_alg_ob [in UniMath.CategoryTheory.DisplayedCats.Examples]
functor_eq_from_functor_iso [in UniMath.CategoryTheory.FunctorCategory]
functor_iso_pointwise_if_iso [in UniMath.CategoryTheory.FunctorCategory]
functor_iso_from_pointwise_iso [in UniMath.CategoryTheory.FunctorCategory]
functor_composite_as_ob [in UniMath.CategoryTheory.FunctorCategory]
functor_identity_as_ob [in UniMath.CategoryTheory.FunctorCategory]
functor_category [in UniMath.CategoryTheory.FunctorCategory]
functor_precategory [in UniMath.CategoryTheory.FunctorCategory]
functor_precategory_data [in UniMath.CategoryTheory.FunctorCategory]
functor_precategory_ob_mor [in UniMath.CategoryTheory.FunctorCategory]
functor_from_opp_opp_to_opp [in UniMath.CategoryTheory.opp_precat]
functor_from_opp_to_opp_opp [in UniMath.CategoryTheory.opp_precat]
functor_opp [in UniMath.CategoryTheory.opp_precat]
functor_opp_data [in UniMath.CategoryTheory.opp_precat]
functor_preShvs_to_Disc_Fibs [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
functor_data_preShv_Disc_fibs [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
functor_Disc_Fibs_to_preShvs [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
functor_fix_snd_arg [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg_mor [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_snd_arg_ob [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg_mor [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_fix_fst_arg_ob [in UniMath.CategoryTheory.PrecategoryBinProduct]
functor_composite_functor [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_to_opp_opp [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_mor_application [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_object_application [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Functor_compose [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Functor_identity [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Functor_mor [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Functor_obj [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Functor_obmor [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
functor_precat_product_cone [in UniMath.CategoryTheory.limits.products]
functor_data_from_bifunctor_ob_mor_cell [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
functor_total_cat [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
functor_disp_cat [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
functor_pointwise [in UniMath.CategoryTheory.limits.cats.limits]
functor_ptd_forget_alt [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
functor_deriv [in UniMath.CategoryTheory.Monads.Derivative]
functor_of_kleisli_iso [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
functor_of_kleisli_comm [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
functor_of_right_adjoint_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
functor_of_right_adjoint_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
functor_on_square [in UniMath.CategoryTheory.limits.pullbacks]
functor_from_LModule_data [in UniMath.CategoryTheory.Monads.LModules]
functor_cat_swap_id [in UniMath.CategoryTheory.Adjunctions.Examples]
functor_with_mu_from_hss [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
functor_ptd_forget [in UniMath.CategoryTheory.PointedFunctors]
functor_from_ptd_obj [in UniMath.CategoryTheory.PointedFunctors]
functor_Under_precategories_mor [in UniMath.CategoryTheory.UnderCategories]
functor_cComma_mor [in UniMath.CategoryTheory.CommaCategories]
functor_precat_binproduct_cone [in UniMath.CategoryTheory.limits.binproducts]
func_functor_from [in UniMath.CategoryTheory.rezk_completion]
fundamental_bigroupoid_is_univalent_2 [in UniMath.Bicategories.Core.Examples.TwoType]
fundamental_bigroupoid_is_univalent_2_0 [in UniMath.Bicategories.Core.Examples.TwoType]
fundamental_bigroupoid_is_univalent_2_1 [in UniMath.Bicategories.Core.Examples.TwoType]
fundamental_bigroupoid_1cell_adj_equiv [in UniMath.Bicategories.Core.Examples.TwoType]
fundamental_bigroupoid_1cell_equivalence [in UniMath.Bicategories.Core.Examples.TwoType]
fundamental_groupoid_2cell_iso [in UniMath.Bicategories.Core.Examples.TwoType]
fundamental_bigroupoid [in UniMath.Bicategories.Core.Examples.TwoType]
funextcontr [in UniMath.Foundations.UnivalenceAxiom]
funextcontrStatement [in UniMath.Foundations.UnivalenceAxiom]
funextcontrStatementFromUnivalence [in UniMath.Foundations.UnivalenceAxiom]
funextempty [in UniMath.Foundations.UnivalenceAxiom]
funextemptyFromUnivalence [in UniMath.Foundations.UnivalenceAxiom]
funextemptyStatement [in UniMath.Foundations.UnivalenceAxiom]
funextfun [in UniMath.Foundations.UnivalenceAxiom]
funextfunStatement [in UniMath.Foundations.UnivalenceAxiom]
funextsec [in UniMath.Foundations.UnivalenceAxiom]
funextsecStatement [in UniMath.Foundations.UnivalenceAxiom]
funextsecweqFromUnivalence [in UniMath.Foundations.UnivalenceAxiom]
funextsec2 [in UniMath.MoreFoundations.Interval]
funext_section [in UniMath.AlgebraicGeometry.Spec]
funfibtototal [in UniMath.MoreFoundations.MoreEquivalences]
funfromcoprodtoprod [in UniMath.Foundations.PartD]
funhomot [in UniMath.Foundations.PartA]
funhomotsec [in UniMath.Foundations.PartA]
funset [in UniMath.MoreFoundations.PartA]
funtoprodtoprod [in UniMath.Foundations.PartD]
funtranspos [in UniMath.Foundations.PartC]
funtranspos0 [in UniMath.Foundations.PartC]
fun_gt [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
fun_lt [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Fun1 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
Fun1_functor_data [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
Fun2 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
Fun2_functor_data [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
Fun3 [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
Fun3_functor_data [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
FX [in UniMath.CategoryTheory.FunctorCoalgebras]
F_compute2 [in UniMath.CategoryTheory.FunctorAlgebras]
F_compute1 [in UniMath.CategoryTheory.FunctorAlgebras]
F_is_functor [in UniMath.CategoryTheory.Adjunctions.Core]
F_data [in UniMath.CategoryTheory.Adjunctions.Core]

G

g [in UniMath.Bicategories.Core.EquivToAdjequiv]
G [in UniMath.CategoryTheory.Adjunctions.Core]
g [in UniMath.CategoryTheory.limits.pullbacks]
G [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
gcd [in UniMath.PAdics.z_mod_p]
gcdiscommondiv [in UniMath.PAdics.z_mod_p]
gcdisgreatest [in UniMath.PAdics.z_mod_p]
generated_binopeqrel [in UniMath.Algebra.BinaryOperations]
generated_binopeqrel_hrel [in UniMath.Algebra.BinaryOperations]
generated_binophrel [in UniMath.Algebra.BinaryOperations]
generated_binophrel_hrel [in UniMath.Algebra.BinaryOperations]
GenMendlerIteration [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
geNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
geNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
genoption_DistributiveLaw [in UniMath.SubstitutionSystems.SignatureExamples]
geteq [in UniMath.Algebra.Universal.Equations]
get_eqn [in UniMath.CategoryTheory.Elements]
get_el [in UniMath.CategoryTheory.Elements]
get_ob [in UniMath.CategoryTheory.Elements]
get_mor [in UniMath.CategoryTheory.Elements]
get_eqn [in UniMath.CategoryTheory.ElementsOp]
get_el [in UniMath.CategoryTheory.ElementsOp]
get_ob [in UniMath.CategoryTheory.ElementsOp]
get_mor [in UniMath.CategoryTheory.ElementsOp]
geval [in UniMath.Algebra.Universal.TermAlgebras]
gevalhom [in UniMath.Algebra.Universal.TermAlgebras]
ge_leNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
GG [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
GG [in UniMath.CategoryTheory.precomp_ess_surj]
GG_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
GGεη [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
GH [in UniMath.SyntheticHomotopyTheory.Circle]
Ghat [in UniMath.SubstitutionSystems.LiftingInitial_alt]
Ghat [in UniMath.SubstitutionSystems.LiftingInitial]
GHomotopy [in UniMath.SyntheticHomotopyTheory.AffineLine]
gHomotopy [in UniMath.SyntheticHomotopyTheory.Halfline]
GH_path3_comp2 [in UniMath.SyntheticHomotopyTheory.Circle]
GH_path3_comp1 [in UniMath.SyntheticHomotopyTheory.Circle]
GH_path3 [in UniMath.SyntheticHomotopyTheory.Circle]
GH_equations [in UniMath.SyntheticHomotopyTheory.AffineLine]
GH_homotopy [in UniMath.SyntheticHomotopyTheory.AffineLine]
GH_point [in UniMath.SyntheticHomotopyTheory.AffineLine]
GH_to_cone [in UniMath.SyntheticHomotopyTheory.AffineLine]
GlobalRan [in UniMath.CategoryTheory.RightKanExtension]
GlobalRightKanExtensionExists [in UniMath.CategoryTheory.RightKanExtension]
global_cleaving [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
global_element_HSET_fun_weq [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
global_element_HSET_comp [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
global_element_HSET_paths_weq [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
global_element_HSET [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
glue_sections [in UniMath.AlgebraicGeometry.Spec]
gluing [in UniMath.AlgebraicGeometry.SheavesOfRings]
Go [in UniMath.CategoryTheory.precomp_ess_surj]
gpaths [in UniMath.Combinatorics.GraphPaths]
gpaths_of_length [in UniMath.Combinatorics.GraphPaths]
gr [in UniMath.Algebra.Groups]
gradth [in UniMath.Foundations.PartA]
graph [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
graph [in UniMath.Combinatorics.Graph]
graph [in UniMath.CategoryTheory.limits.graphs.colimits]
graph_mor_comp [in UniMath.Combinatorics.Graph]
graph_mor_id [in UniMath.Combinatorics.Graph]
graph_mor [in UniMath.Combinatorics.Graph]
graph_has_edgesets [in UniMath.Combinatorics.Graph]
graph_has_vertexset [in UniMath.Combinatorics.Graph]
graph_from_precategory [in UniMath.CategoryTheory.limits.graphs.colimits]
graph_precategory [in UniMath.CategoryTheory.categories.Graph]
graph_precategory_data [in UniMath.CategoryTheory.categories.Graph]
graph_precategory_ob_mor [in UniMath.CategoryTheory.categories.Graph]
graph_mor_eq [in UniMath.CategoryTheory.categories.Graph]
grdirprod [in UniMath.Algebra.Groups]
GreatestLowerBound [in UniMath.RealNumbers.Sets]
greatest_suchthat_property [in UniMath.Algebra.FixedPointTheorems]
greatest_suchthat_is_greatest [in UniMath.Algebra.FixedPointTheorems]
greatest_suchthat_satisfies [in UniMath.Algebra.FixedPointTheorems]
greatest_suchthat [in UniMath.Algebra.FixedPointTheorems]
greatest_is_greatest [in UniMath.Algebra.FixedPointTheorems]
greatest_of_family_index [in UniMath.Algebra.FixedPointTheorems]
greatest_of_family [in UniMath.Algebra.FixedPointTheorems]
grfunfromunit [in UniMath.Algebra.Groups]
grfuntounit [in UniMath.Algebra.Groups]
grinv [in UniMath.Algebra.Groups]
grinv_is [in UniMath.Algebra.BinaryOperations]
grlinvax [in UniMath.Algebra.Groups]
grlinvax_is [in UniMath.Algebra.BinaryOperations]
GrothendieckTopology [in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopology_isGrothendieckTopology [in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopology_COS [in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopos [in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopos_equivalence [in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopos_functor [in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopos_GrothendieckTopology [in UniMath.CategoryTheory.GrothendieckTopos]
GrothendieckTopos_category [in UniMath.CategoryTheory.GrothendieckTopos]
groupoid [in UniMath.CategoryTheory.Groupoids]
groupoid_to_pregroupoid [in UniMath.CategoryTheory.Groupoids]
groupoid_is_pregroupoid [in UniMath.CategoryTheory.Groupoids]
groupoid_to_category [in UniMath.CategoryTheory.Groupoids]
group_signature [in UniMath.Algebra.Universal.Examples.Group]
group.disp_grp [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.e [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_hom_e [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_hom_mult [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_axioms [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_data [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_structure [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_inv_l [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_inv_r [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_e_l [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_e_r [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_assoc [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_structure_axioms [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.grp_structure_data [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.inv [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.isaprop_is_grp_hom [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.is_grp_hom [in UniMath.CategoryTheory.DisplayedCats.Examples]
group.mult [in UniMath.CategoryTheory.DisplayedCats.Examples]
grpds [in UniMath.Bicategories.Core.Examples.Groupoids]
grpds_univalent [in UniMath.Bicategories.Core.Examples.Groupoids]
grpd_bicat_is_invertible_2cell [in UniMath.Bicategories.Core.Examples.Groupoids]
grquot [in UniMath.Algebra.Groups]
grrinvax [in UniMath.Algebra.Groups]
grrinvax_is [in UniMath.Algebra.BinaryOperations]
grtomonoid [in UniMath.Algebra.Groups]
gr_univalent_category [in UniMath.CategoryTheory.categories.grs]
gr_category_is_univalent [in UniMath.CategoryTheory.categories.grs]
gr_category [in UniMath.CategoryTheory.categories.grs]
gr_precategory_isweq [in UniMath.CategoryTheory.categories.grs]
gr_equiv_weq_iso [in UniMath.CategoryTheory.categories.grs]
gr_iso_equiv_weq [in UniMath.CategoryTheory.categories.grs]
gr_precategory [in UniMath.CategoryTheory.categories.grs]
gr_precategory_data [in UniMath.CategoryTheory.categories.grs]
gr_precategory_ob_mor [in UniMath.CategoryTheory.categories.grs]
gr_fun_space [in UniMath.CategoryTheory.categories.grs]
gr_univalence [in UniMath.Algebra.Groups]
gr_univalence_map [in UniMath.Algebra.Groups]
gr_univalence_weq3 [in UniMath.Algebra.Groups]
gr_univalence_weq2 [in UniMath.Algebra.Groups]
gr_univalence_weq1' [in UniMath.Algebra.Groups]
gr_univalence_weq1 [in UniMath.Algebra.Groups]
gr_of_monoid [in UniMath.Algebra.Groups]
gr' [in UniMath.Algebra.Groups]
gr'_to_monoid [in UniMath.Algebra.Groups]
GTerm.bot [in UniMath.Algebra.Universal.Examples.Bool]
GTerm.conj [in UniMath.Algebra.Universal.Examples.Bool]
GTerm.disj [in UniMath.Algebra.Universal.Examples.Bool]
GTerm.impl [in UniMath.Algebra.Universal.Examples.Bool]
GTerm.neg [in UniMath.Algebra.Universal.Examples.Bool]
GTerm.T [in UniMath.Algebra.Universal.Examples.Bool]
GTerm.top [in UniMath.Algebra.Universal.Examples.Bool]
gtNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
gtNonnegativeRationals_noteq [in UniMath.RealNumbers.NonnegativeRationals]
gtNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
guidedFamily [in UniMath.Combinatorics.WellOrderedSets]
GuidedHomotopy [in UniMath.SyntheticHomotopyTheory.AffineLine]
GuidedHomotopy [in UniMath.SyntheticHomotopyTheory.Halfline]
GuidedSection [in UniMath.SyntheticHomotopyTheory.AffineLine]
Guided_WOSubset [in UniMath.Combinatorics.WellOrderedSets]
guided_by [in UniMath.Combinatorics.WellFoundedRelations]
G_is_functor [in UniMath.CategoryTheory.Adjunctions.Core]
G_data [in UniMath.CategoryTheory.Adjunctions.Core]
Gθ [in UniMath.SubstitutionSystems.SignatureExamples]
Gθ_Signature [in UniMath.SubstitutionSystems.SignatureExamples]
Gθ_with_laws [in UniMath.SubstitutionSystems.SignatureExamples]
Gθ_mor [in UniMath.SubstitutionSystems.SignatureExamples]

H

H [in UniMath.SubstitutionSystems.Signatures]
H [in UniMath.SubstitutionSystems.BinSumOfSignatures]
H [in UniMath.SubstitutionSystems.BinProductOfSignatures]
H [in UniMath.SubstitutionSystems.SumOfSignatures]
H [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
halfline [in UniMath.SyntheticHomotopyTheory.Halfline]
halfline_map [in UniMath.SyntheticHomotopyTheory.Halfline]
halfNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
hasBinCoproducts [in UniMath.CategoryTheory.limits.bincoproducts]
hasBinCoproducts [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
hasBinDirectSums [in UniMath.CategoryTheory.limits.BinDirectSums]
hasBinProducts [in UniMath.CategoryTheory.limits.graphs.binproducts]
hasBinProducts [in UniMath.CategoryTheory.limits.binproducts]
hasCoequalizers [in UniMath.CategoryTheory.limits.graphs.coequalizers]
hasCoequalizers [in UniMath.CategoryTheory.limits.coequalizers]
hasCokernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
hasCokernels [in UniMath.CategoryTheory.limits.cokernels]
hasColims [in UniMath.CategoryTheory.limits.graphs.colimits]
hasCoproducts [in UniMath.CategoryTheory.limits.coproducts]
hasCoproducts [in UniMath.CategoryTheory.RepresentableFunctors.Test]
hasEqualizers [in UniMath.CategoryTheory.limits.graphs.equalizers]
hasEqualizers [in UniMath.CategoryTheory.limits.equalizers]
hasExponentials [in UniMath.CategoryTheory.exponentials]
hasFinOrdCoproducts [in UniMath.CategoryTheory.limits.FinOrdCoproducts]
hasFinOrdProducts [in UniMath.CategoryTheory.limits.FinOrdProducts]
hasInitial [in UniMath.CategoryTheory.limits.initial]
hasInitial [in UniMath.CategoryTheory.limits.graphs.initial]
hasKernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
hasKernels [in UniMath.CategoryTheory.limits.kernels]
hasLargest [in UniMath.Combinatorics.ZFstructures]
hasLims [in UniMath.CategoryTheory.limits.cats.limits]
hasLims [in UniMath.CategoryTheory.limits.graphs.limits]
hasNNO [in UniMath.CategoryTheory.NNO]
hasProducts [in UniMath.CategoryTheory.limits.products]
hasPullbacks [in UniMath.CategoryTheory.limits.graphs.pullbacks]
hasPullbacks [in UniMath.CategoryTheory.limits.pullbacks]
hasPushouts [in UniMath.CategoryTheory.limits.graphs.pushouts]
hasPushouts [in UniMath.CategoryTheory.limits.pushouts]
hasSmallest [in UniMath.Combinatorics.WellOrderedSets]
hasSmallest_WOSubset_plus_point [in UniMath.Combinatorics.WellOrderedSets]
hasTerminal [in UniMath.CategoryTheory.limits.graphs.terminal]
hasTerminal [in UniMath.CategoryTheory.limits.terminal]
hasuniquerepbranch [in UniMath.Combinatorics.ZFstructures]
hasZero [in UniMath.CategoryTheory.limits.zero]
hasZero [in UniMath.CategoryTheory.limits.graphs.zero]
hasZeroObject [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
haszero_opp [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
has_unit [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
has_homsets_RelModule_Precategory [in UniMath.CategoryTheory.Monads.RelativeModules]
has_pb_bicat_of_univ_cats [in UniMath.Bicategories.Colimits.Pullback]
has_pb_ump_iso_comma [in UniMath.Bicategories.Colimits.Pullback]
has_pb_one_types [in UniMath.Bicategories.Colimits.Pullback]
has_pb_ump_one_types [in UniMath.Bicategories.Colimits.Pullback]
has_pb [in UniMath.Bicategories.Colimits.Pullback]
has_pb_ump_eq [in UniMath.Bicategories.Colimits.Pullback]
has_pb_ump_2 [in UniMath.Bicategories.Colimits.Pullback]
has_pb_ump_1 [in UniMath.Bicategories.Colimits.Pullback]
has_pb_ump [in UniMath.Bicategories.Colimits.Pullback]
has_homsets_path_pregroupoid [in UniMath.CategoryTheory.categories.StandardCategories]
has_homsets_mod [in UniMath.CategoryTheory.categories.modules]
has_homsets_product_precategory [in UniMath.CategoryTheory.ProductCategory]
has_magnitude [in UniMath.Algebra.Matrix]
has_homsets_op [in UniMath.CategoryTheory.opp_precat]
has_folds_homsets [in UniMath.Folds.folds_precat]
has_disp_cellset [in UniMath.Bicategories.DisplayedBicats.DispBicat]
has_homsets_shSet_precategory [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
has_bifinal [in UniMath.Bicategories.Colimits.Final]
has_edgesets [in UniMath.Combinatorics.Graph]
has_vertexset [in UniMath.Combinatorics.Graph]
has_homsets_carrier_of_subcategory [in UniMath.CategoryTheory.Subcategory.Core]
has_homsets_precategory_binproduct [in UniMath.CategoryTheory.PrecategoryBinProduct]
has_homsets_subprecategory_of_monics [in UniMath.CategoryTheory.Monics]
has_pb_bicat_of_univ_cats [in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_univ_cats [in UniMath.Bicategories.Colimits.Products]
has_binprod_one_types [in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_one_types [in UniMath.Bicategories.Colimits.Products]
has_binprod [in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_binprod_cat_ump [in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_2_cell_unique [in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_2_cell_pr2 [in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_2_cell_pr1 [in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_2_cell [in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_2 [in UniMath.Bicategories.Colimits.Products]
has_binprod_ump_1 [in UniMath.Bicategories.Colimits.Products]
has_binprod_ump [in UniMath.Bicategories.Colimits.Products]
has_trivial_2cells_equality [in UniMath.Bicategories.Discreteness]
has_trivial_2cells [in UniMath.Bicategories.Discreteness]
has_homcats [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
has_homsets_subprecategory_of_epis [in UniMath.CategoryTheory.Epis]
has_biinitial [in UniMath.Bicategories.Colimits.Initial]
has_homsets_precatDelta [in UniMath.CategoryTheory.SimplicialSets]
has_homsets [in UniMath.CategoryTheory.Core.Categories]
hat_functorSet [in UniMath.SubstitutionSystems.MultiSorted_alt]
hat_exp_functor_list [in UniMath.SubstitutionSystems.MultiSorted_alt]
hat_functor [in UniMath.SubstitutionSystems.MultiSorted_alt]
hat_exp_functor_list [in UniMath.SubstitutionSystems.MultiSorted]
hat_functor [in UniMath.SubstitutionSystems.MultiSorted]
Ha' [in UniMath.CategoryTheory.FunctorAlgebras]
hb_hcomp [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_rassoc [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_lassoc [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_linvunit [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_lunit [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_rinvunit [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_runit [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_vcomp [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_id2 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_comp1 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_id1 [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_cell [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hb_mor [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp [in UniMath.Bicategories.Core.Bicat]
hcomp [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
hcomp [in UniMath.CategoryTheory.Core.TwoCategories]
hcomp_functor [in UniMath.Bicategories.Core.Bicat]
hcomp_functor_data [in UniMath.Bicategories.Core.Bicat]
hcomp_vcomp [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
hcomp_functor [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
hcomp_functor_data [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
hcomp_bicat_weq_bicat [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_bicat_to_hcomp_bicat [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_bicat [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicat [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicat_laws [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicat_data [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicat_2_id_comp_struct [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicat_1_id_comp_cells [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_precategory_data [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_precategory_id_comp [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_precategory_ob_mor [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_weq_prebicategory [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicategory [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_is_prebicategory [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicategory_data [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_runitor [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_lunitor [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_associator [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicategory_id_comp [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_prebicategory_ob_hom [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_hcomp [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_hom_cat [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_to_data [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_laws [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_ob [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp_bicat_data [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
hcomp' [in UniMath.Bicategories.Core.Bicat]
hcomp' [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
hcomp' [in UniMath.CategoryTheory.Core.TwoCategories]
hconj [in UniMath.Foundations.Propositions]
hconjtohdisj' [in UniMath.Algebra.FixedPointTheorems]
hconj_equiv [in UniMath.Algebra.FixedPointTheorems]
hcons [in UniMath.Algebra.Universal.HVectors]
HC0 [in UniMath.Bicategories.Colimits.Final]
HC0 [in UniMath.Bicategories.Colimits.Initial]
HC1 [in UniMath.Bicategories.Colimits.Final]
HC1 [in UniMath.Bicategories.Colimits.Initial]
hd [in UniMath.Combinatorics.Vectors]
hdisj [in UniMath.Foundations.Propositions]
hdisj_comm [in UniMath.Algebra.FixedPointTheorems]
hdisj_monot' [in UniMath.Algebra.FixedPointTheorems]
hdisj_monot [in UniMath.Algebra.FixedPointTheorems]
hdisj_in2 [in UniMath.Foundations.Propositions]
hdisj_in1 [in UniMath.Foundations.Propositions]
head [in UniMath.Combinatorics.MoreLists]
height [in UniMath.Combinatorics.OrderedSets]
height_stn [in UniMath.Combinatorics.OrderedSets]
hel [in UniMath.Algebra.Universal.HVectors]
helper_B [in UniMath.MoreFoundations.PartA]
helper_A [in UniMath.MoreFoundations.PartA]
help_disp_left_adjoint_axioms [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
help_equation [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
hequiv [in UniMath.MoreFoundations.Notations]
hereditary [in UniMath.Combinatorics.WellFoundedRelations]
heterogeneous_substitution [in UniMath.SubstitutionSystems.SubstitutionSystems]
hetsubst_from_hss [in UniMath.SubstitutionSystems.SubstitutionSystems]
hexists [in UniMath.Foundations.Propositions]
hfalse [in UniMath.Foundations.Propositions]
hffpmap2 [in UniMath.Foundations.PartA]
hfiber [in UniMath.Foundations.PartA]
hfiberbinop [in UniMath.Algebra.BinaryOperations]
hfiberfpmap [in UniMath.Foundations.PartA]
hfiberpr1 [in UniMath.Foundations.PartA]
hfiberpr2 [in UniMath.Foundations.PartA]
hfibersftogf [in UniMath.Foundations.PartA]
hfibersgftog [in UniMath.Foundations.PartA]
hfibersgtof' [in UniMath.Foundations.PartA]
hfibersg'tof [in UniMath.Foundations.PartA]
hfibertoforall [in UniMath.Foundations.PartD]
hfibertohfp [in UniMath.Foundations.PartA]
hfibertosec [in UniMath.Foundations.UnivalenceAxiom]
hfiber_functor [in UniMath.CategoryTheory.categories.HSET.Slice]
hfiber_fun [in UniMath.CategoryTheory.categories.HSET.Slice]
hfiber_hSet_pr1 [in UniMath.CategoryTheory.categories.HSET.Limits]
hfiber_hSet [in UniMath.CategoryTheory.categories.HSET.Limits]
hfiber_hSet [in UniMath.Foundations.Sets]
hfiber_comm [in UniMath.Foundations.PartA]
hfp [in UniMath.Foundations.PartA]
hfpg [in UniMath.Foundations.PartA]
hfpg' [in UniMath.Foundations.PartA]
hfpoverX [in UniMath.Foundations.PartA]
hfpoverX' [in UniMath.Foundations.PartA]
hfptohfiber [in UniMath.Foundations.PartA]
hfp_HLevel [in UniMath.MoreFoundations.PartA]
hfp_is_of_hlevel [in UniMath.MoreFoundations.PartA]
hfp_right [in UniMath.Foundations.PartA]
hfsqstr [in UniMath.Foundations.PartA]
hfsqstrtocommsqstr [in UniMath.Foundations.PartA]
hhd [in UniMath.Algebra.Universal.HVectors]
HH_bind_bind_slice [in UniMath.SubstitutionSystems.MonadsMultiSorted]
himpl [in UniMath.Foundations.Propositions]
hinhand [in UniMath.Foundations.Propositions]
hinhfun [in UniMath.Foundations.Propositions]
hinhfun2 [in UniMath.Foundations.Propositions]
hinhimplinhdneg [in UniMath.Foundations.Propositions]
hinhpr [in UniMath.Foundations.Propositions]
hinhuniv [in UniMath.Foundations.Propositions]
hinhunivcor1 [in UniMath.Foundations.Propositions]
hinhuniv2 [in UniMath.Foundations.Propositions]
HLevel [in UniMath.Foundations.HLevels]
hlevel_precat_subtype [in UniMath.CategoryTheory.categories.Cats]
hneg [in UniMath.Foundations.Propositions]
hnil [in UniMath.Algebra.Universal.HVectors]
hnnq_gt [in UniMath.RealNumbers.NonnegativeRationals]
hnnq_lt [in UniMath.RealNumbers.NonnegativeRationals]
hnnq_ge [in UniMath.RealNumbers.NonnegativeRationals]
hnnq_le [in UniMath.RealNumbers.NonnegativeRationals]
hnnq_div [in UniMath.RealNumbers.NonnegativeRationals]
hnnq_inv [in UniMath.RealNumbers.NonnegativeRationals]
hnnq_mult [in UniMath.RealNumbers.NonnegativeRationals]
hnnq_minus [in UniMath.RealNumbers.NonnegativeRationals]
hnnq_plus [in UniMath.RealNumbers.NonnegativeRationals]
hnnq_one [in UniMath.RealNumbers.NonnegativeRationals]
hnnq_zero [in UniMath.RealNumbers.NonnegativeRationals]
hnnq_set_to_hq [in UniMath.RealNumbers.NonnegativeRationals]
hnnq_set [in UniMath.RealNumbers.NonnegativeRationals]
holds [in UniMath.Algebra.Universal.EqAlgebras]
Hom [in UniMath.CategoryTheory.ExactCategories.Tests]
hom [in UniMath.CategoryTheory.ExactCategories.Tests]
Hom [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
hom [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
hom [in UniMath.Bicategories.Core.Bicat]
Hom [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
hom [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
hom [in UniMath.Algebra.Universal.Algebras]
homcat [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
homcat [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
homcomp [in UniMath.Algebra.Universal.Algebras]
HomFamily [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
homid [in UniMath.Algebra.Universal.Algebras]
homnats [in UniMath.Algebra.Universal.Examples.Tests]
homo [in UniMath.Paradoxes.GirardsParadox]
homot [in UniMath.Foundations.PartA]
homotcomp [in UniMath.Foundations.PartA]
homotcoprodfcomp [in UniMath.Foundations.PartA]
homotcoprodfhomot [in UniMath.Foundations.PartA]
homotffggid [in UniMath.Foundations.PartA]
homotfun [in UniMath.Foundations.PartA]
homothfiberretr [in UniMath.Foundations.PartA]
homothfiber1 [in UniMath.Foundations.PartA]
homothfiber2 [in UniMath.Foundations.PartA]
homothomotsec_natural [in UniMath.Bicategories.Modifications.Examples.ApModification]
homotinvweqweq [in UniMath.Foundations.PartA]
homotinvweqweq_GH_comp [in UniMath.SyntheticHomotopyTheory.Circle]
homotinvweqweq_comp_3 [in UniMath.MoreFoundations.MoreEquivalences]
homotinvweqweq_comp [in UniMath.MoreFoundations.MoreEquivalences]
homotinvweqweq' [in UniMath.MoreFoundations.MoreEquivalences]
homotinvweqweq'_comp [in UniMath.MoreFoundations.MoreEquivalences]
homotinvweqweq0 [in UniMath.Foundations.PartA]
homotopy_uniqueness_principle [in UniMath.Induction.W.Fibered]
homotrecomplfcomp [in UniMath.Foundations.PartC]
homotrecomplfhomot [in UniMath.Foundations.PartC]
homotrecomplfidfun [in UniMath.Foundations.PartC]
homotrefl [in UniMath.Foundations.PartA]
homotsec_natural [in UniMath.MoreFoundations.PartA]
homotsec_natural_natural [in UniMath.Bicategories.Transformations.Examples.ApTransformation]
homotsec_natural [in UniMath.Bicategories.Transformations.Examples.ApTransformation]
homottranspost2t1t1t2 [in UniMath.Foundations.PartC]
homottranspos0t2t1t1t2 [in UniMath.Foundations.PartC]
homotweqinvweq [in UniMath.Foundations.PartA]
homotweqinvweqweq [in UniMath.Foundations.PartA]
homotweqoncomplcomp [in UniMath.Foundations.PartC]
homot_hfp_one_type [in UniMath.MoreFoundations.PartA]
homot_hfp [in UniMath.MoreFoundations.PartA]
HomPair [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
HomPair_2 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
HomPair_1 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
homsets_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
homset_conj [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj'_inv [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj' [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_conj_inv [in UniMath.CategoryTheory.DisplayedCats.Adjunctions]
homset_property [in UniMath.CategoryTheory.Core.Categories]
homtype_hlevel [in UniMath.CategoryTheory.Core.Setcategories]
Hom_add [in UniMath.CategoryTheory.ExactCategories.Tests]
hom_functor [in UniMath.CategoryTheory.categories.Type.Core]
hom_functor_data [in UniMath.CategoryTheory.categories.Type.Core]
Hom_add [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
hom_in_precat_from_hom_in_full_subcat [in UniMath.CategoryTheory.Subcategory.Full]
hom_in_subcat_from_hom_in_precat [in UniMath.CategoryTheory.Subcategory.Full]
hom_precategory [in UniMath.Bicategories.Core.Bicat]
hom_data [in UniMath.Bicategories.Core.Bicat]
hom_ob_mor [in UniMath.Bicategories.Core.Bicat]
hom_inv [in UniMath.CategoryTheory.Adjunctions.Core]
hom_natural_postcomp [in UniMath.CategoryTheory.Adjunctions.Core]
hom_natural_precomp [in UniMath.CategoryTheory.Adjunctions.Core]
hom_weq [in UniMath.CategoryTheory.Adjunctions.Core]
Hom1 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
hom2axiom [in UniMath.Algebra.Universal.Algebras]
hom2fun [in UniMath.Algebra.Universal.Algebras]
horcomp [in UniMath.CategoryTheory.HorizontalComposition]
horcomp_data [in UniMath.CategoryTheory.HorizontalComposition]
hornRotation_ll [in UniMath.MoreFoundations.PartA]
hornRotation_rl [in UniMath.MoreFoundations.PartA]
hornRotation_lr [in UniMath.MoreFoundations.PartA]
hornRotation_rr [in UniMath.MoreFoundations.PartA]
hProp [in UniMath.Foundations.Propositions]
hPropset [in UniMath.Foundations.Sets]
hProptoType [in UniMath.Foundations.Propositions]
hProp_set [in UniMath.MoreFoundations.Sets]
hProp_bounded_lattice [in UniMath.Algebra.Lattice]
hProp_lattice [in UniMath.Algebra.Lattice]
hProp_to_hSet [in UniMath.Foundations.Sets]
hq [in UniMath.NumberSystems.RationalNumbers]
hqaddabgr [in UniMath.NumberSystems.RationalNumbers]
hqbooleq [in UniMath.NumberSystems.RationalNumbers]
hqboolneq [in UniMath.NumberSystems.RationalNumbers]
hqdeceq [in UniMath.NumberSystems.RationalNumbers]
hqdecneq [in UniMath.NumberSystems.RationalNumbers]
hqdiv [in UniMath.NumberSystems.RationalNumbers]
hqeq [in UniMath.NumberSystems.RationalNumbers]
hqgeh [in UniMath.NumberSystems.RationalNumbers]
hqgehandmultl [in UniMath.NumberSystems.RationalNumbers]
hqgehandmultlinv [in UniMath.NumberSystems.RationalNumbers]
hqgehandmultr [in UniMath.NumberSystems.RationalNumbers]
hqgehandmultrinv [in UniMath.NumberSystems.RationalNumbers]
hqgehandplusl [in UniMath.NumberSystems.RationalNumbers]
hqgehandpluslinv [in UniMath.NumberSystems.RationalNumbers]
hqgehandplusr [in UniMath.NumberSystems.RationalNumbers]
hqgehandplusrinv [in UniMath.NumberSystems.RationalNumbers]
hqgehchoice [in UniMath.NumberSystems.RationalNumbers]
hqgehdec [in UniMath.NumberSystems.RationalNumbers]
hqgehtoneghqlth [in UniMath.NumberSystems.RationalNumbers]
hqgth [in UniMath.NumberSystems.RationalNumbers]
hqgthandmultl [in UniMath.NumberSystems.RationalNumbers]
hqgthandmultlinv [in UniMath.NumberSystems.RationalNumbers]
hqgthandmultr [in UniMath.NumberSystems.RationalNumbers]
hqgthandmultrinv [in UniMath.NumberSystems.RationalNumbers]
hqgthandplusl [in UniMath.NumberSystems.RationalNumbers]
hqgthandpluslinv [in UniMath.NumberSystems.RationalNumbers]
hqgthandplusr [in UniMath.NumberSystems.RationalNumbers]
hqgthandplusrinv [in UniMath.NumberSystems.RationalNumbers]
hqgthdec [in UniMath.NumberSystems.RationalNumbers]
hqgthorleh [in UniMath.NumberSystems.RationalNumbers]
hqgthtogeh [in UniMath.NumberSystems.RationalNumbers]
hqgthtoneghqleh [in UniMath.NumberSystems.RationalNumbers]
hqinvmaponpathsminus [in UniMath.NumberSystems.RationalNumbers]
hqleh [in UniMath.NumberSystems.RationalNumbers]
hqlehandmultl [in UniMath.NumberSystems.RationalNumbers]
hqlehandmultlinv [in UniMath.NumberSystems.RationalNumbers]
hqlehandmultr [in UniMath.NumberSystems.RationalNumbers]
hqlehandmultrinv [in UniMath.NumberSystems.RationalNumbers]
hqlehandplusl [in UniMath.NumberSystems.RationalNumbers]
hqlehandpluslinv [in UniMath.NumberSystems.RationalNumbers]
hqlehandplusr [in UniMath.NumberSystems.RationalNumbers]
hqlehandplusrinv [in UniMath.NumberSystems.RationalNumbers]
hqlehchoice [in UniMath.NumberSystems.RationalNumbers]
hqlehdec [in UniMath.NumberSystems.RationalNumbers]
hqlehtoneghqgth [in UniMath.NumberSystems.RationalNumbers]
hqlth [in UniMath.NumberSystems.RationalNumbers]
hqlthandmultl [in UniMath.NumberSystems.RationalNumbers]
hqlthandmultlinv [in UniMath.NumberSystems.RationalNumbers]
hqlthandmultr [in UniMath.NumberSystems.RationalNumbers]
hqlthandmultrinv [in UniMath.NumberSystems.RationalNumbers]
hqlthandplusl [in UniMath.NumberSystems.RationalNumbers]
hqlthandpluslinv [in UniMath.NumberSystems.RationalNumbers]
hqlthandplusr [in UniMath.NumberSystems.RationalNumbers]
hqlthandplusrinv [in UniMath.NumberSystems.RationalNumbers]
hqlthdec [in UniMath.NumberSystems.RationalNumbers]
hqlthnsn [in UniMath.NumberSystems.RationalNumbers]
hqlthorgeh [in UniMath.NumberSystems.RationalNumbers]
hqlthtoleh [in UniMath.NumberSystems.RationalNumbers]
hqlthtoneghqgeh [in UniMath.NumberSystems.RationalNumbers]
hqminus [in UniMath.NumberSystems.RationalNumbers]
hqmult [in UniMath.NumberSystems.RationalNumbers]
hqmultabmonoid [in UniMath.NumberSystems.RationalNumbers]
hqmultinv [in UniMath.NumberSystems.RationalNumbers]
hqneq [in UniMath.NumberSystems.RationalNumbers]
hqneqchoice [in UniMath.NumberSystems.RationalNumbers]
hqone [in UniMath.NumberSystems.RationalNumbers]
hqplus [in UniMath.NumberSystems.RationalNumbers]
hqpos [in UniMath.NumberSystems.RationalNumbers]
hqsign [in UniMath.NumberSystems.RationalNumbers]
hqtype [in UniMath.NumberSystems.RationalNumbers]
hqzero [in UniMath.NumberSystems.RationalNumbers]
hq_to_hnnq_set [in UniMath.RealNumbers.NonnegativeRationals]
hrel [in UniMath.Foundations.Sets]
hrelabgrdiff [in UniMath.Algebra.Groups]
hrelabgrdiff' [in UniMath.Algebra.Groups]
hrelabmonoidfrac [in UniMath.Algebra.Monoids]
hrelcommringfrac0 [in UniMath.Algebra.RigsAndRings]
hreldirprod [in UniMath.Foundations.Sets]
hrellogeq [in UniMath.Foundations.Sets]
hrelmodule_eqrel [in UniMath.Algebra.Modules.Quotient]
hrel_reverse [in UniMath.RealNumbers.Sets]
hrel_set [in UniMath.MoreFoundations.Propositions]
hrel0abmonoidfrac [in UniMath.Algebra.Monoids]
hr_abs [in UniMath.RealNumbers.Reals]
hr_ConstructiveField [in UniMath.RealNumbers.Reals]
hr_ap_rel [in UniMath.RealNumbers.Reals]
hr_le_rel [in UniMath.RealNumbers.Reals]
hr_lt_rel [in UniMath.RealNumbers.Reals]
hr_to_NRneg [in UniMath.RealNumbers.Reals]
hr_to_NRpos [in UniMath.RealNumbers.Reals]
hr_to_NR [in UniMath.RealNumbers.Reals]
hr_commring [in UniMath.RealNumbers.Reals]
hsD [in UniMath.CategoryTheory.RepresentableFunctors.Test]
hSet [in UniMath.Foundations.Sets]
hset_category [in UniMath.CategoryTheory.categories.HSET.Core]
hset_precategory [in UniMath.CategoryTheory.categories.HSET.Core]
hset_precategory_data [in UniMath.CategoryTheory.categories.HSET.Core]
hset_precategory_ob_mor [in UniMath.CategoryTheory.categories.HSET.Core]
hset_fun_space [in UniMath.CategoryTheory.categories.HSET.Core]
HSET_over_sort [in UniMath.SubstitutionSystems.STLC]
HSET_over_sort [in UniMath.SubstitutionSystems.MonadsMultiSorted]
HSET_Equalizers [in UniMath.CategoryTheory.categories.HSET.Limits]
HSET_Pullbacks [in UniMath.CategoryTheory.categories.HSET.Limits]
HSET_univalent_category [in UniMath.CategoryTheory.categories.HSET.Univalence]
hset_id_weq_iso [in UniMath.CategoryTheory.categories.HSET.Univalence]
HSET_over_sort [in UniMath.SubstitutionSystems.CCS]
hset_equiv_weq_iso [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hset_iso_equiv_weq [in UniMath.CategoryTheory.categories.HSET.MonoEpiIso]
hSet_univalence_map [in UniMath.Foundations.Sets]
HSET_over_sort [in UniMath.SubstitutionSystems.MultiSorted]
hss [in UniMath.SubstitutionSystems.SubstitutionSystems]
hssMor [in UniMath.SubstitutionSystems.SubstitutionSystems]
hssMor_comp [in UniMath.SubstitutionSystems.SubstitutionSystems]
hssMor_id [in UniMath.SubstitutionSystems.SubstitutionSystems]
hssMor_eq [in UniMath.SubstitutionSystems.SubstitutionSystems]
hssMor_eq1 [in UniMath.SubstitutionSystems.SubstitutionSystems]
hssMor_Monad_Mor_eq [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
hss_InitMor [in UniMath.SubstitutionSystems.LiftingInitial_alt]
hss_category [in UniMath.SubstitutionSystems.SubstitutionSystems]
hss_precategory [in UniMath.SubstitutionSystems.SubstitutionSystems]
hss_precategory_data [in UniMath.SubstitutionSystems.SubstitutionSystems]
hss_obmor [in UniMath.SubstitutionSystems.SubstitutionSystems]
hss_to_monad_functor [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
hss_to_monad_functor [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
hss_to_monad_functor_data [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
hss_InitMor [in UniMath.SubstitutionSystems.LiftingInitial]
hsubtype [in UniMath.Foundations.Sets]
hsubtypeNonnegativeRationals_to_NonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
hsubtype_obs_isSheaf [in UniMath.CategoryTheory.GrothendieckTopos]
hsubtype_to_preZFS_Branch_hsubtype [in UniMath.Combinatorics.ZFstructures]
hsubtype_mors_isMonic [in UniMath.CategoryTheory.Monics]
hsubtype_obs_isMonic [in UniMath.CategoryTheory.Monics]
hsubtype_mors_isEpi [in UniMath.CategoryTheory.Epis]
hsubtype_obs_isEpi [in UniMath.CategoryTheory.Epis]
htl [in UniMath.Algebra.Universal.HVectors]
htrue [in UniMath.Foundations.Propositions]
hvec [in UniMath.Algebra.Universal.HVectors]
hz [in UniMath.NumberSystems.Integers]
hzabsval [in UniMath.NumberSystems.Integers]
hzabsvalint [in UniMath.NumberSystems.Integers]
hzabsvalnat [in UniMath.NumberSystems.Integers]
hzabsvalneq0 [in UniMath.NumberSystems.Integers]
hzaddabgr [in UniMath.NumberSystems.Integers]
hzbooleq [in UniMath.NumberSystems.Integers]
hzboolneq [in UniMath.NumberSystems.Integers]
hzdeceq [in UniMath.NumberSystems.Integers]
hzdecneq [in UniMath.NumberSystems.Integers]
hzdiv [in UniMath.PAdics.z_mod_p]
hzdivequationmod [in UniMath.PAdics.z_mod_p]
hzdiv0 [in UniMath.PAdics.z_mod_p]
hzeq [in UniMath.NumberSystems.Integers]
hzgcd [in UniMath.PAdics.z_mod_p]
hzgeh [in UniMath.NumberSystems.Integers]
hzgehandmultl [in UniMath.NumberSystems.Integers]
hzgehandmultlinv [in UniMath.NumberSystems.Integers]
hzgehandmultr [in UniMath.NumberSystems.Integers]
hzgehandmultrinv [in UniMath.NumberSystems.Integers]
hzgehandplusl [in UniMath.NumberSystems.Integers]
hzgehandpluslinv [in UniMath.NumberSystems.Integers]
hzgehandplusr [in UniMath.NumberSystems.Integers]
hzgehandplusrinv [in UniMath.NumberSystems.Integers]
hzgehchoice [in UniMath.NumberSystems.Integers]
hzgehdec [in UniMath.NumberSystems.Integers]
hzgehtogehs [in UniMath.NumberSystems.Integers]
hzgehtoneghzlth [in UniMath.NumberSystems.Integers]
hzgth [in UniMath.NumberSystems.Integers]
hzgthandmultl [in UniMath.NumberSystems.Integers]
hzgthandmultlinv [in UniMath.NumberSystems.Integers]
hzgthandmultr [in UniMath.NumberSystems.Integers]
hzgthandmultrinv [in UniMath.NumberSystems.Integers]
hzgthandplusl [in UniMath.NumberSystems.Integers]
hzgthandpluslinv [in UniMath.NumberSystems.Integers]
hzgthandplusr [in UniMath.NumberSystems.Integers]
hzgthandplusrinv [in UniMath.NumberSystems.Integers]
hzgthdec [in UniMath.NumberSystems.Integers]
hzgthorleh [in UniMath.NumberSystems.Integers]
hzgthtogeh [in UniMath.NumberSystems.Integers]
hzgthtogths [in UniMath.NumberSystems.Integers]
hzgthtoneghzleh [in UniMath.NumberSystems.Integers]
hzhztohq [in UniMath.NumberSystems.RationalNumbers]
hzintdom [in UniMath.NumberSystems.Integers]
hzinvmaponpathsminus [in UniMath.NumberSystems.Integers]
hzldistr [in UniMath.PAdics.lemmas]
hzleh [in UniMath.NumberSystems.Integers]
hzlehandmultl [in UniMath.NumberSystems.Integers]
hzlehandmultlinv [in UniMath.NumberSystems.Integers]
hzlehandmultr [in UniMath.NumberSystems.Integers]
hzlehandmultrinv [in UniMath.NumberSystems.Integers]
hzlehandplusl [in UniMath.NumberSystems.Integers]
hzlehandpluslinv [in UniMath.NumberSystems.Integers]
hzlehandplusr [in UniMath.NumberSystems.Integers]
hzlehandplusrinv [in UniMath.NumberSystems.Integers]
hzlehchoice [in UniMath.NumberSystems.Integers]
hzlehdec [in UniMath.NumberSystems.Integers]
hzlehtolehs [in UniMath.NumberSystems.Integers]
hzlehtoneghzgth [in UniMath.NumberSystems.Integers]
hzleh0remaindermod [in UniMath.PAdics.z_mod_p]
hzlth [in UniMath.NumberSystems.Integers]
hzlthandmultl [in UniMath.NumberSystems.Integers]
hzlthandmultlinv [in UniMath.NumberSystems.Integers]
hzlthandmultr [in UniMath.NumberSystems.Integers]
hzlthandmultrinv [in UniMath.NumberSystems.Integers]
hzlthandplusl [in UniMath.NumberSystems.Integers]
hzlthandpluslinv [in UniMath.NumberSystems.Integers]
hzlthandplusr [in UniMath.NumberSystems.Integers]
hzlthandplusrinv [in UniMath.NumberSystems.Integers]
hzlthdec [in UniMath.NumberSystems.Integers]
hzlthnsn [in UniMath.NumberSystems.Integers]
hzlthorgeh [in UniMath.NumberSystems.Integers]
hzlthremaindermodmod [in UniMath.PAdics.z_mod_p]
hzlthtoleh [in UniMath.NumberSystems.Integers]
hzlthtolths [in UniMath.NumberSystems.Integers]
hzlthtoneghzgeh [in UniMath.NumberSystems.Integers]
hzminus [in UniMath.NumberSystems.Integers]
hzminuszero [in UniMath.NumberSystems.Integers]
hzmod [in UniMath.PAdics.z_mod_p]
hzmodp [in UniMath.PAdics.z_mod_p]
hzmult [in UniMath.NumberSystems.Integers]
hzmultabmonoid [in UniMath.NumberSystems.Integers]
hzneq [in UniMath.NumberSystems.Integers]
hzneqchoice [in UniMath.NumberSystems.Integers]
hzneq0andmult [in UniMath.NumberSystems.Integers]
hzneq0andmultlinv [in UniMath.NumberSystems.Integers]
hzneq0andmultrinv [in UniMath.NumberSystems.Integers]
hznf_neg_one [in UniMath.NumberSystems.Integers]
hznf_zero [in UniMath.NumberSystems.Integers]
hznf_neg [in UniMath.NumberSystems.Integers]
hznf_pos [in UniMath.NumberSystems.Integers]
hzone [in UniMath.NumberSystems.Integers]
hzplus [in UniMath.NumberSystems.Integers]
hzqrtestq [in UniMath.PAdics.z_mod_p]
hzqrtestr [in UniMath.PAdics.z_mod_p]
hzquotientmod [in UniMath.PAdics.z_mod_p]
hzrdistr [in UniMath.PAdics.lemmas]
hzremaindermod [in UniMath.PAdics.z_mod_p]
hzsign [in UniMath.NumberSystems.Integers]
hztohq [in UniMath.NumberSystems.RationalNumbers]
hztohqandgeh [in UniMath.NumberSystems.RationalNumbers]
hztohqandgth [in UniMath.NumberSystems.RationalNumbers]
hztohqandleh [in UniMath.NumberSystems.RationalNumbers]
hztohqandlth [in UniMath.NumberSystems.RationalNumbers]
hztohqandminus [in UniMath.NumberSystems.RationalNumbers]
hztohqandmult [in UniMath.NumberSystems.RationalNumbers]
hztohqandneq [in UniMath.NumberSystems.RationalNumbers]
hztohqandplus [in UniMath.NumberSystems.RationalNumbers]
hztohqand0 [in UniMath.NumberSystems.RationalNumbers]
hztohqand1 [in UniMath.NumberSystems.RationalNumbers]
hzzero [in UniMath.NumberSystems.Integers]
hz_to_normal_form [in UniMath.NumberSystems.Integers]
hz_normal_form [in UniMath.NumberSystems.Integers]
hz_abgr_fun_monoidfun [in UniMath.NumberSystems.Integers]
hz_abgr_fun_ismonoidfun [in UniMath.NumberSystems.Integers]
hz_abgr_fun [in UniMath.NumberSystems.Integers]
hz_abmonoid_monoidfun [in UniMath.NumberSystems.Integers]
H' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
h1const_is_vec [in UniMath.Algebra.Universal.HVectors]
h1foldr [in UniMath.Algebra.Universal.HVectors]
h1lift [in UniMath.Algebra.Universal.HVectors]
h1lower [in UniMath.Algebra.Universal.HVectors]
h1map [in UniMath.Algebra.Universal.HVectors]
h1map_vec [in UniMath.Algebra.Universal.HVectors]
h2foldr [in UniMath.Algebra.Universal.HVectors]
h2lower [in UniMath.Algebra.Universal.HVectors]
h2map [in UniMath.Algebra.Universal.HVectors]

I

I [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
I [in UniMath.Folds.folds_pre_2_cat]
I [in UniMath.CategoryTheory.categories.CartesianCubicalSets]
i [in UniMath.Combinatorics.Tests]
I [in UniMath.Folds.folds_precat]
I [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
I [in UniMath.CategoryTheory.Monoidal.Actions]
I [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
I [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
I [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
idActionIso [in UniMath.Algebra.GroupAction]
idbinopfun [in UniMath.CategoryTheory.category_binops]
idbinopfun_remove_right [in UniMath.CategoryTheory.category_binops]
idbinopfun_remove_left [in UniMath.CategoryTheory.category_binops]
idbinopiso [in UniMath.Algebra.BinaryOperations]
ideal [in UniMath.Algebra.RigsAndRings.Ideals]
ideal_isr [in UniMath.Algebra.RigsAndRings.Ideals]
ideal_isl [in UniMath.Algebra.RigsAndRings.Ideals]
ideal_subabmonoid [in UniMath.Algebra.RigsAndRings.Ideals]
idempunitor [in UniMath.Bicategories.DisplayedBicats.FiberCategory]
identitor_is_disp_univalent_2 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
identitor_is_disp_univalent_2_0 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
identitor_is_disp_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
identitor_disp_cat [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
identitor_disp_id_comp [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
identitor_disp_cat_data [in UniMath.Bicategories.PseudoFunctors.Display.Identitor]
identity [in UniMath.CategoryTheory.Core.Categories]
IdentityEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IdentityMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
identityPathOver [in UniMath.MoreFoundations.PathsOver]
identityPosetEquivalence [in UniMath.Foundations.Sets]
identity_pseudo_morphism [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
identity_catiso [in UniMath.CategoryTheory.catiso]
identity_is_cartesian_2cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
identity_is_Coequalizer_input [in UniMath.CategoryTheory.limits.graphs.coequalizers]
identity_is_Pushout_input [in UniMath.CategoryTheory.limits.graphs.pushouts]
identity_is_Pushout_input [in UniMath.CategoryTheory.limits.pushouts]
identity_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
identity_is_Equalizer_input [in UniMath.CategoryTheory.limits.graphs.equalizers]
identity_z_iso [in UniMath.CategoryTheory.Core.Isos]
identity_iso [in UniMath.CategoryTheory.Core.Isos]
identity_is_KernelIn [in UniMath.CategoryTheory.limits.kernels]
identity_is_CokernelOut [in UniMath.CategoryTheory.limits.cokernels]
identity_is_EqualizerIn [in UniMath.CategoryTheory.limits.equalizers]
identity_adj_int_equivalence [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
identity_triangle2 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
identity_triangle1 [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
identity_int_equivalence [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
identity_is_Pullback_input [in UniMath.CategoryTheory.limits.graphs.pullbacks]
identity_is_Pullback_input [in UniMath.CategoryTheory.limits.pullbacks]
identity_is_CoequalizerOut [in UniMath.CategoryTheory.limits.coequalizers]
identity_map [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
identity_matrix [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
identity1 [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
idfun [in UniMath.Foundations.PartA]
idfun_multilinear [in UniMath.Algebra.Modules.Examples]
idfun_linear [in UniMath.Algebra.Modules.Examples]
idmoduleiso [in UniMath.Algebra.Modules.Examples]
idmonoidiso [in UniMath.Algebra.Monoids]
IdMor [in UniMath.HomologicalAlgebra.Complexes]
idoiso_2_0_onetypes [in UniMath.Bicategories.Core.Examples.OneTypes]
idpath_transportf [in UniMath.Foundations.PartA]
idpath' [in UniMath.MoreFoundations.Notations]
idrigiso [in UniMath.Algebra.RigsAndRings]
IdRoof [in UniMath.CategoryTheory.LocalizingClass]
IdRoofEqclass [in UniMath.CategoryTheory.LocalizingClass]
idsfun [in UniMath.Algebra.Universal.SortedTypes]
IdSig [in UniMath.SubstitutionSystems.MLTT79]
IdSignature [in UniMath.SubstitutionSystems.SignatureExamples]
idtoiso [in UniMath.CategoryTheory.Core.Univalence]
idtoiso_2_0_alt_E₂ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
idtoiso_2_1_alt_E₂ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
idtoiso_isotoid_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
idtoiso_plassociator [in UniMath.Bicategories.Core.Strictness]
idtoiso_prunitor [in UniMath.Bicategories.Core.Strictness]
idtoiso_plunitor [in UniMath.Bicategories.Core.Strictness]
idtoiso_2_0_is_idtoiso_id_2_0_alt [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
idtoiso_2_0_alt [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
idtoiso_alt [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
idtoiso_2_0_isotoid_2_0 [in UniMath.Bicategories.Core.Univalence]
idtoiso_2_1_isotoid_2_1 [in UniMath.Bicategories.Core.Univalence]
idtoiso_weq [in UniMath.Bicategories.Core.Univalence]
idtoiso_alt_weq [in UniMath.Bicategories.Core.Univalence]
idtoiso_2_1 [in UniMath.Bicategories.Core.Univalence]
idtoiso_2_0 [in UniMath.Bicategories.Core.Univalence]
idtoiso_2_0_univalent_cat [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
idtoiso2 [in UniMath.Folds.folds_pre_2_cat]
idtomor [in UniMath.CategoryTheory.Core.Categories]
idtomor_inv [in UniMath.CategoryTheory.Core.Categories]
idto2cell [in UniMath.Bicategories.Discreteness]
idto2mor [in UniMath.CategoryTheory.Core.TwoCategories]
idto2mor_rwhisker [in UniMath.CategoryTheory.Core.TwoCategories]
idto2mor_lwhisker [in UniMath.CategoryTheory.Core.TwoCategories]
idto2mor_comp [in UniMath.CategoryTheory.Core.TwoCategories]
idtwobinopiso [in UniMath.Algebra.BinaryOperations]
idweq [in UniMath.Foundations.PartA]
IdZeroMap [in UniMath.CategoryTheory.AbelianToAdditive]
id_psfunctor [in UniMath.Bicategories.PseudoFunctors.Examples.Identity]
id_functor_laws [in UniMath.Bicategories.PseudoFunctors.Examples.Identity]
id_functor_d [in UniMath.Bicategories.PseudoFunctors.Examples.Identity]
id_TRRGraphiso [in UniMath.Combinatorics.ZFstructures]
Id_in_sub_to_iso [in UniMath.CategoryTheory.Subcategory.Full]
id_pstrans [in UniMath.Bicategories.Transformations.PseudoTransformation]
id_is_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
id_right_disp_var [in UniMath.CategoryTheory.DisplayedCats.Core]
id_right_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
id_left_disp_var [in UniMath.CategoryTheory.DisplayedCats.Core]
id_left_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
id_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
Id_H [in UniMath.SubstitutionSystems.LiftingInitial_alt]
id_coslice_precat [in UniMath.CategoryTheory.coslicecat]
id_slice_precat [in UniMath.CategoryTheory.slicecat]
Id_H [in UniMath.SubstitutionSystems.SubstitutionSystems]
id_to_int_equivalence [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
id_folds_iso [in UniMath.Folds.folds_isomorphism]
id_folds_iso_data [in UniMath.Folds.folds_isomorphism]
id_multimodulefun [in UniMath.Algebra.Modules.Examples]
id_modulefun [in UniMath.Algebra.Modules.Examples]
id_distr_law_right [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
id_distr_law_left [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
id_distr_law [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
id_functor_cat_swap [in UniMath.CategoryTheory.Adjunctions.Examples]
id_Ptd [in UniMath.CategoryTheory.PointedFunctors]
id_is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
id_pred [in UniMath.Folds.from_precats_to_folds_and_back]
Id_H [in UniMath.SubstitutionSystems.LiftingInitial]
id_right [in UniMath.CategoryTheory.Core.Categories]
id_left [in UniMath.CategoryTheory.Core.Categories]
id1_fully_faithful [in UniMath.Bicategories.Core.FullyFaithful]
id1_faithful [in UniMath.Bicategories.Core.FullyFaithful]
id2 [in UniMath.Bicategories.Core.Bicat]
id2 [in UniMath.CategoryTheory.Core.TwoCategories]
id2toequiv [in UniMath.Bicategories.Core.Bicat]
id2_pb_2cell [in UniMath.Bicategories.Colimits.Pullback]
id2_invertible_2cell [in UniMath.Bicategories.Core.Bicat]
id2_rwhisker [in UniMath.Bicategories.Core.Bicat]
id2_right [in UniMath.Bicategories.Core.Bicat]
id2_left [in UniMath.Bicategories.Core.Bicat]
id2_rwhisker [in UniMath.CategoryTheory.Core.TwoCategories]
id2_right [in UniMath.CategoryTheory.Core.TwoCategories]
id2_left [in UniMath.CategoryTheory.Core.TwoCategories]
ifI [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
Image [in UniMath.CategoryTheory.Abelian]
image [in UniMath.Algebra.FixedPointTheorems]
image [in UniMath.Foundations.Propositions]
Image [in UniMath.CategoryTheory.ShortExactSequences]
image_directed [in UniMath.Algebra.FixedPointTheorems]
image_is_directed [in UniMath.Algebra.FixedPointTheorems]
image_chain [in UniMath.Algebra.FixedPointTheorems]
image_is_chain [in UniMath.Algebra.FixedPointTheorems]
image_same_upper_bounds [in UniMath.Algebra.FixedPointTheorems]
image_same_lower_bounds [in UniMath.Algebra.FixedPointTheorems]
image_carrier_univ' [in UniMath.Algebra.FixedPointTheorems]
image_carrier_univ [in UniMath.Algebra.FixedPointTheorems]
image_univ' [in UniMath.Algebra.FixedPointTheorems]
image_univ [in UniMath.Algebra.FixedPointTheorems]
implb [in UniMath.MoreFoundations.Bool]
impl_op [in UniMath.Algebra.Universal.Examples.Tests]
incl [in UniMath.Foundations.PartB]
inclcomp [in UniMath.Foundations.PartB]
induced_ExactCategory [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
induced_ExactCategoryProperties [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
induced_ExactCategoryData [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
induced_PreAdditive_incl [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
induced_precategoryWithBinOps [in UniMath.CategoryTheory.CategoriesWithBinOps]
induced_precategory_incl [in UniMath.CategoryTheory.Core.NaturalTransformations]
induced_PreAdditive [in UniMath.CategoryTheory.PreAdditive]
induced_category [in UniMath.CategoryTheory.Core.TransportMorphisms]
induced_precategory [in UniMath.CategoryTheory.Core.TransportMorphisms]
induced_categoryWithAbgrops [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
induced_Additive [in UniMath.CategoryTheory.Additive]
inductionOnFiller [in UniMath.MoreFoundations.PartA]
inductionPathOver [in UniMath.MoreFoundations.PathsOver]
inequality_to_isolation [in UniMath.MoreFoundations.DecidablePropositions]
inhdnegand [in UniMath.Foundations.Propositions]
inhdnegfun [in UniMath.Foundations.Propositions]
inhdnegpr [in UniMath.Foundations.Propositions]
inhdneguniv [in UniMath.Foundations.Propositions]
InitAlg [in UniMath.SubstitutionSystems.LiftingInitial_alt]
InitAlg [in UniMath.SubstitutionSystems.LiftingInitial]
initChain [in UniMath.CategoryTheory.Chains.Chains]
initCocone [in UniMath.CategoryTheory.limits.graphs.initial]
initDiagram [in UniMath.CategoryTheory.limits.graphs.initial]
InitHSS [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
InitHSS [in UniMath.SubstitutionSystems.LiftingInitial_alt]
InitHSS [in UniMath.SubstitutionSystems.LiftingInitial]
Initial [in UniMath.CategoryTheory.limits.initial]
Initial [in UniMath.CategoryTheory.limits.graphs.initial]
initialArrow [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
InitialArrow [in UniMath.CategoryTheory.limits.initial]
InitialArrow [in UniMath.CategoryTheory.limits.graphs.initial]
initialObject [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
InitialObject [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
InitialObject [in UniMath.CategoryTheory.limits.initial]
InitialObject [in UniMath.CategoryTheory.limits.graphs.initial]
initial_bicat_is_univalent_2 [in UniMath.Bicategories.Core.Examples.Initial]
initial_bicat_is_univalent_2_0 [in UniMath.Bicategories.Core.Examples.Initial]
initial_bicat_is_univalent_2_1 [in UniMath.Bicategories.Core.Examples.Initial]
initial_bicat_adjoint_equivalence [in UniMath.Bicategories.Core.Examples.Initial]
initial_bicat_invertible_2cell [in UniMath.Bicategories.Core.Examples.Initial]
initial_bicat [in UniMath.Bicategories.Core.Examples.Initial]
initial_prebicat [in UniMath.Bicategories.Core.Examples.Initial]
initial_prebicat_data [in UniMath.Bicategories.Core.Examples.Initial]
initial_2_id_comp_struct [in UniMath.Bicategories.Core.Examples.Initial]
initial_1_id_comp_cells [in UniMath.Bicategories.Core.Examples.Initial]
Initial_functor_precat [in UniMath.CategoryTheory.limits.initial]
initial_from_empty_coproduct [in UniMath.CategoryTheory.limits.initial]
Initial_opp [in UniMath.CategoryTheory.limits.Opp]
Initial_and_Terminal_to_Zero [in UniMath.CategoryTheory.limits.graphs.zero]
Initial_HSS [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
initial_psfunctor_eq [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor_2cell [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor_2cell_is_modification [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor_2cell_data [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor_1cell [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor_1cell_is_pstrans [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor_1cell_data [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
initial_psfunctor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
init_to_opp [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
injections [in UniMath.CategoryTheory.categories.HSET.Colimits]
injective_pairing_statement [in UniMath.MoreFoundations.NoInjectivePairing]
Injectivity [in UniMath.Foundations.PartB]
injectM0 [in UniMath.Induction.M.ComputationalM]
inj_comm [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
inj_ [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
intdom [in UniMath.Algebra.Domains_and_Fields]
intdomax [in UniMath.Algebra.Domains_and_Fields]
intdomneq0andmult [in UniMath.Algebra.Domains_and_Fields]
intdomnonzerosubmonoid [in UniMath.Algebra.Domains_and_Fields]
intdomnonzerotopos [in UniMath.Algebra.Domains_and_Fields]
intdom_univalence [in UniMath.Algebra.Domains_and_Fields]
intdom_univalence_map [in UniMath.Algebra.Domains_and_Fields]
intdom_univalence_weq2 [in UniMath.Algebra.Domains_and_Fields]
intdom_univalence_weq1 [in UniMath.Algebra.Domains_and_Fields]
intdom_univalent_category [in UniMath.CategoryTheory.categories.intdoms]
intdom_category_is_univalent [in UniMath.CategoryTheory.categories.intdoms]
intdom_category [in UniMath.CategoryTheory.categories.intdoms]
intdom_precategory_isweq [in UniMath.CategoryTheory.categories.intdoms]
intdom_equiv_weq_iso [in UniMath.CategoryTheory.categories.intdoms]
intdom_iso_equiv_weq [in UniMath.CategoryTheory.categories.intdoms]
intdom_precategory [in UniMath.CategoryTheory.categories.intdoms]
intdom_precategory_data [in UniMath.CategoryTheory.categories.intdoms]
intdom_precategory_ob_mor [in UniMath.CategoryTheory.categories.intdoms]
intdom_fun_space [in UniMath.CategoryTheory.categories.intdoms]
internal_triangle2 [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
internal_triangle2 [in UniMath.Bicategories.Core.Adjunctions]
internal_triangle1 [in UniMath.Bicategories.Core.Adjunctions]
internal_right_adjoint [in UniMath.Bicategories.Core.Adjunctions]
internal_adjoint_equivalence_identity [in UniMath.Bicategories.Core.Univalence]
internal_adjunction_data_identity [in UniMath.Bicategories.Core.Univalence]
intersection_sieve [in UniMath.CategoryTheory.Presheaf]
intersection_contained2 [in UniMath.AlgebraicGeometry.Topology]
intersection_contained1 [in UniMath.AlgebraicGeometry.Topology]
interval [in UniMath.MoreFoundations.Interval]
interval_map [in UniMath.MoreFoundations.Interval]
interval_path [in UniMath.MoreFoundations.Interval]
into_cone_to_cone [in UniMath.Induction.M.Limits]
intpart [in UniMath.NumberSystems.RationalNumbers]
intpartint0 [in UniMath.NumberSystems.RationalNumbers]
intpart0 [in UniMath.NumberSystems.RationalNumbers]
int_equivalence [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
inv [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
inv [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
invbinopiso [in UniMath.Algebra.BinaryOperations]
invcounit_of_is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
invcutonweq [in UniMath.Foundations.PartD]
invDivRig [in UniMath.Algebra.DivisionRig]
inverse [in UniMath.CategoryTheory.Equivalences.FullyFaithful]
inverseEquivalence [in UniMath.MoreFoundations.Equivalences]
inverseInversePathOver [in UniMath.MoreFoundations.PathsOver]
inverseInversePathOver1 [in UniMath.MoreFoundations.PathsOver]
inverseInversePathOver2 [in UniMath.MoreFoundations.PathsOver]
InverseMorphismPairIsomorphism [in UniMath.CategoryTheory.Morphisms]
inversePathOver [in UniMath.MoreFoundations.PathsOver]
inversePathOverIdpath [in UniMath.MoreFoundations.PathsOver]
inversePathOverIdpath' [in UniMath.MoreFoundations.PathsOver]
inversePathOverWeq [in UniMath.MoreFoundations.PathsOver]
inversePathOver' [in UniMath.MoreFoundations.PathsOver]
inverse_cp_p'' [in UniMath.MoreFoundations.PathsOver]
inverse_cp_p' [in UniMath.MoreFoundations.PathsOver]
inverse_cp_p [in UniMath.MoreFoundations.PathsOver]
inverse_lexicalEnumeration [in UniMath.Combinatorics.StandardFiniteSets]
invertible_is_cartesian_2cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
invertible_2cell [in UniMath.Bicategories.Core.Bicat]
invertible_2cell_ps_base_weq [in UniMath.Bicategories.PseudoFunctors.Display.Base]
invertible_2cell_ps_base_inv [in UniMath.Bicategories.PseudoFunctors.Display.Base]
invertible_2cell_ps_base [in UniMath.Bicategories.PseudoFunctors.Display.Base]
invertible_2cell_inv_alg_eq [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_map_alg_eq2 [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_map_alg_eq [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_map_alg'' [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_inv_alg' [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_map_alg' [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_inv_alg [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_2cell_map_alg [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
invertible_cells [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
invertible_modification_on_data [in UniMath.Bicategories.Modifications.Modification]
invertible_modification_on_data_is_modification [in UniMath.Bicategories.Modifications.Modification]
invertible_modification_data_on_data [in UniMath.Bicategories.Modifications.Modification]
invertible_modcomponent_of [in UniMath.Bicategories.Modifications.Modification]
invertible_modification_data_to_modification_data [in UniMath.Bicategories.Modifications.Modification]
invertible_modification_data [in UniMath.Bicategories.Modifications.Modification]
invertible_modification [in UniMath.Bicategories.Modifications.Modification]
invertible_2cell_is_nat_iso [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
invertible_2cell_to_nat_iso [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
invertible_2cell_is_nat_iso [in UniMath.Bicategories.Core.Examples.BicatOfCats]
invertible_2cell_to_nat_iso [in UniMath.Bicategories.Core.Examples.BicatOfCats]
invezmaphf [in UniMath.Foundations.PartA]
invezmappr1 [in UniMath.Foundations.PartA]
invezmap1 [in UniMath.Foundations.PartA]
InvHomot [in UniMath.HomologicalAlgebra.MappingCone]
invhomot [in UniMath.Foundations.PartA]
invimpl [in UniMath.Foundations.PartC]
invmap [in UniMath.Foundations.PartA]
invmaponpathsincl [in UniMath.Foundations.PartB]
invmaponpathsweq [in UniMath.Foundations.PartA]
invmaponpathsweqid [in UniMath.Foundations.PartA]
invmapweqcomp [in UniMath.Foundations.PartD]
invmap_weqcomp_expand [in UniMath.Foundations.PartA]
invmoduleiso [in UniMath.Algebra.Modules.Core]
invmonoidiso [in UniMath.Algebra.Monoids]
invNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
invNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
invongrquot [in UniMath.Algebra.Groups]
invpair [in UniMath.Algebra.Domains_and_Fields]
invpairxy [in UniMath.Algebra.Domains_and_Fields]
invrecompl [in UniMath.Foundations.PartC]
invrecompl_ne [in UniMath.MoreFoundations.NegativePropositions]
invrigiso [in UniMath.Algebra.RigsAndRings]
InvRoofFromMorInSom [in UniMath.CategoryTheory.LocalizingClass]
invrot [in UniMath.MoreFoundations.PartA]
InvRotDTri [in UniMath.HomologicalAlgebra.Triangulated]
InvRotDTriMor [in UniMath.HomologicalAlgebra.Triangulated]
InvRotDTris [in UniMath.HomologicalAlgebra.Triangulated]
InvRotIso_is_iso [in UniMath.HomologicalAlgebra.Triangulated]
InvRotIso_Mor [in UniMath.HomologicalAlgebra.Triangulated]
InvRotMorphism [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismComm3Homot [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismInv [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismInvComm1 [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismInvComm1Homot [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismInvComm2 [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismIsoHomot [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismMor [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphismMorInv [in UniMath.HomologicalAlgebra.MappingCone]
InvRotMorphism_is_z_isomorphism [in UniMath.HomologicalAlgebra.MappingCone]
invrotrot' [in UniMath.MoreFoundations.PartA]
InvRotTri [in UniMath.HomologicalAlgebra.Triangulated]
InvRotTriIso [in UniMath.HomologicalAlgebra.Triangulated]
InvRotTriMor [in UniMath.HomologicalAlgebra.Triangulated]
InvRotTriMor_is_iso [in UniMath.HomologicalAlgebra.Triangulated]
invrot' [in UniMath.MoreFoundations.PartA]
invrot'rot [in UniMath.MoreFoundations.PartA]
invstruct [in UniMath.Algebra.BinaryOperations]
invstruct_setofendabgr_inv [in UniMath.Algebra.Modules.Core]
invstruct_section_op1 [in UniMath.AlgebraicGeometry.Spec]
invstruct_free_gr [in UniMath.Algebra.Free_Monoids_and_Groups]
invtolinv [in UniMath.Algebra.Domains_and_Fields]
invtorinv [in UniMath.Algebra.Domains_and_Fields]
InvTranslationComplex [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorHIm [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorHImEq [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorHImMor [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_AdditiveFunctor [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_is_functor [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_data [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_Mor [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctorH_Mor_data [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_Additive [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_isAdditive [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationFunctor_data [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationHomot [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationHTranslationHNatTrans [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationMorphism [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationMorphism_mor [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslationNatTrans [in UniMath.HomologicalAlgebra.TranslationFunctors]
InvTranslationTranslationNatTrans_Mor [in UniMath.HomologicalAlgebra.TranslationFunctors]
invtwobinopiso [in UniMath.Algebra.BinaryOperations]
invunit_of_is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
invUnivalenceCompose [in UniMath.Algebra.GroupAction]
invweq [in UniMath.Foundations.PartA]
invweqcomp [in UniMath.Foundations.PartD]
invweqpr1_irr_sec [in UniMath.MoreFoundations.MoreEquivalences]
inv_adjequiv [in UniMath.Bicategories.Core.EquivToAdjequiv]
inv_equiv [in UniMath.Bicategories.Core.EquivToAdjequiv]
inv_relmonadmor_from_is_iso [in UniMath.CategoryTheory.Monads.RelativeMonads]
inv_catiso [in UniMath.CategoryTheory.catiso]
inv_cell [in UniMath.Bicategories.Core.Bicat]
inv_from_iso_iso_comp [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
inv_map_alg [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
inv_iso_base_from_total [in UniMath.CategoryTheory.DisplayedCats.Core]
inv_mor_after_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
inv_mor_disp_from_iso [in UniMath.CategoryTheory.DisplayedCats.Core]
inv_from_z_iso [in UniMath.CategoryTheory.Core.Isos]
inv_from_iso [in UniMath.CategoryTheory.Core.Isos]
inv_algebra_mor_from_is_iso [in UniMath.CategoryTheory.FunctorAlgebras]
inv_disp_from_pointwise_iso [in UniMath.CategoryTheory.DisplayedCats.Constructions]
inv_of_invertible_2cell [in UniMath.Bicategories.Core.Invertible_2cells]
inv_adjoint_equivalence [in UniMath.Bicategories.Core.Univalence]
inv_natural_postcomp [in UniMath.CategoryTheory.Adjunctions.Core]
inv_natural_precomp [in UniMath.CategoryTheory.Adjunctions.Core]
inv_folds_iso [in UniMath.Folds.folds_isomorphism]
inv_folds_iso_data [in UniMath.Folds.folds_isomorphism]
inv_modification_modification [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
inv_modification [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
inv_adjunction_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
inv_fld [in UniMath.RealNumbers.Fields]
inv_equality_by_case [in UniMath.Foundations.PartA]
inv_psfunctor_of_is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
inv2cell_to_iso_weq [in UniMath.Bicategories.Core.Univalence]
inv2cell_to_iso_isweq [in UniMath.Bicategories.Core.Univalence]
inv2cell_to_iso [in UniMath.Bicategories.Core.Univalence]
inv2_cell_to_disp_adjequiv_weq [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv_weq_right [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv_weq_left [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv_counit [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv_unit [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv_right_adj [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
inv2_cell_to_disp_adjequiv_left_adj [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
in_ [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
in_2 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
in_1 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
in_same_right_coset [in UniMath.Algebra.Monoids]
in_same_left_coset [in UniMath.Algebra.Monoids]
in_same_coset_test [in UniMath.Algebra.Groups]
in_same_left_coset_eqrel [in UniMath.Algebra.Groups]
In1AdmMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
In2AdmMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
irr [in UniMath.SyntheticHomotopyTheory.Circle]
is [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
isaafield [in UniMath.PAdics.lemmas]
isabgrop [in UniMath.Algebra.BinaryOperations]
isabgropisob [in UniMath.Algebra.BinaryOperations]
isabgropisof [in UniMath.Algebra.BinaryOperations]
isabgroptoisabmonoidop [in UniMath.Algebra.BinaryOperations]
isabmonoidcarrier [in UniMath.Algebra.Monoids]
isabmonoiddirprod [in UniMath.Algebra.Monoids]
isabmonoidop [in UniMath.Algebra.BinaryOperations]
isabmonoidopisob [in UniMath.Algebra.BinaryOperations]
isabmonoidopisof [in UniMath.Algebra.BinaryOperations]
isabmonoidop_Dcuts_plus [in UniMath.RealNumbers.NonnegativeReals]
isabmonoidop_hnnq_plus [in UniMath.RealNumbers.NonnegativeRationals]
isabmonoidquot [in UniMath.Algebra.Monoids]
isabsemigrop [in UniMath.Tactics.Abmonoids_Tactics]
isabsorb [in UniMath.Algebra.BinaryOperations]
isabsorb_cat [in UniMath.CategoryTheory.LatticeObject]
isacommringapartdec [in UniMath.PAdics.fps]
isactionhrel [in UniMath.Algebra.Modules.Quotient]
isactionhrelmodule_eqrel [in UniMath.Algebra.Modules.Quotient]
isAdditive [in UniMath.CategoryTheory.Additive]
isAdditiveFunctor [in UniMath.CategoryTheory.AdditiveFunctors]
isaddmonoidfuntocommringfrac [in UniMath.Algebra.RigsAndRings]
isaddmonoidfuntofldfrac [in UniMath.Algebra.Domains_and_Fields]
isaddmonoidfuntoringdiff [in UniMath.Algebra.RigsAndRings]
isAdmissibleEpimorphism [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isAdmissibleMonomorphism [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isafield [in UniMath.Algebra.Domains_and_Fields]
isaninvprop [in UniMath.Foundations.PartC]
isantisymm [in UniMath.Foundations.Sets]
isantisymmhqgeh [in UniMath.NumberSystems.RationalNumbers]
isantisymmhqleh [in UniMath.NumberSystems.RationalNumbers]
isantisymmhzgeh [in UniMath.NumberSystems.Integers]
isantisymmhzleh [in UniMath.NumberSystems.Integers]
isantisymmlogeqf [in UniMath.Foundations.Sets]
isantisymmnatgeh [in UniMath.Foundations.NaturalNumbers]
isantisymmnatleh [in UniMath.Foundations.NaturalNumbers]
isantisymmneg [in UniMath.Foundations.Sets]
isantisymmneghqtth [in UniMath.NumberSystems.RationalNumbers]
isantisymmneghztth [in UniMath.NumberSystems.Integers]
isantisymmneglogeqf [in UniMath.Foundations.Sets]
isantisymmnegnattth [in UniMath.Foundations.NaturalNumbers]
isantisymmnegresrel [in UniMath.Foundations.Sets]
isantisymmresrel [in UniMath.Foundations.Sets]
isapart [in UniMath.PAdics.lemmas]
isapartdec [in UniMath.PAdics.lemmas]
isapbinop [in UniMath.Algebra.Apartness]
isapoint [in UniMath.Combinatorics.ZFstructures]
isaposetmorphism [in UniMath.Foundations.Sets]
isaposetmorphism_hProp [in UniMath.Algebra.FixedPointTheorems]
isaprel [in UniMath.Algebra.Apartness]
isaprime [in UniMath.PAdics.z_mod_p]
isaprop [in UniMath.Foundations.PartB]
isapropdirprod [in UniMath.Foundations.PartB]
isapropinclb [in UniMath.Foundations.PartB]
isapropisdecprop [in UniMath.Foundations.PartD]
isapropisincl [in UniMath.Foundations.PartD]
isapropminimal [in UniMath.Combinatorics.BoundedSearch]
isapropmin_n [in UniMath.Combinatorics.BoundedSearch]
isapropunit [in UniMath.Foundations.PartB]
isaprop_is_unit_point [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
isaprop_has_unit [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
isaprop_fully_faithful_1cell [in UniMath.Bicategories.Core.FullyFaithful]
isaprop_faithful_1cell [in UniMath.Bicategories.Core.FullyFaithful]
isaprop_is_disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
isaprop_RelMonad_axioms [in UniMath.CategoryTheory.Monads.RelativeModules]
isaprop_has_pb_ump [in UniMath.Bicategories.Colimits.Pullback]
isaprop_goal [in UniMath.MoreFoundations.Tactics]
isaprop_cwf_representation [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
isaprop_locally_contractible [in UniMath.CategoryTheory.DisplayedCats.Projection]
isaprop_locally_propositional [in UniMath.CategoryTheory.DisplayedCats.Projection]
isaprop_is_cartesian_2cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
isaprop_cartesian_1cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
isaprop_lift_of_lift_2cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
isaprop_locally_groupoid [in UniMath.Bicategories.Core.Bicat]
isaprop_is_final [in UniMath.Induction.M.Core]
isaprop_is_chaotic [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
isaprop_isolation [in UniMath.MoreFoundations.DecidablePropositions]
isaprop_is_monoid_mor [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
isaprop_has_homcats [in UniMath.Bicategories.WkCatEnrichment.bicategory]
isaprop_is_univalent_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
isaprop_functor_alg_mor [in UniMath.CategoryTheory.DisplayedCats.Examples]
isaprop_is_nat_z_iso [in UniMath.CategoryTheory.Core.NaturalTransformations]
isaprop_is_nat_iso [in UniMath.CategoryTheory.Core.NaturalTransformations]
isaprop_is_bifinal' [in UniMath.Bicategories.Colimits.Final]
isaprop_bifinal_eq_property [in UniMath.Bicategories.Colimits.Final]
isaprop_bifinal_2cell_property [in UniMath.Bicategories.Colimits.Final]
isaprop_is_bifinal [in UniMath.Bicategories.Colimits.Final]
isaprop_cleaving [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
isaprop_cartesian_lifts [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
isaprop_has_vertexset [in UniMath.Combinatorics.Graph]
isaprop_binprod_cat_ump [in UniMath.Bicategories.Colimits.Products]
isaprop_has_binprod_ump [in UniMath.Bicategories.Colimits.Products]
isaprop_folds_iso_prop [in UniMath.Folds.folds_isomorphism]
isaprop_eq_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
isaprop_is_biinitial' [in UniMath.Bicategories.Colimits.Initial]
isaprop_biinitial_eq_property [in UniMath.Bicategories.Colimits.Initial]
isaprop_biinitial_2cell_property [in UniMath.Bicategories.Colimits.Initial]
isaprop_is_biinitial [in UniMath.Bicategories.Colimits.Initial]
isaprop_two_cat_laws [in UniMath.CategoryTheory.Core.TwoCategories]
isaprop_is_initial [in UniMath.Induction.W.Core]
isapunop [in UniMath.Algebra.Apartness]
isarchCF [in UniMath.Algebra.Archimedean]
isarchfld [in UniMath.Algebra.Archimedean]
isarchgr [in UniMath.Algebra.Archimedean]
isarchmonoid [in UniMath.Algebra.Archimedean]
isarchmonoid_2 [in UniMath.Algebra.Archimedean]
isarchmonoid_1 [in UniMath.Algebra.Archimedean]
isarchNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isarchrig [in UniMath.Algebra.Archimedean]
isarchrig_pos [in UniMath.Algebra.Archimedean]
isarchrig_gt [in UniMath.Algebra.Archimedean]
isarchrig_diff [in UniMath.Algebra.Archimedean]
isarchring [in UniMath.Algebra.Archimedean]
isarchring_2 [in UniMath.Algebra.Archimedean]
isarchring_1 [in UniMath.Algebra.Archimedean]
isaroot [in UniMath.Combinatorics.ZFstructures]
isaset [in UniMath.Foundations.PartB]
isasetbinoponhSet [in UniMath.Algebra.BinaryOperations]
isasetfps [in UniMath.PAdics.fps]
isasethq [in UniMath.NumberSystems.RationalNumbers]
isasetmonoid [in UniMath.Algebra.Monoids]
isasetrigfun [in UniMath.Algebra.RigsAndRings]
isasettwobinoponhSet [in UniMath.Algebra.BinaryOperations]
isaset_pb_2cell [in UniMath.Bicategories.Colimits.Pullback]
isaset_cells [in UniMath.Bicategories.Core.Bicat]
isaset_monoid_mor [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
isaset_algebra_mor [in UniMath.CategoryTheory.FunctorAlgebras]
isaset_mor [in UniMath.CategoryTheory.Core.Setcategories]
isaset_ob [in UniMath.CategoryTheory.Core.Setcategories]
isaset_fiber_discrete_fibration [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
isaset_modification [in UniMath.Bicategories.Modifications.Modification]
isaset_PartialOrder [in UniMath.Foundations.Sets]
isaset_po [in UniMath.Foundations.Sets]
isaset_hrel [in UniMath.Foundations.Sets]
isaset_transportf [in UniMath.Combinatorics.FiniteSequences]
isaset_Under_mor [in UniMath.CategoryTheory.UnderCategories]
isaset_coalgebra_homo [in UniMath.CategoryTheory.FunctorCoalgebras]
isaset_ccomma_morphism [in UniMath.CategoryTheory.CommaCategories]
isaset_cells [in UniMath.CategoryTheory.Core.TwoCategories]
isassoc [in UniMath.Algebra.BinaryOperations]
isAssociativeMultipleOperation [in UniMath.Algebra.IteratedBinaryOperations]
isAssociative_seq_mon [in UniMath.Algebra.IteratedBinaryOperations]
isAssociative_fun_mon [in UniMath.Algebra.IteratedBinaryOperations]
isAssociative_list_mon [in UniMath.Algebra.IteratedBinaryOperations]
isAssociative_seq [in UniMath.Algebra.IteratedBinaryOperations]
isAssociative_fun [in UniMath.Algebra.IteratedBinaryOperations]
isAssociative_list [in UniMath.Algebra.IteratedBinaryOperations]
isassoc_multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isassoc_plusNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isassoc_multNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isassoc_plusNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isassoc_Lmax [in UniMath.Algebra.Lattice]
isassoc_Lmin [in UniMath.Algebra.Lattice]
isassoc_join_mor [in UniMath.CategoryTheory.LatticeObject]
isassoc_meet_mor [in UniMath.CategoryTheory.LatticeObject]
isassoc_cat [in UniMath.CategoryTheory.LatticeObject]
isassoc_concatenate [in UniMath.Combinatorics.FiniteSequences]
isasymm [in UniMath.Foundations.Sets]
isasymmhqlth [in UniMath.NumberSystems.RationalNumbers]
isasymmhzlth [in UniMath.NumberSystems.Integers]
isasymmlogeqf [in UniMath.Foundations.Sets]
isasymmnatlth [in UniMath.Foundations.NaturalNumbers]
isasymmresrel [in UniMath.Foundations.Sets]
isasymm_Lgt [in UniMath.Algebra.Lattice]
isasymm_StrongOrder [in UniMath.Algebra.Lattice]
isaterm [in UniMath.Algebra.Universal.Terms]
isatree [in UniMath.Combinatorics.ZFstructures]
isBaseConnected [in UniMath.MoreFoundations.Propositions]
isBaseOfFilter [in UniMath.Topology.Filters]
isBaseOfPreFilter [in UniMath.Topology.Filters]
isbase_notfalse [in UniMath.Topology.Filters]
isbase_notempty [in UniMath.Topology.Filters]
isbase_and [in UniMath.Topology.Filters]
isBiggerThanLowerBounds [in UniMath.RealNumbers.Sets]
isBiggest [in UniMath.Combinatorics.OrderedSets]
isBinCoproduct [in UniMath.CategoryTheory.limits.bincoproducts]
isBinCoproductCocone [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
isBinCoproduct_BinCoproduct [in UniMath.CategoryTheory.limits.bincoproducts]
isBinCoproduct_opp [in UniMath.CategoryTheory.limits.Opp]
isBinCoproduct' [in UniMath.CategoryTheory.limits.bincoproducts]
isBinCoproduct'_weq [in UniMath.CategoryTheory.limits.bincoproducts]
isBinDirectSum [in UniMath.CategoryTheory.limits.BinDirectSums]
isbinopapart [in UniMath.PAdics.lemmas]
isbinopapartl [in UniMath.PAdics.lemmas]
isbinopapartr [in UniMath.PAdics.lemmas]
isbinopfun [in UniMath.Algebra.BinaryOperations]
isbinopfun_twooutof3b [in UniMath.Algebra.BinaryOperations]
isbinophrel [in UniMath.Algebra.BinaryOperations]
isbinophrellogeqf [in UniMath.Algebra.BinaryOperations]
isbinoptoispartbinop [in UniMath.Algebra.BinaryOperations]
isbinop1funtofldfrac [in UniMath.Algebra.Domains_and_Fields]
isbinop2funtocommringfrac [in UniMath.Algebra.RigsAndRings]
isbinop2funtofldfrac [in UniMath.Algebra.Domains_and_Fields]
isBinProduct [in UniMath.CategoryTheory.limits.binproducts]
isBinProductCone [in UniMath.CategoryTheory.limits.graphs.binproducts]
isBinProduct_opp [in UniMath.CategoryTheory.limits.Opp]
isBinProduct_BinProduct [in UniMath.CategoryTheory.limits.binproducts]
isBinProduct' [in UniMath.CategoryTheory.limits.binproducts]
isBinProduct'_weq [in UniMath.CategoryTheory.limits.binproducts]
isboolDcuts [in UniMath.RealNumbers.DecidableDedekindCuts]
isbracketMor [in UniMath.SubstitutionSystems.SubstitutionSystems]
isbracketMor_hssMor [in UniMath.SubstitutionSystems.SubstitutionSystems]
iscancelable [in UniMath.Algebra.BinaryOperations]
iscancelableif [in UniMath.Algebra.Domains_and_Fields]
ischoicebase [in UniMath.Foundations.Sets]
ischoicebase_uu1 [in UniMath.Foundations.Sets]
iscoantisymm [in UniMath.Foundations.Sets]
iscoantisymmhqlth [in UniMath.NumberSystems.RationalNumbers]
iscoantisymmhzlth [in UniMath.NumberSystems.Integers]
iscoantisymmlogeqf [in UniMath.Foundations.Sets]
iscoantisymmnatlth [in UniMath.Foundations.NaturalNumbers]
iscoantisymmresrel [in UniMath.Foundations.Sets]
iscoasymm [in UniMath.Foundations.Sets]
iscoasymmhqgeh [in UniMath.NumberSystems.RationalNumbers]
iscoasymmhqleh [in UniMath.NumberSystems.RationalNumbers]
iscoasymmhzgeh [in UniMath.NumberSystems.Integers]
iscoasymmhzleh [in UniMath.NumberSystems.Integers]
iscoasymmlogeqf [in UniMath.Foundations.Sets]
iscoasymmnatgeh [in UniMath.Foundations.NaturalNumbers]
iscoasymmnatleh [in UniMath.Foundations.NaturalNumbers]
iscoasymmresrel [in UniMath.Foundations.Sets]
isCoequalizer [in UniMath.CategoryTheory.Abelian]
isCoequalizer [in UniMath.CategoryTheory.limits.graphs.coequalizers]
isCoequalizer [in UniMath.CategoryTheory.limits.coequalizers]
isCoequalizer_Coequalizer [in UniMath.CategoryTheory.limits.graphs.coequalizers]
isCoequalizer_opp [in UniMath.CategoryTheory.limits.Opp]
isCoequalizer_Coequalizer [in UniMath.CategoryTheory.limits.coequalizers]
isCokernel [in UniMath.CategoryTheory.limits.cokernels]
isCokernel' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isCokernel'_to_Cokernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isColimCocone [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
isColimCocone [in UniMath.CategoryTheory.limits.graphs.colimits]
isColimCocone_ColimCocone [in UniMath.CategoryTheory.limits.graphs.colimits]
isColimCocone_from_ColimCocone [in UniMath.CategoryTheory.limits.graphs.colimits]
isColimFunctor_is_pointwise_Colim [in UniMath.CategoryTheory.limits.graphs.colimits]
isColimProductOfColims [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
iscomm [in UniMath.Algebra.BinaryOperations]
iscommonhzdiv [in UniMath.PAdics.z_mod_p]
iscommrigops [in UniMath.Algebra.BinaryOperations]
iscommring [in UniMath.Algebra.RigsAndRings]
iscommringops [in UniMath.Algebra.BinaryOperations]
iscommringopsisob [in UniMath.Algebra.BinaryOperations]
iscommringopsisof [in UniMath.Algebra.BinaryOperations]
iscommringopstoiscommrigops [in UniMath.Algebra.BinaryOperations]
isCommutative_fun_mon [in UniMath.Algebra.IteratedBinaryOperations]
isCommutative_fun [in UniMath.Algebra.IteratedBinaryOperations]
iscomm_multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
iscomm_plusNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
iscomm_multNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
iscomm_plusNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
iscomm_Lmax [in UniMath.Algebra.Lattice]
iscomm_Lmin [in UniMath.Algebra.Lattice]
iscomm_join_mor [in UniMath.CategoryTheory.LatticeObject]
iscomm_meet_mor [in UniMath.CategoryTheory.LatticeObject]
iscomm_cat [in UniMath.CategoryTheory.LatticeObject]
iscomparel [in UniMath.PAdics.lemmas]
isCompleteSpace [in UniMath.RealNumbers.Sets]
iscomprelfun [in UniMath.Foundations.Sets]
iscomprelfun2 [in UniMath.Foundations.Sets]
iscomprelfun2' [in UniMath.MoreFoundations.QuotientSet]
iscomprelrel [in UniMath.Foundations.Sets]
iscomprelrelfun [in UniMath.Foundations.Sets]
iscomprelrelfun2 [in UniMath.Foundations.Sets]
iscomprelrelfun2' [in UniMath.MoreFoundations.QuotientSet]
iscomptocommringfrac [in UniMath.Algebra.RigsAndRings]
iscomptofldfrac [in UniMath.Algebra.Domains_and_Fields]
iscomptoringdiff [in UniMath.Algebra.RigsAndRings]
isComputablyOrdered [in UniMath.Combinatorics.OrderedSets]
isConnected [in UniMath.MoreFoundations.Propositions]
isconst [in UniMath.MoreFoundations.Sets]
isConstrDivRig [in UniMath.Algebra.ConstructiveStructures]
isConstructiveTotalEffectiveOrder [in UniMath.RealNumbers.Sets]
isconst_2' [in UniMath.MoreFoundations.Sets]
isconst_2 [in UniMath.MoreFoundations.Sets]
iscontr [in UniMath.Foundations.PartA]
iscontrcoconustot_comp [in UniMath.MoreFoundations.MoreEquivalences]
iscontrGuidedHomotopy_comp_2 [in UniMath.SyntheticHomotopyTheory.AffineLine]
iscontrGuidedHomotopy_comp_1 [in UniMath.SyntheticHomotopyTheory.AffineLine]
iscontrhomsfromgterm [in UniMath.Algebra.Universal.TermAlgebras]
iscontrpr1 [in UniMath.Foundations.PartA]
iscontrretract_compute [in UniMath.MoreFoundations.MoreEquivalences]
iscontrsecoverempty [in UniMath.Foundations.PartD]
iscontrsecoverempty2 [in UniMath.Foundations.PartD]
iscontrweqb_compute [in UniMath.MoreFoundations.MoreEquivalences]
iscontr_hProp [in UniMath.MoreFoundations.Propositions]
iscontr_attempt [in UniMath.Combinatorics.WellFoundedRelations]
iscontr_rect_compute [in UniMath.Combinatorics.FiniteSequences]
iscontr_rect [in UniMath.Combinatorics.FiniteSequences]
iscontr_adjointness [in UniMath.Combinatorics.FiniteSequences]
iscontr_rect_compute'' [in UniMath.Combinatorics.FiniteSequences]
iscontr_rect'' [in UniMath.Combinatorics.FiniteSequences]
iscontr_rect_compute' [in UniMath.Combinatorics.FiniteSequences]
iscontr_rect' [in UniMath.Combinatorics.FiniteSequences]
iscontr_vector_0 [in UniMath.Combinatorics.FiniteSequences]
iscontr_uniqueness [in UniMath.Foundations.PartA]
iscontr_universalmap [in UniMath.Algebra.Universal.FreeAlgebras]
iscontr_X [in UniMath.CategoryTheory.precomp_ess_surj]
isCoproduct [in UniMath.CategoryTheory.limits.coproducts]
isCoproductCocone [in UniMath.CategoryTheory.RepresentableFunctors.Test]
isCoproduct_Coproduct [in UniMath.CategoryTheory.limits.coproducts]
iscoproj [in UniMath.Foundations.PartC]
iscotrans [in UniMath.Foundations.Sets]
iscotranshqlth [in UniMath.NumberSystems.RationalNumbers]
iscotranshzlth [in UniMath.NumberSystems.Integers]
iscotranslogeqf [in UniMath.Foundations.Sets]
iscotransnatlth [in UniMath.Foundations.NaturalNumbers]
iscotransresrel [in UniMath.Foundations.Sets]
iscotrans_apNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
iscotrans_ltNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
iscotrans_Lgt [in UniMath.Algebra.Lattice]
iscotrans_StrongOrder [in UniMath.Algebra.Lattice]
iscotrans_StrongOrder [in UniMath.RealNumbers.Sets]
isdcpomorphism [in UniMath.Algebra.Dcpo]
isdcpomorphism' [in UniMath.Algebra.Dcpo]
isdecabgrdiffrel [in UniMath.Algebra.Groups]
isdecabgrdiffrelint [in UniMath.Algebra.Groups]
isdecabmonoidfracrel [in UniMath.Algebra.Monoids]
isdecabmonoidfracrelint [in UniMath.Algebra.Monoids]
isdeccommringfracgt [in UniMath.Algebra.RigsAndRings]
isdeccotrans [in UniMath.Foundations.Sets]
isdeceq [in UniMath.Foundations.PartB]
isdeceqhq [in UniMath.NumberSystems.RationalNumbers]
isdeceqnat [in UniMath.Foundations.NaturalNumbers]
isdeceqsetquot [in UniMath.Foundations.Sets]
isdecfldfracgt [in UniMath.Algebra.Domains_and_Fields]
isDecidablePredicate [in UniMath.MoreFoundations.Subtypes]
isdecincl [in UniMath.Foundations.PartC]
isdecnatprop [in UniMath.PAdics.lemmas]
isdecprop [in UniMath.Foundations.PartB]
isdecproptoisaprop [in UniMath.Foundations.PartB]
isdecprop_to_DecidableProposition [in UniMath.MoreFoundations.DecidablePropositions]
isdecrel [in UniMath.Foundations.Sets]
isdecrelhqeq [in UniMath.NumberSystems.RationalNumbers]
isdecrelhqgeh [in UniMath.NumberSystems.RationalNumbers]
isdecrelhqleh [in UniMath.NumberSystems.RationalNumbers]
isdecrelhqlth [in UniMath.NumberSystems.RationalNumbers]
isdecrelhqneq [in UniMath.NumberSystems.RationalNumbers]
isdecrelhzeq [in UniMath.NumberSystems.Integers]
isdecrelhzgeh [in UniMath.NumberSystems.Integers]
isdecrelhzleh [in UniMath.NumberSystems.Integers]
isdecrelhzlth [in UniMath.NumberSystems.Integers]
isdecrelhzneq [in UniMath.NumberSystems.Integers]
isdecrellogeqf [in UniMath.Foundations.Sets]
isdecrelnateq [in UniMath.Foundations.NaturalNumbers]
isdecrelnatgeh [in UniMath.Foundations.NaturalNumbers]
isdecrelnatleh [in UniMath.Foundations.NaturalNumbers]
isdecrelnatlth [in UniMath.Foundations.NaturalNumbers]
isdecrelresrel [in UniMath.Foundations.Sets]
isdecrel_natneq [in UniMath.Foundations.NaturalNumbers]
isdecrel_latticedec [in UniMath.Algebra.Lattice]
isdecrigtoringrel [in UniMath.Algebra.RigsAndRings]
isdectotal [in UniMath.Foundations.Sets]
isdec_ordering [in UniMath.Foundations.Sets]
isdirected [in UniMath.Algebra.Dcpo]
isdirectedcomplete [in UniMath.Algebra.Dcpo]
isdirected_lub [in UniMath.Algebra.FixedPointTheorems]
isdirected_compatible [in UniMath.Algebra.Dcpo]
isdirected_inhabited [in UniMath.Algebra.Dcpo]
isdistr [in UniMath.Algebra.BinaryOperations]
isdistrmonob [in UniMath.Algebra.BinaryOperations]
isDivRig [in UniMath.Algebra.DivisionRig]
isDivRig_DivRig [in UniMath.Algebra.DivisionRig]
isDivRig_isrdistr [in UniMath.Algebra.DivisionRig]
isDivRig_isldistr [in UniMath.Algebra.DivisionRig]
isDivRig_isrinv [in UniMath.Algebra.DivisionRig]
isDivRig_islinv [in UniMath.Algebra.DivisionRig]
isDivRig_isrunit_x1 [in UniMath.Algebra.DivisionRig]
isDivRig_islunit_x1 [in UniMath.Algebra.DivisionRig]
isDivRig_isassoc_mult [in UniMath.Algebra.DivisionRig]
isDivRig_iscomm_plus [in UniMath.Algebra.DivisionRig]
isDivRig_isrunit_x0 [in UniMath.Algebra.DivisionRig]
isDivRig_islunit_x0 [in UniMath.Algebra.DivisionRig]
isDivRig_isassoc_plus [in UniMath.Algebra.DivisionRig]
isDivRig_inv [in UniMath.Algebra.DivisionRig]
isDivRig_mult [in UniMath.Algebra.DivisionRig]
isDivRig_plus [in UniMath.Algebra.DivisionRig]
isDivRig_one [in UniMath.Algebra.DivisionRig]
isDivRig_zero [in UniMath.Algebra.DivisionRig]
isDTri [in UniMath.HomologicalAlgebra.Triangulated]
isEffective [in UniMath.CategoryTheory.EpiFacts]
isEffectiveOrder [in UniMath.RealNumbers.Sets]
iseo_Dcuts [in UniMath.RealNumbers.NonnegativeReals]
isEpi [in UniMath.CategoryTheory.ShortExactSequences]
isEpi [in UniMath.CategoryTheory.Epis]
isEpi_opp [in UniMath.CategoryTheory.limits.Opp]
isEpi_precomp [in UniMath.CategoryTheory.Epis]
isEpi_comp [in UniMath.CategoryTheory.Epis]
iseqclass [in UniMath.Foundations.Sets]
iseqclassconstr [in UniMath.Foundations.Sets]
iseqrel [in UniMath.Foundations.Sets]
iseqrelconstr [in UniMath.Foundations.Sets]
iseqrellogeqf [in UniMath.Foundations.Sets]
iseqrelresrel [in UniMath.Foundations.Sets]
isEqualizer [in UniMath.CategoryTheory.Abelian]
isEqualizer [in UniMath.CategoryTheory.limits.graphs.equalizers]
isEqualizer [in UniMath.CategoryTheory.limits.equalizers]
isEqualizer_Equalizer [in UniMath.CategoryTheory.limits.graphs.equalizers]
isEqualizer_Equalizer [in UniMath.CategoryTheory.limits.equalizers]
isEqualizer_opp [in UniMath.CategoryTheory.limits.Opp]
isEqualizer' [in UniMath.CategoryTheory.limits.equalizers]
isEqualizer'_weq [in UniMath.CategoryTheory.limits.equalizers]
isEquivalence [in UniMath.MoreFoundations.Equivalences]
isEquivalence_to_isweq [in UniMath.MoreFoundations.Equivalences]
isEquivalence_toAdjointness [in UniMath.MoreFoundations.Equivalences]
isEquivalence_toSourceHomotopy [in UniMath.MoreFoundations.Equivalences]
isEquivalence_toTargetHomotopy [in UniMath.MoreFoundations.Equivalences]
isEquivalence_toInverseFunction [in UniMath.MoreFoundations.Equivalences]
isExact [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isExact [in UniMath.CategoryTheory.ShortExactSequences]
isExactFunctor [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isExact' [in UniMath.CategoryTheory.ShortExactSequences]
isExact2 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isFalse [in UniMath.MoreFoundations.DecidablePropositions]
isfibseq [in UniMath.Foundations.PartA]
isFilter [in UniMath.Topology.Filters]
isfilter_notempty [in UniMath.Topology.Filters]
isfilter_and [in UniMath.Topology.Filters]
isfilter_htrue [in UniMath.Topology.Filters]
isfilter_finite_intersection [in UniMath.Topology.Filters]
isfilter_imply [in UniMath.Topology.Filters]
isfinite [in UniMath.Combinatorics.FiniteSets]
isfinitebool [in UniMath.Combinatorics.FiniteSets]
isfinitecompl [in UniMath.Combinatorics.FiniteSets]
isfinitecontr [in UniMath.Combinatorics.FiniteSets]
isfinitecoprod [in UniMath.Combinatorics.FiniteSets]
isfinitecoprodwithunit [in UniMath.Combinatorics.FiniteSets]
isfinitedecsubset [in UniMath.Combinatorics.FiniteSets]
isfinitedirprod [in UniMath.Combinatorics.FiniteSets]
isfiniteempty [in UniMath.Combinatorics.FiniteSets]
isfiniteempty2 [in UniMath.Combinatorics.FiniteSets]
isfiniteforall [in UniMath.Combinatorics.FiniteSets]
isfinitefun [in UniMath.Combinatorics.FiniteSets]
isfinitestn [in UniMath.Combinatorics.FiniteSets]
isfinitetotal2 [in UniMath.Combinatorics.FiniteSets]
isfiniteunit [in UniMath.Combinatorics.FiniteSets]
isfiniteweq [in UniMath.Combinatorics.FiniteSets]
isfiniteweqb [in UniMath.Combinatorics.FiniteSets]
isfiniteweqf [in UniMath.Combinatorics.FiniteSets]
isfinite_to_DecidableEquality [in UniMath.Combinatorics.FiniteSets]
isfinite_to_FiniteSet [in UniMath.Combinatorics.FiniteSets]
isfixedpoint [in UniMath.Algebra.FixedPointTheorems]
isfunctor_comm_functor_data_2 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
isgrcarrier [in UniMath.Algebra.Groups]
isGreatestLowerBound [in UniMath.RealNumbers.Sets]
isgrop [in UniMath.Algebra.BinaryOperations]
isgropisob [in UniMath.Algebra.BinaryOperations]
isgropisof [in UniMath.Algebra.BinaryOperations]
isgrop_section_op1 [in UniMath.AlgebraicGeometry.Spec]
isGrothendieckTopology [in UniMath.CategoryTheory.GrothendieckTopos]
isGrothendieckTopology_transitivity [in UniMath.CategoryTheory.GrothendieckTopos]
isGrothendieckTopology_stability [in UniMath.CategoryTheory.GrothendieckTopos]
isGrothendieckTopology_maximal_sieve [in UniMath.CategoryTheory.GrothendieckTopos]
isgrquot [in UniMath.Algebra.Groups]
ishfsq [in UniMath.Foundations.PartA]
ishinh [in UniMath.Foundations.Propositions]
ishinh_UU [in UniMath.Foundations.Propositions]
ishom [in UniMath.Algebra.Universal.Algebras]
isHQIS [in UniMath.HomologicalAlgebra.CohomologyComplex]
ishssMor [in UniMath.SubstitutionSystems.SubstitutionSystems]
isincl [in UniMath.Foundations.PartB]
isinclhztohq [in UniMath.NumberSystems.RationalNumbers]
isinclnattohz [in UniMath.NumberSystems.Integers]
isinclpr1 [in UniMath.Foundations.PartB]
isincltoabgrdiff [in UniMath.Algebra.Groups]
isincltoabmonoidfrac [in UniMath.Algebra.Monoids]
isincltocommringfrac [in UniMath.Algebra.RigsAndRings]
isincltofldfrac [in UniMath.Algebra.Domains_and_Fields]
isincltoringdiff [in UniMath.Algebra.RigsAndRings]
isinhdneg [in UniMath.Foundations.Propositions]
isInitial [in UniMath.CategoryTheory.limits.initial]
isInitial [in UniMath.CategoryTheory.limits.graphs.initial]
isInitialTermAlgebra [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
isInitial_opp [in UniMath.CategoryTheory.limits.Opp]
isInjective [in UniMath.Foundations.PartB]
isInjectiveFunction [in UniMath.Foundations.Sets]
isinjinvmap [in UniMath.Foundations.PartA]
isinjinvmap' [in UniMath.Foundations.PartA]
isintdom [in UniMath.Algebra.Domains_and_Fields]
isInterval [in UniMath.Combinatorics.WellOrderedSets]
isinv [in UniMath.Algebra.BinaryOperations]
isinvbinophrel [in UniMath.Algebra.BinaryOperations]
isinvbinophrellogeqf [in UniMath.Algebra.BinaryOperations]
isinvbinoptoispartinvbinop [in UniMath.Algebra.BinaryOperations]
isinvertible [in UniMath.Algebra.BinaryOperations]
isinvrigmultgt [in UniMath.Algebra.RigsAndRings]
isinvringmultgt [in UniMath.Algebra.RigsAndRings]
isinv' [in UniMath.RealNumbers.Sets]
isirrefl [in UniMath.Foundations.Sets]
isirreflhqlth [in UniMath.NumberSystems.RationalNumbers]
isirreflhzlth [in UniMath.NumberSystems.Integers]
isirrefllogeqf [in UniMath.Foundations.Sets]
isirreflnatlth [in UniMath.Foundations.NaturalNumbers]
isirreflresrel [in UniMath.Foundations.Sets]
isirrefl_apNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isirrefl_ltNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isirrefl_ltNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isirrefl_Lgt [in UniMath.Algebra.Lattice]
isirrefl_StrongOrder [in UniMath.Algebra.Lattice]
isirrefl_EOlt [in UniMath.RealNumbers.Sets]
isirrefl_EOgt [in UniMath.RealNumbers.Sets]
isirrefl_StrongOrder [in UniMath.RealNumbers.Sets]
isisolated [in UniMath.Foundations.PartB]
isisolatedn [in UniMath.Foundations.NaturalNumbers]
isisolated_ne_to_isisolated [in UniMath.MoreFoundations.NegativePropositions]
isisolated_to_isisolated_ne [in UniMath.MoreFoundations.NegativePropositions]
isisolated_ne [in UniMath.MoreFoundations.NegativePropositions]
isKernel [in UniMath.CategoryTheory.limits.kernels]
isKernelCokernelPair [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isKernel' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isKernel'_to_Kernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
islabsorb_zero_multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
islabsorb_zero_multNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
islapbinop [in UniMath.Algebra.Apartness]
isLattice [in UniMath.Combinatorics.OrderedSets]
islcancelable [in UniMath.Algebra.BinaryOperations]
isldistr [in UniMath.Algebra.BinaryOperations]
isldistr_plus_multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isldistr_mult_plusNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isLeastUpperBound [in UniMath.RealNumbers.Sets]
isLimCone [in UniMath.CategoryTheory.limits.cats.limits]
isLimCone [in UniMath.CategoryTheory.limits.graphs.limits]
isLimCone_LimCone [in UniMath.CategoryTheory.limits.cats.limits]
isLimCone_LimCone [in UniMath.CategoryTheory.limits.graphs.limits]
isLimFunctor_is_pointwise_Lim [in UniMath.CategoryTheory.limits.graphs.limits]
islinear [in UniMath.Algebra.Modules.Core]
islinv [in UniMath.Algebra.BinaryOperations]
islinvertible [in UniMath.Algebra.BinaryOperations]
islinvertibleisof [in UniMath.Algebra.BinaryOperations]
islinv_invNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
islinv_Dcuts_inv [in UniMath.RealNumbers.NonnegativeReals]
islinv_NonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
islinv' [in UniMath.RealNumbers.Sets]
isLocalizingClass [in UniMath.CategoryTheory.LocalizingClass]
isLocalizingClass_isLocalizingClass3 [in UniMath.CategoryTheory.LocalizingClass]
isLocalizingClass_isLocalizingClass2 [in UniMath.CategoryTheory.LocalizingClass]
isLocalizingClass_isLocalizingClass1 [in UniMath.CategoryTheory.LocalizingClass]
isLocalizingClass1 [in UniMath.CategoryTheory.LocalizingClass]
isLocalizingClass2 [in UniMath.CategoryTheory.LocalizingClass]
isLocalizingClass3 [in UniMath.CategoryTheory.LocalizingClass]
isLocClassComp [in UniMath.CategoryTheory.LocalizingClass]
isLocClassIs [in UniMath.CategoryTheory.LocalizingClass]
isLocClassPost [in UniMath.CategoryTheory.LocalizingClass]
isLocClassPre [in UniMath.CategoryTheory.LocalizingClass]
isLocClassSqr1 [in UniMath.CategoryTheory.LocalizingClass]
isLocClassSqr2 [in UniMath.CategoryTheory.LocalizingClass]
islowerbound [in UniMath.Algebra.FixedPointTheorems]
isLowerBound [in UniMath.RealNumbers.Sets]
islowerbound_subtype_equiv [in UniMath.Algebra.FixedPointTheorems]
islowerbound_subtype [in UniMath.Algebra.FixedPointTheorems]
islub [in UniMath.Algebra.Dcpo]
islub_isleast [in UniMath.Algebra.Dcpo]
islub_isupperbound [in UniMath.Algebra.Dcpo]
islunit [in UniMath.Algebra.BinaryOperations]
islunit_one_multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
islunit_zero_plusNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
islunit_oneNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
islunit_zeroNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
islunit_Lmin_Ltop [in UniMath.Algebra.Lattice]
islunit_Lmax_Lbot [in UniMath.Algebra.Lattice]
islunit_meet_mor_top_mor [in UniMath.CategoryTheory.LatticeObject]
islunit_join_mor_bot_mor [in UniMath.CategoryTheory.LatticeObject]
islunit_cat [in UniMath.CategoryTheory.LatticeObject]
isMaximal [in UniMath.Combinatorics.OrderedSets]
isMaximal [in UniMath.Foundations.Sets]
isMinimal [in UniMath.Combinatorics.OrderedSets]
isMinimal [in UniMath.Foundations.Sets]
ismodulefun [in UniMath.Algebra.Modules.Core]
isMonadAlg [in UniMath.CategoryTheory.DisplayedCats.Examples]
isMonic [in UniMath.CategoryTheory.ShortExactSequences]
isMonic [in UniMath.CategoryTheory.Monics]
isMonic_postcomp [in UniMath.CategoryTheory.Monics]
isMonic_comp [in UniMath.CategoryTheory.Monics]
isMonic_opp [in UniMath.CategoryTheory.limits.Opp]
ismonoiddirprod [in UniMath.Algebra.Monoids]
ismonoidfun [in UniMath.Algebra.Monoids]
ismonoidfunisbinopfun [in UniMath.Algebra.Monoids]
ismonoidfuntoabgrdiff [in UniMath.Algebra.Groups]
ismonoidfuntoabmonoidfrac [in UniMath.Algebra.Monoids]
ismonoidfununel [in UniMath.Algebra.Monoids]
ismonoidfun_prop [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ismonoidop [in UniMath.Algebra.BinaryOperations]
ismonoidopisob [in UniMath.Algebra.BinaryOperations]
ismonoidopisof [in UniMath.Algebra.BinaryOperations]
ismonoidop_Dcuts_mult [in UniMath.RealNumbers.NonnegativeReals]
ismonoidop_hnnq_mult [in UniMath.RealNumbers.NonnegativeRationals]
ismonoidop_section_op2 [in UniMath.AlgebraicGeometry.Spec]
ismonoidop_section_op1 [in UniMath.AlgebraicGeometry.Spec]
ismonoidquot [in UniMath.Algebra.Monoids]
ismultilinear [in UniMath.Algebra.Modules.Multimodules]
ismultilinearfuncomp [in UniMath.Algebra.Modules.Multimodules]
ismultimodulefun [in UniMath.Algebra.Modules.Multimodules]
ismultmonoidfuntocommringfrac [in UniMath.Algebra.RigsAndRings]
ismultmonoidfuntofldfrac [in UniMath.Algebra.Domains_and_Fields]
ismultmonoidfuntoringdiff [in UniMath.Algebra.RigsAndRings]
isnattruncauto [in UniMath.PAdics.fps]
isnegrel [in UniMath.Foundations.Sets]
isnegrelhqgeh [in UniMath.NumberSystems.RationalNumbers]
isnegrelhqleh [in UniMath.NumberSystems.RationalNumbers]
isnegrelhqlth [in UniMath.NumberSystems.RationalNumbers]
isnegrelhzgeh [in UniMath.NumberSystems.Integers]
isnegrelhzleh [in UniMath.NumberSystems.Integers]
isnegrelhzlth [in UniMath.NumberSystems.Integers]
isnegrellogeqf [in UniMath.Foundations.Sets]
isnegrelnatgeh [in UniMath.Foundations.NaturalNumbers]
isnegrelnatleh [in UniMath.Foundations.NaturalNumbers]
isnegrelnatlth [in UniMath.Foundations.NaturalNumbers]
isnegrelresrel [in UniMath.Foundations.Sets]
isNeighborhood [in UniMath.Topology.Topology]
isNNO [in UniMath.CategoryTheory.NNO]
isnonzeroCR [in UniMath.Algebra.ConstructiveStructures]
isnonzeroNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isnonzerorig [in UniMath.Algebra.DivisionRig]
isnonzerorig [in UniMath.Algebra.RigsAndRings]
iso [in UniMath.CategoryTheory.Core.Isos]
IsoArrow [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoArrowFrom [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoArrowFrom_pr1 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoArrowTo [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoArrowTo_pr1 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isofhlevel [in UniMath.Foundations.PartB]
isofhlevelf [in UniMath.Foundations.PartB]
isofhlevelsninclb [in UniMath.Foundations.PartB]
isofhlevel_unit [in UniMath.Bicategories.Colimits.Final]
isofnel [in UniMath.Combinatorics.FiniteSets]
isofnelbool [in UniMath.Combinatorics.FiniteSets]
isofnelcompl [in UniMath.Combinatorics.FiniteSets]
isofnelcontr [in UniMath.Combinatorics.FiniteSets]
isofnelcoprod [in UniMath.Combinatorics.FiniteSets]
isofnelcoprodwithunit [in UniMath.Combinatorics.FiniteSets]
isofnelempty [in UniMath.Combinatorics.FiniteSets]
isofnelempty2 [in UniMath.Combinatorics.FiniteSets]
isofnelondirprod [in UniMath.Combinatorics.FiniteSets]
isofnelonfun [in UniMath.Combinatorics.FiniteSets]
isofnelonweq [in UniMath.Combinatorics.FiniteSets]
isofnelstn [in UniMath.Combinatorics.FiniteSets]
isofnelunit [in UniMath.Combinatorics.FiniteSets]
isofnelweqb [in UniMath.Combinatorics.FiniteSets]
isofnelweqf [in UniMath.Combinatorics.FiniteSets]
isolated [in UniMath.Foundations.PartB]
isolated_ne [in UniMath.MoreFoundations.NegativePropositions]
isolation [in UniMath.MoreFoundations.DecidablePropositions]
isolation_to_inequality [in UniMath.MoreFoundations.DecidablePropositions]
isolfun1 [in UniMath.Foundations.PartB]
isolfun2 [in UniMath.Foundations.PartB]
isolfun3 [in UniMath.Foundations.PartB]
isomorphismOnMor [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
isomorphismRepresentability [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
isomorphismToEmbedding [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
isOneSided [in UniMath.RealNumbers.DedekindCuts]
isOpen [in UniMath.Topology.Topology]
IsoToAdmEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
IsoToAdmMono [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isotoid [in UniMath.CategoryTheory.Core.Univalence]
isotoid_idtoiso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
isotoid_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
isotoid_2_0_idtoiso_2_0 [in UniMath.Bicategories.Core.Univalence]
isotoid_2_1_idtoiso_2_1 [in UniMath.Bicategories.Core.Univalence]
isotoid_2_0 [in UniMath.Bicategories.Core.Univalence]
isotoid_2_1 [in UniMath.Bicategories.Core.Univalence]
isotoid_CONE [in UniMath.CategoryTheory.limits.cones]
isotoid_CONE_pr1 [in UniMath.CategoryTheory.limits.cones]
isotoid2 [in UniMath.Folds.folds_pre_2_cat]
IsoToisZero [in UniMath.CategoryTheory.limits.zero]
iso_from_is_relmonadmor_iso [in UniMath.CategoryTheory.Monads.RelativeMonads]
iso_in_E_weq [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
iso_Representation_weq [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
iso_comma_pb_cone [in UniMath.Bicategories.Colimits.Pullback]
iso_disp_weq_iso_disp_reindex [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
iso_disp_reindex_to_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
iso_disp_to_iso_disp_reindex [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
iso_Terminals [in UniMath.CategoryTheory.limits.graphs.terminal]
iso_in_sub_from_iso [in UniMath.CategoryTheory.Subcategory.Full]
iso_from_iso_in_sub [in UniMath.CategoryTheory.Subcategory.Full]
iso_from_Coequalizer_to_Coequalizer [in UniMath.CategoryTheory.limits.graphs.coequalizers]
iso_equiv [in UniMath.Bicategories.Core.Adjunctions]
iso_from_fully_faithful_reflection [in UniMath.CategoryTheory.Core.Functors]
iso_in_E₂_weq [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
iso_in_E₂_inv [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
iso_in_E₂ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
iso_Initials [in UniMath.CategoryTheory.limits.initial]
iso_from_Pushout_to_Pushout [in UniMath.CategoryTheory.limits.graphs.pushouts]
iso_from_Pushout_to_Pushout [in UniMath.CategoryTheory.limits.pushouts]
iso_to_BinCoproduct [in UniMath.CategoryTheory.limits.bincoproducts]
iso_from_BinCoproduct_to_BinCoproduct [in UniMath.CategoryTheory.limits.bincoproducts]
iso_disp_from_total [in UniMath.CategoryTheory.DisplayedCats.Core]
iso_base_from_total [in UniMath.CategoryTheory.DisplayedCats.Core]
iso_disp_comp [in UniMath.CategoryTheory.DisplayedCats.Core]
iso_inv_from_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
iso_disp_after_inv_mor [in UniMath.CategoryTheory.DisplayedCats.Core]
iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
iso_from_Equalizer_to_Equalizer [in UniMath.CategoryTheory.limits.graphs.equalizers]
iso_cleaving_functor_alg [in UniMath.CategoryTheory.DisplayedCats.Examples]
iso_after_iso_inv' [in UniMath.CategoryTheory.Core.NaturalTransformations]
iso_inv_after_iso' [in UniMath.CategoryTheory.Core.NaturalTransformations]
iso_to_z_iso [in UniMath.CategoryTheory.Core.Isos]
iso_eqrel [in UniMath.CategoryTheory.Core.Isos]
iso_conjug_weq [in UniMath.CategoryTheory.Core.Isos]
iso_comp_left_weq [in UniMath.CategoryTheory.Core.Isos]
iso_comp_right_weq [in UniMath.CategoryTheory.Core.Isos]
iso_comp [in UniMath.CategoryTheory.Core.Isos]
iso_inv_from_is_iso [in UniMath.CategoryTheory.Core.Isos]
iso_inv_from_iso [in UniMath.CategoryTheory.Core.Isos]
iso_after_iso_inv [in UniMath.CategoryTheory.Core.Isos]
iso_inv_after_iso [in UniMath.CategoryTheory.Core.Isos]
iso_is_iso [in UniMath.CategoryTheory.Core.Isos]
iso_from_Kernel_to_Kernel [in UniMath.CategoryTheory.limits.kernels]
iso_is_nat_iso [in UniMath.CategoryTheory.FunctorCategory]
iso_to_nat_iso [in UniMath.CategoryTheory.FunctorCategory]
iso_from_opp [in UniMath.CategoryTheory.opp_precat]
iso_fiber_from_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_from_iso_fiber [in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_prod2 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_disp_prod1 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
iso_Zeros [in UniMath.CategoryTheory.limits.zero]
iso_from_Cokernel_to_Cokernel [in UniMath.CategoryTheory.limits.cokernels]
iso_from_Equalizer_to_Equalizer [in UniMath.CategoryTheory.limits.equalizers]
iso_to_inv2cell [in UniMath.Bicategories.Core.Univalence]
iso_cleaving_category [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
iso_fibration [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
iso_cleaving [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
iso_commring_opposite [in UniMath.Algebra.RigsAndRings]
iso_commrig_opposite [in UniMath.Algebra.RigsAndRings]
iso_from_folds_iso [in UniMath.Folds.folds_isomorphism]
iso_Initials [in UniMath.CategoryTheory.limits.graphs.initial]
iso_from_lim_to_lim [in UniMath.CategoryTheory.limits.cats.limits]
iso_projects_from_CONE [in UniMath.CategoryTheory.limits.cones]
iso_from_colim_to_colim [in UniMath.CategoryTheory.limits.graphs.colimits]
iso_from_Pullback_to_Pullback [in UniMath.CategoryTheory.limits.graphs.pullbacks]
iso_from_Pullback_to_Pullback [in UniMath.CategoryTheory.limits.pullbacks]
iso_Zeros [in UniMath.CategoryTheory.limits.graphs.zero]
iso_from_Coequalizer_to_Coequalizer [in UniMath.CategoryTheory.limits.coequalizers]
iso_from_BinCoproduct_to_BinCoproduct [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
iso_comma_ump_eq [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump2_pr2 [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump2_pr1 [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump2 [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump2_is_nat_trans [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump2_nat_trans_data [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_commute [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr2 [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr2_nat_trans [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr2_is_nat_trans [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr2_nat_trans_data [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr1 [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr1_nat_trans [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr1_is_nat_trans [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_pr1_nat_trans_data [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1 [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_is_functor [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_ump1_data [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_commute [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_commute_nat_trans [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_commute_is_nat_trans [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_commute_nat_trans_data [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_pr2 [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_pr1 [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_disp_cat [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_disp_cat_axioms [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_disp_cat_data [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_disp_cat_id_comp [in UniMath.CategoryTheory.IsoCommaCategory]
iso_comma_disp_cat_ob_mor [in UniMath.CategoryTheory.IsoCommaCategory]
iso_Terminals [in UniMath.CategoryTheory.limits.terminal]
iso_from_lim_to_lim [in UniMath.CategoryTheory.limits.graphs.limits]
iso_to_BinProduct [in UniMath.CategoryTheory.limits.binproducts]
iso1' [in UniMath.SubstitutionSystems.LiftingInitial_alt]
iso1' [in UniMath.SubstitutionSystems.LiftingInitial]
iso2' [in UniMath.SubstitutionSystems.LiftingInitial_alt]
iso2' [in UniMath.SubstitutionSystems.LiftingInitial]
ispartbinophrel [in UniMath.Algebra.BinaryOperations]
ispartbinophrellogeqf [in UniMath.Algebra.BinaryOperations]
isPartialOrder [in UniMath.Foundations.Sets]
ispartinvbinophrel [in UniMath.Algebra.BinaryOperations]
ispartinvbinophrellogeqf [in UniMath.Algebra.BinaryOperations]
isplushrelhqgth [in UniMath.NumberSystems.RationalNumbers]
ispologeqf [in UniMath.Foundations.Sets]
isporesrel [in UniMath.Foundations.Sets]
isPosetEquivalence [in UniMath.Foundations.Sets]
isPosetEquivalence_idweq [in UniMath.Foundations.Sets]
ispositive_minusNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
ispostfixedpoint [in UniMath.Algebra.FixedPointTheorems]
isPreAdditive [in UniMath.CategoryTheory.PreAdditive]
isPredicate [in UniMath.Foundations.PartB]
isPreFilter [in UniMath.Topology.Filters]
isprefix [in UniMath.Combinatorics.MoreLists]
ispreorder [in UniMath.Foundations.Sets]
isPreTriang [in UniMath.HomologicalAlgebra.Triangulated]
ispreZFS [in UniMath.Combinatorics.ZFstructures]
isProduct [in UniMath.CategoryTheory.limits.products]
isProduct_Product [in UniMath.CategoryTheory.limits.products]
isprogressive [in UniMath.Algebra.FixedPointTheorems]
isProofIrrelevant [in UniMath.Foundations.PartB]
isPullback [in UniMath.CategoryTheory.limits.graphs.pullbacks]
isPullback [in UniMath.CategoryTheory.limits.pullbacks]
isPullback_cartesian_in_cod_disp [in UniMath.CategoryTheory.DisplayedCats.Codomain]
isPullback_opp [in UniMath.CategoryTheory.limits.Opp]
isPullback_Pullback [in UniMath.CategoryTheory.limits.graphs.pullbacks]
isPullback_Pullback [in UniMath.CategoryTheory.limits.pullbacks]
isPullback' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isPushout [in UniMath.CategoryTheory.limits.graphs.pushouts]
isPushout [in UniMath.CategoryTheory.limits.pushouts]
isPushout_Pushout [in UniMath.CategoryTheory.limits.graphs.pushouts]
isPushout_Pushout [in UniMath.CategoryTheory.limits.pushouts]
isPushout_opp [in UniMath.CategoryTheory.limits.Opp]
isPushout' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isQIS [in UniMath.HomologicalAlgebra.CohomologyComplex]
israbsorb_zero_multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
israbsorb_zero_multNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
israpbinop [in UniMath.Algebra.Apartness]
isrcancelable [in UniMath.Algebra.BinaryOperations]
isrdistr [in UniMath.Algebra.BinaryOperations]
isrdistr_plus_multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isrdistr_mult_plusNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isrefl [in UniMath.Foundations.Sets]
isrefldirprod [in UniMath.Foundations.Sets]
isreflhqgeh [in UniMath.NumberSystems.RationalNumbers]
isreflhqleh [in UniMath.NumberSystems.RationalNumbers]
isreflhzgeh [in UniMath.NumberSystems.Integers]
isreflhzleh [in UniMath.NumberSystems.Integers]
isrefllogeqf [in UniMath.Foundations.Sets]
isreflnatgeh [in UniMath.Foundations.NaturalNumbers]
isreflnatleh [in UniMath.Foundations.NaturalNumbers]
isreflpathshrel [in UniMath.Foundations.Sets]
isreflresrel [in UniMath.Foundations.Sets]
isrefl_leNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isrefl_leNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isrefl_Lge [in UniMath.Algebra.Lattice]
isrefl_Lle [in UniMath.Algebra.Lattice]
isrefl_EOle [in UniMath.RealNumbers.Sets]
isrefl_po [in UniMath.RealNumbers.Sets]
isrefl'_posetRelation [in UniMath.Algebra.FixedPointTheorems]
isRepresentable [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
isRepresentable_Map [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
isrigfun [in UniMath.Algebra.RigsAndRings]
isrigfunisaddmonoidfun [in UniMath.Algebra.RigsAndRings]
isrigfunismultmonoidfun [in UniMath.Algebra.RigsAndRings]
isrigfuntoringdiff [in UniMath.Algebra.RigsAndRings]
isrigid [in UniMath.Combinatorics.ZFstructures]
isrigmultgt [in UniMath.Algebra.RigsAndRings]
isrigops [in UniMath.Algebra.BinaryOperations]
isrigopsisob [in UniMath.Algebra.BinaryOperations]
isrigopsisof [in UniMath.Algebra.BinaryOperations]
isringaddhzgth [in UniMath.NumberSystems.RationalNumbers]
isringfun [in UniMath.Algebra.RigsAndRings]
isringfuninvmap [in UniMath.Algebra.RigsAndRings]
isringfuntocommringfrac [in UniMath.Algebra.RigsAndRings]
isringfuntofldfrac [in UniMath.Algebra.Domains_and_Fields]
isringmultgt [in UniMath.Algebra.RigsAndRings]
isringops [in UniMath.Algebra.BinaryOperations]
isringopsisob [in UniMath.Algebra.BinaryOperations]
isringopsisof [in UniMath.Algebra.BinaryOperations]
isringopstoisrigops [in UniMath.Algebra.BinaryOperations]
isrinv [in UniMath.Algebra.BinaryOperations]
isrinvertible [in UniMath.Algebra.BinaryOperations]
isrinvertibleisof [in UniMath.Algebra.BinaryOperations]
isrinv_invNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isrinv_NonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isrinv' [in UniMath.RealNumbers.Sets]
isrunit [in UniMath.Algebra.BinaryOperations]
isrunit_one_multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isrunit_zero_plusNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isrunit_oneNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isrunit_zeroNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
isSetOfOpen [in UniMath.Topology.Topology]
isSetOfOpen_and [in UniMath.Topology.Topology]
isSetOfOpen_htrue [in UniMath.Topology.Topology]
isSetOfOpen_finite_intersection [in UniMath.Topology.Topology]
isSetOfOpen_union [in UniMath.Topology.Topology]
isSheaf [in UniMath.CategoryTheory.GrothendieckTopos]
isSmallerThanUpperBounds [in UniMath.RealNumbers.Sets]
isSmallest [in UniMath.Combinatorics.OrderedSets]
isSplit [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isSplitEpimorphism [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isSplitMonomorphism [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isSplit2 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
isStrongOrder [in UniMath.Algebra.Lattice]
isStrongOrder [in UniMath.RealNumbers.Sets]
isStrongOrder_quotrel [in UniMath.RealNumbers.Sets]
issubgr [in UniMath.Algebra.Groups]
issubmodule [in UniMath.Algebra.Modules.Submodule]
issubmodule_is [in UniMath.Algebra.Modules.Submodule]
issubmonoid [in UniMath.Algebra.Monoids]
issubrig [in UniMath.Algebra.RigsAndRings]
issubring [in UniMath.Algebra.RigsAndRings]
issubsetwithbinop [in UniMath.Algebra.BinaryOperations]
issubsetwithsmul [in UniMath.Algebra.Modules.Submodule]
issubsetwith2binop [in UniMath.Algebra.BinaryOperations]
issuperrigid [in UniMath.Combinatorics.ZFstructures]
issurjective [in UniMath.Foundations.Propositions]
issymm [in UniMath.Foundations.Sets]
issymmdirprod [in UniMath.Foundations.Sets]
issymmetric [in UniMath.Combinatorics.GraphPaths]
issymmetric_symmetric_closure [in UniMath.Combinatorics.GraphPaths]
issymmlogeqf [in UniMath.Foundations.Sets]
issymmpathshrel [in UniMath.Foundations.Sets]
issymmresrel [in UniMath.Foundations.Sets]
issymm_apNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
isTerminal [in UniMath.CategoryTheory.limits.graphs.terminal]
isTerminal [in UniMath.CategoryTheory.limits.terminal]
isTerminal_Terminal [in UniMath.CategoryTheory.limits.graphs.terminal]
isTerminal_opp [in UniMath.CategoryTheory.limits.Opp]
istight [in UniMath.Algebra.Apartness]
istightap [in UniMath.Algebra.Apartness]
istightapart [in UniMath.PAdics.lemmas]
isTopologicalSet [in UniMath.Topology.Topology]
isTopological_ConstructiveField [in UniMath.Topology.Topology]
isTopological_ConstructiveDivisionRig [in UniMath.Topology.Topology]
isTopological_fld [in UniMath.Topology.Topology]
isTopological_DivRig [in UniMath.Topology.Topology]
isTopological_ring [in UniMath.Topology.Topology]
isTopological_rig [in UniMath.Topology.Topology]
isTopological_gr [in UniMath.Topology.Topology]
isTopological_monoid [in UniMath.Topology.Topology]
istotal [in UniMath.Foundations.Sets]
istotalhqgeh [in UniMath.NumberSystems.RationalNumbers]
istotalhqleh [in UniMath.NumberSystems.RationalNumbers]
istotalhzgeh [in UniMath.NumberSystems.Integers]
istotalhzleh [in UniMath.NumberSystems.Integers]
istotallogeqf [in UniMath.Foundations.Sets]
istotalnatgeh [in UniMath.Foundations.NaturalNumbers]
istotalnatleh [in UniMath.Foundations.NaturalNumbers]
isTotalOrder [in UniMath.Combinatorics.OrderedSets]
istotalresrel [in UniMath.Foundations.Sets]
istotal_latticedec [in UniMath.Algebra.Lattice]
istrans [in UniMath.Foundations.Sets]
istransdirprod [in UniMath.Foundations.Sets]
istranshqgeh [in UniMath.NumberSystems.RationalNumbers]
istranshqleh [in UniMath.NumberSystems.RationalNumbers]
istranshqlth [in UniMath.NumberSystems.RationalNumbers]
istranshzgeh [in UniMath.NumberSystems.Integers]
istranshzleh [in UniMath.NumberSystems.Integers]
istranshzlth [in UniMath.NumberSystems.Integers]
istranslogeqf [in UniMath.Foundations.Sets]
istransnatgeh [in UniMath.Foundations.NaturalNumbers]
istransnatleh [in UniMath.Foundations.NaturalNumbers]
istransnatlth [in UniMath.Foundations.NaturalNumbers]
istranspathshrel [in UniMath.Foundations.Sets]
istransresrel [in UniMath.Foundations.Sets]
istrans_le_lt_ltNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
istrans_lt_le_ltNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
istrans_ltNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
istrans_leNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
istrans_subtype_containment [in UniMath.Algebra.FixedPointTheorems]
istrans_le_lt_ltNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
istrans_lt_le_ltNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
istrans_ltNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
istrans_leNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
istrans_Lgt [in UniMath.Algebra.Lattice]
istrans_StrongOrder [in UniMath.Algebra.Lattice]
istrans_EOlt [in UniMath.RealNumbers.Sets]
istrans_EOgt [in UniMath.RealNumbers.Sets]
istrans_EOle [in UniMath.RealNumbers.Sets]
istrans_StrongOrder [in UniMath.RealNumbers.Sets]
istrans_po [in UniMath.RealNumbers.Sets]
istrans2 [in UniMath.Combinatorics.OrderedSets]
isTrivialDirectSum [in UniMath.CategoryTheory.limits.BinDirectSums]
isTrivialDirectSum' [in UniMath.CategoryTheory.limits.BinDirectSums]
isTRR [in UniMath.Combinatorics.ZFstructures]
isTRRGhomo [in UniMath.Combinatorics.ZFstructures]
isTrue [in UniMath.MoreFoundations.DecidablePropositions]
istruncminus [in UniMath.Algebra.Lattice]
istwobinopfun [in UniMath.Algebra.BinaryOperations]
isTwoSided [in UniMath.RealNumbers.DedekindCuts]
isunit [in UniMath.Algebra.BinaryOperations]
isunital [in UniMath.Algebra.BinaryOperations]
isunitalisob [in UniMath.Algebra.BinaryOperations]
isunitalisof [in UniMath.Algebra.BinaryOperations]
isUniversal [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
isUniversal_isom [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
isUpperBound [in UniMath.RealNumbers.Sets]
isupperbound [in UniMath.Algebra.Dcpo]
isupperbound_if_pointwise [in UniMath.Algebra.FixedPointTheorems]
isupperbound_subtype_equiv [in UniMath.Algebra.FixedPointTheorems]
isupperbound_subtype [in UniMath.Algebra.FixedPointTheorems]
isupperbound_hprop [in UniMath.Algebra.FixedPointTheorems]
isWellFoundedDown [in UniMath.Combinatorics.ZFstructures]
isWellFoundedUp [in UniMath.Combinatorics.ZFstructures]
isWellOrder [in UniMath.Combinatorics.WellOrderedSets]
isweq [in UniMath.Foundations.PartA]
isweqezmappr1 [in UniMath.Foundations.PartA]
isweqhomot' [in UniMath.CategoryTheory.Core.Isos]
isweqinvezmaphf [in UniMath.Foundations.PartA]
isweqtoempty [in UniMath.Foundations.PartA]
isweqtoforallpaths [in UniMath.Foundations.UnivalenceAxiom]
isweqtoforallpathsStatement [in UniMath.Foundations.UnivalenceAxiom]
isweqvecfun [in UniMath.Combinatorics.Vectors]
isweq_Branch_of_Branch_to_Branch [in UniMath.Combinatorics.ZFstructures]
isweq_Monad_to_Kleisli [in UniMath.CategoryTheory.Monads.Kleisli]
isweq_binprod_to_pullback [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
iswklin [in UniMath.Combinatorics.OrderedSets]
iswofun [in UniMath.Combinatorics.WellOrderedSets]
isZero [in UniMath.CategoryTheory.limits.zero]
isZero [in UniMath.CategoryTheory.limits.graphs.zero]
is_univalent_structure_unit_binop [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
is_unit_point [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
is_univalent_property_unit_binop [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
is_unit [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
is_univalent_binop [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
is_preinitial_sec [in UniMath.Induction.W.Fibered]
is_relmonadmor_iso_from_is_iso [in UniMath.CategoryTheory.Monads.RelativeMonads]
is_iso_from_is_relmonadmor_iso [in UniMath.CategoryTheory.Monads.RelativeMonads]
is_nat_trans_RelMonadMor [in UniMath.CategoryTheory.Monads.RelativeMonads]
is_nat_trans_r_eta [in UniMath.CategoryTheory.Monads.RelativeMonads]
is_functor_r_lift [in UniMath.CategoryTheory.Monads.RelativeMonads]
is_pseudo_morphism [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
is_pb_to_cartesian_1cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
is_pb_to_cartesian_lift_2cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
is_pb_to_cartesian_lift_1cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
is_univalent_Strong_Functor_category [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
is_univalent_Strong_Functor_category_displayed [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
is_disp_invertible_2cell_rwhisker [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_disp_invertible_2cell_lwhisker [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_disp_invertible_2cell_rassociator [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_disp_invertible_2cell_lassociator [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_disp_invertible_2cell_rinvunitor [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_disp_invertible_2cell_runitor [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_disp_invertible_2cell_lunitor [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_invertible_total_to_disp_weq [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_invertible_disp_to_total [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_invertible_total_to_disp [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_invertible_total_to_fiber [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_invertible_total_to_base [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
is_prime [in UniMath.Algebra.RigsAndRings.Ideals]
is_ideal [in UniMath.Algebra.RigsAndRings.Ideals]
is_rideal [in UniMath.Algebra.RigsAndRings.Ideals]
is_lideal [in UniMath.Algebra.RigsAndRings.Ideals]
is_relmodule_mor_comp [in UniMath.CategoryTheory.Monads.RelativeModules]
is_relmodule_mor_id [in UniMath.CategoryTheory.Monads.RelativeModules]
is_nat_trans_relmodule_mor [in UniMath.CategoryTheory.Monads.RelativeModules]
is_relmodule_mor [in UniMath.CategoryTheory.Monads.RelativeModules]
is_functor_mlift [in UniMath.CategoryTheory.Monads.RelativeModules]
is_catiso [in UniMath.CategoryTheory.catiso]
is_strict_psfunctor_isaprop [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
is_strict_psfunctor [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
is_cartesian_2cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
is_disp_psfunctor_from_total [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
is_disp_psfunctor [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
is_disp_internal_adjunction_identity [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
is_disp_biequiv_unit_counit_path_pgroupoid [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
is_cartesian_lift_functor_into_reindex [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
is_cartesian_reindex_disp_cat_disp_functor [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
is_cartesian_from_reindex_disp_cat [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
is_cartesian_in_reindex_disp_cat [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
is_univalent_reindex_disp_cat [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
is_pstrans_on_data [in UniMath.Bicategories.Transformations.PseudoTransformation]
is_pstrans [in UniMath.Bicategories.Transformations.PseudoTransformation]
is_discrete_prebicat [in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_id₂ [in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell_inv [in UniMath.Bicategories.Core.Bicat]
is_invertible_2cell [in UniMath.Bicategories.Core.Bicat]
is_lim_seq [in UniMath.RealNumbers.NonnegativeReals]
is_Dcuts_lim_seq [in UniMath.RealNumbers.NonnegativeReals]
is_functor_from_empty [in UniMath.CategoryTheory.categories.StandardCategories]
is_functor_to_unit [in UniMath.CategoryTheory.categories.StandardCategories]
is_nat_trans_discrete_precategory [in UniMath.CategoryTheory.categories.StandardCategories]
is_final [in UniMath.Induction.M.Core]
is_prefinal [in UniMath.Induction.M.Core]
is_univalent_2_full_image [in UniMath.Bicategories.Core.Examples.Image]
is_univalent_2_0_full_image [in UniMath.Bicategories.Core.Examples.Image]
is_univalent_2_1_full_image [in UniMath.Bicategories.Core.Examples.Image]
is_chaotic_disp_bicat_cells_unit [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
is_chaotic [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedCatToBicat]
is_omega_cocont [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_cocont [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
is_least_upper_bound_if_pointwise [in UniMath.Algebra.FixedPointTheorems]
is_least_upper_bound_pointwise [in UniMath.Algebra.FixedPointTheorems]
is_chain_complete_subposet [in UniMath.Algebra.FixedPointTheorems]
is_chain_in_subposet [in UniMath.Algebra.FixedPointTheorems]
is_least_upper_bound_in_subposet [in UniMath.Algebra.FixedPointTheorems]
is_upper_bound_in_subposet [in UniMath.Algebra.FixedPointTheorems]
is_directed_complete [in UniMath.Algebra.FixedPointTheorems]
is_chain_complete [in UniMath.Algebra.FixedPointTheorems]
is_complete [in UniMath.Algebra.FixedPointTheorems]
is_chain [in UniMath.Algebra.FixedPointTheorems]
is_least_upper_bound_image [in UniMath.Algebra.FixedPointTheorems]
is_least_upper_bound_subtype [in UniMath.Algebra.FixedPointTheorems]
is_least_upper_bound [in UniMath.Algebra.FixedPointTheorems]
is_greatest_suchthat [in UniMath.Algebra.FixedPointTheorems]
is_least_suchthat [in UniMath.Algebra.FixedPointTheorems]
is_upper_bound_subfamily [in UniMath.Algebra.FixedPointTheorems]
is_lower_bound_subfamily [in UniMath.Algebra.FixedPointTheorems]
is_monoid_mor [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
is_monoid_ob [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
is_univalent_mod [in UniMath.CategoryTheory.categories.modules]
is_left_adjoint_functor_unkleislify [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_iso_eta_morph [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_iso_eps_morph [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
is_in_img_functor [in UniMath.CategoryTheory.Core.Functors]
is_functor [in UniMath.CategoryTheory.Core.Functors]
is_adjequiv_to_all_is_adjequiv [in UniMath.Bicategories.PseudoFunctors.Display.Base]
is_invertible_2cell_to_all_is_invertible [in UniMath.Bicategories.PseudoFunctors.Display.Base]
is_initial_functor_from [in UniMath.CategoryTheory.rezk_completion]
is_bicategory [in UniMath.Bicategories.WkCatEnrichment.bicategory]
is_iso_disp_from_total [in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_base_from_total [in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_total [in UniMath.CategoryTheory.DisplayedCats.Core]
is_univalent_in_fibers_from_univalent_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
is_univalent_in_fibers [in UniMath.CategoryTheory.DisplayedCats.Core]
is_univalent_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_inv_from_is_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_inv_from_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_disp_from_iso [in UniMath.CategoryTheory.DisplayedCats.Core]
is_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
is_Algebra_mor [in UniMath.CategoryTheory.Monads.MonadAlgebras]
is_disp_invmodification [in UniMath.Bicategories.DisplayedBicats.DispModification]
is_invertible_disp_modification [in UniMath.Bicategories.DisplayedBicats.DispModification]
is_disp_modification [in UniMath.Bicategories.DisplayedBicats.DispModification]
is_folds_precategory [in UniMath.Folds.folds_pre_2_cat]
is_univalent_folds_pre_2_cat [in UniMath.Folds.folds_pre_2_cat]
is_folds_pre_2_cat [in UniMath.Folds.folds_pre_2_cat]
is_strict_bicat [in UniMath.Bicategories.Core.Strictness]
is_coh_strictness_structure [in UniMath.Bicategories.Core.Strictness]
is_lim_seq [in UniMath.RealNumbers.Reals]
is_nat_z_iso_id [in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_z_iso_comp [in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_z_iso [in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_iso_id [in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_id [in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_iso [in UniMath.CategoryTheory.Core.NaturalTransformations]
is_nat_trans [in UniMath.CategoryTheory.Core.NaturalTransformations]
is_z_isomorphism_identity [in UniMath.CategoryTheory.Core.Isos]
is_z_isomorphism_comp [in UniMath.CategoryTheory.Core.Isos]
is_z_isomorphism_inv [in UniMath.CategoryTheory.Core.Isos]
is_z_isomorphism_is_inverse_in_precat [in UniMath.CategoryTheory.Core.Isos]
is_z_isomorphism_mor [in UniMath.CategoryTheory.Core.Isos]
is_z_isomorphism [in UniMath.CategoryTheory.Core.Isos]
is_iso_qinv [in UniMath.CategoryTheory.Core.Isos]
is_inverse_in_precat_identity [in UniMath.CategoryTheory.Core.Isos]
is_inverse_in_precat_comp [in UniMath.CategoryTheory.Core.Isos]
is_inverse_in_precat_inv [in UniMath.CategoryTheory.Core.Isos]
is_inverse_in_precat2 [in UniMath.CategoryTheory.Core.Isos]
is_inverse_in_precat1 [in UniMath.CategoryTheory.Core.Isos]
is_inverse_in_precat [in UniMath.CategoryTheory.Core.Isos]
is_iso' [in UniMath.CategoryTheory.Core.Isos]
is_iso_inv_from_iso [in UniMath.CategoryTheory.Core.Isos]
is_iso [in UniMath.CategoryTheory.Core.Isos]
is_omega_cont [in UniMath.CategoryTheory.Chains.Chains]
is_omega_cocont [in UniMath.CategoryTheory.Chains.Chains]
is_cont [in UniMath.CategoryTheory.Chains.Chains]
is_cocont [in UniMath.CategoryTheory.Chains.Chains]
is_algebra_iso_from_is_iso [in UniMath.CategoryTheory.FunctorAlgebras]
is_iso_from_is_algebra_iso [in UniMath.CategoryTheory.FunctorAlgebras]
is_algebra_mor [in UniMath.CategoryTheory.FunctorAlgebras]
is_precat_opp_precat_data [in UniMath.CategoryTheory.opp_precat]
is_iso_fiber_from_is_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_univalent_disp_iff_fibers_are_univalent [in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_disp_functor_cat_iso_iff_pointwise_iso [in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_disp_functor_cat_iso_if_pointwise_iso [in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_pointwise_iso_if_is_disp_functor_cat_iso [in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_iso_sigma_disp_aux1 [in UniMath.CategoryTheory.DisplayedCats.Constructions]
is_invertible_2cell_hcomp [in UniMath.Bicategories.Core.Invertible_2cells]
is_strict [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
is_z_iso_tensor_z_iso [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
is_iso_tensor_iso [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
is_setcategory [in UniMath.CategoryTheory.Core.Setcategories]
is_disp_invertible_2cell_rassociator [in UniMath.Bicategories.DisplayedBicats.DispBicat]
is_disp_invertible_2cell_lassociator [in UniMath.Bicategories.DisplayedBicats.DispBicat]
is_disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.DispBicat]
is_disp_invertible_2cell' [in UniMath.Bicategories.DisplayedBicats.DispBicat]
is_left_adjoint_inv [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
is_disp_pstrans_from_total [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
is_disp_pstrans [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
is_univalent_shSet_category [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
is_precategory_shSet_precategory_data [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
is_biequiv_path_groupoid [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
is_bifinal'_to_is_bifinal [in UniMath.Bicategories.Colimits.Final]
is_bifinal'_eq_property [in UniMath.Bicategories.Colimits.Final]
is_bifinal'_2cell_property [in UniMath.Bicategories.Colimits.Final]
is_bifinal'_1cell_property [in UniMath.Bicategories.Colimits.Final]
is_bifinal_to_is_bifinal' [in UniMath.Bicategories.Colimits.Final]
is_bifinal' [in UniMath.Bicategories.Colimits.Final]
is_bifinal [in UniMath.Bicategories.Colimits.Final]
is_univalent_2_1_weq_local_univ [in UniMath.Bicategories.Core.Univalence]
is_univalent_2_1_if_hom_is_univ [in UniMath.Bicategories.Core.Univalence]
is_univ_hom [in UniMath.Bicategories.Core.Univalence]
is_inv2cell_to_is_iso [in UniMath.Bicategories.Core.Univalence]
is_univalent_2 [in UniMath.Bicategories.Core.Univalence]
is_univalent_2_0 [in UniMath.Bicategories.Core.Univalence]
is_univalent_2_1 [in UniMath.Bicategories.Core.Univalence]
is_cartesian_precomp [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cartesian_transportf [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cartesian_disp_iso [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cartesian_comp_disp [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cartesian_id_disp [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_split [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_split_comp [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_split_id [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_functor_functor_data_preShv_Disc_fibs [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_discrete_fibration [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cleaving [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cartesian_disp_functor [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_cartesian [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_op_isofibration [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_uncloven_iso_cleaving [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
is_adj_int_equivalence [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
is_int_equivalence [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
is_torsor_prop [in UniMath.Algebra.GroupAction]
is_torsor [in UniMath.Algebra.GroupAction]
is_equivariant_comp [in UniMath.Algebra.GroupAction]
is_equivariant_identity [in UniMath.Algebra.GroupAction]
is_equivariant_isaprop [in UniMath.Algebra.GroupAction]
is_equivariant [in UniMath.Algebra.GroupAction]
is_disp_univalent_unit_disp_cat [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
is_catiso_reord_functor [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
is_guided_WOSubset [in UniMath.Combinatorics.WellOrderedSets]
is_wosubset_chain [in UniMath.Combinatorics.WellOrderedSets]
is_functor_sub_precategory_inclusion [in UniMath.CategoryTheory.Subcategory.Core]
is_precategory_sub_precategory [in UniMath.CategoryTheory.Subcategory.Core]
is_sub_precategory [in UniMath.CategoryTheory.Subcategory.Core]
is_universal_arrow_to [in UniMath.CategoryTheory.Adjunctions.Core]
is_universal_arrow_from [in UniMath.CategoryTheory.Adjunctions.Core]
is_right_adjoint [in UniMath.CategoryTheory.Adjunctions.Core]
is_left_adjoint [in UniMath.CategoryTheory.Adjunctions.Core]
is_discrete [in UniMath.CategoryTheory.Groupoids]
is_univalent_pregroupoid [in UniMath.CategoryTheory.Groupoids]
is_pregroupoid [in UniMath.CategoryTheory.Groupoids]
is_z_iso_odot_z_iso [in UniMath.CategoryTheory.Monoidal.Actions]
is_unvialent_category_binproduct [in UniMath.CategoryTheory.PrecategoryBinProduct]
is_z_iso_binprod_z_iso [in UniMath.CategoryTheory.PrecategoryBinProduct]
is_iso_binprod_iso [in UniMath.CategoryTheory.PrecategoryBinProduct]
is_lim_base [in UniMath.Topology.Topology]
is_lim [in UniMath.Topology.Topology]
is_filter_lim_base [in UniMath.Topology.Topology]
is_filter_lim [in UniMath.Topology.Topology]
is_base_of_neighborhood [in UniMath.Topology.Topology]
is_psfunctor_isaprop [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
is_psfunctor [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
is_univalent_2_total_dirprod [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
is_univalent_2_0_total_dirprod [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
is_univalent_2_1_total_dirprod [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
is_univalent_2_dirprod_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
is_univalent_2_0_dirprod_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
is_univalent_2_1_dirprod_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
is_eqalgebra [in UniMath.Algebra.Universal.EqAlgebras]
is_iso_colim_algebra_mor [in UniMath.CategoryTheory.Chains.Adamek]
is_invertible_modcomponent_of [in UniMath.Bicategories.Modifications.Modification]
is_invertible_modification [in UniMath.Bicategories.Modifications.Modification]
is_modification [in UniMath.Bicategories.Modifications.Modification]
is_univalent [in UniMath.CategoryTheory.Core.Univalence]
is_cocone_mor [in UniMath.CategoryTheory.limits.graphs.colimits]
is_discrete_bicategory_trivial_2cells [in UniMath.Bicategories.Discreteness]
is_discrete_bicategory_cellprop [in UniMath.Bicategories.Discreteness]
is_discrete_bicategory [in UniMath.Bicategories.Discreteness]
is_catiso_left_adjoint_equivalence [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
is_catiso_to_left_adjoint_equivalence [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
is_nat_iso_to_is_invertible_2cell [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
is_invertible_2cell_to_is_nat_iso [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
is_stn_strictly_increasing [in UniMath.Combinatorics.StandardFiniteSets]
is_stn_increasing [in UniMath.Combinatorics.StandardFiniteSets]
is_reflective [in UniMath.CategoryTheory.Subcategory.Reflective]
is_strict_modification [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
is_strict_pstrans [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
is_disp_biequivalence_unit_counit [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
is_nat_iso_to_is_invertible_2cell [in UniMath.Bicategories.Core.Examples.BicatOfCats]
is_invertible_2cell_to_is_nat_iso [in UniMath.Bicategories.Core.Examples.BicatOfCats]
is_equiv_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
is_iso_counit_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
is_iso_unit_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
is_prebicategory [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
is_univalent_2_fullsubbicat [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
is_univalent_2_0_fullsubbicat [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
is_univalent_2_1_fullsubbicat [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
is_equiv_of_equiv_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
is_equiv_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
is_iso_counit_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
is_iso_unit_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
is_merely_split_epi [in UniMath.CategoryTheory.SplitMonicsAndEpis]
is_split_epi [in UniMath.CategoryTheory.SplitMonicsAndEpis]
is_merely_split_monic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
is_split_monic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
is_nat_trans_PreShv_unit [in UniMath.CategoryTheory.elems_slice_equiv]
is_nat_trans_slice_counit [in UniMath.CategoryTheory.elems_slice_equiv]
is_lifting [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
is_end [in UniMath.CategoryTheory.Profunctors.Core]
is_wedge [in UniMath.CategoryTheory.Profunctors.Core]
is_dinatural [in UniMath.CategoryTheory.Profunctors.Core]
is_univalent_Signature_category [in UniMath.SubstitutionSystems.SignatureCategory]
is_univalent_Signature_category_displayed [in UniMath.SubstitutionSystems.SignatureCategory]
is_section [in UniMath.AlgebraicGeometry.Spec]
is_quotient_on [in UniMath.AlgebraicGeometry.Spec]
is_exponentiable [in UniMath.CategoryTheory.exponentials]
is_cartesian_disp_functor [in UniMath.CategoryTheory.DisplayedCats.ComprehensionC]
is_ptd_mor [in UniMath.CategoryTheory.PointedFunctors]
is_limit_cone [in UniMath.Induction.M.Limits]
is_precategory_Undercategory_data [in UniMath.CategoryTheory.UnderCategories]
is_coalgebra_homo [in UniMath.CategoryTheory.FunctorCoalgebras]
is_biequivalence_of_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
is_biequivalence_adjoint_counit [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
is_biequivalence_adjoint_unit [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
is_biequivalence_adjoints [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
is_biequivalence_unit_counit [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
is_precategory_comma_cat_data [in UniMath.CategoryTheory.CommaCategories]
is_precategory_ccomma_precategory_data [in UniMath.CategoryTheory.CommaCategories]
is_biinitial'_to_is_biinitial [in UniMath.Bicategories.Colimits.Initial]
is_biinitial'_eq_property [in UniMath.Bicategories.Colimits.Initial]
is_biinitial'_2cell_property [in UniMath.Bicategories.Colimits.Initial]
is_biinitial'_1cell_property [in UniMath.Bicategories.Colimits.Initial]
is_biinitial_to_is_biinitial' [in UniMath.Bicategories.Colimits.Initial]
is_biinitial' [in UniMath.Bicategories.Colimits.Initial]
is_biinitial [in UniMath.Bicategories.Colimits.Initial]
is_initial [in UniMath.Induction.W.Core]
is_preinitial [in UniMath.Induction.W.Core]
is_disp_invertible_2cell_cod [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
is_nat_trans_fam_unit [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
is_nat_trans_fam_unit_fun [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
is_nat_trans_slice_counit [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
is_nat_trans_slice_to_fam_mor [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
is_univalent_iso_comma [in UniMath.CategoryTheory.IsoCommaCategory]
is_univalent_disp_iso_comma_disp_cat [in UniMath.CategoryTheory.IsoCommaCategory]
is_functor_kleisli [in UniMath.CategoryTheory.Monads.KTriples]
is_retraction [in UniMath.CategoryTheory.Core.Categories]
is_precategory_one_assoc_to_two [in UniMath.CategoryTheory.Core.Categories]
is_precategory_one_assoc [in UniMath.CategoryTheory.Core.Categories]
is_precategory [in UniMath.CategoryTheory.Core.Categories]
is_cone_mor [in UniMath.CategoryTheory.limits.graphs.limits]
is2binophrel [in UniMath.Algebra.BinaryOperations]
It [in UniMath.SubstitutionSystems.GenMendlerIteration]
It [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
iter [in UniMath.Algebra.Dcpo]
iteration [in UniMath.Foundations.PartA]
itercurry [in UniMath.Algebra.Universal.Terms]
iterfun [in UniMath.Algebra.Universal.Terms]
iterop_unoseq_unoseq_mon [in UniMath.Algebra.IteratedBinaryOperations]
iterop_unoseq_abgr [in UniMath.Algebra.IteratedBinaryOperations]
iterop_unoseq_mon [in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_list_mon [in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_seq_mon [in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_mon [in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_mon [in UniMath.Algebra.IteratedBinaryOperations]
iterop_fun_mon [in UniMath.Algebra.IteratedBinaryOperations]
iterop_fun_append [in UniMath.Algebra.IteratedBinaryOperations]
iterop_fun_step [in UniMath.Algebra.IteratedBinaryOperations]
iterop_fun_step' [in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_step [in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq_seq [in UniMath.Algebra.IteratedBinaryOperations]
iterop_fun_fun [in UniMath.Algebra.IteratedBinaryOperations]
iterop_list_list [in UniMath.Algebra.IteratedBinaryOperations]
iterop_seq [in UniMath.Algebra.IteratedBinaryOperations]
iterop_fun [in UniMath.Algebra.IteratedBinaryOperations]
iterop_list [in UniMath.Algebra.IteratedBinaryOperations]
iter_functor [in UniMath.CategoryTheory.Core.Functors]
iter_functor1 [in UniMath.SubstitutionSystems.SignatureExamples]
iter' [in UniMath.Algebra.Dcpo]
ith_modulefun [in UniMath.Algebra.Modules.Multimodules]
ith_linearfun [in UniMath.Algebra.Modules.Multimodules]
ith_module [in UniMath.Algebra.Modules.Multimodules]
I_D [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
I_C [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
I_graph [in UniMath.CategoryTheory.limits.coproducts]
I_func [in UniMath.Folds.folds_precat]
I_posttensor [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
I_pretensor [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
I_A [in UniMath.CategoryTheory.Monoidal.Actions]
I_graph [in UniMath.CategoryTheory.limits.products]
I_A [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]

J

j [in UniMath.Combinatorics.Tests]
join [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
joinHasEtaLaw [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
joinHasPermutationLaw [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
joinHomomorphic [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
joinLookup [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
join_mor_absorb_meet_mor [in UniMath.CategoryTheory.LatticeObject]
join_mor [in UniMath.CategoryTheory.LatticeObject]
just [in UniMath.Combinatorics.Maybe]
just_injectivity [in UniMath.Combinatorics.Maybe]
j_mon [in UniMath.SubstitutionSystems.ModulesFromSignatures]
J_2_0 [in UniMath.Bicategories.Core.Univalence]
J_2_1_comp [in UniMath.Bicategories.Core.Univalence]
J_2_1 [in UniMath.Bicategories.Core.Univalence]
J'_2_0 [in UniMath.Bicategories.Core.Univalence]
J'_2_1 [in UniMath.Bicategories.Core.Univalence]

K

k [in UniMath.CategoryTheory.precomp_ess_surj]
KADTriData [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KADTriDataDTri [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KADTriDataFiber [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KADTriDataIso [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KADTriDataMor [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KADTrisIsos [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAFiber [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAFiberIso [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAFiberIsoMor [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAInvRotDTris_Iso [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAisDTri [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAOctaComm2Homot [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor1 [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor2 [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3 [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3Inv [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3InvHomot [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3InvMor [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3Iso [in UniMath.HomologicalAlgebra.MappingCone]
KAOctaMor3IsoInverses [in UniMath.HomologicalAlgebra.MappingCone]
KAPreTriang [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KAPreTriangData [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KARotDTris_Iso [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KATriang [in UniMath.HomologicalAlgebra.KATriangulated]
KATriangOcta_KADTriData [in UniMath.HomologicalAlgebra.KATriangulated]
KATriangOcta_TriIso [in UniMath.HomologicalAlgebra.KATriangulated]
KATrivialDistinguished_TriMor [in UniMath.HomologicalAlgebra.KAPreTriangulated]
KATrivialDistinguished_MPMorMors [in UniMath.HomologicalAlgebra.KAPreTriangulated]
Kernel [in UniMath.CategoryTheory.Abelian]
Kernel [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Kernel [in UniMath.CategoryTheory.limits.graphs.kernels]
Kernel [in UniMath.CategoryTheory.limits.kernels]
KernelArrow [in UniMath.CategoryTheory.limits.kernels]
KernelCommutes [in UniMath.CategoryTheory.limits.kernels]
KernelComplex [in UniMath.HomologicalAlgebra.CohomologyComplex]
KernelCompMonic [in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic_mor2 [in UniMath.CategoryTheory.limits.kernels]
KernelCompMonic_mor1 [in UniMath.CategoryTheory.limits.kernels]
KernelCompZero [in UniMath.CategoryTheory.limits.kernels]
KernelEqualizer [in UniMath.CategoryTheory.limits.kernels]
kernelEquation [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
KernelIn [in UniMath.CategoryTheory.limits.kernels]
KernelInPaths_is_iso_mor [in UniMath.CategoryTheory.limits.kernels]
KernelisKernel [in UniMath.CategoryTheory.limits.kernels]
kernelMap [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
KernelOb [in UniMath.CategoryTheory.limits.kernels]
KernelOfIdentity [in UniMath.CategoryTheory.limits.kernels]
KernelOfPr1 [in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr2 [in UniMath.CategoryTheory.AbelianToAdditive]
KernelOfPr2_isKernel [in UniMath.CategoryTheory.AbelianToAdditive]
KernelofZeroArrow [in UniMath.CategoryTheory.limits.kernels]
KernelofZeroArrow_iso [in UniMath.CategoryTheory.limits.kernels]
KernelPath [in UniMath.CategoryTheory.limits.kernels]
Kernels [in UniMath.CategoryTheory.limits.kernels]
Kernels_opp [in UniMath.CategoryTheory.limits.Opp]
KernelZeroMonic [in UniMath.CategoryTheory.Abelian]
KernelZeroMonic_cokernel [in UniMath.CategoryTheory.Abelian]
kernel_ideal [in UniMath.Algebra.RigsAndRings.Ideals]
kernel_submonoid [in UniMath.Algebra.Monoids]
kernel_issubmonoid [in UniMath.Algebra.Monoids]
kernel_pair [in UniMath.CategoryTheory.EpiFacts]
Kernel_up_to_iso2 [in UniMath.CategoryTheory.limits.kernels]
Kernel_up_to_iso2_isKernel [in UniMath.CategoryTheory.limits.kernels]
Kernel_up_to_iso [in UniMath.CategoryTheory.limits.kernels]
Kernel_up_to_iso_eq [in UniMath.CategoryTheory.limits.kernels]
Kernel_opp [in UniMath.CategoryTheory.limits.Opp]
kernel_pair_HSET [in UniMath.CategoryTheory.categories.HSET.Structures]
kFa [in UniMath.CategoryTheory.precomp_ess_surj]
Kid [in UniMath.CategoryTheory.RightKanExtension]
kleislify [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
kleislify_mor [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
KleisliMonad [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_cat [in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_precat [in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_precat_data [in UniMath.CategoryTheory.Monads.RelativeMonads]
Kleisli_precat_ob_mor [in UniMath.CategoryTheory.Monads.RelativeMonads]
kleisli_triple_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_laws [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_prebicat_data [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_prebicat_ops [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_prebicat_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_nat_trans [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_disp_cat_data [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_on_identity_functor [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_on_functor_bind_kt [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_on_functor_unit_kt [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_on_functor_iso [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple_on_functor [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
kleisli_triple [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
Kleisli_functors_are_adjoints [in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_homset_iso [in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_functor_left_right_compose [in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_cat_monad [in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_precat_monad [in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_precat_data_monad [in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_precat_ob_mor_monad [in UniMath.CategoryTheory.Monads.KleisliCategory]
Kleisli_to_Monad [in UniMath.CategoryTheory.Monads.Kleisli]
Kleisli_to_η [in UniMath.CategoryTheory.Monads.Kleisli]
Kleisli_to_μ [in UniMath.CategoryTheory.Monads.Kleisli]
Kleisli_to_functor [in UniMath.CategoryTheory.Monads.Kleisli]
Kleisli_composition [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_identity [in UniMath.CategoryTheory.Monads.KTriples]
kleisli_functor [in UniMath.CategoryTheory.Monads.KTriples]
kleisli_functor_data [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Mor_equiv [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Mor_bind [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Mor_η [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Mor [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Mor_laws [in UniMath.CategoryTheory.Monads.KTriples]
kleisli_laws [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Data_from_Kleisli [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Laws [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Data_ob [in UniMath.CategoryTheory.Monads.KTriples]
Kleisli_Data [in UniMath.CategoryTheory.Monads.KTriples]
Ktriple_to_Monad [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
kX [in UniMath.CategoryTheory.precomp_ess_surj]
K_0_universal_map [in UniMath.Ktheory.GrothendieckGroup]
K_0_class [in UniMath.Ktheory.GrothendieckGroup]
K_0_map [in UniMath.Ktheory.GrothendieckGroup]
K_0 [in UniMath.Ktheory.GrothendieckGroup]
K_0_related [in UniMath.Ktheory.GrothendieckGroup]
K_0_hrel [in UniMath.Ktheory.GrothendieckGroup]

L

lambda [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
lambda [in UniMath.CategoryTheory.RightKanExtension]
LambdaCalculus [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lambdaOmegaFunctor [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
LamEHSS_Initial [in UniMath.SubstitutionSystems.Lam]
LamE_model_on_Lam [in UniMath.SubstitutionSystems.Lam]
LamE_algebra_on_Lam [in UniMath.SubstitutionSystems.Lam]
LamE_Sig [in UniMath.SubstitutionSystems.LamSignature]
LamFunctor [in UniMath.SubstitutionSystems.LamFromBindingSig]
LamHSS_Initial [in UniMath.SubstitutionSystems.Lam]
LamHSS_Initial_HSET [in UniMath.SubstitutionSystems.LamHSET]
LamMonad [in UniMath.SubstitutionSystems.LamFromBindingSig]
LamMonad [in UniMath.SubstitutionSystems.LamHSET]
LamSig [in UniMath.SubstitutionSystems.LamFromBindingSig]
LamSignature [in UniMath.SubstitutionSystems.LamFromBindingSig]
lam_map [in UniMath.SubstitutionSystems.STLC]
lam_source [in UniMath.SubstitutionSystems.STLC]
lam_map [in UniMath.SubstitutionSystems.CCS_alt]
lam_source [in UniMath.SubstitutionSystems.CCS_alt]
lam_map [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
lam_map [in UniMath.SubstitutionSystems.STLC_alt]
lam_source [in UniMath.SubstitutionSystems.STLC_alt]
Lam_Flatten [in UniMath.SubstitutionSystems.Lam]
Lam_App_Abs [in UniMath.SubstitutionSystems.Lam]
Lam_Abs [in UniMath.SubstitutionSystems.Lam]
Lam_App [in UniMath.SubstitutionSystems.Lam]
Lam_Var [in UniMath.SubstitutionSystems.Lam]
Lam_Sig [in UniMath.SubstitutionSystems.LamSignature]
lam_map [in UniMath.SubstitutionSystems.CCS]
lam_source [in UniMath.SubstitutionSystems.CCS]
lam_map [in UniMath.SubstitutionSystems.LamFromBindingSig]
Lam_Flatten [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Lam_Sig [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
lassociator [in UniMath.Bicategories.Core.Bicat]
lassociator_transf [in UniMath.Bicategories.Core.Bicat]
lassociator_fun [in UniMath.Bicategories.Core.Bicat]
lassociator_lassociator [in UniMath.Bicategories.Core.Bicat]
lassociator_rassociator [in UniMath.Bicategories.Core.Bicat]
lassociator_invertible_2cell [in UniMath.Bicategories.Core.Invertible_2cells]
lassociator_pstrans [in UniMath.Bicategories.Transformations.Examples.Associativity]
lassociator_pstrans_is_pstrans [in UniMath.Bicategories.Transformations.Examples.Associativity]
lassociator_pstrans_data [in UniMath.Bicategories.Transformations.Examples.Associativity]
lassociator_rassociator_pstrans [in UniMath.Bicategories.Modifications.Examples.Associativity]
lassociator_rassociator_pstrans_modification [in UniMath.Bicategories.Modifications.Examples.Associativity]
lassociator_rassociator_pstrans_data [in UniMath.Bicategories.Modifications.Examples.Associativity]
lastelement [in UniMath.Combinatorics.StandardFiniteSets]
lastValue [in UniMath.Combinatorics.StandardFiniteSets]
lattice [in UniMath.Algebra.Lattice]
latticedec [in UniMath.Algebra.Lattice]
latticedec_gt [in UniMath.Algebra.Lattice]
latticedec_gt_so [in UniMath.Algebra.Lattice]
latticedec_gt_rel [in UniMath.Algebra.Lattice]
latticeob [in UniMath.CategoryTheory.LatticeObject]
latticeop [in UniMath.Algebra.Lattice]
latticeop_cat [in UniMath.CategoryTheory.LatticeObject]
latticewithgt [in UniMath.Algebra.Lattice]
latticewithgtrel [in UniMath.Algebra.Lattice]
lattice_latticedec [in UniMath.Algebra.Lattice]
lattice_latticewithgt [in UniMath.Algebra.Lattice]
lawless_monad_is_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
lawless_monad_is_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
lawless_monad_is_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
lawless_monad [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
laxfunctor_bicat_is_univalent_2 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
laxfunctor_bicat_is_univalent_2_0 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
laxfunctor_bicat_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
laxfunctor_bicat [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
lax_monoidal_functor_unital [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lax_monoidal_functor_assoc [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lax_monoidal_functor_μ [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lax_monoidal_functor_ϵ [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lax_monoidal_functor_functor [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
lax_monoidal_functor [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Lbot [in UniMath.Algebra.Lattice]
LC [in UniMath.SubstitutionSystems.LamFromBindingSig]
lcanfromlinv [in UniMath.Algebra.Domains_and_Fields]
le [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
le [in UniMath.Combinatorics.WellFoundedRelations]
leaf [in UniMath.CategoryTheory.Inductives.Trees]
leaf_map [in UniMath.CategoryTheory.Inductives.Trees]
leastfixedpoint [in UniMath.Algebra.Dcpo]
LeastUpperBound [in UniMath.RealNumbers.Sets]
least_upper_bound_in_subposet [in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_image [in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_subtype_univ [in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_subtype_is_upper_bound [in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_subtype [in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_univ [in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_property [in UniMath.Algebra.FixedPointTheorems]
least_upper_bound_is_upper_bound [in UniMath.Algebra.FixedPointTheorems]
least_upper_bound [in UniMath.Algebra.FixedPointTheorems]
least_suchthat_property [in UniMath.Algebra.FixedPointTheorems]
least_suchthat_is_least [in UniMath.Algebra.FixedPointTheorems]
least_suchthat_satisfies [in UniMath.Algebra.FixedPointTheorems]
least_suchthat [in UniMath.Algebra.FixedPointTheorems]
least_is_least [in UniMath.Algebra.FixedPointTheorems]
least_of_family_index [in UniMath.Algebra.FixedPointTheorems]
least_of_family [in UniMath.Algebra.FixedPointTheorems]
left [in UniMath.MoreFoundations.Interval]
leftCompHomo [in UniMath.CategoryTheory.PreAdditive]
leftCompIsHomo [in UniMath.CategoryTheory.PreAdditive]
LeftShortExact [in UniMath.CategoryTheory.ShortExactSequences]
LeftShortExact_Equalizer [in UniMath.CategoryTheory.ShortExactSequences]
LeftShortExact_Equalizer_ShortShortExact [in UniMath.CategoryTheory.ShortExactSequences]
LeftShortExact_Equalizer_ShortShortExactData [in UniMath.CategoryTheory.ShortExactSequences]
LeftShortExact_from_ShortShortExact [in UniMath.CategoryTheory.ShortExactSequences]
LeftShortExact_opp [in UniMath.CategoryTheory.ShortExactSequences]
LeftShortExact_ShortShortExact [in UniMath.CategoryTheory.ShortExactSequences]
Left_rKleisli_functor [in UniMath.CategoryTheory.Monads.RelativeMonads]
Left_rKleisli_functor_data [in UniMath.CategoryTheory.Monads.RelativeMonads]
left_whisker [in UniMath.Bicategories.Transformations.Examples.Whiskering]
left_whisker_is_pstrans [in UniMath.Bicategories.Transformations.Examples.Whiskering]
left_whisker_data [in UniMath.Bicategories.Transformations.Examples.Whiskering]
left_equivalence_axioms_total_weq [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_equivalence_axioms_disp_to_total [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_equivalence_axioms_total_to_disp [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_equivalence_axioms_total_to_fiber [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_equivalence_axioms_total_to_base [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_axioms_total_weq [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_axioms_disp_to_total [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_axioms_total_to_disp [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_axioms_total_to_fiber [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_axioms_total_to_base [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_data_total_weq [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_data_disp_to_total [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_data_total_to_disp [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_data_total_to_fiber [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_data_total_to_base [in UniMath.Bicategories.DisplayedBicats.DispAdjunctions]
left_adjoint_equivalence_of_adjoint_equivalence [in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_of_adjunction [in UniMath.Bicategories.Core.Adjunctions]
left_equivalence_counit_iso [in UniMath.Bicategories.Core.Adjunctions]
left_equivalence_unit_iso [in UniMath.Bicategories.Core.Adjunctions]
left_equivalence_of_left_adjoint_equivalence [in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_of_left_adjoint_equivalence [in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_equivalence [in UniMath.Bicategories.Core.Adjunctions]
left_equivalence [in UniMath.Bicategories.Core.Adjunctions]
left_equivalence_axioms [in UniMath.Bicategories.Core.Adjunctions]
left_adjoint [in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_axioms [in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_counit [in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_unit [in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_right_adjoint [in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_data [in UniMath.Bicategories.Core.Adjunctions]
left_adjoint_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
left_unitor_of_pointedfunctors [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
left_biadj_data_to_left_biadj_unit_counit [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
left_biadj_data [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
left_biadj_unit_counit [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
Left_Kleisli_is_left_adjoint [in UniMath.CategoryTheory.Monads.KleisliCategory]
Left_Kleisli_functor [in UniMath.CategoryTheory.Monads.KleisliCategory]
Left_Kleisli_functor_data [in UniMath.CategoryTheory.Monads.KleisliCategory]
left_unitor_to_nat_trans [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
left_unitor_funclass [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
left_unitor [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
left_adj_from_adj_equiv [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
left_adjequiv_invertible_2cell [in UniMath.Bicategories.Core.Univalence]
left_mult_Iso [in UniMath.Algebra.GroupAction]
left_mult [in UniMath.Algebra.GroupAction]
left_unit_as_nat_z_iso [in UniMath.CategoryTheory.HorizontalComposition]
left_adjoint_left_from_partial [in UniMath.CategoryTheory.Adjunctions.Core]
left_adj_from_partial [in UniMath.CategoryTheory.Adjunctions.Core]
left_adjoint_from_partial [in UniMath.CategoryTheory.Adjunctions.Core]
left_adjoint [in UniMath.CategoryTheory.Adjunctions.Core]
left_functor [in UniMath.CategoryTheory.Adjunctions.Core]
left_adjoint_equivalence_to_is_catiso [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
left_adj_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
left_adjequiv [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
left_unitor [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
left_unitor_2mor [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
left_unitor_trans [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
left_unitor_trans_type [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
left_adj_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
left_adj_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
LEM [in UniMath.MoreFoundations.DecidablePropositions]
lemma_11_unfolded [in UniMath.Induction.M.Chains]
length [in UniMath.CategoryTheory.Inductives.Lists]
length [in UniMath.Combinatorics.Lists]
length [in UniMath.Combinatorics.FiniteSequences]
length' [in UniMath.Combinatorics.FiniteSequences]
leNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
leNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
lexicalEnumeration [in UniMath.Combinatorics.StandardFiniteSets]
lexicographicOrder [in UniMath.Combinatorics.OrderedSets]
le_S [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
le_n [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
Lge [in UniMath.Algebra.Lattice]
Lgt [in UniMath.Algebra.Lattice]
lhs [in UniMath.Algebra.Universal.Equations]
LHS [in UniMath.SubstitutionSystems.MonadsMultiSorted]
lideal [in UniMath.Algebra.RigsAndRings.Ideals]
lifted_functor [in UniMath.CategoryTheory.DisplayedCats.Core]
lifted_functor_axioms [in UniMath.CategoryTheory.DisplayedCats.Core]
lifted_functor_data [in UniMath.CategoryTheory.DisplayedCats.Core]
lifted_action [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifted_action_convertor [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifted_action_convertor_nat_trans [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifted_action_right_unitor [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifted_action_right_unitor_nat_trans [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifted_odot [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
lifting [in UniMath.CategoryTheory.Monads.MonadAlgebras]
lifting_from_dist_law [in UniMath.CategoryTheory.Monads.MonadAlgebras]
lifting_from_distr_law [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lifting_from_distr_law_data [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lifting_from_distr_law_data_on_ob [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
lift_1cell_of_pb_1cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
lift_2cell_to_cone_cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
lift_2cell_cone [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
lift_1cell_to_pb_1cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
lift_2cell_factor [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
lift_2cell_factor_type [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
lift_1cell_factor [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
lift_functor_into_reindex_disp_nat_trans [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_disp_nat_trans_axioms [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_disp_nat_trans_data [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_commute [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_commute_axioms [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_commute_data [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_axioms [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_functor_into_reindex_data [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
lift_lmodule [in UniMath.SubstitutionSystems.ModulesFromSignatures]
lift_LModule_data [in UniMath.SubstitutionSystems.ModulesFromSignatures]
lift_lm_mult [in UniMath.SubstitutionSystems.ModulesFromSignatures]
lift_monad [in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_μ [in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_η [in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_functor [in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_μ_commutes [in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_η_commutes [in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_eq [in UniMath.CategoryTheory.Monads.MonadAlgebras]
lift_diagram_full_subcategory [in UniMath.CategoryTheory.Subcategory.Limits]
lim [in UniMath.CategoryTheory.limits.cats.limits]
lim [in UniMath.CategoryTheory.limits.graphs.limits]
limArrow [in UniMath.CategoryTheory.limits.cats.limits]
limArrow [in UniMath.CategoryTheory.limits.graphs.limits]
limCone [in UniMath.CategoryTheory.limits.cats.limits]
LimCone [in UniMath.CategoryTheory.limits.cats.limits]
limCone [in UniMath.CategoryTheory.limits.graphs.limits]
LimCone [in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctor [in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor [in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctor_data [in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor_mor [in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor_ob [in UniMath.CategoryTheory.limits.cats.limits]
LimFunctor_data [in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctor_mor [in UniMath.CategoryTheory.limits.graphs.limits]
LimFunctor_ob [in UniMath.CategoryTheory.limits.graphs.limits]
Limit [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Limits [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
limits_isBinCoproductCocone_from_isBinCoproduct [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
limit_up_weq [in UniMath.Induction.M.Limits]
limOfArrows [in UniMath.CategoryTheory.limits.cats.limits]
limOfArrows [in UniMath.CategoryTheory.limits.graphs.limits]
limOut [in UniMath.CategoryTheory.limits.cats.limits]
limOut [in UniMath.CategoryTheory.limits.graphs.limits]
Lims [in UniMath.CategoryTheory.limits.cats.limits]
Lims [in UniMath.CategoryTheory.limits.graphs.limits]
limset [in UniMath.CategoryTheory.categories.HSET.Limits]
limset_UU [in UniMath.CategoryTheory.categories.HSET.Limits]
Lims_of_shape [in UniMath.CategoryTheory.limits.cats.limits]
Lims_of_shape [in UniMath.CategoryTheory.limits.graphs.limits]
lim_functor [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Lim_seq [in UniMath.RealNumbers.NonnegativeReals]
lim_nat_trans_in_data [in UniMath.CategoryTheory.limits.cats.limits]
lim_nat_trans_in_data [in UniMath.CategoryTheory.limits.graphs.limits]
linearfun [in UniMath.Algebra.Modules.Core]
linearfuncomp [in UniMath.Algebra.Modules.Core]
linearfun_islinear [in UniMath.Algebra.Modules.Core]
linvpair [in UniMath.Algebra.Domains_and_Fields]
linvpairxy [in UniMath.Algebra.Domains_and_Fields]
linvunitor [in UniMath.Bicategories.Core.Bicat]
linvunitor_pstrans [in UniMath.Bicategories.Transformations.Examples.Unitality]
linvunitor_pstrans_is_pstrans [in UniMath.Bicategories.Transformations.Examples.Unitality]
linvunitor_pstrans_data [in UniMath.Bicategories.Transformations.Examples.Unitality]
linvunitor_lunitor [in UniMath.Bicategories.Core.Bicat]
linvunitor_lunitor_pstrans [in UniMath.Bicategories.Modifications.Examples.Unitality]
linvunitor_lunitor_pstrans_is_modification [in UniMath.Bicategories.Modifications.Examples.Unitality]
linvunitor_lunitor_pstrans_data [in UniMath.Bicategories.Modifications.Examples.Unitality]
linvunitor_invertible_2cell [in UniMath.Bicategories.Core.Invertible_2cells]
List [in UniMath.CategoryTheory.Inductives.Lists]
list [in UniMath.Combinatorics.Lists]
listset [in UniMath.Combinatorics.MoreLists]
list_cons [in UniMath.Algebra.Universal.Examples.ListDataType]
list_nil [in UniMath.Algebra.Universal.Examples.ListDataType]
list_algebra [in UniMath.Algebra.Universal.Examples.ListDataType]
list_signature [in UniMath.Algebra.Universal.Examples.ListDataType]
list_sort_idx [in UniMath.Algebra.Universal.Examples.ListDataType]
Lle [in UniMath.Algebra.Lattice]
Lle_notLgt [in UniMath.Algebra.Lattice]
lmap [in UniMath.CategoryTheory.Profunctors.Core]
Lmax [in UniMath.Algebra.Lattice]
Lmax_Lgt [in UniMath.Algebra.Lattice]
Lmax_ge_eq_r [in UniMath.Algebra.Lattice]
Lmax_ge_eq_l [in UniMath.Algebra.Lattice]
Lmax_ge_case [in UniMath.Algebra.Lattice]
Lmax_ge_r [in UniMath.Algebra.Lattice]
Lmax_ge_l [in UniMath.Algebra.Lattice]
Lmax_absorb [in UniMath.Algebra.Lattice]
lmf_from_param_distr_bicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_μ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_μ_data [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_ε [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lmf_from_param_distr_bicat_functor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Lmin [in UniMath.Algebra.Lattice]
Lmin_Lgt [in UniMath.Algebra.Lattice]
Lmin_ge_eq_r [in UniMath.Algebra.Lattice]
Lmin_ge_eq_l [in UniMath.Algebra.Lattice]
Lmin_ge_case [in UniMath.Algebra.Lattice]
Lmin_ge_r [in UniMath.Algebra.Lattice]
Lmin_ge_l [in UniMath.Algebra.Lattice]
Lmin_absorb [in UniMath.Algebra.Lattice]
LModule [in UniMath.CategoryTheory.Monads.LModules]
LModule_deriv [in UniMath.CategoryTheory.Monads.Derivative]
LModule_comp_laws [in UniMath.CategoryTheory.Monads.Derivative]
LModule_comp_data [in UniMath.CategoryTheory.Monads.Derivative]
LModule_same_func_iso [in UniMath.CategoryTheory.Monads.LModules]
LModule_same_func_Mor [in UniMath.CategoryTheory.Monads.LModules]
LModule_forget_functor [in UniMath.CategoryTheory.Monads.LModules]
LModule_forget_is_functor [in UniMath.CategoryTheory.Monads.LModules]
LModule_forget_functor_data [in UniMath.CategoryTheory.Monads.LModules]
LModule_Mor_equiv [in UniMath.CategoryTheory.Monads.LModules]
LModule_composition [in UniMath.CategoryTheory.Monads.LModules]
LModule_identity [in UniMath.CategoryTheory.Monads.LModules]
LModule_Mor_σ [in UniMath.CategoryTheory.Monads.LModules]
LModule_Mor [in UniMath.CategoryTheory.Monads.LModules]
LModule_Mor_laws [in UniMath.CategoryTheory.Monads.LModules]
LModule_data_from_LModule [in UniMath.CategoryTheory.Monads.LModules]
LModule_laws [in UniMath.CategoryTheory.Monads.LModules]
LModule_data [in UniMath.CategoryTheory.Monads.LModules]
lm_mult [in UniMath.CategoryTheory.Monads.LModules]
locality [in UniMath.AlgebraicGeometry.SheavesOfRings]
localization [in UniMath.CategoryTheory.Subcategory.Reflective]
LocalizationUniversalFunctor [in UniMath.CategoryTheory.LocalizingClass]
LocalizationUniversalFunctorComm [in UniMath.CategoryTheory.LocalizingClass]
localization_at [in UniMath.Algebra.RigsAndRings.Ideals]
locally [in UniMath.Topology.Topology]
locally_contractible_to_obj_prop [in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_contractible_disp_iso [in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_propositional_to_obj_set [in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_contractible_if_locally_inhabited_prop [in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_inhabited_if_locally_contractible [in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_propositional_if_locally_contractible [in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_contractible [in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_inhabited [in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_propositional [in UniMath.CategoryTheory.DisplayedCats.Projection]
locally_groupoid [in UniMath.Bicategories.Core.Bicat]
locally_strict [in UniMath.Bicategories.Core.Strictness]
locally_base [in UniMath.Topology.Topology]
locally_groupoid_psfunctor_bicat [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
locally2d [in UniMath.Topology.Topology]
local_fib_weq_local_cleaving [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
local_fib_to_local_cleaving [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
local_cleaving_to_local_fib [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
local_fib [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
local_cleaving [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
local_iso_cleaving_1cell [in UniMath.Bicategories.DisplayedBicats.Fibration]
local_iso_cleaving [in UniMath.Bicategories.DisplayedBicats.Fibration]
local_equivalence [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
local_iso_cleaving_id [in UniMath.Bicategories.DisplayedBicats.DispToFiberEquivalence]
LocSqr1 [in UniMath.CategoryTheory.LocalizingClass]
LocSqr1Comm [in UniMath.CategoryTheory.LocalizingClass]
LocSqr1Mor1 [in UniMath.CategoryTheory.LocalizingClass]
LocSqr1Mor2 [in UniMath.CategoryTheory.LocalizingClass]
LocSqr1Mor2Is [in UniMath.CategoryTheory.LocalizingClass]
LocSqr1Ob [in UniMath.CategoryTheory.LocalizingClass]
LocSqr2 [in UniMath.CategoryTheory.LocalizingClass]
LocSqr2Comm [in UniMath.CategoryTheory.LocalizingClass]
LocSqr2Mor1 [in UniMath.CategoryTheory.LocalizingClass]
LocSqr2Mor2 [in UniMath.CategoryTheory.LocalizingClass]
LocSqr2Mor2Is [in UniMath.CategoryTheory.LocalizingClass]
LocSqr2Ob [in UniMath.CategoryTheory.LocalizingClass]
loc_precategory [in UniMath.CategoryTheory.LocalizingClass]
loc_precategory_assoc_Roof [in UniMath.CategoryTheory.LocalizingClass]
loc_precategory_data [in UniMath.CategoryTheory.LocalizingClass]
loc_precategory_ob_mor [in UniMath.CategoryTheory.LocalizingClass]
logeq [in UniMath.Foundations.PartA]
logeqabgrdiffrels [in UniMath.Algebra.Groups]
logeqnegs [in UniMath.Foundations.PartA]
logeqweq [in UniMath.Foundations.Propositions]
logeq_trans [in UniMath.Foundations.PartA]
logeq_both_false [in UniMath.Foundations.PartA]
logeq_both_true [in UniMath.Foundations.PartA]
loop [in UniMath.SyntheticHomotopyTheory.Circle2]
loopsBG_comp_2 [in UniMath.Algebra.GroupAction]
loopsBG_comp' [in UniMath.Algebra.GroupAction]
loopsBG_comp [in UniMath.Algebra.GroupAction]
loopSpace [in UniMath.MoreFoundations.PartA]
loop_correspondence' [in UniMath.MoreFoundations.MoreEquivalences]
loop_correspondence [in UniMath.MoreFoundations.MoreEquivalences]
loop_power [in UniMath.NumberSystems.Integers]
loop_power_nat [in UniMath.MoreFoundations.PartA]
loop_loop' [in UniMath.SyntheticHomotopyTheory.Circle2]
loop' [in UniMath.SyntheticHomotopyTheory.Circle2]
lt [in UniMath.Combinatorics.WellOrderedSets]
ltNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
ltNonnegativeRationals_noteq [in UniMath.RealNumbers.NonnegativeRationals]
ltNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
Ltop [in UniMath.Algebra.Lattice]
lt_to_nleq [in UniMath.Algebra.FixedPointTheorems]
lt_gtNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
lt_leNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
lunax [in UniMath.Algebra.Monoids]
lunax_is [in UniMath.Algebra.BinaryOperations]
lunitor [in UniMath.Bicategories.Core.Bicat]
lunitor_pstrans [in UniMath.Bicategories.Transformations.Examples.Unitality]
lunitor_pstrans_is_pstrans [in UniMath.Bicategories.Transformations.Examples.Unitality]
lunitor_pstrans_data [in UniMath.Bicategories.Transformations.Examples.Unitality]
lunitor_transf [in UniMath.Bicategories.Core.Bicat]
lunitor_linvunitor [in UniMath.Bicategories.Core.Bicat]
lunitor_linvunitor_pstrans [in UniMath.Bicategories.Modifications.Examples.Unitality]
lunitor_linvunitor_pstrans_is_modification [in UniMath.Bicategories.Modifications.Examples.Unitality]
lunitor_linvunitor_pstrans_data [in UniMath.Bicategories.Modifications.Examples.Unitality]
lunitor_invertible_2cell [in UniMath.Bicategories.Core.Invertible_2cells]
lunitor_triangle [in UniMath.Bicategories.Core.Unitors]
lunit_left_gen [in UniMath.CategoryTheory.HorizontalComposition]
lwhisker [in UniMath.Bicategories.Core.Bicat]
lwhisker [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
lwhisker [in UniMath.CategoryTheory.Core.TwoCategories]
lwhisker_cartesian [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
lwhisker_lwhisker [in UniMath.Bicategories.Core.Bicat]
lwhisker_vcomp [in UniMath.Bicategories.Core.Bicat]
lwhisker_id2 [in UniMath.Bicategories.Core.Bicat]
lwhisker_of_invertible_2cell [in UniMath.Bicategories.Core.Invertible_2cells]
lwhisker_with_ϵ_inv2cell [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lwhisker_with_invrunitor_inv2cell [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lwhisker_with_invlunitor_inv2cell [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lwhisker_with_linvunitor_inv2cell [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lwhisker_rwhisker_with_ϵ_inv_inv2cell [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lwhisker_with_μ_inv_inv2cell [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
lwhisker_lwhisker [in UniMath.CategoryTheory.Core.TwoCategories]
lwhisker_vcomp [in UniMath.CategoryTheory.Core.TwoCategories]
lwhisker_id2 [in UniMath.CategoryTheory.Core.TwoCategories]
L_A [in UniMath.CategoryTheory.Inductives.Lists]
L_A [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]

M

M [in UniMath.Induction.M.Core]
M [in UniMath.Induction.M.ComputationalM]
M [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
magnitude [in UniMath.Algebra.Matrix]
make [in UniMath.Algebra.GroupAction]
make [in UniMath.Combinatorics.MetricTree]
makeAction [in UniMath.Algebra.GroupAction]
makecategory [in UniMath.CategoryTheory.Core.Categories]
makecategory_data [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makecategory_ob_mor [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeEpiCokernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
makeEquivalence [in UniMath.MoreFoundations.Equivalences]
makeFunctor [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeFunctor_op [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeGH [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_diagonalLoop_comp2 [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_diagonalLoop_comp1 [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_diagonalLoop [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_transPath_comp2 [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_transPath_comp1 [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_transPath [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_horizontalPath_comp2 [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_horizontalPath_comp1 [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_horizontalPath [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_verticalPath_comp2 [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_verticalPath_comp1 [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_verticalPath [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_localPath_comp2 [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_localPath_comp1 [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH_localPath [in UniMath.SyntheticHomotopyTheory.Circle]
makeGH1 [in UniMath.SyntheticHomotopyTheory.Circle]
makeGuidedHomotopy [in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_diagonalPath_comp [in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_diagonalPath [in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_transPath_comp [in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_transPath [in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_verticalPath_comp [in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_verticalPath [in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_localPath_comp [in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy_localPath [in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy1 [in UniMath.SyntheticHomotopyTheory.AffineLine]
makeGuidedHomotopy2 [in UniMath.SyntheticHomotopyTheory.AffineLine]
makeMonicKernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
makeNatiso [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeNatiso_op [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeNattrans [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeNattrans_op [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
makeNullHomotopy [in UniMath.SyntheticHomotopyTheory.Halfline]
makeRepresentation [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
makeSubset [in UniMath.MoreFoundations.Sets]
make_sheaf_commring [in UniMath.AlgebraicGeometry.SheavesOfRings]
make_KADTriData [in UniMath.HomologicalAlgebra.KAPreTriangulated]
make_Presheaf [in UniMath.CategoryTheory.GrothendieckTopos]
make_AddEquiv [in UniMath.CategoryTheory.AdditiveFunctors]
make_AdditiveFunctor [in UniMath.CategoryTheory.AdditiveFunctors]
make_isAdditiveFunctor' [in UniMath.CategoryTheory.AdditiveFunctors]
make_isAdditiveFunctor [in UniMath.CategoryTheory.AdditiveFunctors]
make_listAlgebra [in UniMath.CategoryTheory.Inductives.Lists]
make_PreShv_functor_iso_helper [in UniMath.CategoryTheory.Presheaf]
make_fully_faithful [in UniMath.Bicategories.Core.FullyFaithful]
make_mor [in UniMath.CategoryTheory.Elements]
make_ob [in UniMath.CategoryTheory.Elements]
make_Abelian [in UniMath.CategoryTheory.Abelian]
make_AbelianData [in UniMath.CategoryTheory.Abelian]
make_EpisAreCokernels [in UniMath.CategoryTheory.Abelian]
make_MonicsAreKernels [in UniMath.CategoryTheory.Abelian]
make_Data2 [in UniMath.CategoryTheory.Abelian]
make_Data1 [in UniMath.CategoryTheory.Abelian]
make_prime_ideal [in UniMath.Algebra.RigsAndRings.Ideals]
make_ideal [in UniMath.Algebra.RigsAndRings.Ideals]
make_rideal [in UniMath.Algebra.RigsAndRings.Ideals]
make_lideal [in UniMath.Algebra.RigsAndRings.Ideals]
make_moduleiso [in UniMath.Algebra.Modules.Core]
make_modulefun [in UniMath.Algebra.Modules.Core]
make_ismodulefun [in UniMath.Algebra.Modules.Core]
make_linearfun [in UniMath.Algebra.Modules.Core]
make_module [in UniMath.Algebra.Modules.Core]
make_RelModule [in UniMath.CategoryTheory.Monads.RelativeModules]
make_relmodule_data [in UniMath.CategoryTheory.Monads.RelativeModules]
make_has_pb_ump [in UniMath.Bicategories.Colimits.Pullback]
make_pb_2cell [in UniMath.Bicategories.Colimits.Pullback]
make_pb_1cell [in UniMath.Bicategories.Colimits.Pullback]
make_pb_cone [in UniMath.Bicategories.Colimits.Pullback]
make_mor [in UniMath.CategoryTheory.ElementsOp]
make_ob [in UniMath.CategoryTheory.ElementsOp]
make_STLC_Algebra [in UniMath.SubstitutionSystems.STLC]
make_varspec [in UniMath.Algebra.Universal.VTerms]
make_disp_psfunctor_data [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
make_ExactCategory [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
make_RoofEqclass [in UniMath.CategoryTheory.LocalizingClass]
make_RoofTop [in UniMath.CategoryTheory.LocalizingClass]
make_Coroof [in UniMath.CategoryTheory.LocalizingClass]
make_Roof [in UniMath.CategoryTheory.LocalizingClass]
make_GH [in UniMath.SyntheticHomotopyTheory.Circle]
make_Terminal [in UniMath.CategoryTheory.limits.graphs.terminal]
make_isTerminal [in UniMath.CategoryTheory.limits.graphs.terminal]
make_pstrans_data_on_data [in UniMath.Bicategories.Transformations.PseudoTransformation]
make_pstrans [in UniMath.Bicategories.Transformations.PseudoTransformation]
make_pstrans_data [in UniMath.Bicategories.Transformations.PseudoTransformation]
make_vec [in UniMath.Combinatorics.Vectors]
make_invertible_2cell [in UniMath.Bicategories.Core.Bicat]
make_is_invertible_2cell [in UniMath.Bicategories.Core.Bicat]
make_prebicat_data [in UniMath.Bicategories.Core.Bicat]
make_Dcuts [in UniMath.RealNumbers.NonnegativeReals]
make_FiveRowMorphism [in UniMath.CategoryTheory.FiveLemma]
make_FiveRowMorsComm [in UniMath.CategoryTheory.FiveLemma]
make_FiveRowMors [in UniMath.CategoryTheory.FiveLemma]
make_FiveRow [in UniMath.CategoryTheory.FiveLemma]
make_FiveRowExacts [in UniMath.CategoryTheory.FiveLemma]
make_FiveRowDiffsEq [in UniMath.CategoryTheory.FiveLemma]
make_FiveRowDiffs [in UniMath.CategoryTheory.FiveLemma]
make_FiveRowObs [in UniMath.CategoryTheory.FiveLemma]
make_disp_invmodification' [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
make_disp_invmodification [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
make_disp_pstrans [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
make_disp_psfunctor [in UniMath.Bicategories.DisplayedBicats.DispBuilders]
make_abgr_isKernel_Criteria [in UniMath.CategoryTheory.categories.abgrs]
make_abgr_epi_cokernel_isCokernel [in UniMath.CategoryTheory.categories.abgrs]
make_abgr_monic_Kernel_isKernel [in UniMath.CategoryTheory.categories.abgrs]
make_abgr_CokernelOut [in UniMath.CategoryTheory.categories.abgrs]
make_kleisli_triple_on_functor [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
make_kleisli_triple [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
make_directed [in UniMath.Algebra.FixedPointTheorems]
make_least_upper_bound [in UniMath.Algebra.FixedPointTheorems]
make_greatest_suchthat [in UniMath.Algebra.FixedPointTheorems]
make_least_suchthat [in UniMath.Algebra.FixedPointTheorems]
make_abmonoid' [in UniMath.Algebra.Monoids]
make_abmonoid [in UniMath.Algebra.Monoids]
make_submonoid [in UniMath.Algebra.Monoids]
make_issubmonoid [in UniMath.Algebra.Monoids]
make_monoidiso [in UniMath.Algebra.Monoids]
make_monoidmono [in UniMath.Algebra.Monoids]
make_ismonoidfun [in UniMath.Algebra.Monoids]
make_monoid [in UniMath.Algebra.Monoids]
make_Coequalizer [in UniMath.CategoryTheory.limits.graphs.coequalizers]
make_isCoequalizer [in UniMath.CategoryTheory.limits.graphs.coequalizers]
make_isolated [in UniMath.Foundations.PartB]
make_incl [in UniMath.Foundations.PartB]
make_isCoproduct [in UniMath.CategoryTheory.limits.coproducts]
make_Coproduct [in UniMath.CategoryTheory.limits.coproducts]
make_functor [in UniMath.CategoryTheory.Core.Functors]
make_functor_data [in UniMath.CategoryTheory.Core.Functors]
make_total_cell [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
make_total_mor [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
make_total_ob [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
make_isInitial [in UniMath.CategoryTheory.limits.initial]
make_Initial [in UniMath.CategoryTheory.limits.initial]
make_Pushout [in UniMath.CategoryTheory.limits.graphs.pushouts]
make_isPushout [in UniMath.CategoryTheory.limits.graphs.pushouts]
make_isPushout [in UniMath.CategoryTheory.limits.pushouts]
make_Pushout [in UniMath.CategoryTheory.limits.pushouts]
make_isBinCoproduct [in UniMath.CategoryTheory.limits.bincoproducts]
make_BinCoproduct [in UniMath.CategoryTheory.limits.bincoproducts]
make_module_eqrel [in UniMath.Algebra.Modules.Quotient]
make_term [in UniMath.Algebra.Universal.Terms]
make_CCS_Algebra [in UniMath.SubstitutionSystems.CCS_alt]
make_disp_univalent_category [in UniMath.CategoryTheory.DisplayedCats.Core]
make_iso_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
make_disp_cat_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Core]
make_twobinopeqrel [in UniMath.Algebra.BinaryOperations]
make_twobinoppo [in UniMath.Algebra.BinaryOperations]
make_twobinophrel [in UniMath.Algebra.BinaryOperations]
make_subsetswith2binop [in UniMath.Algebra.BinaryOperations]
make_twobinopiso [in UniMath.Algebra.BinaryOperations]
make_twobinopmono [in UniMath.Algebra.BinaryOperations]
make_twobinopfun [in UniMath.Algebra.BinaryOperations]
make_istwobinopfun [in UniMath.Algebra.BinaryOperations]
make_setwith2binop [in UniMath.Algebra.BinaryOperations]
make_binopeqrel [in UniMath.Algebra.BinaryOperations]
make_binoppo [in UniMath.Algebra.BinaryOperations]
make_binophrel [in UniMath.Algebra.BinaryOperations]
make_isbinophrel [in UniMath.Algebra.BinaryOperations]
make_subsetswithbinop [in UniMath.Algebra.BinaryOperations]
make_binopiso [in UniMath.Algebra.BinaryOperations]
make_binopmono [in UniMath.Algebra.BinaryOperations]
make_binopfun [in UniMath.Algebra.BinaryOperations]
make_isbinopfun [in UniMath.Algebra.BinaryOperations]
make_setwithbinop [in UniMath.Algebra.BinaryOperations]
make_isringops [in UniMath.Algebra.BinaryOperations]
make_isrigops [in UniMath.Algebra.BinaryOperations]
make_isabgrop [in UniMath.Algebra.BinaryOperations]
make_isabmonoidop [in UniMath.Algebra.BinaryOperations]
make_isgrop [in UniMath.Algebra.BinaryOperations]
make_invstruct [in UniMath.Algebra.BinaryOperations]
make_isinv [in UniMath.Algebra.BinaryOperations]
make_ismonoidop [in UniMath.Algebra.BinaryOperations]
make_isunital [in UniMath.Algebra.BinaryOperations]
make_isunit [in UniMath.Algebra.BinaryOperations]
make_signature_simple_single_sorted [in UniMath.Algebra.Universal.Signatures]
make_signature_simple [in UniMath.Algebra.Universal.Signatures]
make_signature_single_sorted [in UniMath.Algebra.Universal.Signatures]
make_signature [in UniMath.Algebra.Universal.Signatures]
make_folds_3_ob_mor [in UniMath.Folds.folds_pre_2_cat]
make_is_strict_bicat [in UniMath.Bicategories.Core.Strictness]
make_Equalizer [in UniMath.CategoryTheory.limits.graphs.equalizers]
make_isEqualizer [in UniMath.CategoryTheory.limits.graphs.equalizers]
make_disp_univalent_2 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
make_PDiff [in UniMath.CategoryTheory.PseudoElements]
make_PFiber [in UniMath.CategoryTheory.PseudoElements]
make_PEq [in UniMath.CategoryTheory.PseudoElements]
make_PseudoElem [in UniMath.CategoryTheory.PseudoElements]
make_image [in UniMath.Foundations.Propositions]
make_tildehProp [in UniMath.Foundations.Propositions]
make_hProp [in UniMath.Foundations.Propositions]
make_precategoryWithBinOps [in UniMath.CategoryTheory.CategoriesWithBinOps]
make_nat_z_iso [in UniMath.CategoryTheory.Core.NaturalTransformations]
make_nat_iso [in UniMath.CategoryTheory.Core.NaturalTransformations]
make_nat_trans [in UniMath.CategoryTheory.Core.NaturalTransformations]
make_biadj_data [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
make_biadj_unit_counit [in UniMath.Bicategories.PseudoFunctors.Biadjunction]
make_z_iso [in UniMath.CategoryTheory.Core.Isos]
make_is_z_isomorphism [in UniMath.CategoryTheory.Core.Isos]
make_is_inverse_in_precat [in UniMath.CategoryTheory.Core.Isos]
make_iso [in UniMath.CategoryTheory.Core.Isos]
make_Kernel [in UniMath.CategoryTheory.limits.kernels]
make_isKernel [in UniMath.CategoryTheory.limits.kernels]
make_F_alg [in UniMath.CategoryTheory.FunctorAlgebras]
make_CoproductCocone [in UniMath.CategoryTheory.RepresentableFunctors.Test]
make_isCoproductCocone [in UniMath.CategoryTheory.RepresentableFunctors.Test]
make_boolDcuts [in UniMath.RealNumbers.DecidableDedekindCuts]
make_cat_monad_cell [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_cat_monad_mor [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_cat_monad [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_bigmonad [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_monad_cell [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_monad_mor [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_monad [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
make_one_type [in UniMath.Bicategories.Core.Examples.OneTypes]
make_afld [in UniMath.PAdics.lemmas]
make_aintdom [in UniMath.PAdics.lemmas]
make_acommring [in UniMath.PAdics.lemmas]
make_isZero [in UniMath.CategoryTheory.limits.zero]
make_Zero [in UniMath.CategoryTheory.limits.zero]
make_Cokernel [in UniMath.CategoryTheory.limits.cokernels]
make_isCokernel [in UniMath.CategoryTheory.limits.cokernels]
make_abgr' [in UniMath.Algebra.Groups]
make_abgr [in UniMath.Algebra.Groups]
make_subgr [in UniMath.Algebra.Groups]
make_issubgr [in UniMath.Algebra.Groups]
make_gr' [in UniMath.Algebra.Groups]
make_gr [in UniMath.Algebra.Groups]
make_lambdaAlgebra [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
make_subobject_classifier [in UniMath.CategoryTheory.SubobjectClassifier]
make_folds_ob_mor [in UniMath.Folds.folds_precat]
make_STLC_M_Algebra [in UniMath.SubstitutionSystems.STLC_alt]
make_fld [in UniMath.Algebra.Domains_and_Fields]
make_multimodulefun [in UniMath.Algebra.Modules.Multimodules]
make_multilinearfun [in UniMath.Algebra.Modules.Multimodules]
make_disp_locally_groupoid_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.DispBicat]
make_disp_locally_groupoid [in UniMath.Bicategories.DisplayedBicats.DispBicat]
make_Equalizer [in UniMath.CategoryTheory.limits.equalizers]
make_isEqualizer [in UniMath.CategoryTheory.limits.equalizers]
make_BinDirectSums [in UniMath.CategoryTheory.limits.BinDirectSums]
make_BinDirectSum [in UniMath.CategoryTheory.limits.BinDirectSums]
make_isBinDirectSum [in UniMath.CategoryTheory.limits.BinDirectSums]
make_disp_pstrans_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
make_decSet [in UniMath.Combinatorics.DecSet]
make_enriched_functor [in UniMath.CategoryTheory.Enriched.Enriched]
make_enriched_functor_data [in UniMath.CategoryTheory.Enriched.Enriched]
make_enriched_precat [in UniMath.CategoryTheory.Enriched.Enriched]
make_enriched_precat_data [in UniMath.CategoryTheory.Enriched.Enriched]
make_is_bifinal [in UniMath.Bicategories.Colimits.Final]
make_is_bifinal' [in UniMath.Bicategories.Colimits.Final]
make_submodule [in UniMath.Algebra.Modules.Submodule]
make_issubmodule [in UniMath.Algebra.Modules.Submodule]
make_QuotcategoryComp [in UniMath.CategoryTheory.PreAdditive]
make_PreAdditive [in UniMath.CategoryTheory.PreAdditive]
make_isPreAdditive' [in UniMath.CategoryTheory.PreAdditive]
make_isPreAdditive [in UniMath.CategoryTheory.PreAdditive]
make_graph_mor [in UniMath.Combinatorics.Graph]
make_graph [in UniMath.Combinatorics.Graph]
make_pregraph [in UniMath.Combinatorics.Graph]
make_dispprodmor [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
make_prodmor [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
make_BinProductCone [in UniMath.CategoryTheory.limits.graphs.binproducts]
make_isBinProductCone [in UniMath.CategoryTheory.limits.graphs.binproducts]
make_CohomologyFunctorHIm [in UniMath.HomologicalAlgebra.CohomologyComplex]
make_are_adjoints [in UniMath.CategoryTheory.Adjunctions.Core]
make_form_adjunction [in UniMath.CategoryTheory.Adjunctions.Core]
make_discrete_category [in UniMath.CategoryTheory.Groupoids]
make_univalent_groupoid [in UniMath.CategoryTheory.Groupoids]
make_groupoid [in UniMath.CategoryTheory.Groupoids]
make_pregroupoid [in UniMath.CategoryTheory.Groupoids]
make_finstruct [in UniMath.Combinatorics.FiniteSets]
make_Triang [in UniMath.HomologicalAlgebra.Triangulated]
make_Octa [in UniMath.HomologicalAlgebra.Triangulated]
make_PreTriang [in UniMath.HomologicalAlgebra.Triangulated]
make_isPreTriang [in UniMath.HomologicalAlgebra.Triangulated]
make_TExt [in UniMath.HomologicalAlgebra.Triangulated]
make_DTri' [in UniMath.HomologicalAlgebra.Triangulated]
make_DTri [in UniMath.HomologicalAlgebra.Triangulated]
make_PreTriangData [in UniMath.HomologicalAlgebra.Triangulated]
make_ConeData [in UniMath.HomologicalAlgebra.Triangulated]
make_TriIso [in UniMath.HomologicalAlgebra.Triangulated]
make_TriMor_is_iso [in UniMath.HomologicalAlgebra.Triangulated]
make_TriMor [in UniMath.HomologicalAlgebra.Triangulated]
make_Tri [in UniMath.HomologicalAlgebra.Triangulated]
make_ShortShortExact_isCokernel [in UniMath.CategoryTheory.ShortExactSequences]
make_ShortShortExact_isKernel [in UniMath.CategoryTheory.ShortExactSequences]
make_ShortExact [in UniMath.CategoryTheory.ShortExactSequences]
make_RightShortExact [in UniMath.CategoryTheory.ShortExactSequences]
make_LeftShortExact [in UniMath.CategoryTheory.ShortExactSequences]
make_ShortShortExact [in UniMath.CategoryTheory.ShortExactSequences]
make_adj_equivalence_of_cats [in UniMath.CategoryTheory.Equivalences.Core]
make_catbinprod [in UniMath.CategoryTheory.PrecategoryBinProduct]
make_commring' [in UniMath.Algebra.RigsAndRings]
make_commring [in UniMath.Algebra.RigsAndRings]
make_gsubring [in UniMath.Algebra.RigsAndRings]
make_ring_from_ring' [in UniMath.Algebra.RigsAndRings]
make_ring' [in UniMath.Algebra.RigsAndRings]
make_ringiso [in UniMath.Algebra.RigsAndRings]
make_ring [in UniMath.Algebra.RigsAndRings]
make_commrig' [in UniMath.Algebra.RigsAndRings]
make_commrig [in UniMath.Algebra.RigsAndRings]
make_subrig [in UniMath.Algebra.RigsAndRings]
make_rigiso' [in UniMath.Algebra.RigsAndRings]
make_rigiso [in UniMath.Algebra.RigsAndRings]
make_isrigfun [in UniMath.Algebra.RigsAndRings]
make_rig [in UniMath.Algebra.RigsAndRings]
make_Monic [in UniMath.CategoryTheory.Monics]
make_isMonic [in UniMath.CategoryTheory.Monics]
make_isProduct [in UniMath.CategoryTheory.limits.products]
make_Product [in UniMath.CategoryTheory.limits.products]
make_eqalgebra [in UniMath.Algebra.Universal.EqAlgebras]
make_binprod_ump [in UniMath.Bicategories.Colimits.Products]
make_binprod_1cell [in UniMath.Bicategories.Colimits.Products]
make_binprod_cone [in UniMath.Bicategories.Colimits.Products]
make_CCS_Algebra [in UniMath.SubstitutionSystems.CCS]
make_Initial [in UniMath.CategoryTheory.limits.graphs.initial]
make_isInitial [in UniMath.CategoryTheory.limits.graphs.initial]
make_LimCone [in UniMath.CategoryTheory.limits.cats.limits]
make_cone [in UniMath.CategoryTheory.limits.cats.limits]
make_bounded_latticeob [in UniMath.CategoryTheory.LatticeObject]
make_latticeob [in UniMath.CategoryTheory.LatticeObject]
make_invertible_modification_on_data [in UniMath.Bicategories.Modifications.Modification]
make_invertible_modification [in UniMath.Bicategories.Modifications.Modification]
make_is_invertible_modification [in UniMath.Bicategories.Modifications.Modification]
make_modification [in UniMath.Bicategories.Modifications.Modification]
make_lambdaAlgebra [in UniMath.SubstitutionSystems.LamFromBindingSig]
make_univalent_category [in UniMath.CategoryTheory.Core.Univalence]
make_NNO [in UniMath.CategoryTheory.NNO]
make_ColimCocone [in UniMath.CategoryTheory.limits.graphs.colimits]
make_cocone [in UniMath.CategoryTheory.limits.graphs.colimits]
make_graph [in UniMath.CategoryTheory.limits.graphs.colimits]
make_bimodule [in UniMath.Algebra.Modules.Examples]
make_stn [in UniMath.Combinatorics.StandardFiniteSets]
make_is_invertible_strict_modification [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
make_is_invertible_strict_modification_inv_is_modification [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
make_strict_modification [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
make_strict_pstrans [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
make_strict_psfunctor [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
make_strict_psfunctor_data [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
make_treeAlgebra [in UniMath.CategoryTheory.Inductives.Trees]
make_Morphism [in UniMath.HomologicalAlgebra.Complexes]
make_Complex [in UniMath.HomologicalAlgebra.Complexes]
make_hom [in UniMath.Algebra.Universal.Algebras]
make_algebra_simple [in UniMath.Algebra.Universal.Algebras]
make_algebra_simple_single_sorted [in UniMath.Algebra.Universal.Algebras]
make_algebra [in UniMath.Algebra.Universal.Algebras]
make_psfunctor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
make_psfunctor_data [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
make_Pullback [in UniMath.CategoryTheory.limits.graphs.pullbacks]
make_isPullback [in UniMath.CategoryTheory.limits.graphs.pullbacks]
make_dcpo [in UniMath.Algebra.Dcpo]
make_compfun [in UniMath.Foundations.Sets]
make_setquot [in UniMath.Foundations.Sets]
make_decrel [in UniMath.Foundations.Sets]
make_eqrel [in UniMath.Foundations.Sets]
make_posetmorphism [in UniMath.Foundations.Sets]
make_Poset [in UniMath.Foundations.Sets]
make_PartialOrder [in UniMath.Foundations.Sets]
make_po [in UniMath.Foundations.Sets]
make_carrier [in UniMath.Foundations.Sets]
make_hSet [in UniMath.Foundations.Sets]
make_isPullback [in UniMath.CategoryTheory.limits.pullbacks]
make_Pullback [in UniMath.CategoryTheory.limits.pullbacks]
make_Zero [in UniMath.CategoryTheory.limits.graphs.zero]
make_isZero [in UniMath.CategoryTheory.limits.graphs.zero]
make_categoryWithAbgrops [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
make_categoryWithAbgropsData [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
make_mor [in UniMath.CategoryTheory.elems_slice_equiv]
make_ob [in UniMath.CategoryTheory.elems_slice_equiv]
make_isAdditive [in UniMath.CategoryTheory.Additive]
make_Additive [in UniMath.CategoryTheory.Additive]
make_AdditiveStructure [in UniMath.CategoryTheory.Additive]
make_wedge [in UniMath.CategoryTheory.Profunctors.Core]
make_dinatural_transformation [in UniMath.CategoryTheory.Profunctors.Core]
make_neqProp [in UniMath.MoreFoundations.NegativePropositions]
make_negProp [in UniMath.MoreFoundations.NegativePropositions]
make_compl_ne [in UniMath.MoreFoundations.NegativePropositions]
make_isolated_ne [in UniMath.MoreFoundations.NegativePropositions]
make_negimage [in UniMath.Foundations.PartC]
make_compl [in UniMath.Foundations.PartC]
make_section [in UniMath.AlgebraicGeometry.Spec]
make_InvTranslationFunctorHIm [in UniMath.HomologicalAlgebra.TranslationFunctors]
make_TranslationFunctorHIm [in UniMath.HomologicalAlgebra.TranslationFunctors]
make_hfsqstr [in UniMath.Foundations.PartA]
make_fibseqstr [in UniMath.Foundations.PartA]
make_weq [in UniMath.Foundations.PartA]
make_hfiber [in UniMath.Foundations.PartA]
make_iscontr [in UniMath.Foundations.PartA]
make_dirprod [in UniMath.Foundations.PartA]
make_Coequalizer [in UniMath.CategoryTheory.limits.coequalizers]
make_isCoequalizer [in UniMath.CategoryTheory.limits.coequalizers]
make_Under_mor [in UniMath.CategoryTheory.UnderCategories]
make_Under_ob [in UniMath.CategoryTheory.UnderCategories]
make_is_biequivalence_from_unit_counit [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
make_is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
make_Epi [in UniMath.CategoryTheory.Epis]
make_isEpi [in UniMath.CategoryTheory.Epis]
make_is_biinitial [in UniMath.Bicategories.Colimits.Initial]
make_is_biinitial' [in UniMath.Bicategories.Colimits.Initial]
make_monfunstn [in UniMath.CategoryTheory.SimplicialSets]
make_disp_2cell_cod [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
make_disp_1cell_cod [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
make_ar [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
make_BinCoproductCocone [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
make_isBinCoproductCocone [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
make_nat_alg_sec' [in UniMath.Induction.W.Naturals]
make_nat_alg_sec [in UniMath.Induction.W.Naturals]
make_nat_functor_algebra_mor [in UniMath.Induction.W.Naturals]
make_DirectSum [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
make_category [in UniMath.CategoryTheory.Core.Categories]
make_precategory_one_assoc [in UniMath.CategoryTheory.Core.Categories]
make_precategory [in UniMath.CategoryTheory.Core.Categories]
make_is_precategory_one_assoc [in UniMath.CategoryTheory.Core.Categories]
make_is_precategory [in UniMath.CategoryTheory.Core.Categories]
make_precategory_data [in UniMath.CategoryTheory.Core.Categories]
make_precategory_ob_mor [in UniMath.CategoryTheory.Core.Categories]
make_isTerminal [in UniMath.CategoryTheory.limits.terminal]
make_Terminal [in UniMath.CategoryTheory.limits.terminal]
make_ShortShortExactData [in UniMath.CategoryTheory.Morphisms]
make_MorphismPairIsomorphism [in UniMath.CategoryTheory.Morphisms]
make_MPMor [in UniMath.CategoryTheory.Morphisms]
make_MPMorComms [in UniMath.CategoryTheory.Morphisms]
make_MPMorMors [in UniMath.CategoryTheory.Morphisms]
make_MorphismPair [in UniMath.CategoryTheory.Morphisms]
make_Morphism [in UniMath.CategoryTheory.Morphisms]
make_LimCone [in UniMath.CategoryTheory.limits.graphs.limits]
make_cone [in UniMath.CategoryTheory.limits.graphs.limits]
make_isBinProduct [in UniMath.CategoryTheory.limits.binproducts]
make_BinProduct [in UniMath.CategoryTheory.limits.binproducts]
map [in UniMath.CategoryTheory.Inductives.Lists]
map [in UniMath.CategoryTheory.Inductives.Trees]
map [in UniMath.Combinatorics.Lists]
map [in UniMath.SyntheticHomotopyTheory.AffineLine]
map [in UniMath.SyntheticHomotopyTheory.Halfline]
map [in UniMath.CategoryTheory.Monads.KTriples]
mapchain [in UniMath.CategoryTheory.Chains.Chains]
mapcochain [in UniMath.CategoryTheory.Chains.Cochains]
mapcocone [in UniMath.CategoryTheory.limits.graphs.colimits]
mapcone [in UniMath.CategoryTheory.limits.graphs.limits]
mapdiagram [in UniMath.CategoryTheory.limits.graphs.colimits]
maponcomplincl [in UniMath.Foundations.PartC]
maponcomplincl_ne [in UniMath.MoreFoundations.NegativePropositions]
maponpaths [in UniMath.Foundations.PartA]
maponpathscomp0 [in UniMath.Foundations.PartA]
maponpathshomidinv [in UniMath.Foundations.PartA]
maponpathsinv0 [in UniMath.Foundations.PartA]
maponpaths_fun_fun_fun_natl [in UniMath.MoreFoundations.Equivalences]
maponpaths_fun_fun_natl [in UniMath.MoreFoundations.Equivalences]
maponpaths_pr2_pathsdirprod [in UniMath.MoreFoundations.PartA]
maponpaths_pr1_pathsdirprod [in UniMath.MoreFoundations.PartA]
maponpaths_hfpg'_path_hfp [in UniMath.MoreFoundations.PartA]
maponpaths_hfpg_path_hfp [in UniMath.MoreFoundations.PartA]
maponpaths_pr1_pr2 [in UniMath.MoreFoundations.PartA]
maponpaths_idpath [in UniMath.MoreFoundations.PartA]
maponpaths_naturality' [in UniMath.MoreFoundations.PartA]
maponpaths_naturality [in UniMath.MoreFoundations.PartA]
maponpaths_1234 [in UniMath.MoreFoundations.PartA]
maponpaths_4 [in UniMath.MoreFoundations.PartA]
maponpaths_13 [in UniMath.MoreFoundations.PartA]
maponpaths_123 [in UniMath.MoreFoundations.PartA]
maponpaths_3 [in UniMath.MoreFoundations.PartA]
maponpaths_12 [in UniMath.MoreFoundations.PartA]
maponpaths_2 [in UniMath.MoreFoundations.PartA]
maponpaths_1 [in UniMath.MoreFoundations.PartA]
maponsec [in UniMath.Foundations.PartD]
maponsec1 [in UniMath.Foundations.PartD]
maponsec1l0 [in UniMath.Foundations.PartD]
mapPathOver [in UniMath.MoreFoundations.PathsOver]
MappingCone [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeDiff [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeDiff1 [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeDiff2 [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeDiff3 [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeIdHomot [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeIn2 [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeIn2Homot [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeMorExt [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeMorExtMor [in UniMath.HomologicalAlgebra.MappingCone]
MappingConePr1 [in UniMath.HomologicalAlgebra.MappingCone]
MappingConePr1Homot [in UniMath.HomologicalAlgebra.MappingCone]
MappingConeTri [in UniMath.HomologicalAlgebra.KAPreTriangulated]
MappingCylinder [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderDiff [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderDiff1 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderDiff2 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderDiff3 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIso [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIsoHomot_mor2 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderIsoHomot_mor1 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderMor1 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderMor1_mor [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderMor2 [in UniMath.HomologicalAlgebra.MappingCylinder]
MappingCylinderMor2_mor [in UniMath.HomologicalAlgebra.MappingCylinder]
maps_pb_squares_to_pb_squares [in UniMath.CategoryTheory.limits.pullbacks]
maps_pb_square_to_pb_square [in UniMath.CategoryTheory.limits.pullbacks]
mapUniqueness [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
map_inv_alg [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
map_to_K [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
map_path_check [in UniMath.SyntheticHomotopyTheory.AffineLine]
map_path [in UniMath.SyntheticHomotopyTheory.AffineLine]
map_on_two_paths [in UniMath.Foundations.PartA]
map_path_check [in UniMath.SyntheticHomotopyTheory.Halfline]
map_path [in UniMath.SyntheticHomotopyTheory.Halfline]
Map1 [in UniMath.CategoryTheory.Morphisms]
map1cells [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_is_univalent_2 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_is_univalent_2_0 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_univalent_2_0 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_bicat [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_prebicat [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_ops_laws [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_ops [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_prebicat_1 [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_cat_2cell [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_cat_id_comp [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
map1cells_disp_cat [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
Map2 [in UniMath.CategoryTheory.Morphisms]
map2cells_is_disp_univalent_2 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
map2cells_is_disp_univalent_2_0 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
map2cells_is_disp_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
map2cells_disp_cat [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
map2cells_disp_cat_id_comp [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
map2cells_disp_cat_data [in UniMath.Bicategories.PseudoFunctors.Display.Map2Cells]
Map3 [in UniMath.CategoryTheory.Morphisms]
Matrix [in UniMath.Combinatorics.FiniteSequences]
matrix_mult_assoc_statement [in UniMath.Algebra.Matrix]
matrix_mult [in UniMath.Algebra.Matrix]
max [in UniMath.Foundations.Preamble]
maximal_sieve [in UniMath.CategoryTheory.Presheaf]
maximal_subgroupoid [in UniMath.CategoryTheory.Groupoids]
maxi_fun [in UniMath.Paradoxes.GirardsParadox]
maxNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
max_common_initial [in UniMath.Combinatorics.WellOrderedSets]
maybe [in UniMath.Combinatorics.Maybe]
maybe_monad [in UniMath.CategoryTheory.Monads.Derivative]
maybe_monad_data [in UniMath.CategoryTheory.Monads.Derivative]
maybe_eta [in UniMath.CategoryTheory.Monads.Derivative]
maybe_mu [in UniMath.CategoryTheory.Monads.Derivative]
maybe_functor [in UniMath.CategoryTheory.Monads.Derivative]
mbind [in UniMath.CategoryTheory.Monads.RelativeModules]
mbind_mbind [in UniMath.CategoryTheory.Monads.RelativeModules]
mbind_r_eta [in UniMath.CategoryTheory.Monads.RelativeModules]
MComm [in UniMath.HomologicalAlgebra.Complexes]
meet_mor_absorb_join_mor [in UniMath.CategoryTheory.LatticeObject]
meet_mor [in UniMath.CategoryTheory.LatticeObject]
merely_split_epi [in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_monic_to_monic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_monic_to_morphism [in UniMath.CategoryTheory.SplitMonicsAndEpis]
merely_split_monic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
mexch [in UniMath.CategoryTheory.Monads.Monads]
mexch_slice_as_bind_slice [in UniMath.SubstitutionSystems.MonadsMultiSorted]
mexch_slice [in UniMath.SubstitutionSystems.MonadsMultiSorted]
mexch_instantiated [in UniMath.SubstitutionSystems.MonadsMultiSorted]
mexch_instantiated [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
min [in UniMath.Foundations.Preamble]
minimal [in UniMath.Combinatorics.BoundedSearch]
minimal_n [in UniMath.Combinatorics.BoundedSearch]
minNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
minuseq0 [in UniMath.Foundations.NaturalNumbers]
minuseq0' [in UniMath.Foundations.NaturalNumbers]
minusgeh [in UniMath.Tactics.Nat_Tactics]
minusgth0 [in UniMath.Foundations.NaturalNumbers]
minusgth0inv [in UniMath.Foundations.NaturalNumbers]
minusminusmmn [in UniMath.Foundations.NaturalNumbers]
minusnn0 [in UniMath.Tactics.Nat_Tactics]
minusNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
minusNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
minusNonnegativeReals_le [in UniMath.RealNumbers.NonnegativeReals]
minusNonnegativeReals_correct_l [in UniMath.RealNumbers.NonnegativeReals]
minusNonnegativeReals_correct_r [in UniMath.RealNumbers.NonnegativeReals]
minusNonnegativeReals_eq_zero [in UniMath.RealNumbers.NonnegativeReals]
minusNonnegativeReals_plus_r [in UniMath.RealNumbers.NonnegativeReals]
minusplusnmm [in UniMath.Foundations.NaturalNumbers]
minusplusnmmineq [in UniMath.Foundations.NaturalNumbers]
minus_fld [in UniMath.RealNumbers.Fields]
minus0r [in UniMath.Tactics.Nat_Tactics]
minus1_is_l [in UniMath.Algebra.BinaryOperations]
min_n [in UniMath.Combinatorics.BoundedSearch]
min_n_UU [in UniMath.Combinatorics.BoundedSearch]
mkBindingSig [in UniMath.SubstitutionSystems.BindingSigToMonad]
mkbounded_lattice [in UniMath.Algebra.Lattice]
mkconst_dcpomor [in UniMath.Algebra.Dcpo]
mkdcpomorphism [in UniMath.Algebra.Dcpo]
mkfam [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
mkFilter [in UniMath.Topology.Filters]
mklattice [in UniMath.Algebra.Lattice]
mkMultiSortedSig [in UniMath.SubstitutionSystems.MultiSorted_alt]
mkMultiSortedSig [in UniMath.SubstitutionSystems.MultiSorted]
mkPreFilter [in UniMath.Topology.Filters]
mkTopologicalSet [in UniMath.Topology.Topology]
mkTopologicalSpace [in UniMath.AlgebraicGeometry.Topology]
mk_lax_monoidal_functor [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
mk_monoidal_cat [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
mlift [in UniMath.CategoryTheory.Monads.RelativeModules]
MLTT79 [in UniMath.SubstitutionSystems.MLTT79]
MLTT79Functor [in UniMath.SubstitutionSystems.MLTT79]
MLTT79Monad [in UniMath.SubstitutionSystems.MLTT79]
MLTT79Sig [in UniMath.SubstitutionSystems.MLTT79]
MLTT79Signature [in UniMath.SubstitutionSystems.MLTT79]
MMor [in UniMath.HomologicalAlgebra.Complexes]
modcomponent_eq [in UniMath.Bicategories.Modifications.Modification]
modcomponent_of [in UniMath.Bicategories.Modifications.Modification]
modification [in UniMath.Bicategories.Modifications.Modification]
modifications_help [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
modification_help_alt [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
modification_eq [in UniMath.Bicategories.Modifications.Modification]
modification_data [in UniMath.Bicategories.Modifications.Modification]
modification_inv_modification [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
modnaturality_of [in UniMath.Bicategories.Modifications.Modification]
module [in UniMath.Algebra.Modules.Core]
modulefun [in UniMath.Algebra.Modules.Core]
modulefun_from_monoidfun [in UniMath.Algebra.Modules.Core]
modulefun_to_monoidfun [in UniMath.Algebra.Modules.Core]
modulefun_comp [in UniMath.Algebra.Modules.Core]
modulefun_to_linearfun [in UniMath.Algebra.Modules.Core]
modulefun_to_islinear [in UniMath.Algebra.Modules.Core]
modulefun_to_binopfun [in UniMath.Algebra.Modules.Core]
modulefun_to_isbinopfun [in UniMath.Algebra.Modules.Core]
modulefun_ismodulefun [in UniMath.Algebra.Modules.Core]
modulehomabgr [in UniMath.Algebra.Modules.Core]
modulehombinop [in UniMath.Algebra.Modules.Core]
modulehombinop_smul [in UniMath.Algebra.Modules.Core]
modulehombinop_scalar_ismodulefun [in UniMath.Algebra.Modules.Core]
modulehombinop_inv [in UniMath.Algebra.Modules.Core]
modulehommodule [in UniMath.Algebra.Modules.Core]
moduleiso [in UniMath.Algebra.Modules.Core]
moduleiso_to_modulefun [in UniMath.Algebra.Modules.Core]
moduleiso_ismodulefun [in UniMath.Algebra.Modules.Core]
moduleiso_to_weq [in UniMath.Algebra.Modules.Core]
moduleiso_weq_iso [in UniMath.CategoryTheory.categories.modules]
moduleiso' [in UniMath.Algebra.Modules.Core]
moduleiso'_to_moduleweq_iso [in UniMath.Algebra.Modules.Core]
modules_univalence [in UniMath.CategoryTheory.categories.modules]
modules_univalence_map_isweq [in UniMath.CategoryTheory.categories.modules]
modules_univalence_map [in UniMath.CategoryTheory.categories.modules]
modules_univalence_weq [in UniMath.CategoryTheory.categories.modules]
moduletomonoid [in UniMath.Algebra.Modules.Core]
module_mult [in UniMath.Algebra.Modules.Core]
module_struct [in UniMath.Algebra.Modules.Core]
module_eqrelsubmodule [in UniMath.Algebra.Modules.Quotient]
module_eqrel [in UniMath.Algebra.Modules.Quotient]
module_image [in UniMath.Algebra.Modules.Submodule]
module_kernel_eq [in UniMath.Algebra.Modules.Submodule]
module_kernel [in UniMath.Algebra.Modules.Submodule]
mod_category_Zero [in UniMath.CategoryTheory.categories.modules]
mod_precategory_idtoisweq_iso [in UniMath.CategoryTheory.categories.modules]
mod_category [in UniMath.CategoryTheory.categories.modules]
mod_precategory [in UniMath.CategoryTheory.categories.modules]
mod_precategory_data [in UniMath.CategoryTheory.categories.modules]
mod_precategory_ob_mor [in UniMath.CategoryTheory.categories.modules]
mod_inv_naturality_of [in UniMath.Bicategories.Modifications.Modification]
Monad [in UniMath.CategoryTheory.Monads.Monads]
monad [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
MonadAlg [in UniMath.CategoryTheory.Monads.MonadAlgebras]
MonadAlg_precat [in UniMath.CategoryTheory.Monads.MonadAlgebras]
monadSubst [in UniMath.CategoryTheory.Monads.Monads]
monadSubstGen [in UniMath.CategoryTheory.Monads.Monads]
monadSubstGen_instantiated [in UniMath.SubstitutionSystems.MonadsMultiSorted]
monadSubstGen_fun [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
monadSubstGen_instantiated [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
monadSubst_instantiated [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
Monad_from_adjunction [in UniMath.CategoryTheory.Monads.Monads]
Monad_data_from_adjunction [in UniMath.CategoryTheory.Monads.Monads]
Monad_to_Monad'_to_Monad [in UniMath.CategoryTheory.Monads.Monads]
Monad_to_Monad' [in UniMath.CategoryTheory.Monads.Monads]
Monad_to_Monad'_data [in UniMath.CategoryTheory.Monads.Monads]
Monad_to_raw_data [in UniMath.CategoryTheory.Monads.Monads]
Monad_Mor_equiv [in UniMath.CategoryTheory.Monads.Monads]
Monad_composition [in UniMath.CategoryTheory.Monads.Monads]
Monad_identity [in UniMath.CategoryTheory.Monads.Monads]
Monad_Mor_μ [in UniMath.CategoryTheory.Monads.Monads]
Monad_Mor_η [in UniMath.CategoryTheory.Monads.Monads]
Monad_Mor [in UniMath.CategoryTheory.Monads.Monads]
Monad_Mor_laws [in UniMath.CategoryTheory.Monads.Monads]
Monad_data_from_Monad [in UniMath.CategoryTheory.Monads.Monads]
Monad_laws_pointfree_in_functor_category [in UniMath.CategoryTheory.Monads.Monads]
Monad_laws_pointfree [in UniMath.CategoryTheory.Monads.Monads]
Monad_laws [in UniMath.CategoryTheory.Monads.Monads]
Monad_data [in UniMath.CategoryTheory.Monads.Monads]
Monad_Kleisli_data [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
monad_mor_iso [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mor_natural_pointwise [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mor_nat_iso [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_bind [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_is_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_is_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_cell_natural [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mor_mu [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mor_unit [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mor_natural [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_μμ [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_μη [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_ημ [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_mu [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_unit [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_endo [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_data [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_support_is_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_support_is_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_support_is_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
monad_support [in UniMath.Bicategories.DisplayedBicats.Examples.Monads]
Monad_to_Kleisli_to_Monad [in UniMath.CategoryTheory.Monads.Kleisli]
Monad_to_Kleisli [in UniMath.CategoryTheory.Monads.Kleisli]
monad_to_deriv [in UniMath.CategoryTheory.Monads.Derivative]
monad_deriv [in UniMath.CategoryTheory.Monads.Derivative]
monad_to_comp [in UniMath.CategoryTheory.Monads.Derivative]
monad_to_comp_law2 [in UniMath.CategoryTheory.Monads.Derivative]
monad_to_comp_data [in UniMath.CategoryTheory.Monads.Derivative]
monad_comp [in UniMath.CategoryTheory.Monads.Derivative]
monad_comp_data [in UniMath.CategoryTheory.Monads.Derivative]
monad_comp_eta [in UniMath.CategoryTheory.Monads.Derivative]
monad_comp_mu [in UniMath.CategoryTheory.Monads.Derivative]
monad_dist_law4 [in UniMath.CategoryTheory.Monads.Derivative]
monad_dist_law3 [in UniMath.CategoryTheory.Monads.Derivative]
monad_dist_law2 [in UniMath.CategoryTheory.Monads.Derivative]
monad_dist_law1 [in UniMath.CategoryTheory.Monads.Derivative]
monad_dist_laws [in UniMath.CategoryTheory.Monads.Derivative]
Monad_biequiv_Ktriple [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple_psfunctor [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_disp_biequiv_Ktriple [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_biequiv_Ktriple_counit_inv [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_biequiv_Ktriple_unit_inv [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_biequiv_Ktriple_unit_counit [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_bequiv_Ktriple_counit [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_biequiv_Ktriple_unit [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple_compositor [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple_identitor [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple_functor [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
monad_mor_natural_pointwise [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_to_Ktriple_data [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
Monad_from_hss [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
Monad_Mor_from_hssMor [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad_Mor_laws_from_hssMor [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad_from_hss [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad_data_from_hss [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Monad' [in UniMath.CategoryTheory.Monads.Monads]
Monad'_to_Monad_to_Monad' [in UniMath.CategoryTheory.Monads.Monads]
Monad'_to_Monad [in UniMath.CategoryTheory.Monads.Monads]
Monad'_data_to_Monad_data [in UniMath.CategoryTheory.Monads.Monads]
Monad'_data [in UniMath.CategoryTheory.Monads.Monads]
Monad'_data_laws [in UniMath.CategoryTheory.Monads.Monads]
moncat1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
moncat2 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
monfunstn [in UniMath.CategoryTheory.SimplicialSets]
monfunstncomp [in UniMath.CategoryTheory.SimplicialSets]
monfunstnid [in UniMath.CategoryTheory.SimplicialSets]
monfunstnpr1 [in UniMath.CategoryTheory.SimplicialSets]
Monic [in UniMath.CategoryTheory.Monics]
MonicArrow [in UniMath.CategoryTheory.Monics]
MonicisMonic [in UniMath.CategoryTheory.Monics]
MonicKernelZero [in UniMath.CategoryTheory.Abelian]
MonicKernelZero_isKernel [in UniMath.CategoryTheory.Abelian]
MonicsAreKernels [in UniMath.CategoryTheory.Abelian]
MonicsAreKernels_opp [in UniMath.CategoryTheory.Abelian]
monics_Pullback [in UniMath.CategoryTheory.Abelian]
MonicToKernel [in UniMath.CategoryTheory.Abelian]
MonicToKernel' [in UniMath.CategoryTheory.Abelian]
Monic_comp [in UniMath.CategoryTheory.Monics]
Monic_opp [in UniMath.CategoryTheory.limits.Opp]
MonoFromZero [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
monoid [in UniMath.Algebra.Monoids]
monoidal_cat_from_bicat_and_ob [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
monoidal_cat_of_endofunctors [in UniMath.CategoryTheory.Monoidal.EndofunctorsMonoidal]
monoidal_functor_unitality [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_functor_associativity [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_functor_map_funclass [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_functor_map [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_functor_map_codom [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_functor_map_dom [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
monoidal_cat_of_pointedfunctors [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
monoidal_cat_eq [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat_associator [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat_right_unitor [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat_left_unitor [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat_unit [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat_tensor [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat_cat [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_cat [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
monoidal_functor_to_psfunctor [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
monoidal_functor_to_psfunctor_map_laws [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
monoidal_functor_to_psfunctor_map_data [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
monoidal_tensor_ax' [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
monoidal_tensor_ax [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
monoidal_tensor_section_data_from_monoidal_tensor_section [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
monoidal_tensor_section [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
monoidal_tensor_section_natural [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
monoidal_tensor_section_data [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
monoiddirprod [in UniMath.Algebra.Monoids]
monoidfun [in UniMath.Algebra.Monoids]
monoidfuncomp [in UniMath.Algebra.Monoids]
monoidfunconstr [in UniMath.Algebra.Monoids]
monoidfunfromunit [in UniMath.Algebra.Monoids]
monoidfunmul [in UniMath.Algebra.Monoids]
monoidfuntobinopfun [in UniMath.Algebra.Monoids]
monoidfuntounit [in UniMath.Algebra.Monoids]
monoidfununel [in UniMath.Algebra.Monoids]
monoidfun_to_isbinopfun [in UniMath.Algebra.Modules.Core]
monoidfun_paths [in UniMath.Algebra.Monoids]
monoidincltomonoidfun [in UniMath.Algebra.Monoids]
monoidiso [in UniMath.Algebra.Monoids]
monoidisotobinopiso [in UniMath.Algebra.Monoids]
monoidisotomonoidmono [in UniMath.Algebra.Monoids]
monoidiso_paths [in UniMath.Algebra.Monoids]
monoidiso' [in UniMath.Algebra.Monoids]
monoidmono [in UniMath.Algebra.Monoids]
monoidmonocomp [in UniMath.Algebra.Monoids]
monoidmonotobinopmono [in UniMath.Algebra.Monoids]
monoidquot [in UniMath.Algebra.Monoids]
monoidquotfun [in UniMath.Algebra.Monoids]
monoidquotpr [in UniMath.Algebra.Monoids]
monoidquotuniv [in UniMath.Algebra.Monoids]
monoid_kernel_hsubtype [in UniMath.Algebra.Monoids]
monoid_univalence [in UniMath.Algebra.Monoids]
monoid_univalence_map [in UniMath.Algebra.Monoids]
monoid_univalence_weq3 [in UniMath.Algebra.Monoids]
monoid_univalence_weq2 [in UniMath.Algebra.Monoids]
monoid_univalence_weq1 [in UniMath.Algebra.Monoids]
monoid_mor_comp [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_mor_id [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_mor_eq [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_mor [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_unit [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_mult [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_carrier [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_ob [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_ob_data [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
monoid_algebra [in UniMath.Algebra.Universal.Examples.Monoid]
monoid_signature [in UniMath.Algebra.Universal.Examples.Monoid]
monoid_free_forgetful_adjunction_data [in UniMath.CategoryTheory.categories.monoids]
monoid_free_forgetful_counit [in UniMath.CategoryTheory.categories.monoids]
monoid_free_forgetful_unit [in UniMath.CategoryTheory.categories.monoids]
monoid_free_functor [in UniMath.CategoryTheory.categories.monoids]
monoid_forgetful_functor [in UniMath.CategoryTheory.categories.monoids]
monoid_univalent_category [in UniMath.CategoryTheory.categories.monoids]
monoid_category_is_univalent [in UniMath.CategoryTheory.categories.monoids]
monoid_category [in UniMath.CategoryTheory.categories.monoids]
monoid_precategory_isweq [in UniMath.CategoryTheory.categories.monoids]
monoid_equiv_weq_iso [in UniMath.CategoryTheory.categories.monoids]
monoid_iso_equiv_weq [in UniMath.CategoryTheory.categories.monoids]
monoid_precategory [in UniMath.CategoryTheory.categories.monoids]
monoid_precategory_data [in UniMath.CategoryTheory.categories.monoids]
monoid_precategory_ob_mor [in UniMath.CategoryTheory.categories.monoids]
monoid_fun_space [in UniMath.CategoryTheory.categories.monoids]
monorel [in UniMath.CategoryTheory.Subobjects]
montrafotargetbicat_moncat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_associator [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_right_unitor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_left_unitor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_tensor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_tensor_aux [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_disp_tensor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_unit [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_disp_unit [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_cat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotargetbicat_disp [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotarget_moncat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotarget_cat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
montrafotarget_disp [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
Mon_endo [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
Mon_V' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Mon_W' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Mon_endo' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Mon_endo [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
morfullsub [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
MorMap [in UniMath.CategoryTheory.LocalizingClass]
Morphism [in UniMath.HomologicalAlgebra.Complexes]
Morphism [in UniMath.CategoryTheory.Morphisms]
MorphismComp [in UniMath.HomologicalAlgebra.Complexes]
MorphismFromZero [in UniMath.HomologicalAlgebra.Complexes]
MorphismMor [in UniMath.CategoryTheory.Morphisms]
MorphismOp [in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_isabgrop [in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_iscomm [in UniMath.HomologicalAlgebra.Complexes]
MorphismOp_inv [in UniMath.HomologicalAlgebra.Complexes]
MorphismPair [in UniMath.CategoryTheory.Morphisms]
MorphismPairIsomorphism [in UniMath.CategoryTheory.Morphisms]
MorphismPairMap [in UniMath.CategoryTheory.Morphisms]
MorphismPair_to_object [in UniMath.HomologicalAlgebra.Triangulated]
MorphismPair_from_object [in UniMath.HomologicalAlgebra.Triangulated]
MorphismPair_opp [in UniMath.CategoryTheory.Morphisms]
morphisms_of_presheaves_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
morphisms_of_presheaves_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
morphisms_of_presheaves_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
morphisms_of_presheaves [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
morphisms_of_presheaves_display [in UniMath.Bicategories.DisplayedBicats.Examples.Cofunctormap]
Morphisms_hSet [in UniMath.HomologicalAlgebra.Complexes]
MorphismToZero [in UniMath.HomologicalAlgebra.Complexes]
morphism_in_full_subcat [in UniMath.CategoryTheory.Subcategory.Full]
morphism_from_z_iso [in UniMath.CategoryTheory.Core.Isos]
morphism_from_iso [in UniMath.CategoryTheory.Core.Isos]
MorToRoof [in UniMath.CategoryTheory.LocalizingClass]
mor_to_el_mor [in UniMath.CategoryTheory.ElementsOp]
mor_from_monoid_mor [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
mor_to_modulefun [in UniMath.CategoryTheory.categories.modules]
mor_E₂_to_E₁_weq [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
mor_E₂_to_E₁ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
mor_E₁_to_E₂ [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
mor_disp_from_iso [in UniMath.CategoryTheory.DisplayedCats.Core]
mor_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
mor_from_Algebra_mor [in UniMath.CategoryTheory.Monads.MonadAlgebras]
mor_from_algebra_mor [in UniMath.CategoryTheory.FunctorAlgebras]
mor_disp_of_cartesian_lift [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
mor_of_fullsub [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
mor_from_monoid_mor [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
mor_from_coalgebra_homo [in UniMath.CategoryTheory.FunctorCoalgebras]
mor1 [in UniMath.CategoryTheory.PrecategoryBinProduct]
Mor1 [in UniMath.CategoryTheory.Morphisms]
mor2 [in UniMath.CategoryTheory.PrecategoryBinProduct]
Mor2 [in UniMath.CategoryTheory.Morphisms]
Mor3 [in UniMath.HomologicalAlgebra.Triangulated]
MPComm1 [in UniMath.CategoryTheory.Morphisms]
MPComm2 [in UniMath.CategoryTheory.Morphisms]
MPMor [in UniMath.CategoryTheory.Morphisms]
MPMorComms [in UniMath.CategoryTheory.Morphisms]
MPMorMors [in UniMath.CategoryTheory.Morphisms]
MPMor_MPMorComms [in UniMath.CategoryTheory.Morphisms]
MPMor_MPMorMors [in UniMath.CategoryTheory.Morphisms]
MPMor1 [in UniMath.CategoryTheory.Morphisms]
MPMor2 [in UniMath.CategoryTheory.Morphisms]
MPMor3 [in UniMath.CategoryTheory.Morphisms]
mt_step [in UniMath.Combinatorics.MetricTree]
mt_trans [in UniMath.Combinatorics.MetricTree]
mt_symm [in UniMath.Combinatorics.MetricTree]
mt_anti [in UniMath.Combinatorics.MetricTree]
mt_refl [in UniMath.Combinatorics.MetricTree]
mt_dist [in UniMath.Combinatorics.MetricTree]
mt_set [in UniMath.Combinatorics.MetricTree]
mul [in UniMath.Foundations.Preamble]
multDivRig [in UniMath.Algebra.DivisionRig]
multilinearfun [in UniMath.Algebra.Modules.Multimodules]
multilinearfuncomp [in UniMath.Algebra.Modules.Multimodules]
multimodule [in UniMath.Algebra.Modules.Multimodules]
multimodulefun [in UniMath.Algebra.Modules.Multimodules]
multimodulefun_unel [in UniMath.Algebra.Modules.Multimodules]
multimodulefun_to_ith_linearfun [in UniMath.Algebra.Modules.Multimodules]
multimodulefun_to_ith_islinear [in UniMath.Algebra.Modules.Multimodules]
multimodulefun_to_binopfun [in UniMath.Algebra.Modules.Multimodules]
multimodulefun_to_isbinopfun [in UniMath.Algebra.Modules.Multimodules]
multimodule_ith_mult_0_to_0 [in UniMath.Algebra.Modules.Multimodules]
multimodule_ith_mult [in UniMath.Algebra.Modules.Multimodules]
multimodule_struct [in UniMath.Algebra.Modules.Multimodules]
multinvpair [in UniMath.Algebra.Domains_and_Fields]
MultipleOperation [in UniMath.Algebra.IteratedBinaryOperations]
MultiSortedSig [in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSig [in UniMath.SubstitutionSystems.MultiSorted]
MultiSortedSigToFunctor [in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSigToFunctor [in UniMath.SubstitutionSystems.MultiSorted]
MultiSortedSigToHSS [in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSigToHSS [in UniMath.SubstitutionSystems.MultiSorted]
MultiSortedSigToHSSisInitial [in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSigToHSSisInitial [in UniMath.SubstitutionSystems.MultiSorted]
MultiSortedSigToMonad [in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSigToMonad [in UniMath.SubstitutionSystems.MultiSorted]
MultiSortedSigToMonadSet [in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSigToSignature [in UniMath.SubstitutionSystems.MultiSorted_alt]
MultiSortedSigToSignature [in UniMath.SubstitutionSystems.MultiSorted]
MultiSortedSigToSignatureSet [in UniMath.SubstitutionSystems.MultiSorted_alt]
multlinvpair [in UniMath.Algebra.Domains_and_Fields]
multmonoideqrel [in UniMath.Algebra.RigsAndRings]
multNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
multNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_lecompat_r' [in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_lecompat_r [in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_ltcompat_r' [in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_ltcompat_r [in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_lecompat_l' [in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_lecompat_l [in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_ltcompat_l' [in UniMath.RealNumbers.NonnegativeReals]
multNonnegativeReals_ltcompat_l [in UniMath.RealNumbers.NonnegativeReals]
multrinvpair [in UniMath.Algebra.Domains_and_Fields]
multsubmonoid [in UniMath.Algebra.RigsAndRings]
mult_to_module [in UniMath.Algebra.Modules.Core]
mult_to_module_struct [in UniMath.Algebra.Modules.Core]
mult_to_ringofendabgr [in UniMath.Algebra.Modules.Core]
mult_unel [in UniMath.Algebra.Modules.Core]
mult_isrdistr_wrt_ringop2 [in UniMath.Algebra.Modules.Core]
mult_isrdistr_wrt_ringop1 [in UniMath.Algebra.Modules.Core]
mult_isldistr_wrt_grop [in UniMath.Algebra.Modules.Core]
mult_fld [in UniMath.RealNumbers.Fields]
mu_kleisli [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
mweak [in UniMath.CategoryTheory.Monads.Monads]
mweak_slice_as_bind_slice [in UniMath.SubstitutionSystems.MonadsMultiSorted]
mweak_slice [in UniMath.SubstitutionSystems.MonadsMultiSorted]
mweak_instantiated [in UniMath.SubstitutionSystems.MonadsMultiSorted]
mweak_instantiated [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
M_is_final [in UniMath.Induction.M.Core]
M_coalgebra [in UniMath.Induction.M.Core]
M_alg [in UniMath.SubstitutionSystems.ModulesFromSignatures]
M_as_bicat [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
m_type [in UniMath.Induction.M.Chains]

N

N [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
NAction_disp [in UniMath.CategoryTheory.DisplayedCats.Examples]
NAction_data [in UniMath.CategoryTheory.DisplayedCats.Examples]
NAction_id_comp [in UniMath.CategoryTheory.DisplayedCats.Examples]
NAction_disp_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Examples]
namelift [in UniMath.Algebra.Universal.VTerms]
names [in UniMath.Algebra.Universal.Signatures]
Nat [in UniMath.Induction.ImpredicativeInductiveSets]
nataddabmonoid [in UniMath.NumberSystems.NaturalNumbersAlgebra]
nataddabmonoid_nataddabmonoid_to_monoid_fun [in UniMath.NumberSystems.Integers]
natboolneq [in UniMath.Foundations.NaturalNumbers]
natchoice0 [in UniMath.Foundations.NaturalNumbers]
natcoface [in UniMath.PAdics.lemmas]
natcofaceretract [in UniMath.PAdics.lemmas]
natcommrig [in UniMath.NumberSystems.NaturalNumbersAlgebra]
natdeceq [in UniMath.Foundations.NaturalNumbers]
natdecleast [in UniMath.Combinatorics.StandardFiniteSets]
natdecneq [in UniMath.Foundations.NaturalNumbers]
natdiv [in UniMath.Foundations.NaturalNumbers]
natdivandmultl [in UniMath.Foundations.NaturalNumbers]
natdivandmultr [in UniMath.Foundations.NaturalNumbers]
natdivrem [in UniMath.Foundations.NaturalNumbers]
nateq [in UniMath.Foundations.NaturalNumbers]
nateq_DecidableProposition [in UniMath.MoreFoundations.DecidablePropositions]
natgcd [in UniMath.PAdics.z_mod_p]
natgeh [in UniMath.Foundations.NaturalNumbers]
natgehandminusl [in UniMath.Foundations.NaturalNumbers]
natgehandminusr [in UniMath.Foundations.NaturalNumbers]
natgehandminusrinv [in UniMath.Foundations.NaturalNumbers]
natgehandmultl [in UniMath.Foundations.NaturalNumbers]
natgehandmultlinv [in UniMath.Foundations.NaturalNumbers]
natgehandmultr [in UniMath.Foundations.NaturalNumbers]
natgehandmultrinv [in UniMath.Foundations.NaturalNumbers]
natgehandplusl [in UniMath.Foundations.NaturalNumbers]
natgehandpluslinv [in UniMath.Foundations.NaturalNumbers]
natgehandplusr [in UniMath.Foundations.NaturalNumbers]
natgehandplusrinv [in UniMath.Foundations.NaturalNumbers]
natgehchoice [in UniMath.Foundations.NaturalNumbers]
natgehdec [in UniMath.Foundations.NaturalNumbers]
natgehn0 [in UniMath.Foundations.NaturalNumbers]
natgehplusnmm [in UniMath.Foundations.NaturalNumbers]
natgehplusnmn [in UniMath.Foundations.NaturalNumbers]
natgehsnn [in UniMath.Foundations.NaturalNumbers]
natgehtogehm1 [in UniMath.Foundations.NaturalNumbers]
natgehtogehp1 [in UniMath.Foundations.NaturalNumbers]
natgehtogehs [in UniMath.Foundations.NaturalNumbers]
natgehtonegnatlth [in UniMath.Foundations.NaturalNumbers]
natgeh_DecidableProposition [in UniMath.MoreFoundations.DecidablePropositions]
natgtb [in UniMath.Foundations.NaturalNumbers]
natgth [in UniMath.Foundations.NaturalNumbers]
natgthandmultl [in UniMath.Foundations.NaturalNumbers]
natgthandmultlinv [in UniMath.Foundations.NaturalNumbers]
natgthandmultr [in UniMath.Foundations.NaturalNumbers]
natgthandmultrinv [in UniMath.Foundations.NaturalNumbers]
natgthandplusl [in UniMath.Foundations.NaturalNumbers]
natgthandpluslinv [in UniMath.Foundations.NaturalNumbers]
natgthandplusm [in UniMath.Foundations.NaturalNumbers]
natgthandplusr [in UniMath.Foundations.NaturalNumbers]
natgthandplusrinv [in UniMath.Foundations.NaturalNumbers]
natgthdec [in UniMath.Foundations.NaturalNumbers]
natgthorleh [in UniMath.Foundations.NaturalNumbers]
natgthtogeh [in UniMath.Foundations.NaturalNumbers]
natgthtogehm1 [in UniMath.Foundations.NaturalNumbers]
natgthtogthm1 [in UniMath.Foundations.NaturalNumbers]
natgthtogthp1 [in UniMath.Foundations.NaturalNumbers]
natgthtogths [in UniMath.Foundations.NaturalNumbers]
natgthtonegnatleh [in UniMath.Foundations.NaturalNumbers]
natgth_DecidableProposition [in UniMath.MoreFoundations.DecidablePropositions]
nathomweq_from_adj [in UniMath.CategoryTheory.Adjunctions.Core]
natHSET [in UniMath.CategoryTheory.categories.HSET.Core]
natleh [in UniMath.Foundations.NaturalNumbers]
natlehandmultl [in UniMath.Foundations.NaturalNumbers]
natlehandmultlinv [in UniMath.Foundations.NaturalNumbers]
natlehandmultr [in UniMath.Foundations.NaturalNumbers]
natlehandmultrinv [in UniMath.Foundations.NaturalNumbers]
natlehandplus [in UniMath.Foundations.NaturalNumbers]
natlehandplusl [in UniMath.Foundations.NaturalNumbers]
natlehandpluslinv [in UniMath.Foundations.NaturalNumbers]
natlehandplusr [in UniMath.Foundations.NaturalNumbers]
natlehandplusrinv [in UniMath.Foundations.NaturalNumbers]
natlehchoice [in UniMath.Foundations.NaturalNumbers]
natlehdec [in UniMath.Foundations.NaturalNumbers]
natlehmplusnm [in UniMath.Foundations.NaturalNumbers]
natlehnplusnm [in UniMath.Foundations.NaturalNumbers]
natlehnsn [in UniMath.Foundations.NaturalNumbers]
natlehtolehm1 [in UniMath.Foundations.NaturalNumbers]
natlehtolehp1 [in UniMath.Foundations.NaturalNumbers]
natlehtolehs [in UniMath.Foundations.NaturalNumbers]
natlehtonegnatgth [in UniMath.Foundations.NaturalNumbers]
natleh_DecidableProposition [in UniMath.MoreFoundations.DecidablePropositions]
natleh0n [in UniMath.Foundations.NaturalNumbers]
natleh0tois0 [in UniMath.Foundations.NaturalNumbers]
natleorle [in UniMath.MoreFoundations.Nat]
natlth [in UniMath.Foundations.NaturalNumbers]
natlthandminusl [in UniMath.Foundations.NaturalNumbers]
natlthandmultl [in UniMath.Foundations.NaturalNumbers]
natlthandmultlinv [in UniMath.Foundations.NaturalNumbers]
natlthandmultr [in UniMath.Foundations.NaturalNumbers]
natlthandmultrinv [in UniMath.Foundations.NaturalNumbers]
natlthandplusl [in UniMath.Foundations.NaturalNumbers]
natlthandpluslinv [in UniMath.Foundations.NaturalNumbers]
natlthandplusm [in UniMath.Foundations.NaturalNumbers]
natlthandplusr [in UniMath.Foundations.NaturalNumbers]
natlthandplusrinv [in UniMath.Foundations.NaturalNumbers]
natlthdec [in UniMath.Foundations.NaturalNumbers]
natlthnsn [in UniMath.Foundations.NaturalNumbers]
natlthorgeh [in UniMath.Foundations.NaturalNumbers]
natlthtoleh [in UniMath.Foundations.NaturalNumbers]
natlthtolthm1 [in UniMath.Foundations.NaturalNumbers]
natlthtolthp1 [in UniMath.Foundations.NaturalNumbers]
natlthtolths [in UniMath.Foundations.NaturalNumbers]
natlthtonegnatgeh [in UniMath.Foundations.NaturalNumbers]
natlth_DecidableProposition [in UniMath.MoreFoundations.DecidablePropositions]
natlth1tois0 [in UniMath.Foundations.NaturalNumbers]
natminuseqlr [in UniMath.MoreFoundations.Nat]
natminuseqn [in UniMath.Foundations.NaturalNumbers]
natminusgehn [in UniMath.Foundations.NaturalNumbers]
natminuslehn [in UniMath.Foundations.NaturalNumbers]
natminuslthn [in UniMath.Foundations.NaturalNumbers]
natminuslthninv [in UniMath.Foundations.NaturalNumbers]
natminusminusassoc [in UniMath.MoreFoundations.Nat]
natminusplusltcomm [in UniMath.MoreFoundations.Nat]
natmult [in UniMath.Algebra.Archimedean]
natmultabmonoid [in UniMath.NumberSystems.NaturalNumbersAlgebra]
natnattohz [in UniMath.NumberSystems.Integers]
natnegpaths [in UniMath.Foundations.NaturalNumbers]
natneq [in UniMath.MoreFoundations.NegativePropositions]
natneqchoice [in UniMath.Foundations.NaturalNumbers]
natneqtwist [in UniMath.Tactics.Nat_Tactics]
natneq_DecidableProposition [in UniMath.MoreFoundations.DecidablePropositions]
natneq_hProp [in UniMath.Foundations.NaturalNumbers]
natneq0andmult [in UniMath.Foundations.NaturalNumbers]
natneq0andmultlinv [in UniMath.Foundations.NaturalNumbers]
natneq0andmultrinv [in UniMath.Foundations.NaturalNumbers]
natneq0to0lth [in UniMath.Foundations.NaturalNumbers]
natnonzero [in UniMath.NumberSystems.NaturalNumbersAlgebra]
natplusnonzero [in UniMath.Foundations.NaturalNumbers]
natpower [in UniMath.Foundations.NaturalNumbers]
natrem [in UniMath.Foundations.NaturalNumbers]
natremandmultl [in UniMath.Foundations.NaturalNumbers]
natremandmultr [in UniMath.Foundations.NaturalNumbers]
natset [in UniMath.Foundations.NaturalNumbers]
NatSig [in UniMath.SubstitutionSystems.MLTT79]
natsummation0 [in UniMath.PAdics.fps]
nattohz [in UniMath.NumberSystems.Integers]
nattohzandgeh [in UniMath.NumberSystems.Integers]
nattohzandgth [in UniMath.NumberSystems.Integers]
nattohzandleh [in UniMath.NumberSystems.Integers]
nattohzandlth [in UniMath.NumberSystems.Integers]
nattohzandminus [in UniMath.NumberSystems.Integers]
nattohzandmult [in UniMath.NumberSystems.Integers]
nattohzandneq [in UniMath.NumberSystems.Integers]
nattohzandplus [in UniMath.NumberSystems.Integers]
nattohzandS [in UniMath.NumberSystems.Integers]
nattohzand0 [in UniMath.NumberSystems.Integers]
nattohzand1 [in UniMath.NumberSystems.Integers]
nattorig [in UniMath.Algebra.Archimedean]
nattoring [in UniMath.Algebra.Archimedean]
nattrans_nattrans_object_assoc [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattrans_nattrans_arrow_assoc [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattrans_arrow_id [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattrans_arrow_mor_assoc [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattrans_naturality [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattrans_object_application [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattrans_arrow_composition [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nattruncautoinv [in UniMath.PAdics.fps]
nattruncautopreimage [in UniMath.PAdics.fps]
nattruncautopreimagecanon [in UniMath.PAdics.fps]
nattruncautopreimageineq [in UniMath.PAdics.fps]
nattruncautopreimagepath [in UniMath.PAdics.fps]
nattruncbottomtopswap [in UniMath.PAdics.fps]
nattruncreverse [in UniMath.PAdics.fps]
natural_trans_yoneda_iso_inv [in UniMath.CategoryTheory.yoneda]
natural_trans_yoneda_iso [in UniMath.CategoryTheory.yoneda]
natural_hom_weq [in UniMath.CategoryTheory.Adjunctions.Core]
natz2 [in UniMath.Algebra.Universal.Examples.Nat]
nat_trans_data_from_PrestrengthForSignatureAtPoint_funclass [in UniMath.SubstitutionSystems.Signatures]
nat_trans_data_from_PrestrengthForSignature_funclass [in UniMath.SubstitutionSystems.Signatures]
nat_plus_to_bool_or [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
nat_to_bool [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
nat_unit_binop_structure [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
nat_trans_RelMonadMor [in UniMath.CategoryTheory.Monads.RelativeMonads]
nat_trans_associator [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
nat_trans_from_relmodule_mor [in UniMath.CategoryTheory.Monads.RelativeModules]
nat_trans_from_monad_mor [in UniMath.CategoryTheory.Monads.Monads]
nat_to_NonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
nat_trans_functor_path_pregroupoid [in UniMath.CategoryTheory.categories.StandardCategories]
Nat_rec [in UniMath.Induction.ImpredicativeInductiveSets]
Nat_as_set [in UniMath.Induction.ImpredicativeInductiveSets]
Nat_isaset [in UniMath.Induction.ImpredicativeInductiveSets]
nat_to_hr [in UniMath.RealNumbers.Reals]
nat_z_iso_comp [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_z_iso_inv [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_z_iso_to_trans_inv [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_z_iso_pointwise_z_iso [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_z_iso_to_trans [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_z_iso [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_comp_to_endo [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_iso_to_trans_inv [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_iso_to_trans [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_iso_inv [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_iso_pointwise_iso [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_iso [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_comp_assoc' [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_comp_assoc [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_comp_id_left [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_comp_id_right [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_functor_assoc_inv [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_functor_assoc [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_functor_id_left_inv [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_functor_id_left [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_functor_id_right_inv [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_functor_id_right [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_comp [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_id [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_eq_pointwise [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_eq_weq [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_ax [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_data_from_nat_trans_funclass [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_data_from_nat_trans [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_trans_data [in UniMath.CategoryTheory.Core.NaturalTransformations]
nat_graph [in UniMath.CategoryTheory.Chains.Chains]
nat_ob_rec [in UniMath.CategoryTheory.FunctorAlgebras]
nat_ob_s [in UniMath.CategoryTheory.FunctorAlgebras]
nat_ob_z [in UniMath.CategoryTheory.FunctorAlgebras]
nat_ob_carrier [in UniMath.CategoryTheory.FunctorAlgebras]
nat_ob [in UniMath.CategoryTheory.FunctorAlgebras]
nat_iso_to_iso [in UniMath.CategoryTheory.FunctorCategory]
nat_trans_inv_from_pointwise_inv_ext [in UniMath.CategoryTheory.FunctorCategory]
nat_trans_inv_from_pointwise_inv [in UniMath.CategoryTheory.FunctorCategory]
nat_to_NonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
nat_iso_to_pointwise_iso [in UniMath.CategoryTheory.Equivalences.CompositesAndInverses]
nat_nat_fun_ind2 [in UniMath.NumberSystems.Integers]
nat_nat_fun_ind [in UniMath.NumberSystems.Integers]
nat_nat_fun_unel [in UniMath.NumberSystems.Integers]
nat_nat_prod_abmonoid_monoidfun [in UniMath.NumberSystems.Integers]
nat_nat_to_monoid_fun [in UniMath.NumberSystems.Integers]
nat_to_monoid_fun [in UniMath.NumberSystems.Integers]
nat_trans_data_post_whisker_snd_param [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_data_post_whisker_fst_param [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_snd_arg_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_snd_morphism_arg_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_fix_fst_arg_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_trans_from_functor_fix_fst_morphism_arg_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
nat_iso [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
nat_iso_to_invertible_2cell [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
nat_mult_perm210 [in UniMath.Tactics.Nat_Tactics]
nat_mult_perm201 [in UniMath.Tactics.Nat_Tactics]
nat_mult_perm120 [in UniMath.Tactics.Nat_Tactics]
nat_mult_perm102 [in UniMath.Tactics.Nat_Tactics]
nat_mult_perm021 [in UniMath.Tactics.Nat_Tactics]
nat_plus_perm210 [in UniMath.Tactics.Nat_Tactics]
nat_plus_perm201 [in UniMath.Tactics.Nat_Tactics]
nat_plus_perm120 [in UniMath.Tactics.Nat_Tactics]
nat_plus_perm102 [in UniMath.Tactics.Nat_Tactics]
nat_plus_perm021 [in UniMath.Tactics.Nat_Tactics]
nat_algebra2 [in UniMath.Algebra.Universal.Examples.Tests]
nat_trafo_to_functor_bicat_cor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor_bicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_section_bicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor_bicat_elementary [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor_through_section_with_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor_through_section_cor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor_through_section [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_section [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor_with_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_trafo_to_functor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
nat_succ [in UniMath.Algebra.Universal.Examples.Nat]
nat_zero [in UniMath.Algebra.Universal.Examples.Nat]
nat_to_z2 [in UniMath.Algebra.Universal.Examples.Nat]
nat_algebra [in UniMath.Algebra.Universal.Examples.Nat]
nat_succ_op [in UniMath.Algebra.Universal.Examples.Nat]
nat_zero_op [in UniMath.Algebra.Universal.Examples.Nat]
nat_sort [in UniMath.Algebra.Universal.Examples.Nat]
nat_signature [in UniMath.Algebra.Universal.Examples.Nat]
nat_iso_to_invertible_2cell [in UniMath.Bicategories.Core.Examples.BicatOfCats]
nat_compl [in UniMath.MoreFoundations.NegativePropositions]
nat_trans_from_module_mor [in UniMath.CategoryTheory.Monads.LModules]
nat_trans_constprod_functor2 [in UniMath.CategoryTheory.exponentials]
nat_trans_constprod_functor1 [in UniMath.CategoryTheory.exponentials]
nat_trans_from_ptd_mor [in UniMath.CategoryTheory.PointedFunctors]
nat_dist_trans [in UniMath.MoreFoundations.Nat]
nat_dist_between [in UniMath.MoreFoundations.Nat]
nat_dist_between_ge [in UniMath.MoreFoundations.Nat]
nat_dist_between_le [in UniMath.MoreFoundations.Nat]
nat_dist_S [in UniMath.MoreFoundations.Nat]
nat_dist_gt [in UniMath.MoreFoundations.Nat]
nat_dist_minus [in UniMath.MoreFoundations.Nat]
nat_dist_le [in UniMath.MoreFoundations.Nat]
nat_dist_plus [in UniMath.MoreFoundations.Nat]
nat_dist_m0 [in UniMath.MoreFoundations.Nat]
nat_dist_0m [in UniMath.MoreFoundations.Nat]
nat_dist_ge [in UniMath.MoreFoundations.Nat]
nat_dist_symm [in UniMath.MoreFoundations.Nat]
nat_dist [in UniMath.MoreFoundations.Nat]
nat_tree [in UniMath.Combinatorics.MetricTree]
nat_alg' [in UniMath.Induction.W.Naturals]
nat_alg_z [in UniMath.Induction.W.Naturals]
nat_alg [in UniMath.Induction.W.Naturals]
nat_functor_equiv [in UniMath.Induction.W.Naturals]
nat_functor [in UniMath.Induction.W.Naturals]
nat_trans_μ [in UniMath.CategoryTheory.Monads.KTriples]
nat_trans_η [in UniMath.CategoryTheory.Monads.KTriples]
nat_trans_kleisli_mor [in UniMath.CategoryTheory.Monads.KTriples]
nat_trans_from_kleisli_mor [in UniMath.CategoryTheory.Monads.KTriples]
nat0gehtois0 [in UniMath.Foundations.NaturalNumbers]
nat2term [in UniMath.Algebra.Universal.Examples.Nat]
neg [in UniMath.Foundations.PartA]
negb [in UniMath.Foundations.Preamble]
negb_weq_pair [in UniMath.MoreFoundations.NoInjectivePairing]
negb_weq [in UniMath.MoreFoundations.NoInjectivePairing]
negexists_to_forallneg_restricted [in UniMath.Algebra.FixedPointTheorems]
negf [in UniMath.Foundations.PartA]
negfalsetotrue [in UniMath.Foundations.PartA]
negforall_to_existsneg_restricted [in UniMath.Algebra.FixedPointTheorems]
neggth_logeq_leh [in UniMath.Foundations.NaturalNumbers]
neghqgehtolth [in UniMath.NumberSystems.RationalNumbers]
neghqgthtoleh [in UniMath.NumberSystems.RationalNumbers]
neghqlehtogth [in UniMath.NumberSystems.RationalNumbers]
neghqlthtogeh [in UniMath.NumberSystems.RationalNumbers]
neghzgehtolth [in UniMath.NumberSystems.Integers]
neghzgthtoleh [in UniMath.NumberSystems.Integers]
neghzlehtogth [in UniMath.NumberSystems.Integers]
neghzlthtogeh [in UniMath.NumberSystems.Integers]
negimage [in UniMath.Foundations.PartC]
negnatgehnsn [in UniMath.Foundations.NaturalNumbers]
negnatgehtolth [in UniMath.Foundations.NaturalNumbers]
negnatgeh0sn [in UniMath.Foundations.NaturalNumbers]
negnatgthmplusnm [in UniMath.Foundations.NaturalNumbers]
negnatgthnplusnm [in UniMath.Foundations.NaturalNumbers]
negnatlehsnn [in UniMath.Foundations.NaturalNumbers]
negnatlehsn0 [in UniMath.Foundations.NaturalNumbers]
negnatlthn0 [in UniMath.Foundations.NaturalNumbers]
negnatlthplusnmm [in UniMath.Foundations.NaturalNumbers]
negnatlthplusnmn [in UniMath.Foundations.NaturalNumbers]
negnatlthtogeh [in UniMath.Foundations.NaturalNumbers]
negnat0lthtois0 [in UniMath.Foundations.NaturalNumbers]
negpos [in UniMath.NumberSystems.Integers]
negpos_weq [in UniMath.NumberSystems.Integers]
negpos' [in UniMath.NumberSystems.Integers]
negPred [in UniMath.MoreFoundations.NegativePropositions]
negProp [in UniMath.MoreFoundations.NegativePropositions]
negProp_to_neg [in UniMath.MoreFoundations.NegativePropositions]
negProp_to_iff [in UniMath.MoreFoundations.NegativePropositions]
negProp_to_hProp [in UniMath.MoreFoundations.NegativePropositions]
negProp_to_isaprop [in UniMath.MoreFoundations.NegativePropositions]
negrel [in UniMath.Foundations.Sets]
negReln [in UniMath.MoreFoundations.NegativePropositions]
negrtopaths [in UniMath.Foundations.Sets]
negstn0 [in UniMath.Combinatorics.StandardFiniteSets]
negtruetofalse [in UniMath.Foundations.PartA]
neg_op [in UniMath.Algebra.Universal.Examples.Tests]
neg_to_negProp [in UniMath.MoreFoundations.NegativePropositions]
neighborhood [in UniMath.Topology.Topology]
neighborhood' [in UniMath.Topology.Topology]
nelstruct [in UniMath.Combinatorics.FiniteSets]
nelstructonbool [in UniMath.Combinatorics.FiniteSets]
nelstructoncompl [in UniMath.Combinatorics.FiniteSets]
nelstructoncontr [in UniMath.Combinatorics.FiniteSets]
nelstructoncoprod [in UniMath.Combinatorics.FiniteSets]
nelstructoncoprodwithunit [in UniMath.Combinatorics.FiniteSets]
nelstructondirprod [in UniMath.Combinatorics.FiniteSets]
nelstructonempty [in UniMath.Combinatorics.FiniteSets]
nelstructonempty2 [in UniMath.Combinatorics.FiniteSets]
nelstructonforall [in UniMath.Combinatorics.FiniteSets]
nelstructonfun [in UniMath.Combinatorics.FiniteSets]
nelstructonstn [in UniMath.Combinatorics.FiniteSets]
nelstructontotal2 [in UniMath.Combinatorics.FiniteSets]
nelstructonunit [in UniMath.Combinatorics.FiniteSets]
nelstructonweq [in UniMath.Combinatorics.FiniteSets]
nelstructToFunction [in UniMath.Combinatorics.FiniteSets]
nelstructweqb [in UniMath.Combinatorics.FiniteSets]
nelstructweqf [in UniMath.Combinatorics.FiniteSets]
neq [in UniMath.Tactics.Utilities]
neq [in UniMath.PAdics.lemmas]
neqchoice [in UniMath.Foundations.Sets]
neqchoicelogeqf [in UniMath.Foundations.Sets]
neqchoiceresrel [in UniMath.Foundations.Sets]
neqh [in UniMath.Foundations.Sets]
neqPred [in UniMath.MoreFoundations.NegativePropositions]
neqProp [in UniMath.MoreFoundations.NegativePropositions]
neqReln [in UniMath.MoreFoundations.NegativePropositions]
neqset [in UniMath.Foundations.Sets]
new_n' [in UniMath.Combinatorics.Tests]
nil [in UniMath.CategoryTheory.Inductives.Lists]
nil [in UniMath.Combinatorics.GraphPaths]
nil [in UniMath.Combinatorics.Lists]
nil [in UniMath.Combinatorics.WellFoundedRelations]
nil [in UniMath.Combinatorics.FiniteSequences]
nil_map [in UniMath.CategoryTheory.Inductives.Lists]
nil_idx [in UniMath.Algebra.Universal.Examples.ListDataType]
nil_length [in UniMath.Combinatorics.FiniteSequences]
nil_unique [in UniMath.Combinatorics.FiniteSequences]
nNat [in UniMath.Induction.ImpredicativeInductiveSets]
nNat_as_set [in UniMath.Induction.ImpredicativeInductiveSets]
nNat_isaset [in UniMath.Induction.ImpredicativeInductiveSets]
NNO [in UniMath.CategoryTheory.NNO]
NNObject [in UniMath.CategoryTheory.NNO]
NNO_HSET [in UniMath.CategoryTheory.categories.HSET.Structures]
node [in UniMath.CategoryTheory.Inductives.Trees]
node_map [in UniMath.CategoryTheory.Inductives.Trees]
NonemptySequence [in UniMath.Combinatorics.FiniteSequences]
NonemptySequenceToFunction [in UniMath.Combinatorics.FiniteSequences]
NonemptySequenceToSequence [in UniMath.Combinatorics.FiniteSequences]
None_sorted_option_functor [in UniMath.SubstitutionSystems.MultiSorted_alt]
NonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
NonnegativeRationals_to_NonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_to_Dcuts [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeRationals_EffectivelyOrderedSet [in UniMath.RealNumbers.NonnegativeRationals]
NonnegativeRationals_to_Rationals [in UniMath.RealNumbers.NonnegativeRationals]
NonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
NonnegativeReals_to_hsubtypeNonnegativeRationals [in UniMath.RealNumbers.NonnegativeReals]
nonzeroax [in UniMath.Algebra.Domains_and_Fields]
nothing [in UniMath.Combinatorics.Maybe]
notLgt_Lle [in UniMath.Algebra.Lattice]
notlt_geNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
nProduct [in UniMath.Induction.ImpredicativeInductiveSets]
nProduct_as_set [in UniMath.Induction.ImpredicativeInductiveSets]
nProduct_isaset [in UniMath.Induction.ImpredicativeInductiveSets]
NQmax [in UniMath.RealNumbers.NonnegativeRationals]
NQmin [in UniMath.RealNumbers.NonnegativeRationals]
NRNRtoR [in UniMath.RealNumbers.Reals]
NR_to_hr [in UniMath.RealNumbers.Reals]
nSum [in UniMath.Induction.ImpredicativeInductiveSets]
nSum_as_set [in UniMath.Induction.ImpredicativeInductiveSets]
nSum_isaset [in UniMath.Induction.ImpredicativeInductiveSets]
nth [in UniMath.Combinatorics.Lists]
nth' [in UniMath.Combinatorics.Lists]
nth'' [in UniMath.Combinatorics.Lists]
NullHomotopyFrom [in UniMath.MoreFoundations.NullHomotopies]
nullHomotopyFrom [in UniMath.MoreFoundations.NullHomotopies]
NullHomotopyFrom_path [in UniMath.MoreFoundations.NullHomotopies]
NullHomotopyFrom_center [in UniMath.MoreFoundations.NullHomotopies]
NullHomotopyTo [in UniMath.MoreFoundations.NullHomotopies]
nullHomotopyTo [in UniMath.MoreFoundations.NullHomotopies]
nullHomotopyTo_transport [in UniMath.MoreFoundations.NullHomotopies]
NullHomotopyTo_path [in UniMath.MoreFoundations.NullHomotopies]
NullHomotopyTo_center [in UniMath.MoreFoundations.NullHomotopies]
N_as_bicat [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
n_to_min_n [in UniMath.Combinatorics.BoundedSearch]

O

ob [in UniMath.Folds.folds_pre_2_cat]
ob [in UniMath.Folds.folds_precat]
ob [in UniMath.CategoryTheory.Core.Categories]
ObjectMorToComplexMor [in UniMath.HomologicalAlgebra.Complexes]
ObjectMorToComplexMor_mors [in UniMath.HomologicalAlgebra.Complexes]
objects_of_grpd [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
objects_of_grpd_is_psfunctor [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
objects_of_grpd_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
object_map_kt [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
object_homtype_hlevel [in UniMath.CategoryTheory.Core.Setcategories]
object_hlevel [in UniMath.CategoryTheory.Core.Setcategories]
object_of_cartesian_lift [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ob_as_functor [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
ob_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
ob_of_fullsub [in UniMath.Bicategories.DisplayedBicats.Examples.FullSub]
ob1 [in UniMath.CategoryTheory.PrecategoryBinProduct]
Ob1 [in UniMath.CategoryTheory.Morphisms]
ob2 [in UniMath.CategoryTheory.PrecategoryBinProduct]
Ob2 [in UniMath.CategoryTheory.Morphisms]
Ob3 [in UniMath.CategoryTheory.Morphisms]
Octa [in UniMath.HomologicalAlgebra.Triangulated]
OctaComm1 [in UniMath.HomologicalAlgebra.Triangulated]
OctaComm2 [in UniMath.HomologicalAlgebra.Triangulated]
OctaComm3 [in UniMath.HomologicalAlgebra.Triangulated]
OctaComm4 [in UniMath.HomologicalAlgebra.Triangulated]
OctaDTri [in UniMath.HomologicalAlgebra.Triangulated]
Octahedral [in UniMath.HomologicalAlgebra.Triangulated]
OctaIso [in UniMath.HomologicalAlgebra.Triangulated]
OctaIsoComm1 [in UniMath.HomologicalAlgebra.Triangulated]
OctaIsoComm2 [in UniMath.HomologicalAlgebra.Triangulated]
OctaIsoComm3 [in UniMath.HomologicalAlgebra.Triangulated]
OctaIsoComm4 [in UniMath.HomologicalAlgebra.Triangulated]
OctaMor1 [in UniMath.HomologicalAlgebra.Triangulated]
OctaMor2 [in UniMath.HomologicalAlgebra.Triangulated]
odot [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
odot [in UniMath.CategoryTheory.Monoidal.Actions]
odotA [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
odot_x_otimes_y_functor [in UniMath.CategoryTheory.Monoidal.Actions]
odot_x_odot_y_functor [in UniMath.CategoryTheory.Monoidal.Actions]
odot_I_functor [in UniMath.CategoryTheory.Monoidal.Actions]
odot' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
omega_cont_functor [in UniMath.CategoryTheory.Chains.Chains]
omega_cocont_functor [in UniMath.CategoryTheory.Chains.Chains]
omega_cocont_pre_composition_functor_kan [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_pre_composition_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_BinProduct_of_functors [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_BinProduct_of_functors_alt [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_constprod_functor2 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_constprod_functor1 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_coproduct_of_functors [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_BinCoproduct_of_functors_alt2 [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_BinCoproduct_of_functors [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_BinCoproduct_of_functors_alt [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_iter_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_functor_composite [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_constant_functor [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
omega_cocont_functor_identity [in UniMath.CategoryTheory.Chains.OmegaCocontFunctors]
One [in UniMath.CategoryTheory.limits.graphs.coequalizers]
One [in UniMath.CategoryTheory.limits.graphs.pushouts]
One [in UniMath.CategoryTheory.limits.graphs.equalizers]
one [in UniMath.NumberSystems.Integers]
One [in UniMath.CategoryTheory.limits.graphs.pullbacks]
onedge [in UniMath.Combinatorics.Graph]
oneDivRig [in UniMath.Algebra.DivisionRig]
oneNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
oneNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
one_types_isInjective_weq_fully_faithful [in UniMath.Bicategories.Core.FullyFaithful]
one_types_fully_faithful_isInjective [in UniMath.Bicategories.Core.FullyFaithful]
one_types_isInjective_fully_faithful_1cell [in UniMath.Bicategories.Core.FullyFaithful]
one_types_is_incl_weq_faithful_1cell [in UniMath.Bicategories.Core.FullyFaithful]
one_types_faithful_1cell_is_incl [in UniMath.Bicategories.Core.FullyFaithful]
one_types_is_incl_faithful_1cell [in UniMath.Bicategories.Core.FullyFaithful]
one_types_pb_cone [in UniMath.Bicategories.Colimits.Pullback]
one_cells_data_from_monoidal [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
one_intdomnonzerosubmonoid [in UniMath.RealNumbers.Prelim]
one_types_is_univalent_2 [in UniMath.Bicategories.Core.Examples.OneTypes]
one_types_is_univalent_2_0 [in UniMath.Bicategories.Core.Examples.OneTypes]
one_types_is_univalent_2_1 [in UniMath.Bicategories.Core.Examples.OneTypes]
one_type_2cell_iso [in UniMath.Bicategories.Core.Examples.OneTypes]
one_types [in UniMath.Bicategories.Core.Examples.OneTypes]
one_type_bicat_data [in UniMath.Bicategories.Core.Examples.OneTypes]
one_type_isofhlevel [in UniMath.Bicategories.Core.Examples.OneTypes]
one_type_to_type [in UniMath.Bicategories.Core.Examples.OneTypes]
one_type [in UniMath.Bicategories.Core.Examples.OneTypes]
one_type_to_groupoid [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
one_types_binprod_cone [in UniMath.Bicategories.Colimits.Products]
one_term [in UniMath.Algebra.Universal.Examples.Tests]
one_oplist [in UniMath.Algebra.Universal.Examples.Tests]
one_fld [in UniMath.RealNumbers.Fields]
onvertex [in UniMath.Combinatorics.Graph]
op [in UniMath.Algebra.BinaryOperations]
op [in UniMath.Algebra.Apartness]
Open [in UniMath.Topology.Topology]
open_category [in UniMath.AlgebraicGeometry.SheavesOfRings]
open_po [in UniMath.AlgebraicGeometry.SheavesOfRings]
operation [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
opexec [in UniMath.Algebra.Universal.Terms]
oplist [in UniMath.Algebra.Universal.Terms]
oplistexec [in UniMath.Algebra.Universal.Terms]
oplistsplit [in UniMath.Algebra.Universal.Terms]
oplist_normalization [in UniMath.Algebra.Universal.Terms]
oplist_build [in UniMath.Algebra.Universal.Terms]
oplist2vecoplist [in UniMath.Algebra.Universal.Terms]
oppositeAdditiveCategory [in UniMath.CategoryTheory.Additive]
oppositeBinDirectSum [in UniMath.CategoryTheory.limits.BinDirectSums]
oppositeCategory [in UniMath.CategoryTheory.opp_precat]
oppositecategory [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
oppositeCategoryWithAbgrops [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
oppositeExactCategory [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
oppositeExactCategoryData [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
oppositePreAdditive [in UniMath.CategoryTheory.PreAdditive]
oppositePrecategoryWithBinOps [in UniMath.CategoryTheory.CategoriesWithBinOps]
opposite_isKernelCokernelPair [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_IsoArrow [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_IsoArrowFrom [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_IsoArrowTo [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opposite_commring [in UniMath.Algebra.RigsAndRings]
opposite_ring [in UniMath.Algebra.RigsAndRings]
opposite_commrig [in UniMath.Algebra.RigsAndRings]
opposite_opposite_rig [in UniMath.Algebra.RigsAndRings]
opposite_rig [in UniMath.Algebra.RigsAndRings]
opp_exts_lift [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
opp_z_iso [in UniMath.CategoryTheory.opp_precat]
opp_is_z_isomorphism [in UniMath.CategoryTheory.opp_precat]
opp_iso [in UniMath.CategoryTheory.opp_precat]
opp_is_iso [in UniMath.CategoryTheory.opp_precat]
opp_mor_eq [in UniMath.CategoryTheory.opp_precat]
opp_mor [in UniMath.CategoryTheory.opp_precat]
opp_ob [in UniMath.CategoryTheory.opp_precat]
opp_precat [in UniMath.CategoryTheory.opp_precat]
opp_precat_data [in UniMath.CategoryTheory.opp_precat]
opp_precat_ob_mor [in UniMath.CategoryTheory.opp_precat]
opp_ShortExact [in UniMath.CategoryTheory.ShortExactSequences]
opp_RightShortExact [in UniMath.CategoryTheory.ShortExactSequences]
opp_LeftShortExact [in UniMath.CategoryTheory.ShortExactSequences]
opp_ShortShortExact [in UniMath.CategoryTheory.ShortExactSequences]
opp_mor_eq [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_mor [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_ob [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
opp_zero_lifts [in UniMath.CategoryTheory.limits.Opp]
opp_BinCoproducts [in UniMath.CategoryTheory.limits.Opp]
opp_BinProducts [in UniMath.CategoryTheory.limits.Opp]
opp_BinCoproduct [in UniMath.CategoryTheory.limits.Opp]
opp_BinProduct [in UniMath.CategoryTheory.limits.Opp]
opp_isBinCoproduct [in UniMath.CategoryTheory.limits.Opp]
opp_isBinProduct [in UniMath.CategoryTheory.limits.Opp]
opp_Pullbacks [in UniMath.CategoryTheory.limits.Opp]
opp_Pushouts [in UniMath.CategoryTheory.limits.Opp]
opp_Pullback [in UniMath.CategoryTheory.limits.Opp]
opp_Pushout [in UniMath.CategoryTheory.limits.Opp]
opp_Cokernels [in UniMath.CategoryTheory.limits.Opp]
opp_Kernels [in UniMath.CategoryTheory.limits.Opp]
opp_Cokernel [in UniMath.CategoryTheory.limits.Opp]
opp_Kernel [in UniMath.CategoryTheory.limits.Opp]
opp_Coequalizers [in UniMath.CategoryTheory.limits.Opp]
opp_Equalizers [in UniMath.CategoryTheory.limits.Opp]
opp_Coequalizer [in UniMath.CategoryTheory.limits.Opp]
opp_Equalizer [in UniMath.CategoryTheory.limits.Opp]
opp_Zero [in UniMath.CategoryTheory.limits.Opp]
opp_Terminal [in UniMath.CategoryTheory.limits.Opp]
opp_isTerminal [in UniMath.CategoryTheory.limits.Opp]
opp_Initial [in UniMath.CategoryTheory.limits.Opp]
opp_isInitial [in UniMath.CategoryTheory.limits.Opp]
opp_Epi [in UniMath.CategoryTheory.limits.Opp]
opp_isEpi [in UniMath.CategoryTheory.limits.Opp]
opp_Monic [in UniMath.CategoryTheory.limits.Opp]
opp_isMonic [in UniMath.CategoryTheory.limits.Opp]
opp_sums_lift [in UniMath.CategoryTheory.Additive]
opp_fld [in UniMath.RealNumbers.Fields]
opp_ShortShortExactData [in UniMath.CategoryTheory.Morphisms]
opp_MorphismPairIsomorphism [in UniMath.CategoryTheory.Morphisms]
opp_MorphismPair [in UniMath.CategoryTheory.Morphisms]
ops [in UniMath.SubstitutionSystems.MultiSorted_alt]
ops [in UniMath.Algebra.Universal.Algebras]
ops [in UniMath.SubstitutionSystems.MultiSorted]
option_functor [in UniMath.CategoryTheory.limits.bincoproducts]
option_list [in UniMath.SubstitutionSystems.MultiSorted_alt]
option_fun_summand [in UniMath.SubstitutionSystems.MultiSorted_alt]
option_DistributiveLaw [in UniMath.SubstitutionSystems.SignatureExamples]
option_list [in UniMath.SubstitutionSystems.MultiSorted]
op_mor [in UniMath.CategoryTheory.opp_precat]
op_ob [in UniMath.CategoryTheory.opp_precat]
op_unicat [in UniMath.CategoryTheory.opp_precat]
op_is_univalent [in UniMath.CategoryTheory.opp_precat]
op_category [in UniMath.CategoryTheory.opp_precat]
op_iso_is_cat_iso [in UniMath.CategoryTheory.opp_precat]
op_nt [in UniMath.CategoryTheory.opp_precat]
op_cat [in UniMath.CategoryTheory.opp_precat]
op_psfunctor [in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
op_psfunctor_laws [in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
op_psfunctor_data [in UniMath.Bicategories.PseudoFunctors.Examples.OpFunctor]
op1 [in UniMath.Algebra.BinaryOperations]
op1 [in UniMath.Algebra.Apartness]
op1_bicat_is_univalent_2 [in UniMath.Bicategories.Core.UnivalenceOp]
op1_bicat_is_univalent_2_0 [in UniMath.Bicategories.Core.UnivalenceOp]
op1_bicat_idtoiso_2_0_alt [in UniMath.Bicategories.Core.UnivalenceOp]
op1_bicat_is_univalent_2_1 [in UniMath.Bicategories.Core.UnivalenceOp]
op1_bicat_idtoiso_2_1_alt [in UniMath.Bicategories.Core.UnivalenceOp]
op1_bicat_left_adjoint_equivalence_is_bicat_left_adjoint_equivalence [in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_bicat_left_adjoint_equivalence_to_bicat_left_adjoint_equivalence [in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_bicat_is_invertible_2cell_is_bicat_is_invertible_2cell [in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_bicat_is_invertible_2cell_to_bicat_is_invertible_2cell [in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_bicat [in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_isaset_cells [in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_prebicat [in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_prebicat_data [in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_prebicat_1_id_comp_cells [in UniMath.Bicategories.Core.Examples.OpMorBicat]
op1_2cell_struct [in UniMath.Bicategories.Core.Examples.OpMorBicat]
op2 [in UniMath.Algebra.BinaryOperations]
op2 [in UniMath.Algebra.Apartness]
op2_bicat_is_univalent_2 [in UniMath.Bicategories.Core.UnivalenceOp]
op2_bicat_is_univalent_2_0 [in UniMath.Bicategories.Core.UnivalenceOp]
op2_bicat_idtoiso_2_0_alt [in UniMath.Bicategories.Core.UnivalenceOp]
op2_bicat_is_univalent_2_1 [in UniMath.Bicategories.Core.UnivalenceOp]
op2_bicat_idtoiso_2_1_alt [in UniMath.Bicategories.Core.UnivalenceOp]
op2_bicat_left_adjoint_equivalence_is_bicat_left_adjoint_equivalence [in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_bicat_left_adjoint_equivalence_to_bicat_left_adjoint_equivalence [in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_bicat_is_invertible_2cell_is_bicat_is_invertible_2cell [in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_bicat_is_invertible_2cell_to_bicat_is_invertible_2cell [in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_bicat [in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_isaset_cells [in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_prebicat [in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_prebicat_data [in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_prebicat_1_id_comp_cells [in UniMath.Bicategories.Core.Examples.OpCellBicat]
op2_2cell_struct [in UniMath.Bicategories.Core.Examples.OpCellBicat]
orb [in UniMath.MoreFoundations.Bool]
OrderedSet [in UniMath.Combinatorics.OrderedSets]
OrderedSet_istotal [in UniMath.Combinatorics.OrderedSets]
OrderedSet_isantisymm [in UniMath.Combinatorics.OrderedSets]
OrderedSet_isrefl [in UniMath.Combinatorics.OrderedSets]
otimes_U_functor [in UniMath.CategoryTheory.Monoidal.Actions]

P

P [in UniMath.Induction.M.ComputationalM]
P [in UniMath.Combinatorics.Tests]
padicapart [in UniMath.PAdics.padics]
padicapart0 [in UniMath.PAdics.padics]
padicapart1 [in UniMath.PAdics.padics]
padicintegers [in UniMath.PAdics.padics]
padicone [in UniMath.PAdics.padics]
padicplus [in UniMath.PAdics.padics]
padics [in UniMath.PAdics.padics]
padictimes [in UniMath.PAdics.padics]
padiczero [in UniMath.PAdics.padics]
Pair [in UniMath.Induction.ImpredicativeInductiveSets]
paircell [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
pairConjunction [in UniMath.MoreFoundations.DecidablePropositions]
pairDisjunction [in UniMath.MoreFoundations.DecidablePropositions]
pairEffectivelyOrderedSet [in UniMath.RealNumbers.Sets]
pairEffectiveOrder [in UniMath.RealNumbers.Sets]
pairGreatestLowerBound [in UniMath.RealNumbers.Sets]
pairLeastUpperBound [in UniMath.RealNumbers.Sets]
pairmor [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
pairNegation [in UniMath.MoreFoundations.DecidablePropositions]
pairobj [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
pairSequence [in UniMath.Topology.Prelim]
pairStrongOrder [in UniMath.Algebra.Lattice]
pairStrongOrder [in UniMath.RealNumbers.Sets]
PairToCokernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PairToKernel [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pair_functor [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
pair_functor_data [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
pair_contradiction [in UniMath.MoreFoundations.DecidablePropositions]
pair_disp_adjequiv_to_sigma_disp_adjequiv_weq [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_adjequiv_to_sigma_disp_adjequiv_weq_help [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_adjequiv_to_sigma_disp_adjequiv_inv [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_adjequiv_to_sigma_disp_adjequiv_inv_pr2 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_adjequiv_to_sigma_disp_adjequiv_inv_pr1 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_adjequiv_to_sigma_disp_adjequiv [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_invertible_to_sigma_disp_invertible_weq [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_disp_invertible_to_sigma_disp_invertible [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
pair_functor [in UniMath.CategoryTheory.PrecategoryBinProduct]
pair_functor_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
pair_adjoint_equivalence_weq [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pair_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pair_left_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pair_disp_invertible_2cell_weq [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pair_disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pair_is_disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pair_2cell_comp [in UniMath.Bicategories.Colimits.Products]
pair_2cell_id_id [in UniMath.Bicategories.Colimits.Products]
pair_1cell_comp_invertible [in UniMath.Bicategories.Colimits.Products]
pair_1cell_comp [in UniMath.Bicategories.Colimits.Products]
pair_1cell_id_id_invertible [in UniMath.Bicategories.Colimits.Products]
pair_1cell_id_id [in UniMath.Bicategories.Colimits.Products]
pair_2cell_pr2_alt [in UniMath.Bicategories.Colimits.Products]
pair_2cell_pr1_alt [in UniMath.Bicategories.Colimits.Products]
pair_2cell_pr2 [in UniMath.Bicategories.Colimits.Products]
pair_2cell_pr1 [in UniMath.Bicategories.Colimits.Products]
pair_2cell [in UniMath.Bicategories.Colimits.Products]
pair_1cell_pr2 [in UniMath.Bicategories.Colimits.Products]
pair_1cell_pr1 [in UniMath.Bicategories.Colimits.Products]
pair_1cell [in UniMath.Bicategories.Colimits.Products]
pair_path_in2_comp1 [in UniMath.MoreFoundations.PartA]
pair_path2 [in UniMath.MoreFoundations.PartA]
pair_path_props [in UniMath.MoreFoundations.PartA]
pair_path_in2 [in UniMath.Foundations.PartA]
parameterized_distributivity_to_nat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
parameterized_distributivity [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
parameterized_distributivity_nat_funclass [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
parameterized_distributivity_nat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
parameterized_distributivity_nat_as_instance [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
parameterized_distributivity_bicat_nat_funclass [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
parameterized_distributivity_bicat_nat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
param_distr_pentagon_eq_body_variant [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_pentagon_eq_body_variant_RHS [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_pentagon_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_pentagon_eq_body [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_pentagon_eq_body_RHS [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant0 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq_variant0_RHS [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_triangle_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distributivity_codom [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distributivity_dom [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
param_distr_bicat_pentagon_eq_variant [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
param_distr_bicat_triangle_eq_variant0 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
param_distr_bicat_pentagon_eq_body_variant_RHS [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
param_distr_bicat_pentagon_eq_body_RHS [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
param_distr_bicat_triangle_eq_variant0_RHS [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
PartialOrder [in UniMath.Foundations.Sets]
PartialOrder_filter_le [in UniMath.Topology.Filters]
partition [in UniMath.Combinatorics.FiniteSequences]
partition' [in UniMath.Combinatorics.FiniteSequences]
Part1 [in UniMath.MoreFoundations.DecidablePropositions]
Part2 [in UniMath.MoreFoundations.DecidablePropositions]
PathOver [in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map2_eq2 [in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map2_eq1 [in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map2_apd [in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map2 [in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map1_eq2 [in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map1_eq1 [in UniMath.MoreFoundations.PathsOver]
PathOverConstant_map1 [in UniMath.MoreFoundations.PathsOver]
PathOverConstant_id [in UniMath.MoreFoundations.PathsOver]
pathOverIdpath [in UniMath.MoreFoundations.PathsOver]
PathOverToPathPair [in UniMath.MoreFoundations.PathsOver]
PathOverToTotalPath [in UniMath.MoreFoundations.PathsOver]
PathPair [in UniMath.Foundations.PartA]
pathscomp0 [in UniMath.Foundations.PartA]
pathscomp0rid [in UniMath.Foundations.PartA]
pathsdirprod [in UniMath.Foundations.PartA]
pathsdirprodweq [in UniMath.MoreFoundations.WeakEquivalences]
pathsdirprod_eta [in UniMath.MoreFoundations.PartA]
pathseqrel [in UniMath.Foundations.Sets]
pathshrel [in UniMath.Foundations.Sets]
pathsinv0 [in UniMath.Foundations.PartA]
pathsinv0inv0 [in UniMath.Foundations.PartA]
pathsinv0l [in UniMath.Foundations.PartA]
pathsinv0r [in UniMath.Foundations.PartA]
pathsinv0_to_right'' [in UniMath.MoreFoundations.PartA]
pathsinv0_to_right' [in UniMath.MoreFoundations.PartA]
pathsinv0_to_right [in UniMath.MoreFoundations.PartA]
pathssec1 [in UniMath.Foundations.PartA]
pathssec2 [in UniMath.Foundations.PartA]
pathssec2id [in UniMath.Foundations.PartA]
pathssec3 [in UniMath.Foundations.PartA]
pathsspace [in UniMath.Foundations.PartA]
pathsspacetriple [in UniMath.Foundations.PartA]
pathsspace' [in UniMath.Foundations.PartA]
pathstonegr [in UniMath.Foundations.Sets]
pathstor [in UniMath.Foundations.Sets]
pathsweq1 [in UniMath.Foundations.PartA]
pathsweq1' [in UniMath.Foundations.PartA]
pathsweq3 [in UniMath.Foundations.PartA]
pathsweq4 [in UniMath.Foundations.PartA]
paths_from_prop [in UniMath.MoreFoundations.Notations]
paths_to_prop [in UniMath.MoreFoundations.Notations]
paths_to_path [in UniMath.MoreFoundations.Notations]
paths_to [in UniMath.MoreFoundations.Notations]
paths_from_path [in UniMath.MoreFoundations.Notations]
paths_from [in UniMath.MoreFoundations.Notations]
paths' [in UniMath.MoreFoundations.Notations]
paths3 [in UniMath.MoreFoundations.PartA]
path_groupoid_hset_is_discrete [in UniMath.CategoryTheory.categories.StandardCategories]
path_groupoid_hset [in UniMath.CategoryTheory.categories.StandardCategories]
path_univalent_groupoid [in UniMath.CategoryTheory.categories.StandardCategories]
path_groupoid [in UniMath.CategoryTheory.categories.StandardCategories]
path_pregroupoid [in UniMath.CategoryTheory.categories.StandardCategories]
path_comp_inv_inv [in UniMath.MoreFoundations.Equivalences]
path_inverse_from_right' [in UniMath.MoreFoundations.Equivalences]
path_inverse_from_right [in UniMath.MoreFoundations.Equivalences]
path_inv_rotate_rl [in UniMath.MoreFoundations.Equivalences]
path_inv_rotate_ll [in UniMath.MoreFoundations.Equivalences]
path_inv_rotate_rr [in UniMath.MoreFoundations.Equivalences]
path_inv_rotate_lr [in UniMath.MoreFoundations.Equivalences]
path_mor_E₂_to_path_mor_E₁_weq [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
path_E₂_to_path_E₁_weq [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
path_to_adj_equiv_E [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
path_E_obj [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
path_to_iso_E [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
path_E [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
path_precat [in UniMath.CategoryTheory.CategoryEquality]
path_groupoid_counit_inv_counit [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_counit_inv [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data_nat_trans [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data_nat_trans_is_nat_trans [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data_nat_trans_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data_functor [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data_functor_is_functor [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_inv_data_functor_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit_inv_unit [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit_unit_inv [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit_inv [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit_inv_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit_inv_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_triangle_r [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_triangle_r_is_modification [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_triangle_r_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_triangle_l [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_triangle_l_is_modification [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_triangle_l_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_biadj_unit_counit [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data_nat_trans [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data_nat_trans_is_nat_trans [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data_nat_trans_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data_functor [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data_functor_is_functor [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_counit_data_functor_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_inv_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_unit_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_invertible_cells [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_laws [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_data [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_compositor [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_groupoid_identitor [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_to_nattrans [in UniMath.Bicategories.PseudoFunctors.Examples.PathGroupoid]
path_to_adj_int_equivalence [in UniMath.Bicategories.WkCatEnrichment.internal_equivalence]
path_to_ActionIso [in UniMath.Algebra.GroupAction]
path_hfp_eta [in UniMath.MoreFoundations.PartA]
path_hfp [in UniMath.MoreFoundations.PartA]
path_inv_rotate_2 [in UniMath.MoreFoundations.PartA]
path_inverse_to_right' [in UniMath.MoreFoundations.PartA]
path_inverse_to_right [in UniMath.MoreFoundations.PartA]
path_end [in UniMath.MoreFoundations.PartA]
path_start [in UniMath.MoreFoundations.PartA]
path_type [in UniMath.MoreFoundations.PartA]
path_sigma_hprop [in UniMath.MoreFoundations.PartA]
path_cat [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
path_univalent_cat [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
path_to_fun [in UniMath.MoreFoundations.Univalence]
path_assoc [in UniMath.Foundations.PartA]
pb_2cell_to_lift [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
pb_2cell_weq_cone_cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
pb_2cell_to_cone_cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
pb_1cell_to_lift_1cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]
pb_eqn [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pb_2 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pb_1 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pb_ump_eq_iso_comma [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_2_iso_comma [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1_iso_comma [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_eq_one_types [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_2_one_types [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1_one_types [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_2_cell_pr2 [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_2_cell_pr1 [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_2_cell [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1_1cell_eq [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1_1cell_pr2 [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1_1cell_pr1 [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1_1cell [in UniMath.Bicategories.Colimits.Pullback]
pb_2cell_contr_to_ump_2_eq [in UniMath.Bicategories.Colimits.Pullback]
pb_2cell_contr [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_eq [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_2 [in UniMath.Bicategories.Colimits.Pullback]
pb_ump_1 [in UniMath.Bicategories.Colimits.Pullback]
pb_2cell_pr2 [in UniMath.Bicategories.Colimits.Pullback]
pb_2cell_pr1 [in UniMath.Bicategories.Colimits.Pullback]
pb_2cell_2cell [in UniMath.Bicategories.Colimits.Pullback]
pb_2cell [in UniMath.Bicategories.Colimits.Pullback]
pb_1cell_eq [in UniMath.Bicategories.Colimits.Pullback]
pb_1cell_pr2 [in UniMath.Bicategories.Colimits.Pullback]
pb_1cell_pr1 [in UniMath.Bicategories.Colimits.Pullback]
pb_1cell_1cell [in UniMath.Bicategories.Colimits.Pullback]
pb_1cell [in UniMath.Bicategories.Colimits.Pullback]
pb_cone_cell [in UniMath.Bicategories.Colimits.Pullback]
pb_cone_pr2 [in UniMath.Bicategories.Colimits.Pullback]
pb_cone_pr1 [in UniMath.Bicategories.Colimits.Pullback]
pb_cone_obj [in UniMath.Bicategories.Colimits.Pullback]
pb_cone [in UniMath.Bicategories.Colimits.Pullback]
pb_LModule_deriv_iso [in UniMath.CategoryTheory.Monads.Derivative]
pb_of_section [in UniMath.CategoryTheory.limits.pullbacks]
pb_LModule_comp_iso [in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_id_iso [in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_functor [in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_functor_data [in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_Mor [in UniMath.CategoryTheory.Monads.LModules]
pb_LModule [in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_data [in UniMath.CategoryTheory.Monads.LModules]
pb_LModule_σ [in UniMath.CategoryTheory.Monads.LModules]
PCF_M [in UniMath.SubstitutionSystems.PCF_alt]
PCF_Monad [in UniMath.SubstitutionSystems.PCF_alt]
PCF_Functor [in UniMath.SubstitutionSystems.PCF_alt]
PCF_Signature [in UniMath.SubstitutionSystems.PCF_alt]
PCF_Sig [in UniMath.SubstitutionSystems.PCF_alt]
PCF_App_Lam [in UniMath.SubstitutionSystems.PCF_alt]
PCF_Bot_Y [in UniMath.SubstitutionSystems.PCF_alt]
PCF_Consts [in UniMath.SubstitutionSystems.PCF_alt]
pdelta [in UniMath.CategoryTheory.precomp_fully_faithful]
PDiff [in UniMath.CategoryTheory.PseudoElements]
PDiffElem [in UniMath.CategoryTheory.PseudoElements]
PDiffEq [in UniMath.CategoryTheory.PseudoElements]
PDiffIm [in UniMath.CategoryTheory.PseudoElements]
pentagon [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
pentagon_eq [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
pentagon_eq_A [in UniMath.CategoryTheory.Monoidal.Actions]
pentagon_eq_nicer [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_eq_nice [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
pentagon_axiom [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
pentagon_axiom_type [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
pentagon_eq_A [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
PEq [in UniMath.CategoryTheory.PseudoElements]
PEqEpi1 [in UniMath.CategoryTheory.PseudoElements]
PEqEpi2 [in UniMath.CategoryTheory.PseudoElements]
PEqEq [in UniMath.CategoryTheory.PseudoElements]
PEqOb [in UniMath.CategoryTheory.PseudoElements]
PEq_Pullback [in UniMath.CategoryTheory.PseudoElements]
PEq_Diff [in UniMath.CategoryTheory.PseudoElements]
PEq_ZeroIm [in UniMath.CategoryTheory.PseudoElements]
PEq_Zeros' [in UniMath.CategoryTheory.PseudoElements]
PEq_Im_Comm [in UniMath.CategoryTheory.PseudoElements]
PEq_Im_Paths [in UniMath.CategoryTheory.PseudoElements]
PEq_Comp [in UniMath.CategoryTheory.PseudoElements]
PEq_Im [in UniMath.CategoryTheory.PseudoElements]
PEq_symm [in UniMath.CategoryTheory.PseudoElements]
PEq_refl [in UniMath.CategoryTheory.PseudoElements]
PEq_trans [in UniMath.CategoryTheory.PseudoElements]
PEq_precomp_Epi [in UniMath.CategoryTheory.PseudoElements]
PEq_hrel [in UniMath.CategoryTheory.PseudoElements]
PFiber [in UniMath.CategoryTheory.PseudoElements]
PFiber_Eq [in UniMath.CategoryTheory.PseudoElements]
PFiber_Elem [in UniMath.CategoryTheory.PseudoElements]
pgrpds [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_disp_locally_groupoid [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_disp_2cells_isaprop [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_disp [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_prebicat_laws [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_disp_prebicat_ops [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
pgrpds_disp_prebicat_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
phiinv' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Phi_fusion [in UniMath.SubstitutionSystems.LiftingInitial_alt]
Phi_fusion [in UniMath.SubstitutionSystems.LiftingInitial]
PiSig [in UniMath.SubstitutionSystems.MLTT79]
Pi_map [in UniMath.SubstitutionSystems.CCS_alt]
Pi_source [in UniMath.SubstitutionSystems.CCS_alt]
Pi_map [in UniMath.SubstitutionSystems.CCS]
Pi_source [in UniMath.SubstitutionSystems.CCS]
pi0 [in UniMath.MoreFoundations.Sets]
pi0 [in UniMath.Foundations.Sets]
pi0pr [in UniMath.Foundations.Sets]
PL [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
plassociator [in UniMath.Bicategories.Core.Strictness]
plinvunitor [in UniMath.Bicategories.Core.Strictness]
plunitor [in UniMath.Bicategories.Core.Strictness]
plusDivRig [in UniMath.Algebra.DivisionRig]
plusminusnmm [in UniMath.Foundations.NaturalNumbers]
plusNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
plusNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_lecompat_r [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_lecompat_l [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_ltcompat_r [in UniMath.RealNumbers.NonnegativeReals]
plusNonnegativeReals_ltcompat_l [in UniMath.RealNumbers.NonnegativeReals]
plus_fld [in UniMath.RealNumbers.Fields]
PL_fold [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_fold_alg_mor [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_mk_algebra [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_iff_fun [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_impl_fun [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_impl [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_or_fun [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_or [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_and_fun [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_and [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_not [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_var [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_type [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_functor' [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
PL_functor [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
po [in UniMath.Foundations.Sets]
PointedActionIso [in UniMath.Algebra.GroupAction]
PointedGraph [in UniMath.Combinatorics.ZFstructures]
PointedTorsor [in UniMath.Algebra.GroupAction]
Pointedtorsor_univalence [in UniMath.Algebra.GroupAction]
pointedTrivialTorsor [in UniMath.Algebra.GroupAction]
pointedType [in UniMath.MoreFoundations.PartA]
PointedType [in UniMath.MoreFoundations.PartA]
pointed_operation [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
pointed_carrier [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
pointed_binop [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
pointed_binop_category [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
pointed_triviality_isomorphism [in UniMath.Algebra.GroupAction]
pointed_one_types [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
pointed_one_type_bicat_data [in UniMath.Bicategories.Core.Examples.PointedOneTypesBicat]
pointwise [in UniMath.Algebra.Matrix]
pointwisefamily [in UniMath.Algebra.Dcpo]
pointwiselub [in UniMath.Algebra.Dcpo]
pointwiseorder [in UniMath.Algebra.FixedPointTheorems]
pointwiseorder [in UniMath.Algebra.Dcpo]
pointwise_adjequiv [in UniMath.Bicategories.Transformations.PseudoTransformation]
pointwise_abmonoid [in UniMath.Algebra.Matrix]
pointwise_monoid [in UniMath.Algebra.Matrix]
pointwise_setwith2binop [in UniMath.Algebra.Matrix]
pointwise_setwithbinop [in UniMath.Algebra.Matrix]
pointwise_hSet [in UniMath.Algebra.Matrix]
pointwise_distr [in UniMath.Algebra.Matrix]
pointwise_rdistr [in UniMath.Algebra.Matrix]
pointwise_ldistr [in UniMath.Algebra.Matrix]
pointwise_abmonoidop [in UniMath.Algebra.Matrix]
pointwise_monoidop [in UniMath.Algebra.Matrix]
pointwise_comm [in UniMath.Algebra.Matrix]
pointwise_unit [in UniMath.Algebra.Matrix]
pointwise_runit [in UniMath.Algebra.Matrix]
pointwise_lunit [in UniMath.Algebra.Matrix]
pointwise_assoc [in UniMath.Algebra.Matrix]
pointwise_inv_is_inv_on [in UniMath.CategoryTheory.DisplayedCats.Constructions]
pointwise_iso_from_nat_iso [in UniMath.CategoryTheory.DisplayedCats.Constructions]
point_of [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_disp_cat_disp_univalent [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_disp_cat [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_disp_cat_laws [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_disp_cat_data [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_disp_cat_id_comp [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_disp_cat_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
point_from [in UniMath.MoreFoundations.Notations]
point_to [in UniMath.MoreFoundations.Notations]
polynomial_alg_uncurried [in UniMath.Induction.PolynomialFunctors]
polynomial_functor [in UniMath.Induction.PolynomialFunctors]
polynomial_functor_data [in UniMath.Induction.PolynomialFunctors]
polynomial_functor_arr [in UniMath.Induction.PolynomialFunctors]
polynomial_functor_obj [in UniMath.Induction.PolynomialFunctors]
Poset [in UniMath.Foundations.Sets]
PosetEquivalence [in UniMath.Foundations.Sets]
posetmorphism [in UniMath.Foundations.Sets]
posetmorphism_property [in UniMath.Algebra.FixedPointTheorems]
posetofdcpomorphisms [in UniMath.Algebra.Dcpo]
posetRelation [in UniMath.Foundations.Sets]
posetUnderlyingEquivalence [in UniMath.Foundations.Sets]
Poset_lessthan [in UniMath.Combinatorics.OrderedSets]
Poset_univalence_map [in UniMath.Combinatorics.OrderedSets]
postcompF [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
postcompG [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
postcompose [in UniMath.CategoryTheory.Core.Categories]
postcomp_with_iso_disp_is_inj [in UniMath.CategoryTheory.DisplayedCats.Core]
postcomp_with [in UniMath.CategoryTheory.Core.Isos]
postcomp_with_equalizer_mor [in UniMath.CategoryTheory.limits.equalizers]
postcomp_binprod_cone [in UniMath.Bicategories.Colimits.Products]
postcomp_with_projections [in UniMath.CategoryTheory.limits.binproducts]
Postfixedpoint [in UniMath.Algebra.FixedPointTheorems]
postfixedpoint_property [in UniMath.Algebra.FixedPointTheorems]
PostSwitch [in UniMath.CategoryTheory.LocalizingClass]
PostSwitchEq [in UniMath.CategoryTheory.LocalizingClass]
PostSwitchMor [in UniMath.CategoryTheory.LocalizingClass]
PostSwitchMorIs [in UniMath.CategoryTheory.LocalizingClass]
PostSwitchOb [in UniMath.CategoryTheory.LocalizingClass]
postwhisker_with_ϵ_inv_z_iso [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
post_cat [in UniMath.MoreFoundations.Tactics]
post_comp [in UniMath.Bicategories.Core.Bicat]
post_comp_is_functor [in UniMath.Bicategories.Core.Bicat]
post_comp_data [in UniMath.Bicategories.Core.Bicat]
post_cat [in UniMath.MoreFoundations.Equivalences]
post_comp_functor [in UniMath.CategoryTheory.whiskering]
post_composition_functor [in UniMath.CategoryTheory.whiskering]
post_composition_functor_data [in UniMath.CategoryTheory.whiskering]
post_whisker_in_funcat [in UniMath.CategoryTheory.whiskering]
post_whisker [in UniMath.CategoryTheory.whiskering]
post_whisker_disp_nat_trans [in UniMath.CategoryTheory.DisplayedCats.Core]
post_composition_as_a_functor [in UniMath.CategoryTheory.HorizontalComposition]
post_composition_as_a_functor_data_is_fun [in UniMath.CategoryTheory.HorizontalComposition]
post_composition_as_a_functor_data [in UniMath.CategoryTheory.HorizontalComposition]
post_whisker_snd_param [in UniMath.CategoryTheory.PrecategoryBinProduct]
post_whisker_fst_param [in UniMath.CategoryTheory.PrecategoryBinProduct]
Pow [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
power_category [in UniMath.CategoryTheory.ProductCategory]
Pow_cocone [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
Pow_target [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
Pow_source [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
po_eqn [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
po_2 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
po_1 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
po_reverse [in UniMath.RealNumbers.Sets]
po_category [in UniMath.CategoryTheory.categories.preorder_categories]
po_precategory_has_homsets [in UniMath.CategoryTheory.categories.preorder_categories]
po_precategory [in UniMath.CategoryTheory.categories.preorder_categories]
po_precategory_data_is_precategory [in UniMath.CategoryTheory.categories.preorder_categories]
po_precategory_data [in UniMath.CategoryTheory.categories.preorder_categories]
po_precategory_ob_mor [in UniMath.CategoryTheory.categories.preorder_categories]
prabgrdiff [in UniMath.Algebra.Groups]
prabmonoidfrac [in UniMath.Algebra.Monoids]
prassociator [in UniMath.Bicategories.Core.Strictness]
prcommringfrac [in UniMath.Algebra.RigsAndRings]
PreAdditive [in UniMath.CategoryTheory.PreAdditive]
PreAdditiveComps [in UniMath.CategoryTheory.PreAdditive]
PreAdditiveSubabgrs [in UniMath.CategoryTheory.PreAdditive]
PreAdditive_functor_to_functor [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PreAdditive_functor [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PreAdditive_isPreAdditive [in UniMath.CategoryTheory.PreAdditive]
PreAdditive_categoryWithAbgrops [in UniMath.CategoryTheory.PreAdditive]
prebicat [in UniMath.Bicategories.Core.Bicat]
prebicategory [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_of_prebicat [in UniMath.Bicategories.BicategoryOfBicat]
prebicategory_data_from_prebicategory [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_coherence [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_id_comp_from_prebicategory_data [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_data [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_ob_hom_from_prebicategory_id_comp [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_id_comp [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_ob_hom [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
prebicategory_to_hcomp_bicat [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
prebicategory_to_hcomp_bicat_data [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
prebicat_of_bicat [in UniMath.Bicategories.Core.Bicat]
prebicat_laws_from_bicat [in UniMath.Bicategories.Core.Bicat]
prebicat_data_from_bicat [in UniMath.Bicategories.Core.Bicat]
prebicat_laws [in UniMath.Bicategories.Core.Bicat]
prebicat_cells_1_id_comp_from_prebicat_data [in UniMath.Bicategories.Core.Bicat]
prebicat_data [in UniMath.Bicategories.Core.Bicat]
prebicat_2_id_comp_struct [in UniMath.Bicategories.Core.Bicat]
prebicat_cells [in UniMath.Bicategories.Core.Bicat]
prebicat_1_id_comp_cells [in UniMath.Bicategories.Core.Bicat]
prebicat_2cell_struct [in UniMath.Bicategories.Core.Bicat]
prebicat_from_monoidal [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
prebicat_data_from_monoidal [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
prebicat_of_univ_cats [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
prebicat_of_cats [in UniMath.Bicategories.Core.Examples.BicatOfCats]
prebicat_of_strict_cats [in UniMath.Bicategories.Core.Examples.StrictCats]
precarry [in UniMath.PAdics.padics]
precatbinprodiso [in UniMath.CategoryTheory.PrecategoryBinProduct]
precatbinprodiso_inv [in UniMath.CategoryTheory.PrecategoryBinProduct]
precatbinprod_z_iso [in UniMath.CategoryTheory.PrecategoryBinProduct]
precatDelta [in UniMath.CategoryTheory.SimplicialSets]
precategory [in UniMath.CategoryTheory.Core.Categories]
precategoryWithBinOps [in UniMath.CategoryTheory.CategoriesWithBinOps]
precategoryWithBinOpsData [in UniMath.CategoryTheory.CategoriesWithBinOps]
precategoryWithBinOps_precategory [in UniMath.CategoryTheory.CategoriesWithBinOps]
precategory_RelMonad [in UniMath.CategoryTheory.Monads.RelativeMonads]
precategory_RelMonad_data [in UniMath.CategoryTheory.Monads.RelativeMonads]
precategory_RelMonad_ob_mor [in UniMath.CategoryTheory.Monads.RelativeMonads]
precategory_of_AbelianPreCat [in UniMath.CategoryTheory.Abelian]
precategory_from_bicat_and_ob [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
precategory_data_from_bicat_and_ob [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
precategory_Monad [in UniMath.CategoryTheory.Monads.Monads]
precategory_Monad_data [in UniMath.CategoryTheory.Monads.Monads]
precategory_Monad_ob_mor [in UniMath.CategoryTheory.Monads.Monads]
precategory_monoid [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
precategory_monoid_data [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
precategory_monoid_ob_mor [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
precategory_Alg_data [in UniMath.CategoryTheory.Monads.MonadAlgebras]
precategory_Alg_ob_mor [in UniMath.CategoryTheory.Monads.MonadAlgebras]
precategory_FunctorAlg [in UniMath.CategoryTheory.FunctorAlgebras]
precategory_alg_data [in UniMath.CategoryTheory.FunctorAlgebras]
precategory_alg_ob_mor [in UniMath.CategoryTheory.FunctorAlgebras]
precategory_morphisms_in_subcat [in UniMath.CategoryTheory.Subcategory.Core]
precategory_object_in_subcat [in UniMath.CategoryTheory.Subcategory.Core]
precategory_morphism_from_sub_precategory_morphism [in UniMath.CategoryTheory.Subcategory.Core]
precategory_object_from_sub_precategory_object [in UniMath.CategoryTheory.Subcategory.Core]
precategory_binproduct_unassoc [in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct_unassoc_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct_assoc [in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct_assoc_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct [in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct_ob_mor [in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_binproduct_mor [in UniMath.CategoryTheory.PrecategoryBinProduct]
precategory_obmor [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
precategory_of_discrete_bicategory [in UniMath.Bicategories.Discreteness]
precategory_total_comp [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
precategory_total_comp'' [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
precategory_total_id [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
precategory_target [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
precategory_source [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
precategory_skewMonoid [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
precategory_skewMonoid_data [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
precategory_skewMonoid_ob_mor [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
precategory_LModule [in UniMath.CategoryTheory.Monads.LModules]
precategory_LModule_data [in UniMath.CategoryTheory.Monads.LModules]
precategory_LModule_ob_mor [in UniMath.CategoryTheory.Monads.LModules]
precategory_Ptd [in UniMath.CategoryTheory.PointedFunctors]
precategory_from_two_cat_data [in UniMath.CategoryTheory.Core.TwoCategories]
precategory_Kleisli [in UniMath.CategoryTheory.Monads.KTriples]
precategory_Kleisli_Data [in UniMath.CategoryTheory.Monads.KTriples]
precategory_Kleisli_ob_mor [in UniMath.CategoryTheory.Monads.KTriples]
precategory_data_from_precategory [in UniMath.CategoryTheory.Core.Categories]
precategory_ob_mor_from_precategory_data [in UniMath.CategoryTheory.Core.Categories]
precategory_data [in UniMath.CategoryTheory.Core.Categories]
precategory_id_comp [in UniMath.CategoryTheory.Core.Categories]
precategory_morphisms [in UniMath.CategoryTheory.Core.Categories]
precategory_ob_mor [in UniMath.CategoryTheory.Core.Categories]
precat_of_elems [in UniMath.CategoryTheory.ElementsOp]
precat_data_from_prebicat_1_id_comp_cells [in UniMath.Bicategories.Core.Bicat]
precat_precat [in UniMath.CategoryTheory.categories.Cats]
precat_of_elements [in UniMath.CategoryTheory.DisplayedCats.Examples]
PreCat_id_comp [in UniMath.Bicategories.WkCatEnrichment.Cat]
PreCat_1mor_2mor [in UniMath.Bicategories.WkCatEnrichment.Cat]
Precat_of_discrete_fibs [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
precat_of_discrete_fibs [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
precat_axioms_of_discrete_fibs [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
precat_of_discrete_fibs_data [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
precat_of_discrete_fibs_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
precat_from_folds_precat [in UniMath.Folds.from_precats_to_folds_and_back]
precat_from_folds_data [in UniMath.Folds.from_precats_to_folds_and_back]
precompF [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
precompG [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
precomp_convertor [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_convertor_nat_trans [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_convertor_nat_trans_data [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_right_unitor [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_right_unitor_nat_trans [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_odot [in UniMath.CategoryTheory.Monoidal.ActionOfEndomorphismsInBicat]
precomp_prod_functor [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
precomp_with_injections [in UniMath.CategoryTheory.limits.bincoproducts]
precomp_with_iso_disp_is_inj [in UniMath.CategoryTheory.DisplayedCats.Core]
precomp_with [in UniMath.CategoryTheory.Core.Isos]
precomp_option_iter_Signature [in UniMath.SubstitutionSystems.BindingSigToMonad]
precomp_option_iter [in UniMath.SubstitutionSystems.BindingSigToMonad]
precomp_prod_1cell_invertible [in UniMath.Bicategories.Colimits.Products]
precomp_prod_1cell [in UniMath.Bicategories.Colimits.Products]
precomp_option_Signature [in UniMath.SubstitutionSystems.SignatureExamples]
precomp_genoption_Signature [in UniMath.SubstitutionSystems.SignatureExamples]
PreFilter [in UniMath.Topology.Filters]
PreFilterBase [in UniMath.Topology.Filters]
PreFilterDirprod [in UniMath.Topology.Filters]
PreFilterDom [in UniMath.Topology.Filters]
PreFilterGenerated [in UniMath.Topology.Filters]
PreFilterIm [in UniMath.Topology.Filters]
PreFilterIntersection [in UniMath.Topology.Filters]
PreFilterPr1 [in UniMath.Topology.Filters]
PreFilterPr2 [in UniMath.Topology.Filters]
PreFilterSubtype [in UniMath.Topology.Filters]
PreFilterTop [in UniMath.Topology.Filters]
prefix_remove_back [in UniMath.Combinatorics.MoreLists]
prefix_remove [in UniMath.Combinatorics.MoreLists]
pregraph [in UniMath.Combinatorics.Graph]
pregraph_of_graph [in UniMath.Combinatorics.Graph]
pregraph_category [in UniMath.CategoryTheory.categories.Graph]
pregraph_precategory_data [in UniMath.CategoryTheory.categories.Graph]
pregraph_precategory_ob_mor [in UniMath.CategoryTheory.categories.Graph]
pregroupoid [in UniMath.CategoryTheory.Groupoids]
pregroupoid_is_pregroupoid [in UniMath.CategoryTheory.Groupoids]
pregroupoid_to_precategory [in UniMath.CategoryTheory.Groupoids]
preimage_functor_data [in UniMath.CategoryTheory.precomp_ess_surj]
preIt [in UniMath.SubstitutionSystems.GenMendlerIteration]
preIt [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
prejoin_from_hetsubst [in UniMath.SubstitutionSystems.SubstitutionSystems]
PreorderedSet [in UniMath.Foundations.Sets]
PreorderedSetEffectiveOrder [in UniMath.RealNumbers.Sets]
PreorderedSetPair [in UniMath.Foundations.Sets]
PreorderedSetRelation [in UniMath.Foundations.Sets]
presented_abgrfun [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abgr_universal_property [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abgr_extend [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abgr_intro [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abgr_pr [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abgr [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_grfun [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_gr_universal_property [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_gr_extend [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_gr_intro [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_gr_pr [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_gr [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoidfun [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoid_universal_property [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoid_extend [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoid_intro [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoid_pr [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_abmonoid [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoidfun [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoid_universal_property [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoid_extend [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoid_intro [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoid_pr [in UniMath.Algebra.Free_Monoids_and_Groups]
presented_monoid [in UniMath.Algebra.Free_Monoids_and_Groups]
PreservesBinDirectSums [in UniMath.CategoryTheory.AdditiveFunctors]
preserveslub [in UniMath.Algebra.Dcpo]
preserves_colimit [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
preserves_colimits_of_shape [in UniMath.CategoryTheory.limits.graphs.colimits]
preserves_colimit [in UniMath.CategoryTheory.limits.graphs.colimits]
preserves_limit [in UniMath.CategoryTheory.limits.graphs.limits]
Presheaf [in UniMath.CategoryTheory.GrothendieckTopos]
PresheafToFunctor [in UniMath.CategoryTheory.GrothendieckTopos]
presheaf_to_yoneda [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_data [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_mor_modification [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_mor_modification_data [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_mor_modification_nat_trans_data [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_data [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_is_nat_iso [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_nat_trans [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_nat_trans_data [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_functor [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_functor_data [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_functor_mor [in UniMath.Bicategories.Core.YonedaLemma]
presheaf_to_yoneda_ob_pstrans_functor_ob [in UniMath.Bicategories.Core.YonedaLemma]
PreShv_exponentials [in UniMath.CategoryTheory.ExponentiationLeftAdjoint]
preshv_from_disc_fib_ob [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
preshv_ax_from_disc_fib_ob [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
preshv_data_from_disc_fib_ob [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
PreShv_of_elems_slice_of_PreShv_adj_equiv [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_of_elems_slice_of_PreShv_equiv [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_counit [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_all_iso [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_unit [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_unit_fun [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_is_funct [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_data [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_mor [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_isnat [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_nat [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_nat_fun [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_funct [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_is_funct' [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_is_funct [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_funct_data [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_funct_mor [in UniMath.CategoryTheory.elems_slice_equiv]
PreShv_to_slice_ob_funct_fun [in UniMath.CategoryTheory.elems_slice_equiv]
Presignature [in UniMath.SubstitutionSystems.Signatures]
Presignature_Signature [in UniMath.SubstitutionSystems.Signatures]
Presignature_Functor [in UniMath.SubstitutionSystems.Signatures]
PrestrengthForSignature [in UniMath.SubstitutionSystems.Signatures]
PrestrengthForSignatureAtPoint [in UniMath.SubstitutionSystems.Signatures]
PreSwitch [in UniMath.CategoryTheory.LocalizingClass]
PreSwitchEq [in UniMath.CategoryTheory.LocalizingClass]
PreSwitchMor [in UniMath.CategoryTheory.LocalizingClass]
PreSwitchMorIs [in UniMath.CategoryTheory.LocalizingClass]
PreSwitchOb [in UniMath.CategoryTheory.LocalizingClass]
PreTriang [in UniMath.HomologicalAlgebra.Triangulated]
PreTriangData [in UniMath.HomologicalAlgebra.Triangulated]
PreTriangData_Additive [in UniMath.HomologicalAlgebra.Triangulated]
PreTriang_isPreTriang [in UniMath.HomologicalAlgebra.Triangulated]
PreTriang_PreTriangData [in UniMath.HomologicalAlgebra.Triangulated]
prewhisker_with_μ_inv_z_iso [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
prewhisker_with_ϵ_inv_z_iso [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
preZFS [in UniMath.Combinatorics.ZFstructures]
preZFS_Branch_hsubtype_tohsubtype [in UniMath.Combinatorics.ZFstructures]
preZFS_Branch [in UniMath.Combinatorics.ZFstructures]
preZFS_iso [in UniMath.Combinatorics.ZFstructures]
pre_cat [in UniMath.MoreFoundations.Tactics]
pre_comp [in UniMath.Bicategories.Core.Bicat]
pre_comp_is_functor [in UniMath.Bicategories.Core.Bicat]
pre_comp_data [in UniMath.Bicategories.Core.Bicat]
pre_cat [in UniMath.MoreFoundations.Equivalences]
pre_nat_as_set [in UniMath.Induction.ImpredicativeInductiveSets]
pre_nat [in UniMath.Induction.ImpredicativeInductiveSets]
pre_sum_as_set [in UniMath.Induction.ImpredicativeInductiveSets]
pre_sum [in UniMath.Induction.ImpredicativeInductiveSets]
pre_prod_as_set [in UniMath.Induction.ImpredicativeInductiveSets]
pre_prod [in UniMath.Induction.ImpredicativeInductiveSets]
pre_comp_functor [in UniMath.CategoryTheory.whiskering]
pre_composition_functor [in UniMath.CategoryTheory.whiskering]
pre_composition_functor_data [in UniMath.CategoryTheory.whiskering]
pre_whisker_in_funcat [in UniMath.CategoryTheory.whiskering]
pre_whisker [in UniMath.CategoryTheory.whiskering]
pre_whisker_disp_nat_trans [in UniMath.CategoryTheory.DisplayedCats.Core]
pre_composition_as_a_functor [in UniMath.CategoryTheory.HorizontalComposition]
pre_composition_as_a_functor_data [in UniMath.CategoryTheory.HorizontalComposition]
prime_ideal_complement [in UniMath.Algebra.RigsAndRings.Ideals]
prime_ideal_ax2 [in UniMath.Algebra.RigsAndRings.Ideals]
prime_ideal_ax1 [in UniMath.Algebra.RigsAndRings.Ideals]
prime_ideal_ideal [in UniMath.Algebra.RigsAndRings.Ideals]
prime_ideal [in UniMath.Algebra.RigsAndRings.Ideals]
princop [in UniMath.Algebra.Universal.Terms]
princop_sorteq [in UniMath.Algebra.Universal.Terms]
prinvunitor [in UniMath.Bicategories.Core.Strictness]
ProdCone [in UniMath.CategoryTheory.limits.graphs.binproducts]
prodtofunfromcoprod [in UniMath.Foundations.PartD]
prodtofuntoprod [in UniMath.Foundations.PartD]
prodtosecovercoprod [in UniMath.Foundations.PartD]
Product [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Product [in UniMath.Induction.ImpredicativeInductiveSets]
Product [in UniMath.CategoryTheory.limits.products]
ProductArrow [in UniMath.CategoryTheory.limits.products]
productMapExistence [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
ProductObject [in UniMath.CategoryTheory.limits.products]
ProductOfArrows [in UniMath.CategoryTheory.limits.products]
ProductOfArrows_comp [in UniMath.CategoryTheory.limits.products]
ProductPr [in UniMath.CategoryTheory.limits.products]
Products [in UniMath.CategoryTheory.limits.products]
productscone [in UniMath.CategoryTheory.limits.products]
products_diagram [in UniMath.CategoryTheory.limits.products]
Products_functor_precat [in UniMath.CategoryTheory.limits.products]
productwithfixedelement [in UniMath.Bicategories.PseudoFunctors.Examples.CurryingInBicatOfCats]
Product_rec [in UniMath.Induction.ImpredicativeInductiveSets]
Product_as_set [in UniMath.Induction.ImpredicativeInductiveSets]
Product_isaset [in UniMath.Induction.ImpredicativeInductiveSets]
product_category [in UniMath.CategoryTheory.ProductCategory]
product_category' [in UniMath.CategoryTheory.ProductCategory]
product_precategory [in UniMath.CategoryTheory.ProductCategory]
product_precategory_data [in UniMath.CategoryTheory.ProductCategory]
product_precategory_ob_mor [in UniMath.CategoryTheory.ProductCategory]
product_nat_trans [in UniMath.CategoryTheory.limits.products]
product_nat_trans_data [in UniMath.CategoryTheory.limits.products]
product_nat_trans_pr [in UniMath.CategoryTheory.limits.products]
product_nat_trans_pr_data [in UniMath.CategoryTheory.limits.products]
product_of_functors [in UniMath.CategoryTheory.limits.products]
product_of_functors_data [in UniMath.CategoryTheory.limits.products]
product_of_functors_mor [in UniMath.CategoryTheory.limits.products]
product_of_functors_ob [in UniMath.CategoryTheory.limits.products]
product_of_functors_alt [in UniMath.CategoryTheory.limits.products]
product_functor [in UniMath.CategoryTheory.limits.products]
product_functor_data [in UniMath.CategoryTheory.limits.products]
product_unoseq_ring [in UniMath.Algebra.IteratedBinaryOperations]
prod_functor [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_functor_data [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_category_assoc [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_category_assoc_data [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_category [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_precategory_homsets [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_precategory [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_precategory_is_precategory [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_precategory_data [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_precategory_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
prod_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
prod_idtoiso_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
prod_idtoiso_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
prod_2cell_pr2_alt [in UniMath.Bicategories.Colimits.Products]
prod_2cell_pr1_alt [in UniMath.Bicategories.Colimits.Products]
prod_2cell_pr2 [in UniMath.Bicategories.Colimits.Products]
prod_2cell_pr1 [in UniMath.Bicategories.Colimits.Products]
prod_2cell_is_invertible [in UniMath.Bicategories.Colimits.Products]
prod_2cell [in UniMath.Bicategories.Colimits.Products]
prod_1cell_pr2 [in UniMath.Bicategories.Colimits.Products]
prod_1cell_pr1 [in UniMath.Bicategories.Colimits.Products]
prod_1cell [in UniMath.Bicategories.Colimits.Products]
prod2 [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
profunctor [in UniMath.CategoryTheory.Profunctors.Core]
progressive_property [in UniMath.Algebra.FixedPointTheorems]
Progressive_map [in UniMath.Algebra.FixedPointTheorems]
projSortToC [in UniMath.SubstitutionSystems.MultiSorted_alt]
projSortToC_rad [in UniMath.SubstitutionSystems.MultiSorted_alt]
projSortToSet [in UniMath.SubstitutionSystems.MultiSorted_alt]
proj_comm [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
proj_ [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
proj_functor' [in UniMath.SubstitutionSystems.MultiSorted]
proj_functor [in UniMath.SubstitutionSystems.MultiSorted]
proj_fun [in UniMath.SubstitutionSystems.MultiSorted]
Proj1 [in UniMath.Induction.ImpredicativeInductiveSets]
Proj2 [in UniMath.Induction.ImpredicativeInductiveSets]
proofirrelevance_hProp [in UniMath.MoreFoundations.Propositions]
Proof_map [in UniMath.SubstitutionSystems.CCS_alt]
Proof_source [in UniMath.SubstitutionSystems.CCS_alt]
Proof_map [in UniMath.SubstitutionSystems.CCS]
Proof_source [in UniMath.SubstitutionSystems.CCS]
property_from_invertible_2cell [in UniMath.Bicategories.Core.Bicat]
proper_subtypes_set [in UniMath.Combinatorics.WellOrderedSets]
propositionalUnivalenceFromUnivalence [in UniMath.Foundations.UnivalenceAxiom]
propositionalUnivalenceStatement [in UniMath.Foundations.UnivalenceAxiom]
propproperty [in UniMath.Foundations.Propositions]
Prop_map [in UniMath.SubstitutionSystems.CCS_alt]
Prop_source [in UniMath.SubstitutionSystems.CCS_alt]
Prop_map [in UniMath.SubstitutionSystems.CCS]
Prop_source [in UniMath.SubstitutionSystems.CCS]
prop_n_to_min_n [in UniMath.Combinatorics.BoundedSearch]
prtoimage [in UniMath.Foundations.Propositions]
prunitor [in UniMath.Bicategories.Core.Strictness]
pr_ [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pr_2 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pr_1 [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pr_functor [in UniMath.CategoryTheory.ProductCategory]
pr_functor_data [in UniMath.CategoryTheory.ProductCategory]
pr_strictness_structure [in UniMath.Bicategories.Core.Strictness]
pr_quot_functor [in UniMath.CategoryTheory.SetValuedFunctors]
pr_quot_functor_data [in UniMath.CategoryTheory.SetValuedFunctors]
Pr1AdmEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr1afld [in UniMath.PAdics.lemmas]
pr1aintdom [in UniMath.PAdics.lemmas]
pr1BaseOfFilter [in UniMath.Topology.Filters]
pr1BaseOfPreFilter [in UniMath.Topology.Filters]
pr1base_of_neighborhood [in UniMath.Topology.Topology]
pr1binopeqrel [in UniMath.Algebra.BinaryOperations]
pr1binopfun [in UniMath.Algebra.BinaryOperations]
pr1binophrel [in UniMath.Algebra.BinaryOperations]
pr1binopiso [in UniMath.Algebra.BinaryOperations]
pr1binopmono [in UniMath.Algebra.BinaryOperations]
pr1binoppo [in UniMath.Algebra.BinaryOperations]
pr1carrier [in UniMath.Foundations.Sets]
pr1compfun [in UniMath.Foundations.Sets]
pr1compl [in UniMath.Foundations.PartC]
pr1CompleteSpace [in UniMath.RealNumbers.Sets]
pr1compl_ne [in UniMath.MoreFoundations.NegativePropositions]
pr1Dcuts [in UniMath.RealNumbers.NonnegativeReals]
pr1decrel [in UniMath.Foundations.Sets]
pr1decSet [in UniMath.Combinatorics.DecSet]
pr1DivRig [in UniMath.Algebra.DivisionRig]
pr1EffectivelyOrderedSet [in UniMath.RealNumbers.Sets]
pr1eqrel [in UniMath.Foundations.Sets]
pr1Filter [in UniMath.Topology.Filters]
pr1fld [in UniMath.Algebra.Domains_and_Fields]
pr1foldr_algmor [in UniMath.CategoryTheory.Inductives.Lists]
pr1foldr_algmor [in UniMath.CategoryTheory.Inductives.Trees]
pr1GreatestLowerBound [in UniMath.RealNumbers.Sets]
pr1hSet [in UniMath.Foundations.Sets]
pr1image [in UniMath.Foundations.Propositions]
pr1incl [in UniMath.Foundations.PartB]
pr1intdom [in UniMath.Algebra.Domains_and_Fields]
pr1invpair [in UniMath.Algebra.Domains_and_Fields]
pr1isabgrop [in UniMath.Algebra.BinaryOperations]
pr1isabmonoidop [in UniMath.Algebra.BinaryOperations]
pr1iscommrigops [in UniMath.Algebra.BinaryOperations]
pr1iscommringops [in UniMath.Algebra.BinaryOperations]
pr1isgrop [in UniMath.Algebra.BinaryOperations]
pr1isolated [in UniMath.Foundations.PartB]
pr1isolated_ne [in UniMath.MoreFoundations.NegativePropositions]
pr1LeastUpperBound [in UniMath.RealNumbers.Sets]
pr1linearfun [in UniMath.Algebra.Modules.Core]
pr1linvpair [in UniMath.Algebra.Domains_and_Fields]
pr1module [in UniMath.Algebra.Modules.Core]
pr1modulefun [in UniMath.Algebra.Modules.Core]
pr1monoid [in UniMath.Algebra.Monoids]
pr1monoidfun [in UniMath.Algebra.Monoids]
pr1monoidiso [in UniMath.Algebra.Monoids]
pr1monoidmono [in UniMath.Algebra.Monoids]
pr1multilinearfun [in UniMath.Algebra.Modules.Multimodules]
pr1multimodule [in UniMath.Algebra.Modules.Multimodules]
pr1multimodulefun [in UniMath.Algebra.Modules.Multimodules]
pr1Open [in UniMath.Topology.Topology]
pr1PreFilter [in UniMath.Topology.Filters]
pr1rig [in UniMath.Algebra.RigsAndRings]
pr1rigfun [in UniMath.Algebra.RigsAndRings]
pr1rigiso [in UniMath.Algebra.RigsAndRings]
pr1ring [in UniMath.Algebra.RigsAndRings]
pr1rinvpair [in UniMath.Algebra.Domains_and_Fields]
pr1setofendabgr [in UniMath.Algebra.Modules.Core]
pr1setquot [in UniMath.Foundations.Sets]
pr1setwithbinop [in UniMath.Algebra.BinaryOperations]
pr1setwith2binop [in UniMath.Algebra.BinaryOperations]
pr1sieve [in UniMath.CategoryTheory.Presheaf]
pr1StrongOrder [in UniMath.Algebra.Lattice]
pr1StrongOrder [in UniMath.RealNumbers.Sets]
pr1submonoid [in UniMath.Algebra.Monoids]
pr1subrig [in UniMath.Algebra.RigsAndRings]
pr1subring [in UniMath.Algebra.RigsAndRings]
pr1subsetswithbinop [in UniMath.Algebra.BinaryOperations]
pr1subsetswith2binop [in UniMath.Algebra.BinaryOperations]
pr1TopologicatSet [in UniMath.Topology.Topology]
pr1twobinopeqrel [in UniMath.Algebra.BinaryOperations]
pr1twobinopfun [in UniMath.Algebra.BinaryOperations]
pr1twobinophrel [in UniMath.Algebra.BinaryOperations]
pr1twobinopiso [in UniMath.Algebra.BinaryOperations]
pr1twobinopmono [in UniMath.Algebra.BinaryOperations]
pr1twobinoppo [in UniMath.Algebra.BinaryOperations]
pr1weq [in UniMath.Foundations.PartA]
pr1wofun [in UniMath.Combinatorics.WellOrderedSets]
pr1ZFS [in UniMath.Combinatorics.ZFstructures]
pr1_pr1_relmonadmor_eq_from_relmonadmor_iso [in UniMath.CategoryTheory.Monads.RelativeMonads]
pr1_invertible_2cell_total [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
pr1_psfunctor [in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
pr1_category_locally_contractible [in UniMath.CategoryTheory.DisplayedCats.Projection]
pr1_category_inhabited [in UniMath.CategoryTheory.DisplayedCats.Projection]
pr1_category_fully_faithful [in UniMath.CategoryTheory.DisplayedCats.Projection]
pr1_category_full [in UniMath.CategoryTheory.DisplayedCats.Projection]
pr1_category_faithful [in UniMath.CategoryTheory.DisplayedCats.Projection]
pr1_GH_weq_compute [in UniMath.SyntheticHomotopyTheory.Circle]
pr1_GH_weq [in UniMath.SyntheticHomotopyTheory.Circle]
pr1_GH [in UniMath.SyntheticHomotopyTheory.Circle]
pr1_Postfixedpoint [in UniMath.Algebra.FixedPointTheorems]
pr1_Fixedpoint [in UniMath.Algebra.FixedPointTheorems]
pr1_Progressive_map [in UniMath.Algebra.FixedPointTheorems]
pr1_Directed_hsubtype [in UniMath.Algebra.FixedPointTheorems]
pr1_Chain_hsubtype [in UniMath.Algebra.FixedPointTheorems]
pr1_category [in UniMath.CategoryTheory.DisplayedCats.Core]
pr1_category_data [in UniMath.CategoryTheory.DisplayedCats.Core]
pr1_functor_eq_from_functor_iso [in UniMath.CategoryTheory.FunctorCategory]
pr1_pr1_functor_eq_from_functor_iso [in UniMath.CategoryTheory.FunctorCategory]
pr1_functor [in UniMath.CategoryTheory.PrecategoryBinProduct]
pr1_functor_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
pr1_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr1_left_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr1_disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr1_is_disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr1_eqweqmap_stn [in UniMath.Combinatorics.StandardFiniteSets]
pr1_dni_lastelement [in UniMath.Combinatorics.StandardFiniteSets]
pr1_eqweqmap2 [in UniMath.MoreFoundations.Univalence]
pr1_eqweqmap [in UniMath.MoreFoundations.Univalence]
pr12_pair_path_in2 [in UniMath.SyntheticHomotopyTheory.Circle]
pr12_GH [in UniMath.SyntheticHomotopyTheory.Circle]
Pr2AdmEpi [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pr2module [in UniMath.Algebra.Modules.Core]
pr2multimodule [in UniMath.Algebra.Modules.Multimodules]
pr2setofendabgr [in UniMath.Algebra.Modules.Core]
pr2subsetswithbinop [in UniMath.Algebra.BinaryOperations]
pr2_GH [in UniMath.SyntheticHomotopyTheory.Circle]
pr2_functor [in UniMath.CategoryTheory.PrecategoryBinProduct]
pr2_functor_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
pr2_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr2_left_adjoint_equivalence [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr2_disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr2_is_disp_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Prod]
pr2_of_make_weq [in UniMath.MoreFoundations.PartA]
pr2_of_pair [in UniMath.MoreFoundations.PartA]
pr2_of_make_hfiber [in UniMath.MoreFoundations.PartA]
pr22_GH [in UniMath.SyntheticHomotopyTheory.Circle]
pr3bimodule [in UniMath.Algebra.Modules.Multimodules]
pscomponent_of [in UniMath.Bicategories.Transformations.PseudoTransformation]
PseudoElem [in UniMath.CategoryTheory.PseudoElements]
PseudoIm [in UniMath.CategoryTheory.PseudoElements]
PseudoMor [in UniMath.CategoryTheory.PseudoElements]
PseudoOb [in UniMath.CategoryTheory.PseudoElements]
psfunctor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_to_functor_data [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
psfunctor_data_on_cells [in UniMath.Bicategories.Transformations.PseudoTransformation]
psfunctor_to_monoidal_functor [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psfunctor_to_lax_monoidal_functor [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psfunctor_to_lax_monoidal_functor_functor [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psfunctor_to_lax_monoidal_functor_data [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
psfunctor_bicat_is_univalent_2 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_bicat_is_univalent_2_0 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_bicat_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_bicat [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_laws [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_rwhisker_law [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_lwhisker_law [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_lassociator_law [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_runitor_law [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_lunitor_law [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_vcomp2_law [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_id2_law [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_comp [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_id [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_on_cells [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_data_is_univalent_2 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_data_is_univalent_2_0 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_data_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_data [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_data_bicat [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_data_disp [in UniMath.Bicategories.PseudoFunctors.Display.PseudoFunctorBicat]
psfunctor_preserves_adjequiv [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_lassociator_alt [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_F_runitor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_F_lunitor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_comp_natural [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_rassociator [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_rinvunitor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_linvunitor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_is_iso [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_rwhisker [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_lwhisker [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_lassociator [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_runitor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_lunitor [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_vcomp [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_id2 [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_comp [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_id [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_on_cells [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_to_psfunctor_data [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
psfunctor_of_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
psfunctor_biinitial [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
psfunctor_bifinal [in UniMath.Bicategories.PseudoFunctors.PseudoFunctorLimits]
psnaturality_inv_natural [in UniMath.Bicategories.Transformations.PseudoTransformation]
psnaturality_natural [in UniMath.Bicategories.Transformations.PseudoTransformation]
psnaturality_of [in UniMath.Bicategories.Transformations.PseudoTransformation]
pspsh [in UniMath.Bicategories.PseudoFunctors.Representable]
pstrans [in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_to_nattrans_data [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
pstrans_on_data_to_pstrans [in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_on_data [in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_data_on_data [in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_to_is_pstrans [in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_to_pstrans_data [in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_inv_comp_alt [in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_comp_alt [in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_id_alt [in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_comp [in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_id [in UniMath.Bicategories.Transformations.PseudoTransformation]
pstrans_data [in UniMath.Bicategories.Transformations.PseudoTransformation]
psubst [in UniMath.SubstitutionSystems.STLC_alt]
ps_base_is_univalent_2 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
ps_base_is_univalent_2_0 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
ps_base_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Display.Base]
ps_base [in UniMath.Bicategories.PseudoFunctors.Display.Base]
ps_base_laws [in UniMath.Bicategories.PseudoFunctors.Display.Base]
ps_base_data [in UniMath.Bicategories.PseudoFunctors.Display.Base]
pt [in UniMath.SyntheticHomotopyTheory.Circle2]
ptd [in UniMath.SubstitutionSystems.Signatures]
ptdInitAlg [in UniMath.SubstitutionSystems.LiftingInitial_alt]
ptdInitAlg [in UniMath.SubstitutionSystems.LiftingInitial]
ptd_mor_from_μ [in UniMath.SubstitutionSystems.ModulesFromSignatures]
ptd_mor_pt [in UniMath.SubstitutionSystems.ModulesFromSignatures]
ptd_from_mon [in UniMath.SubstitutionSystems.ModulesFromSignatures]
ptd_compose [in UniMath.CategoryTheory.PointedFunctorsComposition]
ptd_composite [in UniMath.CategoryTheory.PointedFunctorsComposition]
ptd_mor_from_hssMor [in UniMath.SubstitutionSystems.SubstitutionSystems]
ptd_from_alg_functor [in UniMath.SubstitutionSystems.SubstitutionSystems]
ptd_from_alg_functor_data [in UniMath.SubstitutionSystems.SubstitutionSystems]
ptd_from_alg_mor [in UniMath.SubstitutionSystems.SubstitutionSystems]
ptd_from_alg [in UniMath.SubstitutionSystems.SubstitutionSystems]
ptd_forget_data [in UniMath.CategoryTheory.PointedFunctors]
ptd_precategory_data [in UniMath.CategoryTheory.PointedFunctors]
ptd_ob_mor [in UniMath.CategoryTheory.PointedFunctors]
ptd_comp [in UniMath.CategoryTheory.PointedFunctors]
ptd_id [in UniMath.CategoryTheory.PointedFunctors]
ptd_mor_commutes [in UniMath.CategoryTheory.PointedFunctors]
ptd_mor [in UniMath.CategoryTheory.PointedFunctors]
ptd_pt [in UniMath.CategoryTheory.PointedFunctors]
ptd_obj [in UniMath.CategoryTheory.PointedFunctors]
pt_1 [in UniMath.SyntheticHomotopyTheory.Circle2]
pt_0 [in UniMath.SyntheticHomotopyTheory.Circle2]
Pullback [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pullback [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
Pullback [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pullback [in UniMath.CategoryTheory.limits.pullbacks]
PullbackArrow [in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackArrow [in UniMath.CategoryTheory.limits.pullbacks]
PullbackCone [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
pullBackFamily [in UniMath.MoreFoundations.PathsOver]
PullbackHSET_ob [in UniMath.CategoryTheory.categories.HSET.Limits]
pullbackiso1 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
pullbackiso2 [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
PullbackObject [in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackObject [in UniMath.CategoryTheory.limits.pullbacks]
pullBackPathOver [in UniMath.MoreFoundations.PathsOver]
pullBackPathOverPath [in UniMath.MoreFoundations.PathsOver]
pullBackPathOverPoint [in UniMath.MoreFoundations.PathsOver]
pullBackPathPathOver [in UniMath.MoreFoundations.PathsOver]
pullBackPointOver [in UniMath.MoreFoundations.PathsOver]
pullBackPointOverWithSection [in UniMath.MoreFoundations.PathsOver]
pullBackPointOverWithSection' [in UniMath.MoreFoundations.PathsOver]
PullbackPr1 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackPr1 [in UniMath.CategoryTheory.limits.pullbacks]
PullbackPr2 [in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackPr2 [in UniMath.CategoryTheory.limits.pullbacks]
Pullbacks [in UniMath.CategoryTheory.Abelian]
Pullbacks [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pullbacks [in UniMath.CategoryTheory.limits.pullbacks]
pullBackSection [in UniMath.MoreFoundations.PathsOver]
PullbackSqrCommutes [in UniMath.CategoryTheory.limits.graphs.pullbacks]
PullbackSqrCommutes [in UniMath.CategoryTheory.limits.pullbacks]
PullbackSubobject [in UniMath.CategoryTheory.Subobjects]
Pullbacks_from_slice_BinProducts [in UniMath.CategoryTheory.slicecat]
Pullbacks_opp [in UniMath.CategoryTheory.limits.Opp]
Pullbacks_from_Equalizers_BinProducts [in UniMath.CategoryTheory.limits.pullbacks]
pullback_binopeqrel_rev [in UniMath.Algebra.BinaryOperations]
pullback_binopeqrel [in UniMath.Algebra.BinaryOperations]
pullback_to_slice_binprod [in UniMath.CategoryTheory.slicecat]
Pullback_opp [in UniMath.CategoryTheory.limits.Opp]
pullback_to_binprod [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
pullback_diagram [in UniMath.CategoryTheory.limits.graphs.pullbacks]
pullback_graph [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pullback_from_Equalizer_BinProduct [in UniMath.CategoryTheory.limits.pullbacks]
Pullback_from_Equalizer_BinProduct_isPullback [in UniMath.CategoryTheory.limits.pullbacks]
Pullback_from_Equalizer_BinProduct_eq [in UniMath.CategoryTheory.limits.pullbacks]
PullbCone [in UniMath.CategoryTheory.limits.graphs.pullbacks]
Pushout [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Pushout [in UniMath.CategoryTheory.limits.graphs.pushouts]
Pushout [in UniMath.CategoryTheory.limits.pushouts]
PushoutArrow [in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutArrow [in UniMath.CategoryTheory.limits.pushouts]
PushoutCocone [in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutIn1 [in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutIn1 [in UniMath.CategoryTheory.limits.pushouts]
PushoutIn2 [in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutIn2 [in UniMath.CategoryTheory.limits.pushouts]
PushoutObject [in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutObject [in UniMath.CategoryTheory.limits.pushouts]
PushoutQuotobject [in UniMath.CategoryTheory.Quotobjects]
Pushouts [in UniMath.CategoryTheory.Abelian]
Pushouts [in UniMath.CategoryTheory.limits.graphs.pushouts]
Pushouts [in UniMath.CategoryTheory.limits.pushouts]
PushoutSqrCommutes [in UniMath.CategoryTheory.limits.graphs.pushouts]
PushoutSqrCommutes [in UniMath.CategoryTheory.limits.pushouts]
Pushouts_from_Coequalizers_BinCoproducts [in UniMath.CategoryTheory.limits.pushouts]
Pushouts_opp [in UniMath.CategoryTheory.limits.Opp]
pushout_diagram [in UniMath.CategoryTheory.limits.graphs.pushouts]
pushout_graph [in UniMath.CategoryTheory.limits.graphs.pushouts]
Pushout_from_Coequalizer_BinCoproduct [in UniMath.CategoryTheory.limits.pushouts]
Pushout_from_Coequalizer_BinCoproduct_isPushout [in UniMath.CategoryTheory.limits.pushouts]
Pushout_from_Coequalizer_BinCoproduct_eq [in UniMath.CategoryTheory.limits.pushouts]
Pushout_opp [in UniMath.CategoryTheory.limits.Opp]
PZero [in UniMath.CategoryTheory.PseudoElements]
P_inhab [in UniMath.Combinatorics.Tests]
P_dec [in UniMath.Combinatorics.Tests]
P' [in UniMath.Induction.M.ComputationalM]
P'HSET [in UniMath.CategoryTheory.Inductives.PropositionalLogic]
P'HSET [in UniMath.CategoryTheory.Inductives.Lists]
P'HSET [in UniMath.CategoryTheory.Inductives.Trees]
p1types [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_disp_locally_groupoid [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
p1types_disp_2cells_isaprop [in UniMath.Bicategories.DisplayedBicats.Examples.PointedGroupoid]
p1types_disp [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_disp_prebicat_ops [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
p1types_disp_prebicat_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.Examples.PointedOneTypes]
pχ [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.CodomainCleaving]

Q

Q [in UniMath.CategoryTheory.RightKanExtension]
Q [in UniMath.SyntheticHomotopyTheory.Circle2]
q [in UniMath.CategoryTheory.precomp_ess_surj]
QT [in UniMath.CategoryTheory.RightKanExtension]
quantified_strong_functor_category_mor_diagram [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
quantified_signature_category_mor_diagram [in UniMath.SubstitutionSystems.SignatureCategory]
Quotcategory [in UniMath.CategoryTheory.PreAdditive]
QuotcategoryAdditiveFunctor [in UniMath.CategoryTheory.AdditiveFunctors]
QuotcategoryComp [in UniMath.CategoryTheory.PreAdditive]
QuotcategoryCompEq [in UniMath.CategoryTheory.PreAdditive]
QuotcategoryCompMor [in UniMath.CategoryTheory.PreAdditive]
QuotcategoryFunctor [in UniMath.CategoryTheory.PreAdditive]
QuotcategoryFunctor_data [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_BinDirectSums [in UniMath.CategoryTheory.limits.BinDirectSums]
Quotcategory_Zero [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_PreAdditive [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_abgrops [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_binops [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_data [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_comp [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_ob_mor [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_homsets [in UniMath.CategoryTheory.PreAdditive]
Quotcategory_Additive [in UniMath.CategoryTheory.Additive]
quotdecrelint [in UniMath.Foundations.Sets]
quotdecrelintlogeq [in UniMath.Foundations.Sets]
quotient [in UniMath.Algebra.RigsAndRings.Ideals]
quotient [in UniMath.Algebra.GroupAction]
quotientprecarry [in UniMath.PAdics.padics]
quotient_by_monoidfun [in UniMath.Algebra.Monoids]
quotmod [in UniMath.Algebra.Modules.Quotient]
quotmoduniv [in UniMath.Algebra.Modules.Quotient]
quotmoduniv_submodule [in UniMath.Algebra.Modules.Quotient]
quotmod_quotmap [in UniMath.Algebra.Modules.Quotient]
quotmod_mod_struct [in UniMath.Algebra.Modules.Quotient]
quotmod_ringfun [in UniMath.Algebra.Modules.Quotient]
quotmod_ringmap [in UniMath.Algebra.Modules.Quotient]
quotmod_ringact [in UniMath.Algebra.Modules.Quotient]
quotmod_abgr [in UniMath.Algebra.Modules.Quotient]
Quotobjectscategory [in UniMath.CategoryTheory.Quotobjects]
Quotobjectscategory_ob [in UniMath.CategoryTheory.Quotobjects]
Quotprecategory [in UniMath.CategoryTheory.PreAdditive]
quotrel [in UniMath.Foundations.Sets]
quot_functor [in UniMath.CategoryTheory.SetValuedFunctors]
quot_functor_data [in UniMath.CategoryTheory.SetValuedFunctors]
quot_functor_mor [in UniMath.CategoryTheory.SetValuedFunctors]
quot_functor_ob [in UniMath.CategoryTheory.SetValuedFunctors]

R

R [in UniMath.CategoryTheory.RightKanExtension]
Rabs [in UniMath.RealNumbers.Reals]
rad [in UniMath.CategoryTheory.Equivalences.Core]
rad_is_left_adjoint [in UniMath.CategoryTheory.Equivalences.Core]
rad_are_adjoints [in UniMath.CategoryTheory.Equivalences.Core]
rad_eta_trans [in UniMath.CategoryTheory.Equivalences.Core]
rad_eps_trans [in UniMath.CategoryTheory.Equivalences.Core]
rad_functor_data [in UniMath.CategoryTheory.Equivalences.Core]
rad_eta [in UniMath.CategoryTheory.Equivalences.Core]
rad_mor [in UniMath.CategoryTheory.Equivalences.Core]
rad_eps [in UniMath.CategoryTheory.Equivalences.Core]
rad_ob [in UniMath.CategoryTheory.Equivalences.Core]
Rap [in UniMath.RealNumbers.Reals]
rassociator [in UniMath.Bicategories.Core.Bicat]
rassociator_transf' [in UniMath.Bicategories.Core.Bicat]
rassociator_transf [in UniMath.Bicategories.Core.Bicat]
rassociator_fun' [in UniMath.Bicategories.Core.Bicat]
rassociator_fun [in UniMath.Bicategories.Core.Bicat]
rassociator_lassociator [in UniMath.Bicategories.Core.Bicat]
rassociator_invertible_2cell [in UniMath.Bicategories.Core.Invertible_2cells]
rassociator_pstrans [in UniMath.Bicategories.Transformations.Examples.Associativity]
rassociator_pstrans_is_pstrans [in UniMath.Bicategories.Transformations.Examples.Associativity]
rassociator_pstrans_data [in UniMath.Bicategories.Transformations.Examples.Associativity]
rassociator_lassociator_pstrans [in UniMath.Bicategories.Modifications.Examples.Associativity]
rassociator_lassociator_pstrans_is_modification [in UniMath.Bicategories.Modifications.Examples.Associativity]
rassociator_lassociator_pstrans_data [in UniMath.Bicategories.Modifications.Examples.Associativity]
Rationals_to_NonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
raw_Monad_data [in UniMath.CategoryTheory.Monads.Monads]
rcanfromrinv [in UniMath.Algebra.Domains_and_Fields]
rdistrtocoprod [in UniMath.Foundations.PartA]
rdistrtoprod [in UniMath.Foundations.PartA]
Rdiv [in UniMath.RealNumbers.Reals]
re [in UniMath.Combinatorics.Tests]
realise_greatest_of_family [in UniMath.Algebra.FixedPointTheorems]
realise_least_of_family [in UniMath.Algebra.FixedPointTheorems]
Reals [in UniMath.RealNumbers.Reals]
recompl [in UniMath.Foundations.PartC]
recomplf [in UniMath.Foundations.PartC]
recompl_ne [in UniMath.MoreFoundations.NegativePropositions]
rectangle [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
reflective_subcategory_to_precategory [in UniMath.CategoryTheory.Subcategory.Reflective]
reflective_subcategory_to_hsubtype [in UniMath.CategoryTheory.Subcategory.Reflective]
reflective_subcategory [in UniMath.CategoryTheory.Subcategory.Reflective]
reflects_isos [in UniMath.CategoryTheory.Core.Functors]
reflects_morphism [in UniMath.CategoryTheory.Core.Functors]
reflects_all_limits [in UniMath.CategoryTheory.limits.graphs.limits]
reflects_limits_of_shape [in UniMath.CategoryTheory.limits.graphs.limits]
reindex_disp_cat_disp_functor [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
reindex_disp_cat_disp_functor_axioms [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
reindex_disp_cat_disp_functor_data [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
reindex_disp_functor [in UniMath.CategoryTheory.DisplayedCats.Core]
reindex_disp_cat [in UniMath.CategoryTheory.DisplayedCats.Core]
reindex_disp_cat_axioms [in UniMath.CategoryTheory.DisplayedCats.Core]
reindex_disp_cat_data [in UniMath.CategoryTheory.DisplayedCats.Core]
reindex_disp_cat_id_comp [in UniMath.CategoryTheory.DisplayedCats.Core]
reindex_disp_cat_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Core]
rel [in UniMath.CategoryTheory.categories.HSET.Colimits]
relative_strength_from_actionbased_strength [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
RelModule [in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Precategory [in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_precategory_data [in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_precategory_ob_mor [in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_mor_comp [in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_mor_id [in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Mor_equiv [in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_mor_property [in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_mor_map [in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_Mor [in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_laws_from_RelModule [in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_data_from_RelModule [in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_laws [in UniMath.CategoryTheory.Monads.RelativeModules]
relmodule_functor_data [in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_ob [in UniMath.CategoryTheory.Monads.RelativeModules]
RelModule_data [in UniMath.CategoryTheory.Monads.RelativeModules]
RelMonad [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor [in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonadmor_idtoiso [in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonadmor_iso_first_iso [in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonadmor_iso_from_is_iso [in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonadmor_ob_eq [in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonadmor_eq_type [in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonadmor_weq_nat_trans_fails [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_equiv [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_map [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_axioms_from_RelMonadMor [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_data_from_RelMonadMor [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_axioms [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_data [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonadMor_composed_radj [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonadMor_composed_radj_data [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonadMor_composed [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonadMor_composed_data [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
relmonad_eq_from_relmonad_iso_obsolete [in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonad_eq_from_relmonad_iso [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_composition [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_identity [in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonad_eq_eq_from_relmonad_ob_eq [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_axioms_from_RelMonad [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_data_from_RelMonad [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_axioms [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_ob [in UniMath.CategoryTheory.Monads.RelativeMonads]
RelMonad_data [in UniMath.CategoryTheory.Monads.RelativeMonads]
relmonad_axiom_from_relmodule [in UniMath.CategoryTheory.Monads.RelativeModules]
RelMonad_composed_radj [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonad_composed_radj_axioms [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonad_composed_radj_data [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonad_composed [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonad_composed_axioms [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonad_composed_data [in UniMath.CategoryTheory.Monads.RelMonads_Coreflection]
RelMonad_from_Kleisli [in UniMath.CategoryTheory.Monads.Kleisli]
rel_strength_from_signature [in UniMath.SubstitutionSystems.Signatures]
rel_strength_rectangle [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_pentagon [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_to_rel_strength_nat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_rectangle_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_pentagon_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_nat_funclass [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_nat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_codom [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel_strength_dom [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
rel0 [in UniMath.CategoryTheory.categories.HSET.Colimits]
reord1_ob_inverse [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
reord1_hom_inverse [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
reord1_functor [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
reord1_functor_axioms [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
reord1_functor_data [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
replaceSum [in UniMath.CategoryTheory.limits.BinDirectSums]
replace_dni_last [in UniMath.Combinatorics.StandardFiniteSets]
replace_dni_first [in UniMath.Combinatorics.StandardFiniteSets]
representable [in UniMath.Bicategories.PseudoFunctors.Representable]
RepresentableFunctor [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
representable_full [in UniMath.Bicategories.Core.EquivToAdjequiv]
representable_invertible_cells [in UniMath.Bicategories.PseudoFunctors.Representable]
representable_laws [in UniMath.Bicategories.PseudoFunctors.Representable]
representable_data [in UniMath.Bicategories.PseudoFunctors.Representable]
representable_data_nat [in UniMath.Bicategories.PseudoFunctors.Representable]
representable_data_fun [in UniMath.Bicategories.PseudoFunctors.Representable]
representable_data_cat [in UniMath.Bicategories.PseudoFunctors.Representable]
representable_comp_invmod [in UniMath.Bicategories.PseudoFunctors.Yoneda]
representable_comp_is_mod [in UniMath.Bicategories.PseudoFunctors.Yoneda]
representable_comp_inv2cell [in UniMath.Bicategories.PseudoFunctors.Yoneda]
representable_id_invmod [in UniMath.Bicategories.PseudoFunctors.Yoneda]
representable_id_is_mod [in UniMath.Bicategories.PseudoFunctors.Yoneda]
representable_id_inv2cell [in UniMath.Bicategories.PseudoFunctors.Yoneda]
representable1 [in UniMath.Bicategories.PseudoFunctors.Representable]
representable1_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Representable]
representable1_data [in UniMath.Bicategories.PseudoFunctors.Representable]
representable2 [in UniMath.Bicategories.PseudoFunctors.Representable]
representable2_is_modification [in UniMath.Bicategories.PseudoFunctors.Representable]
representable2_data [in UniMath.Bicategories.PseudoFunctors.Representable]
Representation [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Representation_Map [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
RepresentedFunctor [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
reseqrel [in UniMath.Foundations.Sets]
resrel [in UniMath.Foundations.Sets]
restrict [in UniMath.AlgebraicGeometry.SheavesOfRings]
restricted_adjunction_counit [in UniMath.CategoryTheory.Adjunctions.Restriction]
restricted_adjunction_unit [in UniMath.CategoryTheory.Adjunctions.Restriction]
restricted_adjunction_right_adjoint [in UniMath.CategoryTheory.Adjunctions.Restriction]
restricted_adjunction_left_adjoint [in UniMath.CategoryTheory.Adjunctions.Restriction]
restriction [in UniMath.AlgebraicGeometry.SheavesOfRings]
restriction_ringfun [in UniMath.AlgebraicGeometry.Spec]
restriction_section [in UniMath.AlgebraicGeometry.Spec]
restriction_section_map [in UniMath.AlgebraicGeometry.Spec]
restrict_functor_to_sub_precategory [in UniMath.CategoryTheory.Subcategory.Core]
retraction [in UniMath.CategoryTheory.Core.Categories]
reverse [in UniMath.Combinatorics.GraphPaths]
reverse [in UniMath.Combinatorics.Lists]
reverse [in UniMath.Combinatorics.FiniteSequences]
reverseBinDirectSum [in UniMath.CategoryTheory.limits.BinDirectSums]
reverse_three_args [in UniMath.CategoryTheory.PrecategoryBinProduct]
reverse_in_closure [in UniMath.Combinatorics.GraphPaths]
reverse_binopfun [in UniMath.Algebra.Free_Monoids_and_Groups]
rezk_completion_2_0 [in UniMath.Bicategories.Core.YonedaLemma]
Rezk_opp_weq [in UniMath.CategoryTheory.rezk_completion]
Rezk_op_adj_equiv [in UniMath.CategoryTheory.rezk_completion]
Rezk_completion_endo_is_identity [in UniMath.CategoryTheory.rezk_completion]
Rezk_weq [in UniMath.CategoryTheory.rezk_completion]
Rezk_adj_equiv [in UniMath.CategoryTheory.rezk_completion]
Rezk_eta [in UniMath.CategoryTheory.rezk_completion]
Rezk_completion [in UniMath.CategoryTheory.rezk_completion]
re' [in UniMath.Combinatorics.Tests]
Rge [in UniMath.RealNumbers.Reals]
Rgt [in UniMath.RealNumbers.Reals]
rhs [in UniMath.Algebra.Universal.Equations]
RHS [in UniMath.SubstitutionSystems.MonadsMultiSorted]
rideal [in UniMath.Algebra.RigsAndRings.Ideals]
rig [in UniMath.Algebra.RigsAndRings]
rigaddabmonoid [in UniMath.Algebra.RigsAndRings]
rigaddfun [in UniMath.Algebra.RigsAndRings]
rigaddiso [in UniMath.Algebra.RigsAndRings]
rigaddsubmonoid [in UniMath.Algebra.RigsAndRings]
rigassoc1 [in UniMath.Algebra.RigsAndRings]
rigassoc2 [in UniMath.Algebra.RigsAndRings]
rigaxs [in UniMath.Algebra.RigsAndRings]
rigcomm1 [in UniMath.Algebra.RigsAndRings]
rigcomm2 [in UniMath.Algebra.RigsAndRings]
rigconstr [in UniMath.Algebra.RigsAndRings]
rigdirprod [in UniMath.Algebra.RigsAndRings]
rigdistraxs [in UniMath.Algebra.RigsAndRings]
rigdistraxs_is [in UniMath.Algebra.BinaryOperations]
rigeqrel [in UniMath.Algebra.RigsAndRings]
rigfun [in UniMath.Algebra.RigsAndRings]
rigfuncomp [in UniMath.Algebra.RigsAndRings]
rigfunconstr [in UniMath.Algebra.RigsAndRings]
rigfun_to_unel_rigaddmonoid [in UniMath.Algebra.RigsAndRings]
right [in UniMath.MoreFoundations.Interval]
rightCompHomo [in UniMath.CategoryTheory.PreAdditive]
rightCompIsHomo [in UniMath.CategoryTheory.PreAdditive]
RightShortExact [in UniMath.CategoryTheory.ShortExactSequences]
RightShortExact_Coequalizer [in UniMath.CategoryTheory.ShortExactSequences]
RightShortExact_Coequalizer_ShortShortExact [in UniMath.CategoryTheory.ShortExactSequences]
RightShortExact_Coequalizer_ShortShortExactData [in UniMath.CategoryTheory.ShortExactSequences]
RightShortExact_from_ShortShortExact [in UniMath.CategoryTheory.ShortExactSequences]
RightShortExact_opp [in UniMath.CategoryTheory.ShortExactSequences]
RightShortExact_ShortShortExact [in UniMath.CategoryTheory.ShortExactSequences]
Right_rKleisli_functor [in UniMath.CategoryTheory.Monads.RelativeMonads]
Right_rKleisli_functor_data [in UniMath.CategoryTheory.Monads.RelativeMonads]
right_whisker [in UniMath.Bicategories.Transformations.Examples.Whiskering]
right_whisker_is_pstrans [in UniMath.Bicategories.Transformations.Examples.Whiskering]
right_whisker_data [in UniMath.Bicategories.Transformations.Examples.Whiskering]
right_adjoint_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
right_unitor_of_pointedfunctors [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
Right_Kleisli_is_right_adjoint [in UniMath.CategoryTheory.Monads.KleisliCategory]
Right_Kleisli_functor [in UniMath.CategoryTheory.Monads.KleisliCategory]
Right_Kleisli_functor_data [in UniMath.CategoryTheory.Monads.KleisliCategory]
right_unitor_to_nat_trans [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
right_unitor_funclass [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
right_unitor [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
right_mult [in UniMath.Algebra.GroupAction]
right_adjoint_left_from_partial [in UniMath.CategoryTheory.Adjunctions.Core]
right_adjoint_from_partial [in UniMath.CategoryTheory.Adjunctions.Core]
right_adjoint [in UniMath.CategoryTheory.Adjunctions.Core]
right_functor [in UniMath.CategoryTheory.Adjunctions.Core]
right_adj_of_disp_left_biadj [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
right_adjoint_of_is_equiv_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
right_adjoint_of_disp_adjunction [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
right_adjoint_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
right_adjoint_of_disp_adjunction_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
right_adjoint_over_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
right_adj_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
right_unitor [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
right_unitor_2mor [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
right_unitor_trans [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
right_unitor_trans_type [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
right_adjoint_of_is_equiv_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
right_adjoint_of_disp_adjunction_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
right_adjoint_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
right_adjoint_of_disp_adjunction_id_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
right_adjoint_over_id_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
right_adj_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
right_adj_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
rigiscommop2_is [in UniMath.Algebra.BinaryOperations]
rigiso [in UniMath.Algebra.RigsAndRings]
rigisoisrigfun [in UniMath.Algebra.RigsAndRings]
rigisotorigfun [in UniMath.Algebra.RigsAndRings]
rigiso_paths [in UniMath.Algebra.RigsAndRings]
rigiso' [in UniMath.Algebra.RigsAndRings]
rigldistr [in UniMath.Algebra.RigsAndRings]
rigldistrax_is [in UniMath.Algebra.BinaryOperations]
riglunax1 [in UniMath.Algebra.RigsAndRings]
riglunax2 [in UniMath.Algebra.RigsAndRings]
rigmultfun [in UniMath.Algebra.RigsAndRings]
rigmultiso [in UniMath.Algebra.RigsAndRings]
rigmultmonoid [in UniMath.Algebra.RigsAndRings]
rigmultsubmonoid [in UniMath.Algebra.RigsAndRings]
rigmultx0 [in UniMath.Algebra.RigsAndRings]
rigmultx0_is [in UniMath.Algebra.BinaryOperations]
rigmult0x [in UniMath.Algebra.RigsAndRings]
rigmult0x_is [in UniMath.Algebra.BinaryOperations]
rigneq0andmultlinv [in UniMath.Algebra.Domains_and_Fields]
rigneq0andmultrinv [in UniMath.Algebra.Domains_and_Fields]
rigop1axs [in UniMath.Algebra.RigsAndRings]
rigop1axs_is [in UniMath.Algebra.BinaryOperations]
rigop2axs [in UniMath.Algebra.RigsAndRings]
rigop2axs_is [in UniMath.Algebra.BinaryOperations]
rigquot [in UniMath.Algebra.RigsAndRings]
rigrdistr [in UniMath.Algebra.RigsAndRings]
rigrdistrax_is [in UniMath.Algebra.BinaryOperations]
rigrunax1 [in UniMath.Algebra.RigsAndRings]
rigrunax2 [in UniMath.Algebra.RigsAndRings]
rigtoring [in UniMath.Algebra.RigsAndRings]
rigtoringaddabgr [in UniMath.Algebra.RigsAndRings]
rigtoringcarrier [in UniMath.Algebra.RigsAndRings]
rigtoringdistr [in UniMath.Algebra.RigsAndRings]
rigtoringismonoidop2 [in UniMath.Algebra.RigsAndRings]
rigtoringisunit [in UniMath.Algebra.RigsAndRings]
rigtoringisunital [in UniMath.Algebra.RigsAndRings]
rigtoringop1 [in UniMath.Algebra.RigsAndRings]
rigtoringop1axs [in UniMath.Algebra.RigsAndRings]
rigtoringop1int [in UniMath.Algebra.RigsAndRings]
rigtoringop2 [in UniMath.Algebra.RigsAndRings]
rigtoringop2int [in UniMath.Algebra.RigsAndRings]
rigtoringrel [in UniMath.Algebra.RigsAndRings]
rigtoringunel1 [in UniMath.Algebra.RigsAndRings]
rigtoringunel2 [in UniMath.Algebra.RigsAndRings]
rigtoringunel2int [in UniMath.Algebra.RigsAndRings]
rigunel1 [in UniMath.Algebra.RigsAndRings]
rigunel1_is [in UniMath.Algebra.BinaryOperations]
rigunel2 [in UniMath.Algebra.RigsAndRings]
rigunel2_is [in UniMath.Algebra.BinaryOperations]
rig_univalence [in UniMath.Algebra.RigsAndRings]
rig_univlalence_map [in UniMath.Algebra.RigsAndRings]
rig_univalence_weq3 [in UniMath.Algebra.RigsAndRings]
rig_univalence_weq2 [in UniMath.Algebra.RigsAndRings]
rig_univalence_weq1 [in UniMath.Algebra.RigsAndRings]
rig_univalent_category [in UniMath.CategoryTheory.categories.rigs]
rig_category_is_univalent [in UniMath.CategoryTheory.categories.rigs]
rig_category [in UniMath.CategoryTheory.categories.rigs]
rig_precategory_isweq [in UniMath.CategoryTheory.categories.rigs]
rig_equiv_weq_iso [in UniMath.CategoryTheory.categories.rigs]
rig_iso_equiv_weq [in UniMath.CategoryTheory.categories.rigs]
rig_precategory [in UniMath.CategoryTheory.categories.rigs]
rig_assoc [in UniMath.CategoryTheory.categories.rigs]
rig_id_right [in UniMath.CategoryTheory.categories.rigs]
rig_id_left [in UniMath.CategoryTheory.categories.rigs]
rig_precategory_data [in UniMath.CategoryTheory.categories.rigs]
rig_precategory_ob_mor [in UniMath.CategoryTheory.categories.rigs]
rig_fun_space [in UniMath.CategoryTheory.categories.rigs]
ring [in UniMath.Algebra.RigsAndRings]
ringaddabgr [in UniMath.Algebra.RigsAndRings]
ringaddabgreqrel [in UniMath.Algebra.RigsAndRings]
ringaddfun [in UniMath.Algebra.RigsAndRings]
ringassoc1 [in UniMath.Algebra.RigsAndRings]
ringassoc2 [in UniMath.Algebra.RigsAndRings]
ringaxs [in UniMath.Algebra.RigsAndRings]
ringcomm1 [in UniMath.Algebra.RigsAndRings]
ringcomm2 [in UniMath.Algebra.RigsAndRings]
ringconstr [in UniMath.Algebra.RigsAndRings]
ringdirprod [in UniMath.Algebra.RigsAndRings]
ringdistraxs [in UniMath.Algebra.RigsAndRings]
ringdistraxs_is [in UniMath.Algebra.BinaryOperations]
ringeqrel [in UniMath.Algebra.RigsAndRings]
ringfromgt0 [in UniMath.Algebra.RigsAndRings]
ringfromlt0 [in UniMath.Algebra.RigsAndRings]
ringfun [in UniMath.Algebra.RigsAndRings]
ringfunconstr [in UniMath.Algebra.RigsAndRings]
ringfun_module [in UniMath.Algebra.Modules.Examples]
ringfun_left_mult [in UniMath.Algebra.Modules.Examples]
ringinvmaponpathsminus [in UniMath.Algebra.RigsAndRings]
ringinvunel1 [in UniMath.Algebra.RigsAndRings]
ringinv1 [in UniMath.Algebra.RigsAndRings]
ringiscommop2_is [in UniMath.Algebra.BinaryOperations]
ringiso [in UniMath.Algebra.RigsAndRings]
ringldistr [in UniMath.Algebra.RigsAndRings]
ringldistrax_is [in UniMath.Algebra.BinaryOperations]
ringlinvax1 [in UniMath.Algebra.RigsAndRings]
ringlunax1 [in UniMath.Algebra.RigsAndRings]
ringlunax2 [in UniMath.Algebra.RigsAndRings]
ringminus1 [in UniMath.Algebra.RigsAndRings]
ringminus1_is [in UniMath.Algebra.BinaryOperations]
ringmultabmonoid [in UniMath.Algebra.RigsAndRings]
ringmultfun [in UniMath.Algebra.RigsAndRings]
ringmultmonoid [in UniMath.Algebra.RigsAndRings]
ringmultmonoideqrel [in UniMath.Algebra.RigsAndRings]
ringmultwithminus1 [in UniMath.Algebra.RigsAndRings]
ringmultwithminus1_is [in UniMath.Algebra.BinaryOperations]
ringmultx0 [in UniMath.Algebra.RigsAndRings]
ringmultx0_is [in UniMath.Algebra.BinaryOperations]
ringmult0x [in UniMath.Algebra.RigsAndRings]
ringmult0x_is [in UniMath.Algebra.BinaryOperations]
ringneq0andmultlinv [in UniMath.Algebra.Domains_and_Fields]
ringneq0andmultrinv [in UniMath.Algebra.Domains_and_Fields]
ringofendabgr [in UniMath.Algebra.Modules.Core]
ringofendabgr_op2 [in UniMath.Algebra.Modules.Core]
ringofendabgr_op1 [in UniMath.Algebra.Modules.Core]
ringop1axs [in UniMath.Algebra.RigsAndRings]
ringop1axs_is [in UniMath.Algebra.BinaryOperations]
ringop2axs [in UniMath.Algebra.RigsAndRings]
ringop2axs_is [in UniMath.Algebra.BinaryOperations]
ringpossubmonoid [in UniMath.Algebra.Domains_and_Fields]
ringquot [in UniMath.Algebra.RigsAndRings]
ringrdistr [in UniMath.Algebra.RigsAndRings]
ringrdistrax_is [in UniMath.Algebra.BinaryOperations]
ringrinvax1 [in UniMath.Algebra.RigsAndRings]
ringrunax1 [in UniMath.Algebra.RigsAndRings]
ringrunax2 [in UniMath.Algebra.RigsAndRings]
ringtogt0 [in UniMath.Algebra.RigsAndRings]
ringtolt0 [in UniMath.Algebra.RigsAndRings]
ringtorig [in UniMath.Algebra.RigsAndRings]
ringunel1 [in UniMath.Algebra.RigsAndRings]
ringunel1_is [in UniMath.Algebra.BinaryOperations]
ringunel2 [in UniMath.Algebra.RigsAndRings]
ringunel2_is [in UniMath.Algebra.BinaryOperations]
ring_univalent_category [in UniMath.CategoryTheory.categories.rings]
ring_category_is_univalent [in UniMath.CategoryTheory.categories.rings]
ring_category [in UniMath.CategoryTheory.categories.rings]
ring_precategory_isweq [in UniMath.CategoryTheory.categories.rings]
ring_equiv_weq_iso [in UniMath.CategoryTheory.categories.rings]
ring_iso_equiv_weq [in UniMath.CategoryTheory.categories.rings]
ring_precategory [in UniMath.CategoryTheory.categories.rings]
ring_precategory_data [in UniMath.CategoryTheory.categories.rings]
ring_precategory_ob_mor [in UniMath.CategoryTheory.categories.rings]
ring_fun_space [in UniMath.CategoryTheory.categories.rings]
ring_univalence [in UniMath.Algebra.RigsAndRings]
ring_univalence_map [in UniMath.Algebra.RigsAndRings]
ring_univalence_weq3 [in UniMath.Algebra.RigsAndRings]
ring_univalence_weq2 [in UniMath.Algebra.RigsAndRings]
ring_univalence_weq1' [in UniMath.Algebra.RigsAndRings]
ring_univalence_weq1 [in UniMath.Algebra.RigsAndRings]
ring_is_module [in UniMath.Algebra.Modules.Examples]
ring_left_mult [in UniMath.Algebra.Modules.Examples]
ring' [in UniMath.Algebra.RigsAndRings]
Rinv [in UniMath.RealNumbers.Reals]
rinvpair [in UniMath.Algebra.Domains_and_Fields]
rinvpairxy [in UniMath.Algebra.Domains_and_Fields]
rinvunitor [in UniMath.Bicategories.Core.Bicat]
rinvunitor_pstrans [in UniMath.Bicategories.Transformations.Examples.Unitality]
rinvunitor_pstrans_is_pstrans [in UniMath.Bicategories.Transformations.Examples.Unitality]
rinvunitor_pstrans_data [in UniMath.Bicategories.Transformations.Examples.Unitality]
rinvunitor_runitor [in UniMath.Bicategories.Core.Bicat]
rinvunitor_runitor_pstrans [in UniMath.Bicategories.Modifications.Examples.Unitality]
rinvunitor_runitor_pstrans_is_modification [in UniMath.Bicategories.Modifications.Examples.Unitality]
rinvunitor_runitor_pstrans_data [in UniMath.Bicategories.Modifications.Examples.Unitality]
rinvunitor_invertible_2cell [in UniMath.Bicategories.Core.Invertible_2cells]
rinvunitor_triangle [in UniMath.Bicategories.Core.Unitors]
rKleisli_functors_are_relative_adjoints [in UniMath.CategoryTheory.Monads.RelativeMonads]
rKleisli_functor_left_right_compose [in UniMath.CategoryTheory.Monads.RelativeMonads]
Rle [in UniMath.RealNumbers.Reals]
Rlt [in UniMath.RealNumbers.Reals]
rmap [in UniMath.CategoryTheory.Profunctors.Core]
Rminus [in UniMath.RealNumbers.Reals]
Rmor [in UniMath.CategoryTheory.RightKanExtension]
Rmor_cone [in UniMath.CategoryTheory.RightKanExtension]
Rmult [in UniMath.RealNumbers.Reals]
rm_op_mor [in UniMath.CategoryTheory.opp_precat]
rm_op_ob [in UniMath.CategoryTheory.opp_precat]
rm_opp_mor [in UniMath.CategoryTheory.opp_precat]
rm_opp_ob [in UniMath.CategoryTheory.opp_precat]
rm_opp_mor [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
rm_opp_ob [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
rng [in UniMath.Algebra.Universal.Algebras]
Rone [in UniMath.RealNumbers.Reals]
Roof [in UniMath.CategoryTheory.LocalizingClass]
RoofDecomposeEqrel [in UniMath.CategoryTheory.LocalizingClass]
RoofEqclass [in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassDisjoint [in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassEq [in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassEqRoof [in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassFromRoof [in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassFromRoofIn [in UniMath.CategoryTheory.LocalizingClass]
RoofEqClassIn [in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassIn [in UniMath.CategoryTheory.LocalizingClass]
RoofEqClassIn2 [in UniMath.CategoryTheory.LocalizingClass]
RoofEqclassIs [in UniMath.CategoryTheory.LocalizingClass]
RoofHrel [in UniMath.CategoryTheory.LocalizingClass]
RoofHrel' [in UniMath.CategoryTheory.LocalizingClass]
RoofMor1 [in UniMath.CategoryTheory.LocalizingClass]
RoofMor1Is [in UniMath.CategoryTheory.LocalizingClass]
RoofMor2 [in UniMath.CategoryTheory.LocalizingClass]
RoofOb [in UniMath.CategoryTheory.LocalizingClass]
RoofToCoroof [in UniMath.CategoryTheory.LocalizingClass]
RoofTop [in UniMath.CategoryTheory.LocalizingClass]
RoofTopEq1 [in UniMath.CategoryTheory.LocalizingClass]
RoofTopEq2 [in UniMath.CategoryTheory.LocalizingClass]
RoofTopMor1 [in UniMath.CategoryTheory.LocalizingClass]
RoofTopMor1Is [in UniMath.CategoryTheory.LocalizingClass]
RoofTopMor2 [in UniMath.CategoryTheory.LocalizingClass]
RoofTopOb [in UniMath.CategoryTheory.LocalizingClass]
RoofTopToCoroof [in UniMath.CategoryTheory.LocalizingClass]
roof_comp [in UniMath.CategoryTheory.LocalizingClass]
Root [in UniMath.Combinatorics.ZFstructures]
root [in UniMath.Combinatorics.ZFstructures]
Ropp [in UniMath.RealNumbers.Reals]
RotDTri [in UniMath.HomologicalAlgebra.Triangulated]
RotDTriMor [in UniMath.HomologicalAlgebra.Triangulated]
RotDTris [in UniMath.HomologicalAlgebra.Triangulated]
RotInvIso_is_iso [in UniMath.HomologicalAlgebra.Triangulated]
RotInvIso_Mor [in UniMath.HomologicalAlgebra.Triangulated]
RotMorphism [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismCommHomot [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismCommMor1 [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismCommMor2 [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismInv [in UniMath.HomologicalAlgebra.MappingCone]
RotMorphismIsoHomot [in UniMath.HomologicalAlgebra.MappingCone]
RotTri [in UniMath.HomologicalAlgebra.Triangulated]
RotTriIso [in UniMath.HomologicalAlgebra.Triangulated]
RotTriMor [in UniMath.HomologicalAlgebra.Triangulated]
RotTriMor_is_iso [in UniMath.HomologicalAlgebra.Triangulated]
roundtrip1_ob_nat_trans [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip1_ob_data_is_nat_z_iso [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip1_ob_nat_trans_data_pointwise_inv [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip1_ob_nat_trans_data [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip2_ob_nat_trans [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip2_ob_data_is_nat_z_iso [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip2_ob_nat_trans_data_pointwise_inv [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
roundtrip2_ob_nat_trans_data [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
row [in UniMath.Combinatorics.FiniteSequences]
row_vec [in UniMath.Combinatorics.FiniteSequences]
Rplus [in UniMath.RealNumbers.Reals]
RtoNRNR [in UniMath.RealNumbers.Reals]
rtopaths [in UniMath.Foundations.Sets]
Rtwo [in UniMath.RealNumbers.Reals]
runax [in UniMath.Algebra.Monoids]
runax_is [in UniMath.Algebra.BinaryOperations]
runitor [in UniMath.Bicategories.Core.Bicat]
runitor_pstrans [in UniMath.Bicategories.Transformations.Examples.Unitality]
runitor_pstrans_is_pstrans [in UniMath.Bicategories.Transformations.Examples.Unitality]
runitor_pstrans_data [in UniMath.Bicategories.Transformations.Examples.Unitality]
runitor_transf [in UniMath.Bicategories.Core.Bicat]
runitor_rwhisker [in UniMath.Bicategories.Core.Bicat]
runitor_rinvunitor [in UniMath.Bicategories.Core.Bicat]
runitor_rinvunitor_pstrans [in UniMath.Bicategories.Modifications.Examples.Unitality]
runitor_rinvunitor_pstrans_is_modification [in UniMath.Bicategories.Modifications.Examples.Unitality]
runitor_rinvunitor_pstrans_data [in UniMath.Bicategories.Modifications.Examples.Unitality]
runitor_invertible_2cell [in UniMath.Bicategories.Core.Invertible_2cells]
rwhisker [in UniMath.Bicategories.Core.Bicat]
rwhisker [in UniMath.CategoryTheory.CATAsInstanceOfBicat]
rwhisker [in UniMath.CategoryTheory.Core.TwoCategories]
rwhisker_cartesian [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
rwhisker_rwhisker [in UniMath.Bicategories.Core.Bicat]
rwhisker_lwhisker [in UniMath.Bicategories.Core.Bicat]
rwhisker_vcomp [in UniMath.Bicategories.Core.Bicat]
rwhisker_of_invertible_2cell [in UniMath.Bicategories.Core.Invertible_2cells]
rwhisker_with_invassociator_inv2cell [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
rwhisker_with_invrunitor_inv2cell [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
rwhisker_with_invlunitor_inv2cell [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
rwhisker_with_linvunitor_inv2cell [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
rwhisker_lwhisker_with_μ_inv_inv2cell [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
rwhisker_rwhisker [in UniMath.CategoryTheory.Core.TwoCategories]
rwhisker_lwhisker [in UniMath.CategoryTheory.Core.TwoCategories]
rwhisker_vcomp [in UniMath.CategoryTheory.Core.TwoCategories]
Rzero [in UniMath.RealNumbers.Reals]
r_eta_α [in UniMath.CategoryTheory.Monads.RelativeMonads]
r_bind_r_lift [in UniMath.CategoryTheory.Monads.RelativeMonads]
r_lift_r_bind [in UniMath.CategoryTheory.Monads.RelativeMonads]
r_eta_nat_trans [in UniMath.CategoryTheory.Monads.RelativeMonads]
R_functor [in UniMath.CategoryTheory.Monads.RelativeMonads]
r_lift [in UniMath.CategoryTheory.Monads.RelativeMonads]
r_bind_r_bind [in UniMath.CategoryTheory.Monads.RelativeMonads]
r_eta_r_bind [in UniMath.CategoryTheory.Monads.RelativeMonads]
r_bind_r_eta [in UniMath.CategoryTheory.Monads.RelativeMonads]
r_bind [in UniMath.CategoryTheory.Monads.RelativeMonads]
r_eta [in UniMath.CategoryTheory.Monads.RelativeMonads]
R_functor [in UniMath.CategoryTheory.RightKanExtension]
R_data [in UniMath.CategoryTheory.RightKanExtension]

S

S [in UniMath.Induction.ImpredicativeInductiveSets]
s [in UniMath.SyntheticHomotopyTheory.Circle2]
same_fiber_eqrel [in UniMath.MoreFoundations.Sets]
same_induced_ordering [in UniMath.Combinatorics.WellOrderedSets]
sanity_check [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
scomp [in UniMath.Algebra.Universal.SortedTypes]
sec [in UniMath.SyntheticHomotopyTheory.Circle]
second_hexagon_eq [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
secovercoprodtoprod [in UniMath.Foundations.PartD]
section [in UniMath.AlgebraicGeometry.Spec]
section_functor [in UniMath.CategoryTheory.DisplayedCats.Core]
section_functor_axioms [in UniMath.CategoryTheory.DisplayedCats.Core]
section_functor_data [in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_comp [in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_id [in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_data_from_section_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp [in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_axioms [in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_on_morphisms [in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_on_objects [in UniMath.CategoryTheory.DisplayedCats.Core]
section_disp_data [in UniMath.CategoryTheory.DisplayedCats.Core]
section_functor_pair [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
section_to_nat_trafo_bicat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
section_to_nat_trafo [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
section_from_diagonal [in UniMath.CategoryTheory.limits.pullbacks]
section_commring [in UniMath.AlgebraicGeometry.Spec]
section_unel2 [in UniMath.AlgebraicGeometry.Spec]
section_op2 [in UniMath.AlgebraicGeometry.Spec]
section_inv [in UniMath.AlgebraicGeometry.Spec]
section_unel1 [in UniMath.AlgebraicGeometry.Spec]
section_op1 [in UniMath.AlgebraicGeometry.Spec]
section_hset [in UniMath.AlgebraicGeometry.Spec]
section_prop [in UniMath.AlgebraicGeometry.Spec]
section_map [in UniMath.AlgebraicGeometry.Spec]
sectohfiber [in UniMath.Foundations.UnivalenceAxiom]
sectohfibertosec [in UniMath.Foundations.UnivalenceAxiom]
selfedge [in UniMath.Combinatorics.ZFstructures]
seqson [in UniMath.PAdics.fps]
Sequence [in UniMath.Combinatorics.FiniteSequences]
sequenceEquality2 [in UniMath.Combinatorics.FiniteSequences]
sequenceToFunction [in UniMath.Combinatorics.FiniteSequences]
sequenceToUnorderedSequence [in UniMath.Combinatorics.FiniteSequences]
Sequence_rect [in UniMath.Combinatorics.FiniteSequences]
seq_key_eq_lemma' [in UniMath.Combinatorics.FiniteSequences]
seq_key_eq_lemma [in UniMath.Combinatorics.FiniteSequences]
setcategory [in UniMath.CategoryTheory.Core.Setcategories]
setcategory_objects_set [in UniMath.CategoryTheory.Core.Setcategories]
setcategory_total_morphisms_set [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
setcoprod [in UniMath.MoreFoundations.Sets]
setcoprod [in UniMath.Foundations.Sets]
setdirprod [in UniMath.Foundations.Sets]
setofendabgr [in UniMath.Algebra.Modules.Core]
setofendabgr_un1 [in UniMath.Algebra.Modules.Core]
setofendabgr_inv [in UniMath.Algebra.Modules.Core]
setofendabgr_to_unel [in UniMath.Algebra.Modules.Core]
setofendabgr_to_isbinopfun [in UniMath.Algebra.Modules.Core]
setproperty [in UniMath.Foundations.Sets]
setquot [in UniMath.Foundations.Sets]
setquotbooleq [in UniMath.Foundations.Sets]
setquotbooleqint [in UniMath.Foundations.Sets]
setquotfun [in UniMath.Foundations.Sets]
setquotfuncomm [in UniMath.Foundations.Sets]
setquotfun2 [in UniMath.Foundations.Sets]
setquotfun2' [in UniMath.MoreFoundations.QuotientSet]
setquotincl [in UniMath.Foundations.Sets]
setquotinset [in UniMath.Foundations.Sets]
setquottodirprod [in UniMath.Foundations.Sets]
setquottosetquot2 [in UniMath.Foundations.Sets]
setquotuniv2 [in UniMath.Foundations.Sets]
setquotuniv2' [in UniMath.MoreFoundations.QuotientSet]
setquot_aux [in UniMath.Algebra.Archimedean]
setquot_universal_property [in UniMath.Ktheory.GrothendieckGroup]
setquot2 [in UniMath.Foundations.Sets]
setquot2inset [in UniMath.Foundations.Sets]
setquot2pr [in UniMath.Foundations.Sets]
setquot2univ [in UniMath.Foundations.Sets]
setwithbinop [in UniMath.Algebra.BinaryOperations]
setwithbinopdirprod [in UniMath.Algebra.BinaryOperations]
setwithbinopquot [in UniMath.Algebra.BinaryOperations]
setwithbinop_univalence [in UniMath.Algebra.BinaryOperations]
setwithbinop_univalence_map [in UniMath.Algebra.BinaryOperations]
setwithbinop_univalence_weq2 [in UniMath.Algebra.BinaryOperations]
setwithbinop_univalence_weq1 [in UniMath.Algebra.BinaryOperations]
setwithbinop_rev [in UniMath.Algebra.BinaryOperations]
setwithbinop1 [in UniMath.Algebra.BinaryOperations]
setwithbinop2 [in UniMath.Algebra.BinaryOperations]
setwith2binop [in UniMath.Algebra.BinaryOperations]
setwith2binopdirprod [in UniMath.Algebra.BinaryOperations]
setwith2binopofendabgr [in UniMath.Algebra.Modules.Core]
setwith2binopquot [in UniMath.Algebra.BinaryOperations]
setwith2binop_univalent_category [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_precategory_is_univalent [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_category [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_precategory_isweq [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_equiv_weq_iso [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_iso_equiv_weq [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_precategory [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_precategory_data [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_precategory_ob_mor [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_fun_space [in UniMath.CategoryTheory.categories.setwith2binops]
setwith2binop_univalence [in UniMath.Algebra.BinaryOperations]
setwith2binop_univalence_map [in UniMath.Algebra.BinaryOperations]
setwith2binop_univalence_weq2 [in UniMath.Algebra.BinaryOperations]
setwith2binop_univalence_weq1 [in UniMath.Algebra.BinaryOperations]
set_slice_fam_equiv [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
sfun [in UniMath.Algebra.Universal.SortedTypes]
sheaf_commring_gluing [in UniMath.AlgebraicGeometry.SheavesOfRings]
sheaf_commring_locality [in UniMath.AlgebraicGeometry.SheavesOfRings]
sheaf_commring_functor [in UniMath.AlgebraicGeometry.SheavesOfRings]
sheaf_commring [in UniMath.AlgebraicGeometry.SheavesOfRings]
shiftCocone [in UniMath.CategoryTheory.Chains.Adamek]
shiftColimCocone [in UniMath.CategoryTheory.Chains.Adamek]
shifted_limit [in UniMath.Induction.M.Chains]
shiftIsColimCocone [in UniMath.CategoryTheory.Chains.Adamek]
shift_cochain [in UniMath.Induction.M.Chains]
shift_chain [in UniMath.Induction.M.Chains]
ShortExact [in UniMath.CategoryTheory.ShortExactSequences]
ShortExactDiffs1 [in UniMath.CategoryTheory.FiveLemma]
ShortExactDiffs2 [in UniMath.CategoryTheory.FiveLemma]
ShortExactMor [in UniMath.CategoryTheory.FiveLemma]
ShortExactMors [in UniMath.CategoryTheory.FiveLemma]
ShortExactObs1 [in UniMath.CategoryTheory.FiveLemma]
ShortExactObs2 [in UniMath.CategoryTheory.FiveLemma]
ShortExactRow1 [in UniMath.CategoryTheory.FiveLemma]
ShortExactRow2 [in UniMath.CategoryTheory.FiveLemma]
ShortExactSequence [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ShortExactSequenceMap [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ShortExactSequenceToMorphismPair [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
ShortExact_from_ShortShortExact [in UniMath.CategoryTheory.ShortExactSequences]
ShortExact_opp [in UniMath.CategoryTheory.ShortExactSequences]
ShortExact_RightShortExact [in UniMath.CategoryTheory.ShortExactSequences]
ShortExact_LeftShortExact [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExactData [in UniMath.CategoryTheory.Morphisms]
ShortShortExactData_to_object [in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExactData_from_object [in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExactData_opp [in UniMath.CategoryTheory.Morphisms]
ShortShortExactData_Eq [in UniMath.CategoryTheory.Morphisms]
ShortShortExactData_MorphismPair [in UniMath.CategoryTheory.Morphisms]
ShortShortExact_to_object [in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExact_from_object [in UniMath.HomologicalAlgebra.Triangulated]
ShortShortExact_from_isShortExact [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_opp [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_from_isCokernel [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_Cokernel [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_Kernel [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_isKernel [in UniMath.CategoryTheory.ShortExactSequences]
ShortShortExact_ShortShortExactData [in UniMath.CategoryTheory.ShortExactSequences]
shSet [in UniMath.Algebra.Universal.SortedTypes]
shSet_eq_from_shSet_iso [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
shSet_category [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
shSet_precategory [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
shSet_precategory_data [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
shSet_precategory_ob_mor [in UniMath.CategoryTheory.categories.Universal_Algebra.Algebras]
si [in UniMath.Foundations.NaturalNumbers]
sieve [in UniMath.CategoryTheory.GrothendieckTopos]
sieve [in UniMath.CategoryTheory.Presheaf]
sieve_nat_trans [in UniMath.CategoryTheory.GrothendieckTopos]
sieve_functor [in UniMath.CategoryTheory.GrothendieckTopos]
sieve_mor [in UniMath.CategoryTheory.Presheaf]
sieve_bounded_lattice [in UniMath.CategoryTheory.Presheaf]
sieve_lattice [in UniMath.CategoryTheory.Presheaf]
sieve_def [in UniMath.CategoryTheory.Presheaf]
sigmapr1_disp_functor [in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigmapr1_disp_functor_axioms [in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigmapr1_disp_functor_data [in UniMath.CategoryTheory.DisplayedCats.Constructions]
SigmaSig [in UniMath.SubstitutionSystems.MLTT79]
sigma_disp_univalent_2_with_props [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_univalent_2_0_with_props [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_idtoiso_2_0_alt [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_univalent_2_1_with_props [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_invertible_to_pair_disp_invertible [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_is_univalent_2 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_is_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_is_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_bicat_data [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_prebicat_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_cat_data [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_cat_id_comp [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_cat_ob_mor [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
sigma_disp_iso_map [in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigma_disp_iso [in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigma_disp_cat [in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigma_disp_cat_axioms [in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigma_disp_cat_data [in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigma_disp_cat_id_comp [in UniMath.CategoryTheory.DisplayedCats.Constructions]
sigma_disp_cat_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Constructions]
Signature [in UniMath.SubstitutionSystems.Signatures]
Signature [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
signature [in UniMath.Algebra.Universal.Signatures]
SignatureCategoryToActionBasedStrongFunctorCategory [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
SignatureCategoryToActionBasedStrongFunctorCategory_data [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
SignatureForgetfulFunctor [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureInitialAlgebra [in UniMath.SubstitutionSystems.BindingSigToMonad]
SignatureInitialAlgebra [in UniMath.SubstitutionSystems.MultiSorted_alt]
SignatureInitialAlgebraHSET [in UniMath.SubstitutionSystems.BindingSigToMonad]
SignatureInitialAlgebraSetSort [in UniMath.SubstitutionSystems.MultiSorted]
SignatureMor [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
SignatureMor [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureMor_to_nat_trans [in UniMath.SubstitutionSystems.SignatureCategory]
SignatureToHSS [in UniMath.SubstitutionSystems.BindingSigToMonad]
SignatureToHSSisInitial [in UniMath.SubstitutionSystems.BindingSigToMonad]
signature_from_rel_strength [in UniMath.SubstitutionSystems.Signatures]
Signature_Functor [in UniMath.SubstitutionSystems.Signatures]
signature_of_eqspec [in UniMath.Algebra.Universal.Equations]
signature_simple_single_sorted_compile [in UniMath.Algebra.Universal.Signatures]
signature_simple_single_sorted [in UniMath.Algebra.Universal.Signatures]
signature_simple_compile [in UniMath.Algebra.Universal.Signatures]
signature_simple [in UniMath.Algebra.Universal.Signatures]
Signature_category_is_univalent [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
signature_mor_from_ab_strength_mor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
signature_from_strong_functor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
signature_from_ab_strength [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
Signature_category_in [in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_pr2 [in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_pr1 [in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category [in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_displayed [in UniMath.SubstitutionSystems.SignatureCategory]
Signature_category_mor_diagram [in UniMath.SubstitutionSystems.SignatureCategory]
Sig_strength_law2 [in UniMath.SubstitutionSystems.Signatures]
Sig_strength_law1 [in UniMath.SubstitutionSystems.Signatures]
Sig_hat_exp_functor_list [in UniMath.SubstitutionSystems.MultiSorted_alt]
Sig_exp_functor_list [in UniMath.SubstitutionSystems.MultiSorted_alt]
Sig_exp_functor [in UniMath.SubstitutionSystems.MultiSorted_alt]
Sig_hat_exp_functor_list [in UniMath.SubstitutionSystems.MultiSorted]
Sig_exp_functor_list [in UniMath.SubstitutionSystems.MultiSorted]
Sig_exp_functor [in UniMath.SubstitutionSystems.MultiSorted]
simple_t [in UniMath.Algebra.Universal.Examples.Tests]
simplified_cone [in UniMath.Induction.M.Chains]
singleton [in UniMath.CategoryTheory.categories.monoids]
singletonSequence [in UniMath.Topology.Prelim]
SIP [in UniMath.CategoryTheory.DisplayedCats.SIP]
six_rec [in UniMath.SubstitutionSystems.CCS_alt]
six_rec [in UniMath.SubstitutionSystems.PCF_alt]
six_rec [in UniMath.SubstitutionSystems.CCS]
size [in UniMath.CategoryTheory.Inductives.Trees]
skewMonoid [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewmonoidal_pentagon_eq [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_rho_alpha_eq [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_alpha_lambda_eq [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_triangle_eq [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_rho_lambda_eq [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_category [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_assoc_ax [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_assoc [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_assoc_nt [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_unitr_ax [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_unitr [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_unitr_nt [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_unitl_ax [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_unitl [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_unitl_nt [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_I [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_tensor [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewmonoidal_data [in UniMath.CategoryTheory.SkewMonoidal.SkewMonoidalCategories]
skewMonoid_Mor_equiv [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_composition [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_identity [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_Mor_μ [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_Mor_η [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_Mor [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_Mor_laws [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_unitr [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_unitl [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_pentagon [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_to_data [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_laws [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
skewMonoid_data [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
slice [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slicecat_functor [in UniMath.CategoryTheory.slicecat]
slicecat_functor_data [in UniMath.CategoryTheory.slicecat]
slicecat_functor_ob [in UniMath.CategoryTheory.slicecat]
slicecat_to_cat [in UniMath.CategoryTheory.slicecat]
slicecat_mor_comm [in UniMath.CategoryTheory.slicecat]
slicecat_mor_morphism [in UniMath.CategoryTheory.slicecat]
slicecat_ob_morphism [in UniMath.CategoryTheory.slicecat]
slicecat_ob_object [in UniMath.CategoryTheory.slicecat]
slicecat_mor [in UniMath.CategoryTheory.slicecat]
slicecat_ob [in UniMath.CategoryTheory.slicecat]
slice_binprod_to_pullback [in UniMath.CategoryTheory.slicecat]
slice_cat [in UniMath.CategoryTheory.slicecat]
slice_precat [in UniMath.CategoryTheory.slicecat]
slice_precat_data [in UniMath.CategoryTheory.slicecat]
slice_precat_ob_mor [in UniMath.CategoryTheory.slicecat]
slice_unit [in UniMath.CategoryTheory.elems_slice_equiv]
slice_all_iso [in UniMath.CategoryTheory.elems_slice_equiv]
slice_counit [in UniMath.CategoryTheory.elems_slice_equiv]
slice_counit_fun [in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv [in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_is_funct [in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_data [in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_mor [in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob_is_nat [in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob_nat [in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob [in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob_is_funct [in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob_funct_data [in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob_mor [in UniMath.CategoryTheory.elems_slice_equiv]
slice_to_PreShv_ob_ob [in UniMath.CategoryTheory.elems_slice_equiv]
slice_unit [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_all_iso [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_counit [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_counit_fun [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_to_fam [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_to_fam_data [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_to_fam_mor [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_to_fam_mor_fun [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
slice_to_fam_fun [in UniMath.CategoryTheory.categories.HSET.SliceFamEquiv]
smaller [in UniMath.Combinatorics.BoundedSearch]
smaller_S [in UniMath.Combinatorics.BoundedSearch]
smf_from_param_distr [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_parts [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong2 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong2_inv [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong1 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
smf_from_param_distr_bicat_is_strong1_inv [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
sm_mult [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
sm_unit [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
sm_ob [in UniMath.CategoryTheory.SkewMonoidal.CategoriesOfMonoids]
sni [in UniMath.Combinatorics.StandardFiniteSets]
someseq [in UniMath.Combinatorics.Tests]
Some_sorted_option_functor [in UniMath.SubstitutionSystems.MultiSorted_alt]
some_binprod [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
some_pullback [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
sort [in UniMath.SubstitutionSystems.CCS_alt]
sort [in UniMath.Algebra.Universal.Signatures]
sort [in UniMath.SubstitutionSystems.CCS]
sorted_option_functor [in UniMath.SubstitutionSystems.MonadsMultiSorted]
sorted_option_functorSet [in UniMath.SubstitutionSystems.MultiSorted_alt]
sorted_option_functor [in UniMath.SubstitutionSystems.MultiSorted_alt]
sorted_option_functor [in UniMath.SubstitutionSystems.MultiSorted]
sorts [in UniMath.Algebra.Universal.Signatures]
sortToC_fun [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
sort_in [in UniMath.SubstitutionSystems.MonadsMultiSorted]
Source [in UniMath.CategoryTheory.Morphisms]
Spec [in UniMath.AlgebraicGeometry.Spec]
SpecialGenMendlerIteration [in UniMath.SubstitutionSystems.GenMendlerIteration]
SpecialGenMendlerIteration [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
SpecializedGMIt [in UniMath.SubstitutionSystems.LiftingInitial_alt]
SpecializedGMIt [in UniMath.SubstitutionSystems.LiftingInitial]
SpecializedGMIt_Thm15 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
SpecializedGMIt_Thm15 [in UniMath.SubstitutionSystems.LiftingInitial]
split_essentially_surjective_inv_on_obj [in UniMath.CategoryTheory.Core.Functors]
split_essentially_surjective [in UniMath.CategoryTheory.Core.Functors]
split_epi_to_epi [in UniMath.CategoryTheory.SplitMonicsAndEpis]
split_epi [in UniMath.CategoryTheory.SplitMonicsAndEpis]
split_monic_to_monic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
split_monic [in UniMath.CategoryTheory.SplitMonicsAndEpis]
square_functor [in UniMath.SubstitutionSystems.LamSignature]
squash_to_hSet_2' [in UniMath.MoreFoundations.Sets]
squash_to_hSet_2 [in UniMath.MoreFoundations.Sets]
squash_to_hSet [in UniMath.MoreFoundations.Sets]
squash_BinProducts_WOSET [in UniMath.CategoryTheory.categories.wosets]
squash_to_set [in UniMath.Foundations.Sets]
squash_pairs_to_set [in UniMath.Foundations.Sets]
src [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
sSet [in UniMath.CategoryTheory.SimplicialSets]
stack [in UniMath.Algebra.Universal.Terms]
stackconcatenate [in UniMath.Algebra.Universal.Terms]
standardFiniteOrderedSet [in UniMath.Combinatorics.OrderedSets]
standardFiniteSet [in UniMath.Combinatorics.FiniteSets]
standard_limit_up_weq [in UniMath.Induction.M.Limits]
standard_limit_homot [in UniMath.Induction.M.Limits]
standard_limit [in UniMath.Induction.M.Limits]
star [in UniMath.Algebra.Universal.SortedTypes]
starfun [in UniMath.Algebra.Universal.SortedTypes]
stdPathOver [in UniMath.MoreFoundations.PathsOver]
stdPathOver' [in UniMath.MoreFoundations.PathsOver]
step [in UniMath.Combinatorics.MetricTree]
step1 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step1_total [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
step1_disp [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
step10 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step11 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step12 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step13 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step2 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step2_disp [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
step3 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step3_disp [in UniMath.CategoryTheory.DisplayedCats.FunctorCategory]
step4 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step5 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step6 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step7 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step8 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
step9 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
STLC [in UniMath.SubstitutionSystems.STLC]
STLC_Monad [in UniMath.SubstitutionSystems.STLC]
STLC_Functor [in UniMath.SubstitutionSystems.STLC]
STLC_Signature [in UniMath.SubstitutionSystems.STLC]
STLC_Sig [in UniMath.SubstitutionSystems.STLC]
STLC_M [in UniMath.SubstitutionSystems.STLC_alt]
STLC_Monad [in UniMath.SubstitutionSystems.STLC_alt]
STLC_Functor [in UniMath.SubstitutionSystems.STLC_alt]
STLC_Signature [in UniMath.SubstitutionSystems.STLC_alt]
STLC_Sig [in UniMath.SubstitutionSystems.STLC_alt]
stn [in UniMath.Combinatorics.StandardFiniteSets]
stnmtostnn [in UniMath.Combinatorics.StandardFiniteSets]
stnneq_to_nopath [in UniMath.Combinatorics.StandardFiniteSets]
stnposet [in UniMath.Combinatorics.StandardFiniteSets]
stnprod [in UniMath.Combinatorics.StandardFiniteSets]
stnprod_step [in UniMath.Combinatorics.StandardFiniteSets]
stnset [in UniMath.Combinatorics.StandardFiniteSets]
stnsum [in UniMath.Combinatorics.StandardFiniteSets]
stntonat [in UniMath.Combinatorics.StandardFiniteSets]
stntonat_incl [in UniMath.Combinatorics.StandardFiniteSets]
stn_extens [in UniMath.Combinatorics.Vectors]
stn_predicate [in UniMath.Combinatorics.StandardFiniteSets]
stn_compl [in UniMath.Combinatorics.StandardFiniteSets]
stn_left'' [in UniMath.Combinatorics.StandardFiniteSets]
stn_left' [in UniMath.Combinatorics.StandardFiniteSets]
stn_right_compute [in UniMath.Combinatorics.StandardFiniteSets]
stn_left_compute [in UniMath.Combinatorics.StandardFiniteSets]
stn_right [in UniMath.Combinatorics.StandardFiniteSets]
stn_left [in UniMath.Combinatorics.StandardFiniteSets]
stn_to_nat [in UniMath.Combinatorics.StandardFiniteSets]
StrengthForSignature [in UniMath.SubstitutionSystems.Signatures]
Strength_Prestrength [in UniMath.SubstitutionSystems.Signatures]
strength_nat_from_alt [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
strength_nat_from_alt_aux_codom [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
strength_nat_from_alt_aux_dom [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
strictify [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_inv_strictify_unit [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_strictify_unit_inv [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_inv [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_inv_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_is_pstrans_help₃ [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_is_pstrans_help₂ [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_is_pstrans_help₁ [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_inv_data [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_data [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_data_help4 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_data_help3 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_data_help2 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_unit_data_help1 [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_strictify_counit_inv [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_inv_strictify_counit [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_inv [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_inv_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_inv_data [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_inv_data_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_inv_data_comp [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_is_pstrans_help₃ [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_is_pstrans_help₂ [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_is_pstrans_help₁ [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_data [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_comp [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_comp_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_counit_comp_comp [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_invertible_2cells [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_laws [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_data [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_compositor [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_compositor_help [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_identitor [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_identitor_help [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_cell [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_mor [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_mor_is_strict_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_mor_data [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_ob [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_ob_is_strict_psfunctor [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictify_ob_data [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strictness_from_univalent_2_1 [in UniMath.Bicategories.Core.Strictness]
strictness_structure_to_data [in UniMath.Bicategories.Core.Strictness]
strictness_structure [in UniMath.Bicategories.Core.Strictness]
strictness_structure_laws [in UniMath.Bicategories.Core.Strictness]
strictness_structure_data [in UniMath.Bicategories.Core.Strictness]
strict_fiber_bicat_data_laws_lassociator_rassociator [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_rinvunitor_runitor [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_runitor_rinvunitor [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_linvunitor_lunitor [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_lunitor_linvunitor [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_vcomp_whisker [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_rwhisker_rwhisker [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_rwhisker_lwhisker [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_lwhisker_lwhisker [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_runitor [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_lunitor [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_rwhisker [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_lwhisker [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_id2_lwhisker [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_rwhisker_id2 [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_assoc [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_right [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data_laws_vcomp_left [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_data [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_fiber_bicat_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory1]
strict_pstrans_to_nattrans_data [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strict_psfunctor_to_functor_data [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strict_counit_data_help [in UniMath.Bicategories.PseudoFunctors.Examples.Strictify]
strict_pr1_psfunctor [in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
strict_pr1_psfunctor_laws [in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
strict_pr1_psfunctor_data [in UniMath.Bicategories.PseudoFunctors.Examples.Projection]
strict_psfunctor_bicat_is_univalent_2 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_bicat_is_univalent_2_0 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_bicat_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_bicat [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_rwhisker_law [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_lwhisker_law [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_lassociator_law [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_runitor_law [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_lunitor_law [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_vcomp2_law [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_id2_law [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_comp_cell [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_id_cell [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_comp [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_id [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_on_cells [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_data_is_univalent_2 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_data_is_univalent_2_0 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_data_is_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_data [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_data_bicat [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_psfunctor_data_disp [in UniMath.Bicategories.PseudoFunctors.Display.StrictPseudoFunctorBicat]
strict_bicat_to_two_cat [in UniMath.Bicategories.Core.Strictness]
strict_bicat_to_two_cat_category [in UniMath.Bicategories.Core.Strictness]
strict_bicat_to_two_cat_data [in UniMath.Bicategories.Core.Strictness]
strict_bicat_to_precategory_is_precategory [in UniMath.Bicategories.Core.Strictness]
strict_bicat_to_precategory_data [in UniMath.Bicategories.Core.Strictness]
strict_bicat [in UniMath.Bicategories.Core.Strictness]
strict_monoidal_cat [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
strict_compositor_is_disp_univalent_2 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
strict_compositor_is_disp_univalent_2_0 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
strict_compositor_is_disp_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
strict_compositor_disp_cat [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
strict_compositor_disp_cat_id_comp [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
strict_compositor_disp_cat_data [in UniMath.Bicategories.PseudoFunctors.Display.StrictCompositor]
strict_modification_eq [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_pstrans_data [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_F_runitor [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_F_lunitor [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_comp_natural [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_rassociator [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_rinvunitor [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_linvunitor [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_is_iso [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_rwhisker [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_lwhisker [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_lassociator [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_runitor [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_lunitor [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_vcomp [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_id2 [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_comp_cell [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_id_cell [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_comp [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_id [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_on_cells [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor_to_strict_psfunctor_data [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_psfunctor [in UniMath.Bicategories.PseudoFunctors.StrictPseudoFunctor]
strict_identitor_is_disp_univalent_2 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
strict_identitor_is_disp_univalent_2_0 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
strict_identitor_is_disp_univalent_2_1 [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
strict_identitor_disp_cat [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
strict_identitor_disp_id_comp [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
strict_identitor_disp_cat_data [in UniMath.Bicategories.PseudoFunctors.Display.StrictIdentitor]
strict_bicat_of_strict_cats [in UniMath.Bicategories.Core.Examples.StrictCats]
strict_cat_prebicat_data [in UniMath.Bicategories.Core.Examples.StrictCats]
strict_psfunctor_to_psfunctor [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_laws [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_data [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_compositor [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_identitor [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_cell_to_modification [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_mor_to_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_mor_to_pstrans_is_pstrans [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_mor_to_pstrans_data [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_map [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_map_laws [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_psfunctor_to_psfunctor_map_data [in UniMath.Bicategories.PseudoFunctors.Examples.StrictToPseudo]
strict_fiber_bicat [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
strict_fiber_bicat_data_laws [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
strict_fiber_bicat_data_laws_lassociator_lassociator [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
strict_fiber_bicat_data_laws_runitor_rwhisker [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
strict_fiber_bicat_data_laws_rassociator_lassociator [in UniMath.Bicategories.DisplayedBicats.FiberBicategory.FiberBicategory2]
strongly_well_founded [in UniMath.Combinatorics.WellFoundedRelations]
StrongOrder [in UniMath.Algebra.Lattice]
StrongOrder [in UniMath.RealNumbers.Sets]
StrongOrder_setquot [in UniMath.Algebra.Lattice]
StrongOrder_reverse [in UniMath.RealNumbers.Sets]
Strong_FunctorForgetfulFunctor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_Mor_to_nat_trans [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_Mor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_category [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_category_displayed [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
Strong_Functor_Category_mor_diagram [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
strong_monoidal_functor_μ_inv [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor_μ [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor_ϵ_inv [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor_ϵ [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor_μ_is_nat_z_iso [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor_ϵ_is_z_iso [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor_lax_monoidal_functor [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
strong_monoidal_functor [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
Struc [in UniMath.MoreFoundations.StructureIdentity]
StrucEquiv [in UniMath.MoreFoundations.StructureIdentity]
structure_sheaf [in UniMath.AlgebraicGeometry.Spec]
structure_presheaf [in UniMath.AlgebraicGeometry.Spec]
structure_presheaf_data [in UniMath.AlgebraicGeometry.Spec]
sub [in UniMath.Foundations.Preamble]
subabgr [in UniMath.Algebra.Groups]
subabgr_incl [in UniMath.Algebra.Groups]
subabgr_quot [in UniMath.CategoryTheory.PreAdditive]
subabmonoid [in UniMath.Algebra.Monoids]
subabmonoid_incl [in UniMath.Algebra.Monoids]
subcategory [in UniMath.CategoryTheory.Subcategory.Core]
subcategory_univalent [in UniMath.CategoryTheory.Subcategory.Full]
subcategory_of_monics [in UniMath.CategoryTheory.Monics]
subgr [in UniMath.Algebra.Groups]
subgrconstr [in UniMath.Algebra.Groups]
subgrhrel [in UniMath.CategoryTheory.PreAdditive]
subgrhrel_hprop [in UniMath.CategoryTheory.PreAdditive]
subgrtosubmonoid [in UniMath.Algebra.Groups]
subgr_incl [in UniMath.Algebra.Groups]
submodule [in UniMath.Algebra.Modules.Submodule]
submoduleadd [in UniMath.Algebra.Modules.Submodule]
submoduleinv [in UniMath.Algebra.Modules.Submodule]
submodulemult [in UniMath.Algebra.Modules.Submodule]
submoduletosubabgr [in UniMath.Algebra.Modules.Submodule]
submodule_incl [in UniMath.Algebra.Modules.Submodule]
submodule_smul [in UniMath.Algebra.Modules.Submodule]
submodule_to_issubsetwithsmul [in UniMath.Algebra.Modules.Submodule]
submodule0 [in UniMath.Algebra.Modules.Submodule]
submonoid [in UniMath.Algebra.Monoids]
submonoidtosubsetswithbinop [in UniMath.Algebra.Monoids]
submonoid_incl [in UniMath.Algebra.Monoids]
SubObj [in UniMath.CategoryTheory.Subobjects]
Subobjectscategory [in UniMath.CategoryTheory.Subobjects]
Subobjectscategory_ob [in UniMath.CategoryTheory.Subobjects]
subobject_classifier_pullback_sym [in UniMath.CategoryTheory.SubobjectClassifier]
subobject_classifier_pullback [in UniMath.CategoryTheory.SubobjectClassifier]
subobject_classifier_square_commutes [in UniMath.CategoryTheory.SubobjectClassifier]
subobject_classifier_universal_property [in UniMath.CategoryTheory.SubobjectClassifier]
subobject_classifier_object [in UniMath.CategoryTheory.SubobjectClassifier]
subobject_classifier [in UniMath.CategoryTheory.SubobjectClassifier]
subobject_classifier_HSET [in UniMath.CategoryTheory.categories.HSET.Structures]
subobject_classifier_HSET_pullback [in UniMath.CategoryTheory.categories.HSET.Structures]
SubObjPoset [in UniMath.CategoryTheory.Subobjects]
SubObj_rel [in UniMath.CategoryTheory.Subobjects]
Subposet [in UniMath.MoreFoundations.Subposets]
subposet_incl [in UniMath.Algebra.FixedPointTheorems]
Subposet_to_Subposet' [in UniMath.MoreFoundations.Subposets]
Subposet' [in UniMath.MoreFoundations.Subposets]
Subposet'_equiv_Subposet [in UniMath.MoreFoundations.Subposets]
Subposet'_to_Subposet [in UniMath.MoreFoundations.Subposets]
Subposet'_to_Poset [in UniMath.MoreFoundations.Subposets]
subprecategory_of_monics_mor [in UniMath.CategoryTheory.Monics]
subprecategory_of_monics_ob [in UniMath.CategoryTheory.Monics]
subprecategory_of_monics [in UniMath.CategoryTheory.Monics]
subprecategory_of_epis_ob [in UniMath.CategoryTheory.Epis]
subprecategory_of_epis [in UniMath.CategoryTheory.Epis]
subrig [in UniMath.Algebra.RigsAndRings]
subrigtosubsetswith2binop [in UniMath.Algebra.RigsAndRings]
subring [in UniMath.Algebra.RigsAndRings]
subringtosubsetswith2binop [in UniMath.Algebra.RigsAndRings]
subset [in UniMath.MoreFoundations.Sets]
subsetFiniteSet [in UniMath.Combinatorics.FiniteSets]
SubsetsOfMors [in UniMath.CategoryTheory.LocalizingClass]
subsetsplit [in UniMath.Foundations.PartB]
subsetsplitinv [in UniMath.Foundations.PartB]
subsetswithbinop [in UniMath.Algebra.BinaryOperations]
subsetswithbinopconstr [in UniMath.Algebra.BinaryOperations]
subsetswith2binop [in UniMath.Algebra.BinaryOperations]
subsetswith2binopconstr [in UniMath.Algebra.BinaryOperations]
subst [in UniMath.SubstitutionSystems.STLC_alt]
substLam [in UniMath.SubstitutionSystems.LamFromBindingSig]
subst_slice_eqn [in UniMath.SubstitutionSystems.MonadsMultiSorted]
subst_slice_as_bind_slice [in UniMath.SubstitutionSystems.MonadsMultiSorted]
subst_slice [in UniMath.SubstitutionSystems.MonadsMultiSorted]
subterms [in UniMath.Algebra.Universal.Terms]
subterms_length [in UniMath.Algebra.Universal.Terms]
subtypePairEquality [in UniMath.Foundations.PartB]
subtypePairEquality' [in UniMath.Foundations.PartB]
subtypesdirprod [in UniMath.Foundations.Sets]
subtype_binaryintersection_univ [in UniMath.Algebra.FixedPointTheorems]
subtype_binaryintersection_leq2 [in UniMath.Algebra.FixedPointTheorems]
subtype_binaryintersection_leq1 [in UniMath.Algebra.FixedPointTheorems]
subtype_binaryintersection [in UniMath.Algebra.FixedPointTheorems]
subtype_binaryunion [in UniMath.Algebra.FixedPointTheorems]
subtype_plus_in [in UniMath.MoreFoundations.Subtypes]
subtype_plus_has_point [in UniMath.MoreFoundations.Subtypes]
subtype_plus_incl [in UniMath.MoreFoundations.Subtypes]
subtype_plus [in UniMath.MoreFoundations.Subtypes]
subtype_intersection [in UniMath.MoreFoundations.Subtypes]
subtype_union_containedIn [in UniMath.MoreFoundations.Subtypes]
subtype_union [in UniMath.MoreFoundations.Subtypes]
subtype_difference_containedIn [in UniMath.MoreFoundations.Subtypes]
subtype_difference [in UniMath.MoreFoundations.Subtypes]
subtype_notEqual [in UniMath.MoreFoundations.Subtypes]
subtype_equal [in UniMath.MoreFoundations.Subtypes]
subtype_smallerThan [in UniMath.MoreFoundations.Subtypes]
subtype_inc [in UniMath.MoreFoundations.Subtypes]
subtype_notContainedIn [in UniMath.MoreFoundations.Subtypes]
subtype_containedIn [in UniMath.MoreFoundations.Subtypes]
subtype_isIn [in UniMath.MoreFoundations.Subtypes]
subtype_set [in UniMath.MoreFoundations.Subtypes]
sub_img_functor [in UniMath.CategoryTheory.Core.Functors]
sub_initial [in UniMath.Combinatorics.WellOrderedSets]
sub_precategory_morphisms_set [in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_inclusion [in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_inclusion_data [in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_data [in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_ob_mor [in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_comp [in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_id [in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_morphisms [in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_predicate_morphisms [in UniMath.CategoryTheory.Subcategory.Core]
sub_ob [in UniMath.CategoryTheory.Subcategory.Core]
sub_precategory_predicate_objects [in UniMath.CategoryTheory.Subcategory.Core]
sub_precategories [in UniMath.CategoryTheory.Subcategory.Core]
sub_bounded_latticeob [in UniMath.CategoryTheory.LatticeObject]
sub_latticeob [in UniMath.CategoryTheory.LatticeObject]
succ [in UniMath.Foundations.Preamble]
sucNNO [in UniMath.CategoryTheory.NNO]
sum [in UniMath.CategoryTheory.Inductives.Lists]
Sum [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Sum [in UniMath.Induction.ImpredicativeInductiveSets]
sum [in UniMath.CategoryTheory.Inductives.Trees]
SumBindingSig [in UniMath.SubstitutionSystems.BindingSigToMonad]
sumMapExistence [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
SumMultiSortedSig [in UniMath.SubstitutionSystems.MultiSorted_alt]
sumofmaps [in UniMath.Foundations.PartA]
sumofmaps_homot [in UniMath.MoreFoundations.PartA]
sumofmaps_funcomp [in UniMath.MoreFoundations.PartA]
sumofmaps_assoc_right [in UniMath.Foundations.PartA]
sumofmaps_assoc_left [in UniMath.Foundations.PartA]
SumSig [in UniMath.SubstitutionSystems.MLTT79]
sums_lift [in UniMath.CategoryTheory.Additive]
Sum_of_Signatures [in UniMath.SubstitutionSystems.FromBindingSigsToMonads_Summary]
Sum_rec [in UniMath.Induction.ImpredicativeInductiveSets]
Sum_inr [in UniMath.Induction.ImpredicativeInductiveSets]
Sum_inl [in UniMath.Induction.ImpredicativeInductiveSets]
Sum_as_set [in UniMath.Induction.ImpredicativeInductiveSets]
Sum_isaset [in UniMath.Induction.ImpredicativeInductiveSets]
Sum_of_Signatures [in UniMath.SubstitutionSystems.SumOfSignatures]
Sum_of_Signatures [in UniMath.SubstitutionSystems.SubstitutionSystems_Summary]
sum_unoseq_ring [in UniMath.Algebra.IteratedBinaryOperations]
sunit [in UniMath.Algebra.Universal.SortedTypes]
sunitset [in UniMath.Algebra.Universal.SortedTypes]
support [in UniMath.Algebra.Universal.Algebras]
supportset [in UniMath.Algebra.Universal.Algebras]
sUU [in UniMath.Algebra.Universal.SortedTypes]
swap [in UniMath.Bicategories.Core.Strictness]
swap [in UniMath.CategoryTheory.FunctorAlgebras]
swapping_of_strong_monoidal_functor [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
swapping_of_lax_monoidal_functor [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
swapping_of_monoidal_cat [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
swapping_of_tensor [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
swapweq [in UniMath.CategoryTheory.FunctorAlgebras]
SwitchIso [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
SwitchMap [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
switchPullback [in UniMath.CategoryTheory.limits.pullbacks]
switch_weq' [in UniMath.MoreFoundations.Univalence]
switch_weq [in UniMath.MoreFoundations.Univalence]
symmetric_closure [in UniMath.Combinatorics.GraphPaths]

T

T [in UniMath.Folds.folds_pre_2_cat]
T [in UniMath.Folds.folds_precat]
tail [in UniMath.Combinatorics.MoreLists]
tail [in UniMath.Combinatorics.FiniteSequences]
tallyStandardSubset [in UniMath.Combinatorics.FiniteSets]
tallyStandardSubsetSegment [in UniMath.Combinatorics.FiniteSets]
tar [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
Target [in UniMath.CategoryTheory.Morphisms]
target_category [in UniMath.CategoryTheory.rezk_completion]
target_action [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
target_paths [in UniMath.SyntheticHomotopyTheory.AffineLine]
target_paths [in UniMath.SyntheticHomotopyTheory.Halfline]
Tarski_fixpoint_theorem_statement [in UniMath.Algebra.FixedPointTheorems]
tautological_RelModule [in UniMath.CategoryTheory.Monads.RelativeModules]
tautological_RelModule_data [in UniMath.CategoryTheory.Monads.RelativeModules]
tautological_LModule [in UniMath.CategoryTheory.Monads.LModules]
tautological_LModule_data [in UniMath.CategoryTheory.Monads.LModules]
tau_from_alg [in UniMath.SubstitutionSystems.SubstitutionSystems]
tensor [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
tensor [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
tensor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
tensor [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
tensor [in UniMath.CategoryTheory.Monoidal.Actions]
tensor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
tensor [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
tensor [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
tensorial_strength [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
tensorial_action [in UniMath.CategoryTheory.Monoidal.Actions]
tensor_from_bicat_and_ob [in UniMath.CategoryTheory.Monoidal.MonoidalFromBicategory]
tensor_D [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
tensor_C [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
tensor_pointedfunctors [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
tensor_pointedfunctor_is_functor [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
tensor_pointedfunctor_data [in UniMath.CategoryTheory.Monoidal.PointedFunctorsMonoidal]
tensor_A [in UniMath.CategoryTheory.Monoidal.Actions]
tensor_A [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
tensor' [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
term [in UniMath.Algebra.Universal.VTerms]
term [in UniMath.Algebra.Universal.Terms]
TermAlgebra [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
termCochain [in UniMath.CategoryTheory.Chains.Cochains]
termCone [in UniMath.CategoryTheory.limits.graphs.terminal]
termDiagram [in UniMath.CategoryTheory.limits.graphs.terminal]
termfun [in UniMath.Foundations.PartA]
TermHetSubst [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
TermHSS [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Terminal [in UniMath.CategoryTheory.limits.graphs.terminal]
Terminal [in UniMath.CategoryTheory.limits.terminal]
terminalArrow [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
TerminalArrow [in UniMath.CategoryTheory.limits.graphs.terminal]
TerminalArrow [in UniMath.CategoryTheory.limits.terminal]
terminalcoalgebra_iso [in UniMath.CategoryTheory.FunctorCoalgebras]
terminalObject [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
TerminalObject [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
TerminalObject [in UniMath.CategoryTheory.limits.graphs.terminal]
TerminalObject [in UniMath.CategoryTheory.limits.terminal]
TerminalX [in UniMath.CategoryTheory.FunctorCoalgebras]
Terminal_opp [in UniMath.CategoryTheory.limits.Opp]
terminal_cochain_shifted_lim [in UniMath.Induction.M.Chains]
terminal_cochain [in UniMath.Induction.M.Chains]
Terminal_functor_precat [in UniMath.CategoryTheory.limits.terminal]
terminal_from_empty_product [in UniMath.CategoryTheory.limits.terminal]
TermMonad [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Terms [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
termset [in UniMath.Algebra.Universal.VTerms]
termset [in UniMath.Algebra.Universal.Terms]
term_to_opp [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
term_ind_HP [in UniMath.Algebra.Universal.Terms]
term_decompose [in UniMath.Algebra.Universal.Terms]
term_algebra [in UniMath.Algebra.Universal.TermAlgebras]
term_four [in UniMath.Algebra.Universal.Examples.Tests]
term_two [in UniMath.Algebra.Universal.Examples.Tests]
term_one [in UniMath.Algebra.Universal.Examples.Tests]
term_zero [in UniMath.Algebra.Universal.Examples.Tests]
Term.bool_varspec [in UniMath.Algebra.Universal.Examples.Bool]
Term.bot [in UniMath.Algebra.Universal.Examples.Bool]
Term.conj [in UniMath.Algebra.Universal.Examples.Bool]
Term.disj [in UniMath.Algebra.Universal.Examples.Bool]
Term.impl [in UniMath.Algebra.Universal.Examples.Bool]
Term.interp [in UniMath.Algebra.Universal.Examples.Bool]
Term.neg [in UniMath.Algebra.Universal.Examples.Bool]
Term.T [in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests.f [in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests.v [in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests.x [in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests.y [in UniMath.Algebra.Universal.Examples.Bool]
Term.Tests.z [in UniMath.Algebra.Universal.Examples.Bool]
Term.top [in UniMath.Algebra.Universal.Examples.Bool]
term2oplist [in UniMath.Algebra.Universal.Terms]
term2proof [in UniMath.Algebra.Universal.Terms]
test [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
testfun [in UniMath.Combinatorics.Tests]
testlist [in UniMath.CategoryTheory.Inductives.Lists]
testlistS [in UniMath.CategoryTheory.Inductives.Lists]
testtree [in UniMath.CategoryTheory.Inductives.Trees]
Test_assoc.Unnamed_thm8 [in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm7 [in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm6 [in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm5 [in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm4 [in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm3 [in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm2 [in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm1 [in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm0 [in UniMath.Algebra.Tests]
Test_assoc.Unnamed_thm [in UniMath.Algebra.Tests]
Test_rat.Unnamed_thm1 [in UniMath.NumberSystems.Tests]
Test_rat.Unnamed_thm0 [in UniMath.NumberSystems.Tests]
Test_rat.Unnamed_thm [in UniMath.NumberSystems.Tests]
Test_int.Unnamed_thm4 [in UniMath.NumberSystems.Tests]
Test_int.Unnamed_thm3 [in UniMath.NumberSystems.Tests]
Test_int.Unnamed_thm2 [in UniMath.NumberSystems.Tests]
Test_int.Unnamed_thm1 [in UniMath.NumberSystems.Tests]
Test_int.Unnamed_thm0 [in UniMath.NumberSystems.Tests]
Test_int.Unnamed_thm [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm16 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm15 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm14 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm13 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm12 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm11 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm10 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm9 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm8 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm7 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm6 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm5 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm5 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm4 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm3 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm2 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm1 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm0 [in UniMath.NumberSystems.Tests]
Test_finsum.Unnamed_thm [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm32 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm31 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm30 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm29 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm28 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm27 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm26 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm25 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm24 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm23 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm22 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm21 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm20 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm19 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm18 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm17 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm16 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm15 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm14 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm13 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm12 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm11 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm10 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm10 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm9 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm8 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm7 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm6 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm5 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm4 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm3 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm3 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm2 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm1 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm0 [in UniMath.NumberSystems.Tests]
Test_nat.Unnamed_thm [in UniMath.NumberSystems.Tests]
Test_sets.Unnamed_thm0 [in UniMath.Foundations.Tests]
Test_sets.Unnamed_thm [in UniMath.Foundations.Tests]
test' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
test0 [in UniMath.PAdics.fps]
test1 [in UniMath.PAdics.fps]
TExt [in UniMath.HomologicalAlgebra.Triangulated]
TExtComm1 [in UniMath.HomologicalAlgebra.Triangulated]
TExtComm2 [in UniMath.HomologicalAlgebra.Triangulated]
TExtMor [in UniMath.HomologicalAlgebra.Triangulated]
TExt_Mor [in UniMath.HomologicalAlgebra.Triangulated]
theSmallest [in UniMath.Combinatorics.WellOrderedSets]
theta [in UniMath.SubstitutionSystems.Signatures]
thetahat [in UniMath.SubstitutionSystems.LiftingInitial_alt]
thetahat [in UniMath.SubstitutionSystems.LiftingInitial]
thetahat_0 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
thetahat_0 [in UniMath.SubstitutionSystems.LiftingInitial]
theUnivalenceProperty [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
the_comp [in UniMath.Combinatorics.WellFoundedRelations]
the_value [in UniMath.Combinatorics.WellFoundedRelations]
the_attempt [in UniMath.Combinatorics.WellFoundedRelations]
Three [in UniMath.CategoryTheory.limits.graphs.pushouts]
three [in UniMath.Combinatorics.StandardFiniteSets]
Three [in UniMath.CategoryTheory.limits.graphs.pullbacks]
three_rec_dep [in UniMath.Combinatorics.StandardFiniteSets]
three_rec [in UniMath.Combinatorics.StandardFiniteSets]
tightap [in UniMath.Algebra.Apartness]
tightapSet [in UniMath.Algebra.Apartness]
tightapSet_rel [in UniMath.Algebra.Apartness]
tightapSet_apSet [in UniMath.Algebra.Apartness]
tightap_aprel [in UniMath.Algebra.Apartness]
tildehProp [in UniMath.Foundations.Propositions]
timesV [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
timesV' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
timesW [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
timesW' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
tl [in UniMath.Combinatorics.Vectors]
toabgrdiff [in UniMath.Algebra.Groups]
toabmonoidfrac [in UniMath.Algebra.Monoids]
ToAcyclicComplexFromObject [in UniMath.HomologicalAlgebra.Complexes]
ToAcyclicComplexFromObject_mors [in UniMath.HomologicalAlgebra.Complexes]
TOanti [in UniMath.Combinatorics.WellOrderedSets]
ToBinDirectSum [in UniMath.CategoryTheory.limits.BinDirectSums]
ToBinDirectSumFormula [in UniMath.CategoryTheory.limits.BinDirectSums]
ToBinDirectSumUnique [in UniMath.CategoryTheory.limits.BinDirectSums]
tococonusf [in UniMath.Foundations.PartA]
tocommringfrac [in UniMath.Algebra.RigsAndRings]
tocommringfracandminus [in UniMath.Algebra.RigsAndRings]
tocommringfracandminus0 [in UniMath.Algebra.RigsAndRings]
tocompltodisjoint [in UniMath.Foundations.PartC]
tocompltoii1x [in UniMath.Foundations.PartC]
tocompltoii2y [in UniMath.Foundations.PartC]
toDirectSum [in UniMath.CategoryTheory.RepresentableFunctors.DirectSum]
todneg [in UniMath.Foundations.PartA]
TOeq_to_refl_1 [in UniMath.Combinatorics.WellOrderedSets]
TOeq_to_refl [in UniMath.Combinatorics.WellOrderedSets]
tofldfrac [in UniMath.Algebra.Domains_and_Fields]
tofldfracandminus [in UniMath.Algebra.Domains_and_Fields]
tofldfracandminus0 [in UniMath.Algebra.Domains_and_Fields]
toforallpaths [in UniMath.Foundations.PartA]
toforallpaths_funextsec_comp [in UniMath.MoreFoundations.Univalence]
toPathOverIdpath [in UniMath.MoreFoundations.PathsOver]
TopologicalSet [in UniMath.Topology.Topology]
TopologicalSpace [in UniMath.AlgebraicGeometry.Topology]
topologicalSpaceSet [in UniMath.AlgebraicGeometry.Topology]
Topological_ConstructiveField [in UniMath.Topology.Topology]
Topological_ConstructiveDivisionRig [in UniMath.Topology.Topology]
Topological_fld [in UniMath.Topology.Topology]
Topological_DivRig [in UniMath.Topology.Topology]
Topological_ring [in UniMath.Topology.Topology]
Topological_rig [in UniMath.Topology.Topology]
Topological_gr [in UniMath.Topology.Topology]
Topological_monoid [in UniMath.Topology.Topology]
TopologyDirprod [in UniMath.Topology.Topology]
topologydirprod [in UniMath.Topology.Topology]
TopologyFromNeighborhood [in UniMath.Topology.Topology]
topologyfromneighborhood [in UniMath.Topology.Topology]
TopologyGenerated [in UniMath.Topology.Topology]
topologygenerated [in UniMath.Topology.Topology]
TopologySubtype [in UniMath.Topology.Topology]
topologysubtype [in UniMath.Topology.Topology]
top_disp_cat_axioms [in UniMath.Topology.CategoryTop]
top_disp_cat_data [in UniMath.Topology.CategoryTop]
top_disp_cat_ob_mor [in UniMath.Topology.CategoryTop]
top_mor [in UniMath.CategoryTheory.LatticeObject]
top_op [in UniMath.Algebra.Universal.Examples.Tests]
TOrefl [in UniMath.Combinatorics.WellOrderedSets]
toRepresentableFunctor [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
toRepresentation [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
toringdiff [in UniMath.Algebra.RigsAndRings]
Torsor [in UniMath.Algebra.GroupAction]
torsorMap_to_path [in UniMath.Algebra.GroupAction]
torsorMap_to_torsorIso [in UniMath.Algebra.GroupAction]
torsor_eqweq_to_path [in UniMath.Algebra.GroupAction]
torsor_univalence_inv_comp_eval [in UniMath.Algebra.GroupAction]
torsor_univalence_comp [in UniMath.Algebra.GroupAction]
torsor_univalence_transport [in UniMath.Algebra.GroupAction]
torsor_univalence [in UniMath.Algebra.GroupAction]
torsor_update_nonempty [in UniMath.Algebra.GroupAction]
torsor_mult_weq' [in UniMath.Algebra.GroupAction]
torsor_mult_weq [in UniMath.Algebra.GroupAction]
torsor_splitting [in UniMath.Algebra.GroupAction]
torsor_nonempty [in UniMath.Algebra.GroupAction]
tosecovertotal2 [in UniMath.Foundations.PartD]
tosecoverunit [in UniMath.Foundations.PartD]
TOSrel [in UniMath.Combinatorics.WellOrderedSets]
tosubquot [in UniMath.Foundations.Sets]
TOSubset [in UniMath.Combinatorics.WellOrderedSets]
TOSubset_plus_point [in UniMath.Combinatorics.WellOrderedSets]
TOSubset_plus_point_rel [in UniMath.Combinatorics.WellOrderedSets]
TOSubset_to_subtype [in UniMath.Combinatorics.WellOrderedSets]
TOSubset_set [in UniMath.Combinatorics.WellOrderedSets]
tosubtypesdirprodcarrier [in UniMath.Foundations.Sets]
tosub_le [in UniMath.Combinatorics.WellOrderedSets]
tosub_order_compat [in UniMath.Combinatorics.WellOrderedSets]
tosunit [in UniMath.Algebra.Universal.SortedTypes]
total [in UniMath.Combinatorics.ZFstructures]
totalAssociativity [in UniMath.MoreFoundations.PartA]
totalfst [in UniMath.MoreFoundations.PartD]
totalfun [in UniMath.Foundations.PartA]
TotalOrdering [in UniMath.Combinatorics.WellOrderedSets]
totalsubgr [in UniMath.Algebra.Groups]
totalsubmonoid [in UniMath.Algebra.Monoids]
totalsubsetwithbinop [in UniMath.Algebra.BinaryOperations]
totalsubsetwith2binop [in UniMath.Algebra.BinaryOperations]
totalsubtype [in UniMath.Foundations.Sets]
totaltoforall [in UniMath.Foundations.PartD]
total_psfunctor [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
total_psfunctor_data [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
total_functor [in UniMath.CategoryTheory.DisplayedCats.Core]
total_functor_axioms [in UniMath.CategoryTheory.DisplayedCats.Core]
total_functor_data [in UniMath.CategoryTheory.DisplayedCats.Core]
total_iso_equiv [in UniMath.CategoryTheory.DisplayedCats.Core]
total_isweq_iso [in UniMath.CategoryTheory.DisplayedCats.Core]
total_iso_equiv_map [in UniMath.CategoryTheory.DisplayedCats.Core]
total_iso [in UniMath.CategoryTheory.DisplayedCats.Core]
total_category [in UniMath.CategoryTheory.DisplayedCats.Core]
total_precategory [in UniMath.CategoryTheory.DisplayedCats.Core]
total_category_data [in UniMath.CategoryTheory.DisplayedCats.Core]
total_category_id_comp [in UniMath.CategoryTheory.DisplayedCats.Core]
total_category_ob_mor [in UniMath.CategoryTheory.DisplayedCats.Core]
total_invmodification [in UniMath.Bicategories.DisplayedBicats.DispModification]
total_invmodification_data [in UniMath.Bicategories.DisplayedBicats.DispModification]
total_modification_data [in UniMath.Bicategories.DisplayedBicats.DispModification]
total_domain [in UniMath.CategoryTheory.DisplayedCats.Examples]
total_functor_alg [in UniMath.CategoryTheory.DisplayedCats.Examples]
total_is_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
total_is_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.DispUnivalence]
total_limits [in UniMath.CategoryTheory.DisplayedCats.Limits]
total_bicat [in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_prebicat [in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_prebicat_data [in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_prebicat_2_id_comp_struct [in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_prebicat_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_prebicat_cell_struct [in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_prebicat_1_data [in UniMath.Bicategories.DisplayedBicats.DispBicat]
total_pstrans [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
total_pstrans_data [in UniMath.Bicategories.DisplayedBicats.DispTransformation]
total_univalent_category [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
total_tensor [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
total_bifunctor [in UniMath.CategoryTheory.Monoidal.DisplayedMonoidal]
total_left_biadj_data [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
total_left_biadj_unit_counit [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
total_is_biequivalence [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_biequivalence_counit_inv_counit [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_biequivalence_counit_counit_inv [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_biequivalence_unit_inv_unit [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_biequivalence_unit_unit_inv [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_biequivalence_counit_inv [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_biequivalence_unit_inv [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_is_biequivalence_unit_counit [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
total_morphisms [in UniMath.CategoryTheory.Core.EssentiallyAlgebraic]
total2tohexists [in UniMath.Foundations.Propositions]
total2_paths2_comp2 [in UniMath.MoreFoundations.PartA]
total2_paths2_comp1 [in UniMath.MoreFoundations.PartA]
total2_hSet [in UniMath.Foundations.Sets]
total2_base_map [in UniMath.Foundations.PartA]
total2_hProp [in UniMath.MoreFoundations.Notations]
TOtot [in UniMath.Combinatorics.WellOrderedSets]
TOtotal [in UniMath.Combinatorics.WellOrderedSets]
tototal2overcoprod [in UniMath.Foundations.PartA]
tototal2overunit [in UniMath.Foundations.PartA]
TOtrans [in UniMath.Combinatorics.WellOrderedSets]
toTrivialTorsor [in UniMath.Algebra.GroupAction]
tounit [in UniMath.Foundations.PartA]
to_list [in UniMath.CategoryTheory.Inductives.Lists]
to_List [in UniMath.CategoryTheory.Inductives.Lists]
to_EpisAreCokernels [in UniMath.CategoryTheory.Abelian]
to_MonicsAreKernels [in UniMath.CategoryTheory.Abelian]
to_Data2 [in UniMath.CategoryTheory.Abelian]
to_Data1 [in UniMath.CategoryTheory.Abelian]
to_Cokernels [in UniMath.CategoryTheory.Abelian]
to_Kernels [in UniMath.CategoryTheory.Abelian]
to_BinCoproducts [in UniMath.CategoryTheory.Abelian]
to_BinProducts [in UniMath.CategoryTheory.Abelian]
to_Zero [in UniMath.CategoryTheory.Abelian]
to_BinOpId'' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
to_BinOpId' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
to_matrix [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
to_col [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
to_row [in UniMath.CategoryTheory.RepresentableFunctors.RawMatrix]
to_ComplementaryPair [in UniMath.MoreFoundations.DecidablePropositions]
to_image [in UniMath.Algebra.FixedPointTheorems]
to_binop [in UniMath.CategoryTheory.CategoriesWithBinOps]
to_Pr2 [in UniMath.CategoryTheory.limits.BinDirectSums]
to_Pr1 [in UniMath.CategoryTheory.limits.BinDirectSums]
to_In2 [in UniMath.CategoryTheory.limits.BinDirectSums]
to_In1 [in UniMath.CategoryTheory.limits.BinDirectSums]
to_BinOpId [in UniMath.CategoryTheory.limits.BinDirectSums]
to_Unel2 [in UniMath.CategoryTheory.limits.BinDirectSums]
to_Unel1 [in UniMath.CategoryTheory.limits.BinDirectSums]
to_IdIn2 [in UniMath.CategoryTheory.limits.BinDirectSums]
to_IdIn1 [in UniMath.CategoryTheory.limits.BinDirectSums]
to_isBinProduct [in UniMath.CategoryTheory.limits.BinDirectSums]
to_isBinCoproduct [in UniMath.CategoryTheory.limits.BinDirectSums]
to_quot_mor [in UniMath.CategoryTheory.PreAdditive]
to_postmor_unel [in UniMath.CategoryTheory.PreAdditive]
to_premor_unel [in UniMath.CategoryTheory.PreAdditive]
to_postmor_linear [in UniMath.CategoryTheory.PreAdditive]
to_premor_linear [in UniMath.CategoryTheory.PreAdditive]
to_postmor_monoidfun [in UniMath.CategoryTheory.PreAdditive]
to_premor_monoidfun [in UniMath.CategoryTheory.PreAdditive]
to_postmor_monoid [in UniMath.CategoryTheory.PreAdditive]
to_premor_monoid [in UniMath.CategoryTheory.PreAdditive]
to_postmor [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_premor [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_commax' [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_commax [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_inv [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_runax' [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_runax [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_lunax' [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_lunax [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_unel [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_abgr [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_isabgrop [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_setwithbinop [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_homset [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_has_homsets [in UniMath.CategoryTheory.PrecategoriesWithAbgrops]
to_hasBinDirectSums [in UniMath.CategoryTheory.Additive]
to_hasZero [in UniMath.CategoryTheory.Additive]
to_BinProducts [in UniMath.CategoryTheory.Additive]
to_BinCoproducts [in UniMath.CategoryTheory.Additive]
to_BinDirectSums [in UniMath.CategoryTheory.Additive]
to_Zero [in UniMath.CategoryTheory.Additive]
to_AdditiveStructure [in UniMath.CategoryTheory.Additive]
toℤ [in UniMath.NumberSystems.Integers]
toℤneg [in UniMath.NumberSystems.Integers]
trafotargetbicat_cat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotargetbicat_disp [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotargetbicat_disp_cat_data [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotargetbicat_disp_cat_ob_mor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_with_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_cat [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_disp [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_disp_cat_data [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
trafotarget_disp_cat_ob_mor [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorsMonoidal]
traho_of_Hinze_Wu [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
Trans [in UniMath.HomologicalAlgebra.Triangulated]
trans [in UniMath.Paradoxes.GirardsParadox]
transitive_paths_weq [in UniMath.MoreFoundations.WeakEquivalences]
TranslationComplex [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquivCounitInv [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquivUnitInv [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationEquiv_is_iso1 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorHIm [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorHImEq [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorHImMor [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_AdditiveFunctor [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_is_functor [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_data [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_Mor [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctorH_Mor_data [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor_Additive [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor_isAdditive [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationFunctor_data [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv_is_iso2 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHEquiv_is_iso1 [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHInvTranslationH_adjunction [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHomot [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationHTranslationInvHNatTrans [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationInvTranslation_adjunction [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationMorphism [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationMorphism_mor [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationTranslationInvNatTrans [in UniMath.HomologicalAlgebra.TranslationFunctors]
TranslationTranslationInvNatTrans_Mor [in UniMath.HomologicalAlgebra.TranslationFunctors]
transportb [in UniMath.Foundations.PartA]
transportbfinv [in UniMath.Foundations.PartA]
transportb_disp_psfunctor [in UniMath.Bicategories.DisplayedBicats.DispPseudofunctor]
transportb_pair [in UniMath.MoreFoundations.PartA]
transportb_transpose_left [in UniMath.MoreFoundations.PartA]
transportb_transpose_right [in UniMath.MoreFoundations.PartA]
transportb_dirprod [in UniMath.Foundations.PartA]
transportb_const [in UniMath.Foundations.PartA]
transportb2 [in UniMath.MoreFoundations.PartA]
transportD [in UniMath.Foundations.PartA]
transportf [in UniMath.Foundations.PartA]
transportfbinv [in UniMath.Foundations.PartA]
transportFiniteOrdering [in UniMath.Combinatorics.OrderedSets]
transportf_cell_from_invertible_2cell_eq [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
transportf_subtypePath' [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
transportf_reindex [in UniMath.CategoryTheory.DisplayedCats.Examples.Reindexing]
transportf_subtypePath [in UniMath.Bicategories.DisplayedBicats.Examples.Sigma]
transportf_funextfun [in UniMath.Foundations.UnivalenceAxiom]
transportf_trivial [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
transportf_total2_paths_f [in UniMath.MoreFoundations.PartA]
transportf_pathsinv0' [in UniMath.MoreFoundations.PartA]
transportf_pathsinv0 [in UniMath.MoreFoundations.PartA]
transportf_transpose_left [in UniMath.MoreFoundations.PartA]
transportf_id3 [in UniMath.Foundations.PartA]
transportf_id2 [in UniMath.Foundations.PartA]
transportf_id1 [in UniMath.Foundations.PartA]
transportf_dirprod [in UniMath.Foundations.PartA]
transportf_total2 [in UniMath.Foundations.PartA]
transportf_const [in UniMath.Foundations.PartA]
transportf_fun [in UniMath.Foundations.PartA]
transportf_eq [in UniMath.Foundations.PartA]
transportf_total2_paths_f [in UniMath.Bicategories.DisplayedBicats.Examples.Codomain]
transportf2 [in UniMath.MoreFoundations.PartA]
transportPathOver [in UniMath.MoreFoundations.PathsOver]
transportPathOver' [in UniMath.MoreFoundations.PathsOver]
transportPathTotal [in UniMath.MoreFoundations.PartA]
transport_invmap [in UniMath.MoreFoundations.PartA]
transport_invweq [in UniMath.MoreFoundations.PartA]
transport_funapp [in UniMath.MoreFoundations.PartA]
transport_fun_path [in UniMath.MoreFoundations.PartA]
transport_type_path [in UniMath.MoreFoundations.PartA]
transport_shift_cochain [in UniMath.Induction.M.Chains]
transport_target_funextfun [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_source_funextfun [in UniMath.CategoryTheory.Core.TransportMorphisms]
transport_stn [in UniMath.Combinatorics.FiniteSequences]
transport_one_cell_FlFr_iso [in UniMath.Bicategories.Core.TransportLaws]
transport_one_cell_FlFr_inv [in UniMath.Bicategories.Core.TransportLaws]
transport_one_cell_FlFr [in UniMath.Bicategories.Core.TransportLaws]
transport_section [in UniMath.Foundations.PartA]
transport_map [in UniMath.Foundations.PartA]
transport_b_b [in UniMath.Foundations.PartA]
transport_f_f [in UniMath.Foundations.PartA]
transport_b_f [in UniMath.Foundations.PartA]
transport_f_b [in UniMath.Foundations.PartA]
transposcommsqstr [in UniMath.Foundations.PartA]
transpose [in UniMath.Combinatorics.FiniteSequences]
Tree [in UniMath.Combinatorics.ZFstructures]
Tree [in UniMath.CategoryTheory.Inductives.Trees]
Tree [in UniMath.Combinatorics.MetricTree]
treeOmegaFunctor [in UniMath.CategoryTheory.Inductives.Trees]
Tree_isWellFounded [in UniMath.Combinatorics.ZFstructures]
Tree_iso [in UniMath.Combinatorics.ZFstructures]
tree_induction [in UniMath.Combinatorics.MetricTree]
Tri [in UniMath.HomologicalAlgebra.Triangulated]
Triang [in UniMath.HomologicalAlgebra.Triangulated]
triangle_eq [in UniMath.CategoryTheory.Monoidal.MonoidalCategories]
triangle_id_right_ad [in UniMath.CategoryTheory.Adjunctions.Core]
triangle_id_left_ad [in UniMath.CategoryTheory.Adjunctions.Core]
triangle_2_statement [in UniMath.CategoryTheory.Adjunctions.Core]
triangle_1_statement [in UniMath.CategoryTheory.Adjunctions.Core]
triangle_eq_A [in UniMath.CategoryTheory.Monoidal.Actions]
triangle_eq_nice [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
triangle_eq [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
triangle_2_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
triangle_1_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
triangle_2_statement_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
triangle_1_statement_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
triangle_axiom [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
triangle_axiom_type [in UniMath.Bicategories.WkCatEnrichment.prebicategory]
triangle_2_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_1_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_2_statement_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_1_statement_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_2_over_statement [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_1_over_statement [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
triangle_eq_A [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
TriangulatedMorphism_to_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedMorphism_from_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedMorsComm_to_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedMorsComm_from_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowDiffsEq_to_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowDiffsEq_from_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowDiffs_to_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowDiffs_from_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowExacts_to_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowExacts_from_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowMors_to_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowMors_from_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowObs_to_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRowObs_from_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRow_to_object [in UniMath.HomologicalAlgebra.Triangulated]
TriangulatedRow_from_object [in UniMath.HomologicalAlgebra.Triangulated]
Triang_PreTriang [in UniMath.HomologicalAlgebra.Triangulated]
TriIso [in UniMath.HomologicalAlgebra.Triangulated]
TriIsoId [in UniMath.HomologicalAlgebra.Triangulated]
TriIsoInv [in UniMath.HomologicalAlgebra.Triangulated]
TriIsoMor [in UniMath.HomologicalAlgebra.Triangulated]
TriIso_comp [in UniMath.HomologicalAlgebra.Triangulated]
TriIso_is_iso [in UniMath.HomologicalAlgebra.Triangulated]
TriMor [in UniMath.HomologicalAlgebra.Triangulated]
TriMorId [in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso_inv [in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso_comp [in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso3 [in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso2 [in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso1 [in UniMath.HomologicalAlgebra.Triangulated]
TriMor_is_iso [in UniMath.HomologicalAlgebra.Triangulated]
TriMor_comp [in UniMath.HomologicalAlgebra.Triangulated]
TriMor_Mors [in UniMath.HomologicalAlgebra.Triangulated]
TriMP [in UniMath.HomologicalAlgebra.Triangulated]
TrivialDirectSum [in UniMath.CategoryTheory.limits.BinDirectSums]
TrivialDirectSum' [in UniMath.CategoryTheory.limits.BinDirectSums]
TrivialDTri [in UniMath.HomologicalAlgebra.Triangulated]
TrivialDTrisData [in UniMath.HomologicalAlgebra.Triangulated]
TrivialExactSequence [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
TrivialExactSequence' [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
triviality_isomorphism [in UniMath.Algebra.GroupAction]
trivialsubgr [in UniMath.Algebra.Groups]
trivialsubmonoid [in UniMath.Algebra.Monoids]
trivialTorsor [in UniMath.Algebra.GroupAction]
trivialTorsorAuto [in UniMath.Algebra.GroupAction]
trivialTorsorRightMultiplication [in UniMath.Algebra.GroupAction]
trivialTorsor_weq [in UniMath.Algebra.GroupAction]
TrivialTri [in UniMath.HomologicalAlgebra.Triangulated]
trivial_is_univalent_2_0 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_adj_equiv_weq_disp_adj_equiv [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_adj_equiv_to_adj_to_disp [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_adj_equiv_to_disp_to_adj [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_adj_equiv_to_adj_equiv [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_adj_equiv_to_disp_adj_equiv [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_is_univalent_2_1 [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_invertible_2cell_weq_disp_invertible [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_invertible_to_invertible_to_disp_invertible [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_invertible_to_disp_invertible_to_invertible [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_invertible_to_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_is_disp_invertible_to_is_invertible_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_invertible_2cell_to_disp_invertible [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_is_invertible_2cell_to_is_disp_invertible [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_displayed_bicat [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_displayed_prebicat [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_displayed_data [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_prebicat_1_id_comp_cells [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_cat_data [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_cat_id_comp [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_disp_cat_ob_mor [in UniMath.Bicategories.DisplayedBicats.Examples.Trivial]
trivial_cleaving_of_bicats [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_rwhisker_cartesian [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_lwhisker_cartesian [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_global_cleaving [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_cartesian_1cell_is_adj_equiv [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_cartesian_1cell_left_equiv_axioms [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_cartesian_1cell_left_adj_data [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_cartesian_1cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_lift_2cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_lift_1cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_local_cleaving [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_cartesian_2cell_is_invertible [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
trivial_invertible_is_cartesian_2cell [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
TRRGraph [in UniMath.Combinatorics.ZFstructures]
TRRGraphData [in UniMath.Combinatorics.ZFstructures]
TRRGraphiso [in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence [in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence_weq2 [in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence_weq1 [in UniMath.Combinatorics.ZFstructures]
TRRGraph_univalence_map [in UniMath.Combinatorics.ZFstructures]
TRRG_transitivity [in UniMath.Combinatorics.ZFstructures]
TRRG_root [in UniMath.Combinatorics.ZFstructures]
TRRG_edgerel [in UniMath.Combinatorics.ZFstructures]
true [in UniMath.CategoryTheory.SubobjectClassifier]
truetonegfalse [in UniMath.Foundations.PartA]
trueWitness [in UniMath.MoreFoundations.DecidablePropositions]
true' [in UniMath.CategoryTheory.SubobjectClassifier]
truncminus [in UniMath.Algebra.Lattice]
truncnattruncauto [in UniMath.PAdics.fps]
truncnattruncautoinv [in UniMath.PAdics.fps]
tuple_functor [in UniMath.CategoryTheory.ProductCategory]
tuple_functor_data [in UniMath.CategoryTheory.ProductCategory]
Two [in UniMath.CategoryTheory.limits.graphs.coequalizers]
Two [in UniMath.CategoryTheory.limits.graphs.pushouts]
Two [in UniMath.CategoryTheory.limits.graphs.equalizers]
two [in UniMath.Combinatorics.StandardFiniteSets]
Two [in UniMath.CategoryTheory.limits.graphs.pullbacks]
twobinopeqrel [in UniMath.Algebra.BinaryOperations]
twobinopfun [in UniMath.Algebra.BinaryOperations]
twobinopfuncomp [in UniMath.Algebra.BinaryOperations]
twobinopfun_paths [in UniMath.Algebra.BinaryOperations]
twobinophrel [in UniMath.Algebra.BinaryOperations]
twobinopincltotwobinopfun [in UniMath.Algebra.BinaryOperations]
twobinopiso [in UniMath.Algebra.BinaryOperations]
twobinopisocomp [in UniMath.Algebra.BinaryOperations]
twobinopisototwobinopfun [in UniMath.Algebra.BinaryOperations]
twobinopisototwobinopmono [in UniMath.Algebra.BinaryOperations]
twobinopmono [in UniMath.Algebra.BinaryOperations]
twobinopmonocomp [in UniMath.Algebra.BinaryOperations]
twobinoppo [in UniMath.Algebra.BinaryOperations]
twoNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
twoNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
two_cells_from_monoidal [in UniMath.Bicategories.Core.Examples.BicategoryFromMonoidal]
two_graph [in UniMath.CategoryTheory.limits.bincoproducts]
two_cat_equiv_strict_bicat [in UniMath.Bicategories.Core.Strictness]
two_cat_to_strict_bicat [in UniMath.Bicategories.Core.Strictness]
two_cat_to_bicat [in UniMath.Bicategories.Core.Strictness]
two_cat_to_prebicat [in UniMath.Bicategories.Core.Strictness]
two_cat_to_prebicat_data [in UniMath.Bicategories.Core.Strictness]
two_type_bicat_data [in UniMath.Bicategories.Core.Examples.TwoType]
two_graph [in UniMath.CategoryTheory.limits.graphs.binproducts]
two_rec_dep [in UniMath.Combinatorics.StandardFiniteSets]
two_rec [in UniMath.Combinatorics.StandardFiniteSets]
two_cat_to_two_precat [in UniMath.CategoryTheory.Core.TwoCategories]
two_cat [in UniMath.CategoryTheory.Core.TwoCategories]
two_cat_laws_from_two_cat [in UniMath.CategoryTheory.Core.TwoCategories]
two_cat_category_from_two_cat [in UniMath.CategoryTheory.Core.TwoCategories]
two_precat [in UniMath.CategoryTheory.Core.TwoCategories]
two_cat_laws [in UniMath.CategoryTheory.Core.TwoCategories]
two_cat_category [in UniMath.CategoryTheory.Core.TwoCategories]
two_cat_cells [in UniMath.CategoryTheory.Core.TwoCategories]
two_cat_data [in UniMath.CategoryTheory.Core.TwoCategories]
two_graph [in UniMath.CategoryTheory.limits.graphs.bincoproducts]
two_graph [in UniMath.CategoryTheory.limits.binproducts]
ty [in UniMath.SubstitutionSystems.CCS_alt]
ty [in UniMath.SubstitutionSystems.CCS]
type_precat [in UniMath.CategoryTheory.categories.Type.Core]
T_on_SAlg [in UniMath.CategoryTheory.Monads.MonadAlgebras]
T_func [in UniMath.Folds.folds_precat]
T_squared [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
t1 [in UniMath.Algebra.Universal.Examples.Tests]
t2 [in UniMath.Algebra.Universal.Examples.Tests]

U

UAct [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ufun [in UniMath.Paradoxes.GirardsParadox]
uip_statement [in UniMath.MoreFoundations.NoInjectivePairing]
unax [in UniMath.Algebra.Monoids]
unax_is [in UniMath.Algebra.BinaryOperations]
uncurry [in UniMath.Foundations.PartA]
uncurry_nattrans [in UniMath.CategoryTheory.PrecategoryBinProduct]
uncurry_functor [in UniMath.CategoryTheory.PrecategoryBinProduct]
uncurry_functor_data [in UniMath.CategoryTheory.PrecategoryBinProduct]
Undercategory [in UniMath.CategoryTheory.UnderCategories]
Undercategory_data [in UniMath.CategoryTheory.UnderCategories]
Undercategory_ob_mor [in UniMath.CategoryTheory.UnderCategories]
underlyingAction [in UniMath.Algebra.GroupAction]
underlyingActionMap [in UniMath.Algebra.GroupAction]
underlyingAction_injectivity_inv_comp [in UniMath.Algebra.GroupAction]
underlyingAction_injectivity_comp' [in UniMath.Algebra.GroupAction]
underlyingAction_injectivity_comp [in UniMath.Algebra.GroupAction]
underlyingFiniteSet [in UniMath.Combinatorics.OrderedSets]
underlyingFunction [in UniMath.Algebra.GroupAction]
underlyingIso [in UniMath.Algebra.GroupAction]
underlyingLoop [in UniMath.MoreFoundations.PartA]
underlyingOrderedSet [in UniMath.Combinatorics.OrderedSets]
underlyingPoint [in UniMath.Algebra.GroupAction]
underlyingPoset [in UniMath.Combinatorics.OrderedSets]
underlyingPoset_weq [in UniMath.Combinatorics.OrderedSets]
underlyingTorsor [in UniMath.Algebra.GroupAction]
underlyingType [in UniMath.MoreFoundations.PartA]
Under_precategories_mor_functor_data [in UniMath.CategoryTheory.UnderCategories]
Under_precategories_mor_mor [in UniMath.CategoryTheory.UnderCategories]
Under_precategories_mor_ob [in UniMath.CategoryTheory.UnderCategories]
Under_comp [in UniMath.CategoryTheory.UnderCategories]
Under_id [in UniMath.CategoryTheory.UnderCategories]
Under_mor_equality [in UniMath.CategoryTheory.UnderCategories]
Under_mor_eq [in UniMath.CategoryTheory.UnderCategories]
Under_mor_mor [in UniMath.CategoryTheory.UnderCategories]
Under_mor [in UniMath.CategoryTheory.UnderCategories]
Under_ob_mor [in UniMath.CategoryTheory.UnderCategories]
Under_ob_cod [in UniMath.CategoryTheory.UnderCategories]
Under_ob [in UniMath.CategoryTheory.UnderCategories]
unel [in UniMath.Algebra.Monoids]
unelabgrfun [in UniMath.Algebra.Groups]
unelabmonoidfun [in UniMath.Algebra.Monoids]
unelgrfun [in UniMath.Algebra.Groups]
unelmodulefun [in UniMath.Algebra.Modules.Core]
unelmonoidfun [in UniMath.Algebra.Monoids]
unel_is [in UniMath.Algebra.BinaryOperations]
union [in UniMath.Topology.Prelim]
union_sieve [in UniMath.CategoryTheory.Presheaf]
union_open [in UniMath.AlgebraicGeometry.Topology]
union_open_hsubtype [in UniMath.AlgebraicGeometry.Topology]
UniqueConstruction [in UniMath.Foundations.PartA]
uniqueness [in UniMath.MoreFoundations.PartA]
uniqueness' [in UniMath.MoreFoundations.PartA]
unique_strictness_structure_is_univalent_2_1 [in UniMath.Bicategories.Core.Strictness]
unique_lift [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
unique_maps_to_biinitial [in UniMath.Bicategories.Colimits.Initial]
unique_maps [in UniMath.Bicategories.Colimits.Initial]
uniq_iter [in UniMath.SubstitutionSystems.ModulesFromSignatures]
unit [in UniMath.CategoryTheory.Adjunctions.Core]
unit [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
unitabgr [in UniMath.Algebra.Groups]
unitabgr_isabgrop [in UniMath.Algebra.Groups]
unitabmonoid [in UniMath.Algebra.Monoids]
unitabmonoid_isabmonoid [in UniMath.Algebra.Monoids]
unitalgebra [in UniMath.Algebra.Universal.Algebras]
unitcounit_of_is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
UnitFunctor [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
unitgr [in UniMath.Algebra.Groups]
unitgr_isgrop [in UniMath.Algebra.Groups]
unithom [in UniMath.Algebra.Universal.Algebras]
unitHSET [in UniMath.CategoryTheory.categories.HSET.Core]
unitmonoid [in UniMath.Algebra.Monoids]
unitmonoid_ismonoid [in UniMath.Algebra.Monoids]
unitset [in UniMath.Foundations.Sets]
unitunit_of_is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
unit_binop_structure_disp_cat_ob_prop [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_structure_disp_cat_mor_not_contr [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_structure_disp_cat_mor_prop [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_structure_disp_cat_not_adds_properties [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_structure [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_structure_cat [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_structure_disp_cat [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_property [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_property_cat [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_binop_property_disp_cat [in UniMath.CategoryTheory.DisplayedCats.Examples.UnitalBinop]
unit_category [in UniMath.CategoryTheory.categories.StandardCategories]
unit_functor [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
unit_precategory [in UniMath.CategoryTheory.DisplayedCats.Auxiliary]
unit_bind [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
unit_kt [in UniMath.Bicategories.DisplayedBicats.Examples.KleisliTriple]
unit_1_type [in UniMath.Bicategories.Colimits.Final]
unit_univalent_disp_cat [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
unit_disp_cat [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.FibrationCleaving]
unit_woset [in UniMath.Combinatorics.WellOrderedSets]
unit_from_hom [in UniMath.CategoryTheory.Adjunctions.Core]
unit_left_from_partial [in UniMath.CategoryTheory.Adjunctions.Core]
unit_from_right_adjoint [in UniMath.CategoryTheory.Adjunctions.Core]
unit_from_left_adjoint [in UniMath.CategoryTheory.Adjunctions.Core]
unit_from_are_adjoints [in UniMath.CategoryTheory.Adjunctions.Core]
unit_iso_from_adj_equivalence_of_cats [in UniMath.CategoryTheory.Equivalences.Core]
unit_nat_iso_from_adj_equivalence_of_cats [in UniMath.CategoryTheory.Equivalences.Core]
unit_pointwise_iso_from_adj_equivalence [in UniMath.CategoryTheory.Equivalences.Core]
unit_help_lift₂ [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
unit_help_lift₁ [in UniMath.Bicategories.DisplayedBicats.ExamplesOfCleavings.TrivialCleaving]
unit_of_disp_left_biadj [in UniMath.Bicategories.DisplayedBicats.DispBiadjunction]
unit_of_is_disp_biequivalence [in UniMath.Bicategories.DisplayedBicats.DispBiequivalence]
unit_mu_kleisli_functor [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
unit_mu_kleisli [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
unit_kleisli [in UniMath.Bicategories.DisplayedBicats.Examples.MonadKtripleBiequiv]
unit_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences_bis]
unit_over_id [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
unit_over [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
unit_counit_from_is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
unit_of_is_biequivalence [in UniMath.Bicategories.PseudoFunctors.Biequivalence]
univalence [in UniMath.Foundations.UnivalenceAxiom]
univalenceStatement [in UniMath.Foundations.UnivalenceAxiom]
univalenceweq [in UniMath.CategoryTheory.categories.HSET.Univalence]
univalenceweq [in UniMath.CategoryTheory.categories.Type.Univalence]
univalent_category_mod_precategory [in UniMath.CategoryTheory.categories.modules]
univalent_fibration_is_cloven [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
univalent_2_1_to_local_iso_cleaving [in UniMath.Bicategories.DisplayedBicats.Fibration]
univalent_2_1_to_local_iso_cleaving_help [in UniMath.Bicategories.DisplayedBicats.Fibration]
univalent_groupoid_to_groupoid [in UniMath.CategoryTheory.Groupoids]
univalent_groupoid_is_pregroupoid [in UniMath.CategoryTheory.Groupoids]
univalent_groupoid_to_univalent_category [in UniMath.CategoryTheory.Groupoids]
univalent_groupoid [in UniMath.CategoryTheory.Groupoids]
univalent_category_binproduct [in UniMath.CategoryTheory.PrecategoryBinProduct]
univalent_category_is_univalent [in UniMath.CategoryTheory.Core.Univalence]
univalent_category_has_homsets [in UniMath.CategoryTheory.Core.Univalence]
univalent_category_to_category [in UniMath.CategoryTheory.Core.Univalence]
univalent_category [in UniMath.CategoryTheory.Core.Univalence]
univalent_cat_is_univalent_2 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
univalent_cat_is_univalent_2_0 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
univalent_cat_is_univalent_2_1 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
univalent_cat_idtoiso_2_1 [in UniMath.Bicategories.Core.Examples.BicatOfUnivCats]
Universal [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalElement [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalMap [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalmap [in UniMath.Algebra.Universal.FreeAlgebras]
universalMapIdentity [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalMapProperty [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalMapUniqueness [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalMapUniqueness' [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalMap' [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalObject [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalObjectFunctor [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalObjectFunctor_on_map [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
universalProperty [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
UnivProductFromPullback [in UniMath.CategoryTheory.limits.pullbacks]
univ_surj_nt [in UniMath.CategoryTheory.SetValuedFunctors]
univ_hom [in UniMath.Bicategories.Core.Univalence]
univ_function_is_equivariant [in UniMath.Algebra.GroupAction]
univ_function_pointed [in UniMath.Algebra.GroupAction]
univ_function [in UniMath.Algebra.GroupAction]
univ_cat_binprod_cone [in UniMath.Bicategories.Colimits.Products]
univ_surj [in UniMath.Foundations.Sets]
unkleislify [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
unkleislify_mor [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
unkleislify_data [in UniMath.CategoryTheory.Monads.KTriplesEquiv]
Unnamed_thm52 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm51 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm50 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm49 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm48 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm47 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm46 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm45 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm44 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm43 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm42 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm41 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm40 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm39 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm38 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm37 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm36 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm35 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm34 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm33 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm32 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm31 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm30 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm29 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm28 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm27 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm26 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm25 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm24 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm23 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm22 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm21 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm20 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm19 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm18 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm17 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm16 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm15 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm15 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm14 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm13 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm12 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm11 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm10 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm9 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm8 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm7 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm6 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm5 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm4 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm3 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm2 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm1 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm0 [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm [in UniMath.CategoryTheory.ExactCategories.Tests]
Unnamed_thm [in UniMath.MoreFoundations.NullHomotopies]
Unnamed_thm4 [in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm4 [in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm3 [in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm2 [in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm1 [in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm0 [in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm [in UniMath.CategoryTheory.Inductives.Lists]
Unnamed_thm10 [in UniMath.MoreFoundations.Test]
Unnamed_thm9 [in UniMath.MoreFoundations.Test]
Unnamed_thm8 [in UniMath.MoreFoundations.Test]
Unnamed_thm7 [in UniMath.MoreFoundations.Test]
Unnamed_thm6 [in UniMath.MoreFoundations.Test]
Unnamed_thm5 [in UniMath.MoreFoundations.Test]
Unnamed_thm4 [in UniMath.MoreFoundations.Test]
Unnamed_thm3 [in UniMath.MoreFoundations.Test]
Unnamed_thm2 [in UniMath.MoreFoundations.Test]
Unnamed_thm1 [in UniMath.MoreFoundations.Test]
Unnamed_thm0 [in UniMath.MoreFoundations.Test]
Unnamed_thm [in UniMath.MoreFoundations.Test]
Unnamed_thm [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
Unnamed_thm [in UniMath.CategoryTheory.Monads.Monads]
Unnamed_thm [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Unnamed_thm [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Unnamed_thm [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Unnamed_thm [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Unnamed_thm [in UniMath.CategoryTheory.ExactCategories.ExactCategories]
Unnamed_thm3 [in UniMath.Ktheory.GrothendieckGroup]
Unnamed_thm2 [in UniMath.Ktheory.GrothendieckGroup]
Unnamed_thm1 [in UniMath.Ktheory.GrothendieckGroup]
Unnamed_thm0 [in UniMath.Ktheory.GrothendieckGroup]
Unnamed_thm [in UniMath.Ktheory.GrothendieckGroup]
Unnamed_thm143 [in UniMath.Combinatorics.Tests]
Unnamed_thm142 [in UniMath.Combinatorics.Tests]
Unnamed_thm141 [in UniMath.Combinatorics.Tests]
Unnamed_thm140 [in UniMath.Combinatorics.Tests]
Unnamed_thm139 [in UniMath.Combinatorics.Tests]
Unnamed_thm138 [in UniMath.Combinatorics.Tests]
Unnamed_thm138 [in UniMath.Combinatorics.Tests]
Unnamed_thm138 [in UniMath.Combinatorics.Tests]
Unnamed_thm137 [in UniMath.Combinatorics.Tests]
Unnamed_thm136 [in UniMath.Combinatorics.Tests]
Unnamed_thm135 [in UniMath.Combinatorics.Tests]
Unnamed_thm134 [in UniMath.Combinatorics.Tests]
Unnamed_thm133 [in UniMath.Combinatorics.Tests]
Unnamed_thm132 [in UniMath.Combinatorics.Tests]
Unnamed_thm131 [in UniMath.Combinatorics.Tests]
Unnamed_thm130 [in UniMath.Combinatorics.Tests]
Unnamed_thm129 [in UniMath.Combinatorics.Tests]
Unnamed_thm128 [in UniMath.Combinatorics.Tests]
Unnamed_thm127 [in UniMath.Combinatorics.Tests]
Unnamed_thm126 [in UniMath.Combinatorics.Tests]
Unnamed_thm125 [in UniMath.Combinatorics.Tests]
Unnamed_thm124 [in UniMath.Combinatorics.Tests]
Unnamed_thm123 [in UniMath.Combinatorics.Tests]
Unnamed_thm122 [in UniMath.Combinatorics.Tests]
Unnamed_thm121 [in UniMath.Combinatorics.Tests]
Unnamed_thm120 [in UniMath.Combinatorics.Tests]
Unnamed_thm119 [in UniMath.Combinatorics.Tests]
Unnamed_thm118 [in UniMath.Combinatorics.Tests]
Unnamed_thm117 [in UniMath.Combinatorics.Tests]
Unnamed_thm116 [in UniMath.Combinatorics.Tests]
Unnamed_thm115 [in UniMath.Combinatorics.Tests]
Unnamed_thm114 [in UniMath.Combinatorics.Tests]
Unnamed_thm113 [in UniMath.Combinatorics.Tests]
Unnamed_thm112 [in UniMath.Combinatorics.Tests]
Unnamed_thm111 [in UniMath.Combinatorics.Tests]
Unnamed_thm110 [in UniMath.Combinatorics.Tests]
Unnamed_thm109 [in UniMath.Combinatorics.Tests]
Unnamed_thm108 [in UniMath.Combinatorics.Tests]
Unnamed_thm107 [in UniMath.Combinatorics.Tests]
Unnamed_thm106 [in UniMath.Combinatorics.Tests]
Unnamed_thm105 [in UniMath.Combinatorics.Tests]
Unnamed_thm104 [in UniMath.Combinatorics.Tests]
Unnamed_thm103 [in UniMath.Combinatorics.Tests]
Unnamed_thm102 [in UniMath.Combinatorics.Tests]
Unnamed_thm101 [in UniMath.Combinatorics.Tests]
Unnamed_thm100 [in UniMath.Combinatorics.Tests]
Unnamed_thm99 [in UniMath.Combinatorics.Tests]
Unnamed_thm98 [in UniMath.Combinatorics.Tests]
Unnamed_thm97 [in UniMath.Combinatorics.Tests]
Unnamed_thm96 [in UniMath.Combinatorics.Tests]
Unnamed_thm95 [in UniMath.Combinatorics.Tests]
Unnamed_thm94 [in UniMath.Combinatorics.Tests]
Unnamed_thm93 [in UniMath.Combinatorics.Tests]
Unnamed_thm92 [in UniMath.Combinatorics.Tests]
Unnamed_thm91 [in UniMath.Combinatorics.Tests]
Unnamed_thm90 [in UniMath.Combinatorics.Tests]
Unnamed_thm89 [in UniMath.Combinatorics.Tests]
Unnamed_thm88 [in UniMath.Combinatorics.Tests]
Unnamed_thm87 [in UniMath.Combinatorics.Tests]
Unnamed_thm86 [in UniMath.Combinatorics.Tests]
Unnamed_thm85 [in UniMath.Combinatorics.Tests]
Unnamed_thm84 [in UniMath.Combinatorics.Tests]
Unnamed_thm83 [in UniMath.Combinatorics.Tests]
Unnamed_thm82 [in UniMath.Combinatorics.Tests]
Unnamed_thm81 [in UniMath.Combinatorics.Tests]
Unnamed_thm80 [in UniMath.Combinatorics.Tests]
Unnamed_thm79 [in UniMath.Combinatorics.Tests]
Unnamed_thm78 [in UniMath.Combinatorics.Tests]
Unnamed_thm77 [in UniMath.Combinatorics.Tests]
Unnamed_thm76 [in UniMath.Combinatorics.Tests]
Unnamed_thm75 [in UniMath.Combinatorics.Tests]
Unnamed_thm74 [in UniMath.Combinatorics.Tests]
Unnamed_thm73 [in UniMath.Combinatorics.Tests]
Unnamed_thm72 [in UniMath.Combinatorics.Tests]
Unnamed_thm71 [in UniMath.Combinatorics.Tests]
Unnamed_thm70 [in UniMath.Combinatorics.Tests]
Unnamed_thm69 [in UniMath.Combinatorics.Tests]
Unnamed_thm68 [in UniMath.Combinatorics.Tests]
Unnamed_thm67 [in UniMath.Combinatorics.Tests]
Unnamed_thm66 [in UniMath.Combinatorics.Tests]
Unnamed_thm65 [in UniMath.Combinatorics.Tests]
Unnamed_thm64 [in UniMath.Combinatorics.Tests]
Unnamed_thm63 [in UniMath.Combinatorics.Tests]
Unnamed_thm62 [in UniMath.Combinatorics.Tests]
Unnamed_thm61 [in UniMath.Combinatorics.Tests]
Unnamed_thm60 [in UniMath.Combinatorics.Tests]
Unnamed_thm59 [in UniMath.Combinatorics.Tests]
Unnamed_thm58 [in UniMath.Combinatorics.Tests]
Unnamed_thm57 [in UniMath.Combinatorics.Tests]
Unnamed_thm56 [in UniMath.Combinatorics.Tests]
Unnamed_thm55 [in UniMath.Combinatorics.Tests]
Unnamed_thm54 [in UniMath.Combinatorics.Tests]
Unnamed_thm53 [in UniMath.Combinatorics.Tests]
Unnamed_thm52 [in UniMath.Combinatorics.Tests]
Unnamed_thm52 [in UniMath.Combinatorics.Tests]
Unnamed_thm51 [in UniMath.Combinatorics.Tests]
Unnamed_thm50 [in UniMath.Combinatorics.Tests]
Unnamed_thm49 [in UniMath.Combinatorics.Tests]
Unnamed_thm48 [in UniMath.Combinatorics.Tests]
Unnamed_thm47 [in UniMath.Combinatorics.Tests]
Unnamed_thm46 [in UniMath.Combinatorics.Tests]
Unnamed_thm45 [in UniMath.Combinatorics.Tests]
Unnamed_thm44 [in UniMath.Combinatorics.Tests]
Unnamed_thm43 [in UniMath.Combinatorics.Tests]
Unnamed_thm42 [in UniMath.Combinatorics.Tests]
Unnamed_thm41 [in UniMath.Combinatorics.Tests]
Unnamed_thm40 [in UniMath.Combinatorics.Tests]
Unnamed_thm39 [in UniMath.Combinatorics.Tests]
Unnamed_thm38 [in UniMath.Combinatorics.Tests]
Unnamed_thm37 [in UniMath.Combinatorics.Tests]
Unnamed_thm36 [in UniMath.Combinatorics.Tests]
Unnamed_thm35 [in UniMath.Combinatorics.Tests]
Unnamed_thm34 [in UniMath.Combinatorics.Tests]
Unnamed_thm33 [in UniMath.Combinatorics.Tests]
Unnamed_thm32 [in UniMath.Combinatorics.Tests]
Unnamed_thm31 [in UniMath.Combinatorics.Tests]
Unnamed_thm30 [in UniMath.Combinatorics.Tests]
Unnamed_thm29 [in UniMath.Combinatorics.Tests]
Unnamed_thm28 [in UniMath.Combinatorics.Tests]
Unnamed_thm27 [in UniMath.Combinatorics.Tests]
Unnamed_thm26 [in UniMath.Combinatorics.Tests]
Unnamed_thm25 [in UniMath.Combinatorics.Tests]
Unnamed_thm24 [in UniMath.Combinatorics.Tests]
Unnamed_thm23 [in UniMath.Combinatorics.Tests]
Unnamed_thm22 [in UniMath.Combinatorics.Tests]
Unnamed_thm21 [in UniMath.Combinatorics.Tests]
Unnamed_thm20 [in UniMath.Combinatorics.Tests]
Unnamed_thm19 [in UniMath.Combinatorics.Tests]
Unnamed_thm18 [in UniMath.Combinatorics.Tests]
Unnamed_thm17 [in UniMath.Combinatorics.Tests]
Unnamed_thm16 [in UniMath.Combinatorics.Tests]
Unnamed_thm15 [in UniMath.Combinatorics.Tests]
Unnamed_thm14 [in UniMath.Combinatorics.Tests]
Unnamed_thm13 [in UniMath.Combinatorics.Tests]
Unnamed_thm12 [in UniMath.Combinatorics.Tests]
Unnamed_thm11 [in UniMath.Combinatorics.Tests]
Unnamed_thm10 [in UniMath.Combinatorics.Tests]
Unnamed_thm9 [in UniMath.Combinatorics.Tests]
Unnamed_thm8 [in UniMath.Combinatorics.Tests]
Unnamed_thm7 [in UniMath.Combinatorics.Tests]
Unnamed_thm6 [in UniMath.Combinatorics.Tests]
Unnamed_thm5 [in UniMath.Combinatorics.Tests]
Unnamed_thm4 [in UniMath.Combinatorics.Tests]
Unnamed_thm3 [in UniMath.Combinatorics.Tests]
Unnamed_thm2 [in UniMath.Combinatorics.Tests]
Unnamed_thm1 [in UniMath.Combinatorics.Tests]
Unnamed_thm0 [in UniMath.Combinatorics.Tests]
Unnamed_thm [in UniMath.Combinatorics.Tests]
Unnamed_thm [in UniMath.CategoryTheory.opp_precat]
Unnamed_thm0 [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Unnamed_thm [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
Unnamed_thm0 [in UniMath.Algebra.GroupAction]
Unnamed_thm0 [in UniMath.Algebra.GroupAction]
Unnamed_thm [in UniMath.Algebra.GroupAction]
Unnamed_thm [in UniMath.CategoryTheory.HorizontalComposition]
Unnamed_thm [in UniMath.CategoryTheory.Groupoids]
Unnamed_thm [in UniMath.CategoryTheory.Groupoids]
Unnamed_thm [in UniMath.CategoryTheory.Groupoids]
Unnamed_thm [in UniMath.CategoryTheory.PrecategoryBinProduct]
Unnamed_thm [in UniMath.CategoryTheory.Monads.Kleisli]
Unnamed_thm [in UniMath.MoreFoundations.PathsOver]
Unnamed_thm0 [in UniMath.MoreFoundations.PartA]
Unnamed_thm [in UniMath.MoreFoundations.PartA]
Unnamed_thm0 [in UniMath.MoreFoundations.Interval]
Unnamed_thm [in UniMath.MoreFoundations.Interval]
Unnamed_thm35 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm34 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm33 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm32 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm31 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm30 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm29 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm28 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm27 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm26 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm25 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm24 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm23 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm22 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm21 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm20 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm19 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm18 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm17 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm16 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm15 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm14 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm13 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm12 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm11 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm10 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm9 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm8 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm7 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm6 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm5 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm4 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm3 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm2 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm1 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm0 [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm [in UniMath.Algebra.Universal.Examples.Tests]
Unnamed_thm3 [in UniMath.Algebra.Universal.Examples.Nat]
Unnamed_thm2 [in UniMath.Algebra.Universal.Examples.Nat]
Unnamed_thm1 [in UniMath.Algebra.Universal.Examples.Nat]
Unnamed_thm0 [in UniMath.Algebra.Universal.Examples.Nat]
Unnamed_thm [in UniMath.Algebra.Universal.Examples.Nat]
Unnamed_thm [in UniMath.CategoryTheory.Inductives.Trees]
Unnamed_thm3 [in UniMath.Combinatorics.Lists]
Unnamed_thm2 [in UniMath.Combinatorics.Lists]
Unnamed_thm1 [in UniMath.Combinatorics.Lists]
Unnamed_thm0 [in UniMath.Combinatorics.Lists]
Unnamed_thm [in UniMath.Combinatorics.Lists]
Unnamed_thm1 [in UniMath.Topology.Filters]
Unnamed_thm0 [in UniMath.Topology.Filters]
Unnamed_thm [in UniMath.Topology.Filters]
Unnamed_thm0 [in UniMath.MoreFoundations.Propositions]
Unnamed_thm0 [in UniMath.MoreFoundations.Propositions]
Unnamed_thm [in UniMath.MoreFoundations.Propositions]
Unnamed_thm [in UniMath.MoreFoundations.Propositions]
Unnamed_thm [in UniMath.MoreFoundations.Propositions]
Unnamed_thm [in UniMath.Combinatorics.WellFoundedRelations]
Unnamed_thm10 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm10 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm9 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm8 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm7 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm6 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm5 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm4 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm3 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm2 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm1 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm0 [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm [in UniMath.SyntheticHomotopyTheory.Test]
Unnamed_thm2 [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Unnamed_thm1 [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Unnamed_thm0 [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Unnamed_thm [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
Unnamed_thm [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
Unnamed_thm0 [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
Unnamed_thm [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
Unnamed_thm7 [in UniMath.Combinatorics.VectorsTests]
Unnamed_thm6 [in UniMath.Combinatorics.VectorsTests]
Unnamed_thm5 [in UniMath.Combinatorics.VectorsTests]
Unnamed_thm4 [in UniMath.Combinatorics.VectorsTests]
Unnamed_thm3 [in UniMath.Combinatorics.VectorsTests]
Unnamed_thm2 [in UniMath.Combinatorics.VectorsTests]
Unnamed_thm1 [in UniMath.Combinatorics.VectorsTests]
Unnamed_thm0 [in UniMath.Combinatorics.VectorsTests]
Unnamed_thm [in UniMath.Combinatorics.VectorsTests]
Unnamed_thm0 [in UniMath.SyntheticHomotopyTheory.Circle2]
Unnamed_thm [in UniMath.SyntheticHomotopyTheory.Circle2]
Unnamed_thm6 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm5 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm5 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm4 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm3 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm2 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm1 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm0 [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
Unnamed_thm38 [in UniMath.Foundations.Tests]
Unnamed_thm37 [in UniMath.Foundations.Tests]
Unnamed_thm36 [in UniMath.Foundations.Tests]
Unnamed_thm35 [in UniMath.Foundations.Tests]
Unnamed_thm34 [in UniMath.Foundations.Tests]
Unnamed_thm33 [in UniMath.Foundations.Tests]
Unnamed_thm32 [in UniMath.Foundations.Tests]
Unnamed_thm31 [in UniMath.Foundations.Tests]
Unnamed_thm30 [in UniMath.Foundations.Tests]
Unnamed_thm29 [in UniMath.Foundations.Tests]
Unnamed_thm28 [in UniMath.Foundations.Tests]
Unnamed_thm27 [in UniMath.Foundations.Tests]
Unnamed_thm26 [in UniMath.Foundations.Tests]
Unnamed_thm25 [in UniMath.Foundations.Tests]
Unnamed_thm24 [in UniMath.Foundations.Tests]
Unnamed_thm23 [in UniMath.Foundations.Tests]
Unnamed_thm22 [in UniMath.Foundations.Tests]
Unnamed_thm21 [in UniMath.Foundations.Tests]
Unnamed_thm20 [in UniMath.Foundations.Tests]
Unnamed_thm19 [in UniMath.Foundations.Tests]
Unnamed_thm18 [in UniMath.Foundations.Tests]
Unnamed_thm17 [in UniMath.Foundations.Tests]
Unnamed_thm16 [in UniMath.Foundations.Tests]
Unnamed_thm15 [in UniMath.Foundations.Tests]
Unnamed_thm14 [in UniMath.Foundations.Tests]
Unnamed_thm13 [in UniMath.Foundations.Tests]
Unnamed_thm12 [in UniMath.Foundations.Tests]
Unnamed_thm11 [in UniMath.Foundations.Tests]
Unnamed_thm10 [in UniMath.Foundations.Tests]
Unnamed_thm9 [in UniMath.Foundations.Tests]
Unnamed_thm8 [in UniMath.Foundations.Tests]
Unnamed_thm7 [in UniMath.Foundations.Tests]
Unnamed_thm6 [in UniMath.Foundations.Tests]
Unnamed_thm5 [in UniMath.Foundations.Tests]
Unnamed_thm4 [in UniMath.Foundations.Tests]
Unnamed_thm3 [in UniMath.Foundations.Tests]
Unnamed_thm2 [in UniMath.Foundations.Tests]
Unnamed_thm1 [in UniMath.Foundations.Tests]
Unnamed_thm0 [in UniMath.Foundations.Tests]
Unnamed_thm [in UniMath.Foundations.Tests]
unop [in UniMath.Algebra.BinaryOperations]
unop [in UniMath.RealNumbers.Sets]
UnorderedSequence [in UniMath.Combinatorics.FiniteSequences]
unorderedSequenceToFunction [in UniMath.Combinatorics.FiniteSequences]
unshiftCocone [in UniMath.CategoryTheory.Chains.Adamek]
uord [in UniMath.Paradoxes.GirardsParadox]
Up [in UniMath.Combinatorics.ZFstructures]
upto [in UniMath.Combinatorics.WellOrderedSets]
upto' [in UniMath.Combinatorics.WellOrderedSets]
Upw [in UniMath.Combinatorics.ZFstructures]
Upw_to_TRRGraph [in UniMath.Combinatorics.ZFstructures]
Upw_to_PointedGraph [in UniMath.Combinatorics.ZFstructures]
Upw_E [in UniMath.Combinatorics.ZFstructures]
Upw_underlying [in UniMath.Combinatorics.ZFstructures]
Up_to_Up_inv [in UniMath.Combinatorics.ZFstructures]
Up_to_Up [in UniMath.Combinatorics.ZFstructures]
uset [in UniMath.Paradoxes.GirardsParadox]
USig [in UniMath.SubstitutionSystems.MLTT79]
UU [in UniMath.Foundations.Preamble]
U_action [in UniMath.CategoryTheory.Monoidal.Actions]
U_action_χ [in UniMath.CategoryTheory.Monoidal.Actions]
U_action_χ_nat_trans [in UniMath.CategoryTheory.Monoidal.Actions]
U_action_ρ [in UniMath.CategoryTheory.Monoidal.Actions]
U_action_ρ_is_nat_z_iso [in UniMath.CategoryTheory.Monoidal.Actions]
U_action_ρ_nat_trans [in UniMath.CategoryTheory.Monoidal.Actions]
U_action_alt [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
U' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]

V

V [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
v [in UniMath.Foundations.Tests]
value_in_image [in UniMath.Algebra.FixedPointTheorems]
var [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
var [in UniMath.Bicategories.Transformations.Examples.AlgebraMap]
variables [in UniMath.Algebra.Universal.Equations]
varname [in UniMath.Algebra.Universal.VTerms]
varsort [in UniMath.Algebra.Universal.VTerms]
varspec [in UniMath.Algebra.Universal.VTerms]
varsupp [in UniMath.Algebra.Universal.VTerms]
varterm [in UniMath.Algebra.Universal.VTerms]
VarTerms [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
var_map [in UniMath.SubstitutionSystems.STLC]
var_map [in UniMath.SubstitutionSystems.CCS_alt]
var_map [in UniMath.SubstitutionSystems.PCF_alt]
var_map [in UniMath.CategoryTheory.Inductives.LambdaCalculus]
var_map [in UniMath.SubstitutionSystems.STLC_alt]
var_map [in UniMath.SubstitutionSystems.CCS]
var_map [in UniMath.SubstitutionSystems.MLTT79]
var_map [in UniMath.SubstitutionSystems.LamFromBindingSig]
vassocl [in UniMath.Bicategories.Core.Bicat]
vassocr [in UniMath.Bicategories.Core.Bicat]
vassocr [in UniMath.CategoryTheory.Core.TwoCategories]
vcomp_rinvunitor [in UniMath.Bicategories.DisplayedBicats.Examples.DisplayedInserter]
vcomp_disp_invertible [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
vcomp_disp_is_invertible [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
vcomp_disp_is_invertible_linv [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
vcomp_disp_is_invertible_rinv [in UniMath.Bicategories.DisplayedBicats.DispInvertibles]
vcomp_is_cartesian_2cell [in UniMath.Bicategories.DisplayedBicats.CleavingOfBicat]
vcomp_linv [in UniMath.Bicategories.Core.Bicat]
vcomp_rinv [in UniMath.Bicategories.Core.Bicat]
vcomp_whisker [in UniMath.Bicategories.Core.Bicat]
vcomp_runitor [in UniMath.Bicategories.Core.Bicat]
vcomp_lunitor [in UniMath.Bicategories.Core.Bicat]
vcomp_runitor [in UniMath.CategoryTheory.Core.TwoCategories]
vcomp_lunitor [in UniMath.CategoryTheory.Core.TwoCategories]
vcomp_whisker [in UniMath.CategoryTheory.Core.TwoCategories]
vcomp2 [in UniMath.Bicategories.Core.Bicat]
vcomp2 [in UniMath.CategoryTheory.Core.TwoCategories]
vcons [in UniMath.Combinatorics.Vectors]
Ve [in UniMath.Combinatorics.ZFstructures]
vec [in UniMath.Combinatorics.Vectors]
vecoplist2oplist [in UniMath.Algebra.Universal.Terms]
vecS_eq [in UniMath.Combinatorics.Vectors]
Vector [in UniMath.Combinatorics.FiniteSequences]
vectorEquality [in UniMath.Combinatorics.FiniteSequences]
vector_stn_proofirrelevance [in UniMath.Combinatorics.FiniteSequences]
Vector_rect [in UniMath.Combinatorics.FiniteSequences]
vec_zip [in UniMath.Combinatorics.Vectors]
vec_fill [in UniMath.Combinatorics.Vectors]
vec_append [in UniMath.Combinatorics.Vectors]
vec_foldr1 [in UniMath.Combinatorics.Vectors]
vec_foldr [in UniMath.Combinatorics.Vectors]
vec_map [in UniMath.Combinatorics.Vectors]
vec0_eq [in UniMath.Combinatorics.Vectors]
vertex [in UniMath.Combinatorics.Graph]
vertex [in UniMath.CategoryTheory.limits.graphs.colimits]
vnil [in UniMath.Combinatorics.Vectors]
vsignature [in UniMath.Algebra.Universal.VTerms]

W

w [in UniMath.Combinatorics.Tests]
W [in UniMath.Induction.W.Core]
weak [in UniMath.SubstitutionSystems.STLC_alt]
weakly_well_founded [in UniMath.Combinatorics.WellFoundedRelations]
weak_fibration [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
weak_iso_fibration [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
weak_equivalence [in UniMath.Bicategories.PseudoFunctors.PseudoFunctor]
wedge [in UniMath.CategoryTheory.Profunctors.Core]
wedge_pr [in UniMath.CategoryTheory.Profunctors.Core]
weighting [in UniMath.Algebra.Matrix]
WellOrderedSet [in UniMath.Combinatorics.WellOrderedSets]
WellOrderedSet_to_hSet [in UniMath.Combinatorics.WellOrderedSets]
WellOrdering [in UniMath.Combinatorics.WellOrderedSets]
wellsorted_in [in UniMath.SubstitutionSystems.MonadsMultiSorted]
weq [in UniMath.Foundations.PartA]
weqabgrdiff [in UniMath.Algebra.Groups]
weqabgrdiffint [in UniMath.Algebra.Groups]
weqbandf [in UniMath.Foundations.PartA]
weqbfun [in UniMath.Foundations.PartD]
weqboolsumtocoprod [in UniMath.Foundations.PartA]
weqccontrhfiber [in UniMath.Foundations.PartA]
weqccontrhfiber2 [in UniMath.Foundations.PartA]
weqcomp [in UniMath.Foundations.PartA]
weqcompassoc [in UniMath.Foundations.PartD]
weqcompidl [in UniMath.Foundations.PartD]
weqcompidr [in UniMath.Foundations.PartD]
weqcompinjl [in UniMath.Foundations.PartD]
weqcompinjr [in UniMath.Foundations.PartD]
weqcompinvl [in UniMath.Foundations.PartD]
weqcompinvr [in UniMath.Foundations.PartD]
weqcompweql [in UniMath.Foundations.PartD]
weqcompweqr [in UniMath.Foundations.PartD]
weqcomp_assoc [in UniMath.Foundations.PartD]
weqcomp_to_funcomp [in UniMath.Foundations.PartA]
weqcomp_to_funcomp_app [in UniMath.Foundations.PartA]
weqcontrcontr [in UniMath.Foundations.PartA]
weqcontrtounit [in UniMath.Foundations.PartA]
weqcoprodasstol [in UniMath.Foundations.PartA]
weqcoprodasstor [in UniMath.Foundations.PartA]
weqcoprodcomm [in UniMath.Foundations.PartA]
weqcoprodf [in UniMath.Foundations.PartA]
weqcoprodf1 [in UniMath.Foundations.PartA]
weqcoprodf2 [in UniMath.Foundations.PartA]
weqcoprodsplit [in UniMath.Foundations.PartA]
weqcoprodtoboolsum [in UniMath.Foundations.PartA]
weqcoproj [in UniMath.Foundations.PartC]
weqcutonweq [in UniMath.Foundations.PartD]
weqdirprodasstol [in UniMath.Foundations.PartA]
weqdirprodasstor [in UniMath.Foundations.PartA]
weqdirprodcomm [in UniMath.Foundations.PartA]
weqdirprodf [in UniMath.Foundations.PartA]
weqdnicompl [in UniMath.Combinatorics.StandardFiniteSets]
weqdnicompl_compute [in UniMath.Combinatorics.StandardFiniteSets]
weqdnicoprod [in UniMath.Combinatorics.StandardFiniteSets]
weqdnicoprod_invmap [in UniMath.Combinatorics.StandardFiniteSets]
weqdnicoprod_compute [in UniMath.Combinatorics.StandardFiniteSets]
weqdnicoprod_map [in UniMath.Combinatorics.StandardFiniteSets]
weqdnicoprod_provisional [in UniMath.Combinatorics.StandardFiniteSets]
weqempty [in UniMath.Foundations.PartA]
weqeqh [in UniMath.Foundations.Sets]
weqeqweqhProp [in UniMath.Foundations.Propositions]
weqffun [in UniMath.Foundations.PartD]
weqfibtototal [in UniMath.Foundations.PartA]
weqfibtototal_comp [in UniMath.MoreFoundations.MoreEquivalences]
weqfldfracgt [in UniMath.Algebra.Domains_and_Fields]
weqfldfracgtint_b [in UniMath.Algebra.Domains_and_Fields]
weqfldfracgtint_f [in UniMath.Algebra.Domains_and_Fields]
weqfldfracgt_b [in UniMath.Algebra.Domains_and_Fields]
weqfldfracgt_f [in UniMath.Algebra.Domains_and_Fields]
weqforallnegtonegexists [in UniMath.Foundations.Propositions]
weqforalltohfiber [in UniMath.Foundations.PartD]
weqforalltototal [in UniMath.Foundations.PartD]
weqfp [in UniMath.Foundations.PartA]
weqfp_compute_2 [in UniMath.Foundations.PartA]
weqfp_compute_1 [in UniMath.Foundations.PartA]
weqfp_invmap [in UniMath.Foundations.PartA]
weqfp_map [in UniMath.Foundations.PartA]
weqfromcoconusf [in UniMath.Foundations.PartA]
weqfromcoprodofstn_map [in UniMath.Combinatorics.StandardFiniteSets]
weqfromcoprodofstn_invmap [in UniMath.Combinatorics.StandardFiniteSets]
weqfunextsec [in UniMath.Foundations.UnivalenceAxiom]
weqfunfromcontr [in UniMath.Foundations.PartD]
weqfunfromdirprod [in UniMath.Foundations.PartD]
weqfunfromtotal2 [in UniMath.Foundations.PartD]
weqfunfromunit [in UniMath.Foundations.PartD]
weqfuntototaltototal [in UniMath.Foundations.PartD]
weqhfibersgtof' [in UniMath.Foundations.PartA]
weqhfibersg'tof [in UniMath.Foundations.PartA]
weqhfibertoforall [in UniMath.Foundations.PartD]
weqhfiberunit [in UniMath.Foundations.PartB]
weqhfptohfpoverX [in UniMath.Foundations.PartA]
weqhfptohfpoverX' [in UniMath.Foundations.PartA]
weqiff [in UniMath.Foundations.PartB]
weqii1withneg [in UniMath.Foundations.PartA]
weqii2withneg [in UniMath.Foundations.PartA]
weqimplimpl [in UniMath.Foundations.PartB]
weqisolatedstntostn [in UniMath.Combinatorics.StandardFiniteSets]
weqleFtototalwithnat [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
weqletoleh [in UniMath.NumberSystems.NaturalNumbers_le_Inductive]
weqListSequence [in UniMath.Combinatorics.FiniteSequences]
weqlmultingr [in UniMath.Algebra.Groups]
weqlogeq [in UniMath.MoreFoundations.Propositions]
weqneghexistsnegtotal2 [in UniMath.Foundations.Propositions]
weqneqh [in UniMath.Foundations.Sets]
weqoncompl [in UniMath.Foundations.PartC]
weqoncompl_ne_compute [in UniMath.MoreFoundations.NegativePropositions]
weqoncompl_ne [in UniMath.MoreFoundations.NegativePropositions]
weqoncompl_compute [in UniMath.Foundations.PartC]
weqonpaths [in UniMath.Foundations.PartA]
weqonpathsincl [in UniMath.Foundations.PartB]
weqonpaths2 [in UniMath.MoreFoundations.Univalence]
weqonsec [in UniMath.MoreFoundations.Univalence]
weqonsecbase [in UniMath.Foundations.PartD]
weqonsecfibers [in UniMath.Foundations.PartD]
weqoverdnicoprod [in UniMath.Combinatorics.StandardFiniteSets]
weqpathsinv0 [in UniMath.Foundations.PartA]
weqpathsweq [in UniMath.Foundations.UnivalenceAxiom]
weqpathsweqhProp [in UniMath.Foundations.Propositions]
weqpathsweqhProp' [in UniMath.Foundations.Propositions]
weqpathsweqStatement [in UniMath.Foundations.UnivalenceAxiom]
weqpathsweqUAH [in UniMath.Foundations.UnivalenceAxiom]
weqpath_cast [in UniMath.MoreFoundations.Univalence]
weqpath_transport [in UniMath.MoreFoundations.Univalence]
weqproperty [in UniMath.Foundations.PartA]
weqpr1 [in UniMath.Foundations.PartB]
weqpr1_irr_sec [in UniMath.MoreFoundations.MoreEquivalences]
weqrdistrtocoprod [in UniMath.Foundations.PartA]
weqrdistrtoprod [in UniMath.Foundations.PartA]
weqrecompl [in UniMath.Foundations.PartC]
weqrecomplf [in UniMath.Foundations.PartC]
weqrecompl_ne [in UniMath.MoreFoundations.NegativePropositions]
weqrmultingr [in UniMath.Algebra.Groups]
weqsecovercontr [in UniMath.Foundations.PartD]
weqsecovercontr_uncurried [in UniMath.Induction.M.Chains]
weqsecovercoprodtoprod [in UniMath.Foundations.PartD]
weqsecovertotal2 [in UniMath.Foundations.PartD]
weqsecoverunit [in UniMath.Foundations.PartD]
weqsetquotsurj [in UniMath.Foundations.Sets]
weqsetquotweq [in UniMath.Foundations.Sets]
weqstnsum_invmap_step2 [in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum_invmap_step1 [in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum_invmap [in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum_map [in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1 [in UniMath.Combinatorics.StandardFiniteSets]
weqstnsum1_prelim [in UniMath.Combinatorics.StandardFiniteSets]
weqstn0toempty [in UniMath.Combinatorics.StandardFiniteSets]
weqstn1tounit [in UniMath.Combinatorics.StandardFiniteSets]
weqstn2tobool [in UniMath.Combinatorics.StandardFiniteSets]
weqsubquot [in UniMath.Foundations.Sets]
weqtococonusf [in UniMath.Foundations.PartA]
weqtocompltodisjoint [in UniMath.Foundations.PartC]
weqtodirprodwithunit [in UniMath.Foundations.PartA]
weqtoempty [in UniMath.Foundations.PartA]
weqtoempty2 [in UniMath.Foundations.PartA]
weqtoforallpaths [in UniMath.Foundations.UnivalenceAxiom]
weqtoforallpathsStatement [in UniMath.Foundations.UnivalenceAxiom]
weqtoincl [in UniMath.Foundations.PartB]
weqtopaths [in UniMath.Foundations.UnivalenceAxiom]
weqtopathshProp [in UniMath.Foundations.Propositions]
weqtopathsStatement [in UniMath.Foundations.UnivalenceAxiom]
weqtopathsUAH [in UniMath.Foundations.UnivalenceAxiom]
weqtotalsubtype [in UniMath.Foundations.Sets]
weqtotaltofib [in UniMath.Foundations.PartA]
weqtotaltoforall [in UniMath.Foundations.PartD]
weqtotal2asstol [in UniMath.Foundations.PartA]
weqtotal2comm [in UniMath.MoreFoundations.WeakEquivalences]
weqtotal2comm12 [in UniMath.Foundations.PartA]
weqtotal2dirprodassoc [in UniMath.Foundations.PartA]
weqtotal2dirprodassoc' [in UniMath.Foundations.PartA]
weqtotal2dirprodcomm [in UniMath.Foundations.PartA]
weqtotal2overcoprod' [in UniMath.Foundations.PartA]
weqtranspos0 [in UniMath.Foundations.PartC]
wequnittocontr [in UniMath.Foundations.PartA]
weqZtohfp [in UniMath.Foundations.PartA]
weq_hom_in_subcat_from_hom_in_precat [in UniMath.CategoryTheory.Subcategory.Full]
weq_to_Equivalence' [in UniMath.MoreFoundations.Equivalences]
weq_to_Equivalence [in UniMath.MoreFoundations.Equivalences]
weq_to_iff [in UniMath.Foundations.PartB]
weq_pathscomp0r [in UniMath.MoreFoundations.MoreEquivalences]
weq_to_InverseEquivalence [in UniMath.MoreFoundations.MoreEquivalences]
weq_fully_faithful_full_and_faithful [in UniMath.CategoryTheory.Core.Functors]
weq_ff_functor_on_weq_isobandf [in UniMath.CategoryTheory.Core.Functors]
weq_ff_functor_on_iso [in UniMath.CategoryTheory.Core.Functors]
weq_from_fully_faithful [in UniMath.CategoryTheory.Core.Functors]
weq_cat_eq_cat_equiv [in UniMath.CategoryTheory.CategoryEquality]
weq_is_adjoint_equivalence_help [in UniMath.Bicategories.Core.Examples.OneTypes]
weq_on_objects_from_adj_equiv_of_cats [in UniMath.CategoryTheory.Equivalences.Core]
weq_Kleisli_Monad [in UniMath.CategoryTheory.Monads.Kleisli]
weq_total2_prod [in UniMath.MoreFoundations.PartA]
weq_over_sections [in UniMath.MoreFoundations.Univalence]
weq_transportf_comp [in UniMath.MoreFoundations.Univalence]
weq_transportf [in UniMath.MoreFoundations.Univalence]
weq_binprod_to_pullback [in UniMath.CategoryTheory.limits.pullbacks_slice_products_equiv]
weq_subtypes [in UniMath.Foundations.Sets]
weq_section_from_diagonal [in UniMath.CategoryTheory.limits.pullbacks]
weq_iso [in UniMath.Foundations.PartA]
weq_transportb_adjointness [in UniMath.Foundations.PartA]
weq_transportf_adjointness [in UniMath.Foundations.PartA]
weq_bicat_prebicategory [in UniMath.Bicategories.WkCatEnrichment.hcomp_bicat]
wf [in UniMath.Paradoxes.GirardsParadox]
wfp [in UniMath.Paradoxes.GirardsParadox]
wfs [in UniMath.Paradoxes.GirardsParadox]
wfs_wf_t [in UniMath.Paradoxes.GirardsParadox]
wfs_wf [in UniMath.Paradoxes.GirardsParadox]
wfs_wf_wfp_compshift [in UniMath.Paradoxes.GirardsParadox]
wfs_wf_wfp_seq [in UniMath.Paradoxes.GirardsParadox]
wfs_wf_wfp_shift [in UniMath.Paradoxes.GirardsParadox]
wfs_wf_trans [in UniMath.Paradoxes.GirardsParadox]
wfs_wf_uord [in UniMath.Paradoxes.GirardsParadox]
which [in UniMath.Combinatorics.Tests]
whisker_ηg_type [in UniMath.Bicategories.Core.EquivToAdjequiv]
whisker_right_iso [in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_right [in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left_iso [in UniMath.Bicategories.WkCatEnrichment.whiskering]
whisker_left [in UniMath.Bicategories.WkCatEnrichment.whiskering]
wittohexists [in UniMath.Foundations.Propositions]
wofun [in UniMath.Combinatorics.WellOrderedSets]
WOlt [in UniMath.Combinatorics.WellOrderedSets]
WOlt' [in UniMath.Combinatorics.WellOrderedSets]
WOrel [in UniMath.Combinatorics.WellOrderedSets]
WOSET [in UniMath.CategoryTheory.categories.wosets]
wosetfuncat [in UniMath.CategoryTheory.categories.wosets]
wosetfun_precategory [in UniMath.CategoryTheory.categories.wosets]
WOSET_setcategory [in UniMath.CategoryTheory.categories.wosets]
WOSET_precategory [in UniMath.CategoryTheory.categories.wosets]
WOSrel [in UniMath.Combinatorics.WellOrderedSets]
WOStotal [in UniMath.Combinatorics.WellOrderedSets]
WosubPoset [in UniMath.Combinatorics.WellOrderedSets]
WOSubset [in UniMath.Combinatorics.WellOrderedSets]
WOSubset_plus_point [in UniMath.Combinatorics.WellOrderedSets]
WOSubset_to_TOSubset [in UniMath.Combinatorics.WellOrderedSets]
WOSubset_to_subtype [in UniMath.Combinatorics.WellOrderedSets]
WOSubset_set [in UniMath.Combinatorics.WellOrderedSets]
wosub_le_smaller [in UniMath.Combinatorics.WellOrderedSets]
wosub_inc [in UniMath.Combinatorics.WellOrderedSets]
wosub_univalence_map [in UniMath.Combinatorics.WellOrderedSets]
wosub_comparable [in UniMath.Combinatorics.WellOrderedSets]
wosub_equal [in UniMath.Combinatorics.WellOrderedSets]
wosub_le_subi [in UniMath.Combinatorics.WellOrderedSets]
wosub_le_comp [in UniMath.Combinatorics.WellOrderedSets]
wosub_le_inc [in UniMath.Combinatorics.WellOrderedSets]
wosub_le [in UniMath.Combinatorics.WellOrderedSets]
WOSwo [in UniMath.Combinatorics.WellOrderedSets]
WOS_hasSmallest [in UniMath.Combinatorics.WellOrderedSets]
wo_setcategory [in UniMath.CategoryTheory.categories.wosets]
WO_hasSmallest [in UniMath.Combinatorics.WellOrderedSets]
WO_isantisymm [in UniMath.Combinatorics.WellOrderedSets]
WO_istotal [in UniMath.Combinatorics.WellOrderedSets]
WO_istrans [in UniMath.Combinatorics.WellOrderedSets]
WO_isrefl [in UniMath.Combinatorics.WellOrderedSets]
WO_isTotalOrder [in UniMath.Combinatorics.WellOrderedSets]
wqevecfun [in UniMath.Combinatorics.Vectors]
WSig [in UniMath.SubstitutionSystems.MLTT79]
ww' [in UniMath.Combinatorics.Tests]
w_w [in UniMath.Combinatorics.Tests]
W_is_initial [in UniMath.Induction.W.Core]
W_algebra [in UniMath.Induction.W.Core]
w' [in UniMath.Combinatorics.Tests]

X

X [in UniMath.CategoryTheory.precomp_ess_surj]
Xkphi_idtoiso [in UniMath.CategoryTheory.precomp_ess_surj]
Xkphi_transp [in UniMath.CategoryTheory.precomp_ess_surj]
Xphi [in UniMath.CategoryTheory.precomp_ess_surj]
XtripleF [in UniMath.CategoryTheory.precomp_ess_surj]
X_aux_type_center_of_contr [in UniMath.CategoryTheory.precomp_ess_surj]

Y

y [in UniMath.Bicategories.PseudoFunctors.Yoneda]
Y [in UniMath.CategoryTheory.precomp_ess_surj]
yoneda [in UniMath.CategoryTheory.yoneda]
yoneda_local_equivalence [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_mor_is_equivalence [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable_is_iso [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable_component_mod [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable_component_mod_component [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_representable_component_mod_component_nat [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_counit [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_counit_component [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_iso [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_component_mod [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_component_mod_component_nat [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_unit_component_mod_component_nat_component [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_data [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_data_mor [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_to_presheaf_data_ob [in UniMath.Bicategories.Core.YonedaLemma]
yoneda_functor_precomp_nat_trans [in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp [in UniMath.CategoryTheory.yoneda]
yoneda_functor_precomp' [in UniMath.CategoryTheory.yoneda]
yoneda_weq [in UniMath.CategoryTheory.yoneda]
yoneda_iso_target [in UniMath.CategoryTheory.yoneda]
yoneda_map_2 [in UniMath.CategoryTheory.yoneda]
yoneda_map_1 [in UniMath.CategoryTheory.yoneda]
yoneda_functor_data [in UniMath.CategoryTheory.yoneda]
yoneda_morphisms [in UniMath.CategoryTheory.yoneda]
yoneda_morphisms_data [in UniMath.CategoryTheory.yoneda]
yoneda_objects [in UniMath.CategoryTheory.yoneda]
yoneda_ob_functor_data [in UniMath.CategoryTheory.yoneda]
yoneda_objects_mor [in UniMath.CategoryTheory.yoneda]
yoneda_objects_ob [in UniMath.CategoryTheory.yoneda]
yon_binprod_inv_nat_trans [in UniMath.CategoryTheory.YonedaBinproducts]
yon_binprod_inv_nat_trans_data [in UniMath.CategoryTheory.YonedaBinproducts]
yon_binprod_nat_trans [in UniMath.CategoryTheory.YonedaBinproducts]
yon_binprod_nat_trans_data [in UniMath.CategoryTheory.YonedaBinproducts]
yy [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
y_invertible_cells [in UniMath.Bicategories.PseudoFunctors.Yoneda]
y_laws [in UniMath.Bicategories.PseudoFunctors.Yoneda]
y_data [in UniMath.Bicategories.PseudoFunctors.Yoneda]
Y_iscontr [in UniMath.CategoryTheory.precomp_ess_surj]
Y_inhab [in UniMath.CategoryTheory.precomp_ess_surj]
Y'_2_0 [in UniMath.Bicategories.Core.Univalence]
Y'_2_1 [in UniMath.Bicategories.Core.Univalence]

Z

Z [in UniMath.Induction.ImpredicativeInductiveSets]
Z [in UniMath.Induction.M.Chains]
zariski_topology [in UniMath.AlgebraicGeometry.Spec]
Zero [in UniMath.CategoryTheory.limits.zero]
zero [in UniMath.NumberSystems.Integers]
Zero [in UniMath.CategoryTheory.limits.graphs.zero]
ZeroArrow [in UniMath.CategoryTheory.limits.zero]
ZeroArrow [in UniMath.CategoryTheory.limits.graphs.zero]
ZeroArrowFrom [in UniMath.CategoryTheory.limits.zero]
ZeroArrowFrom [in UniMath.CategoryTheory.limits.graphs.zero]
ZeroArrowTo [in UniMath.CategoryTheory.limits.zero]
ZeroArrowTo [in UniMath.CategoryTheory.limits.graphs.zero]
ZeroComplex [in UniMath.HomologicalAlgebra.Complexes]
zeroDivRig [in UniMath.Algebra.DivisionRig]
ZeroIdMap [in UniMath.CategoryTheory.AbelianToAdditive]
ZeroMaps [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
ZeroMaps_opp_opp [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
ZeroMaps_opp [in UniMath.CategoryTheory.RepresentableFunctors.Precategories]
zeroMap' [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
ZeroMorphism [in UniMath.HomologicalAlgebra.Complexes]
zeroNNO [in UniMath.CategoryTheory.NNO]
zeroNonnegativeRationals [in UniMath.RealNumbers.NonnegativeRationals]
zeroNonnegativeReals [in UniMath.RealNumbers.NonnegativeReals]
ZeroObject [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
ZeroObject [in UniMath.CategoryTheory.limits.zero]
ZeroObject [in UniMath.CategoryTheory.limits.graphs.zero]
zero_opp [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
zero_to_initial [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
zero_to_terminal [in UniMath.CategoryTheory.RepresentableFunctors.Representation]
zero_lifts [in UniMath.CategoryTheory.limits.zero]
zero_module [in UniMath.Algebra.Modules.Examples]
Zero_opp [in UniMath.CategoryTheory.limits.Opp]
zero_term [in UniMath.Algebra.Universal.Examples.Tests]
zero_oplist [in UniMath.Algebra.Universal.Examples.Tests]
zero_one_oplist [in UniMath.Algebra.Universal.Examples.Tests]
Zero_to_Terminal [in UniMath.CategoryTheory.limits.graphs.zero]
Zero_to_Initial [in UniMath.CategoryTheory.limits.graphs.zero]
zero_fld [in UniMath.RealNumbers.Fields]
ZFS [in UniMath.Combinatorics.ZFstructures]
ZFS_elementof [in UniMath.Combinatorics.ZFstructures]
ZFS_Branch [in UniMath.Combinatorics.ZFstructures]
ZFS_iso [in UniMath.Combinatorics.ZFstructures]
ZGuidedHomotopy [in UniMath.SyntheticHomotopyTheory.Circle]
z_iso_to_iso [in UniMath.CategoryTheory.Core.Isos]
z_iso_conjug_weq [in UniMath.CategoryTheory.Core.Isos]
z_iso_comp_left_weq [in UniMath.CategoryTheory.Core.Isos]
z_iso_comp_right_weq [in UniMath.CategoryTheory.Core.Isos]
z_iso_after_z_iso_inv [in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_after_z_iso [in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_from_is_z_iso [in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_from_z_iso [in UniMath.CategoryTheory.Core.Isos]
z_iso_is_z_isomorphism2 [in UniMath.CategoryTheory.Core.Isos]
z_iso_is_z_isomorphism1 [in UniMath.CategoryTheory.Core.Isos]
z_iso_comp [in UniMath.CategoryTheory.Core.Isos]
z_iso_inv [in UniMath.CategoryTheory.Core.Isos]
z_iso_is_inverse_in_precat [in UniMath.CategoryTheory.Core.Isos]
z_iso_inv_mor [in UniMath.CategoryTheory.Core.Isos]
z_iso_mor [in UniMath.CategoryTheory.Core.Isos]
z_iso [in UniMath.CategoryTheory.Core.Isos]
z_nat_iso_from_z_iso [in UniMath.CategoryTheory.FunctorCategory]
z_iso_from_z_nat_iso [in UniMath.CategoryTheory.FunctorCategory]
z_iso_Zeros [in UniMath.CategoryTheory.limits.zero]
z_iso_from_Equalizer_to_Equalizer [in UniMath.CategoryTheory.limits.equalizers]
z2_algebra [in UniMath.Algebra.Universal.Examples.Nat]

other

Ω [in UniMath.MoreFoundations.PartA]
Ω_PreShv_bounded_lattice [in UniMath.CategoryTheory.Presheaf]
Ω_PreShv_top [in UniMath.CategoryTheory.Presheaf]
Ω_PreShv_bottom [in UniMath.CategoryTheory.Presheaf]
Ω_PreShv_lattice [in UniMath.CategoryTheory.Presheaf]
Ω_PreShv_join [in UniMath.CategoryTheory.Presheaf]
Ω_PreShv_meet [in UniMath.CategoryTheory.Presheaf]
Ω_mor [in UniMath.CategoryTheory.Presheaf]
Ω_PreShv [in UniMath.CategoryTheory.Presheaf]
Ω_PreShv_data [in UniMath.CategoryTheory.Presheaf]
α [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
α_r_bind [in UniMath.CategoryTheory.Monads.RelativeMonads]
α_D [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
α_C [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
α_A [in UniMath.CategoryTheory.Monoidal.Actions]
α_A [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
α_functors_inv [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
α_functors [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
α' [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
α' [in UniMath.CategoryTheory.Monoidal.Actions]
α' [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
α' [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
α' [in UniMath.CategoryTheory.FunctorCoalgebras]
αα'_idA [in UniMath.CategoryTheory.FunctorCoalgebras]
αα'_mor [in UniMath.CategoryTheory.FunctorCoalgebras]
α₁ [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
α₂ [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
γ [in UniMath.CategoryTheory.Monoidal.BraidedMonoidalCategories]
δ [in UniMath.SubstitutionSystems.SignatureExamples]
δ_law2_option [in UniMath.SubstitutionSystems.SignatureExamples]
δ_law1_option [in UniMath.SubstitutionSystems.SignatureExamples]
δ_option [in UniMath.SubstitutionSystems.SignatureExamples]
δ_genoption [in UniMath.SubstitutionSystems.SignatureExamples]
δ_genoption_mor [in UniMath.SubstitutionSystems.SignatureExamples]
δ_comp [in UniMath.SubstitutionSystems.SignatureExamples]
δ_comp_mor [in UniMath.SubstitutionSystems.SignatureExamples]
δ_law2_nicer [in UniMath.SubstitutionSystems.SignatureExamples]
δ_law2 [in UniMath.SubstitutionSystems.SignatureExamples]
δ_law1 [in UniMath.SubstitutionSystems.SignatureExamples]
δ_target [in UniMath.SubstitutionSystems.SignatureExamples]
δ_source [in UniMath.SubstitutionSystems.SignatureExamples]
ε [in UniMath.Bicategories.Core.EquivToAdjequiv]
ε [in UniMath.SyntheticHomotopyTheory.Circle2]
εiso [in UniMath.Bicategories.Core.EquivToAdjequiv]
ε_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
ε_inv_disc_fib [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ε_disc_fib [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
ε_inv [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε_ses_ff [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε_ses_ff_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
ε' [in UniMath.SyntheticHomotopyTheory.Circle2]
ε'ntiso [in UniMath.CategoryTheory.Equivalences.Core]
ε'' [in UniMath.SyntheticHomotopyTheory.Circle2]
ε1 [in UniMath.SyntheticHomotopyTheory.Circle2]
ζ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrongFunctorCategory]
η [in UniMath.Bicategories.Core.EquivToAdjequiv]
η [in UniMath.CategoryTheory.Monads.Monads]
η [in UniMath.CategoryTheory.Monads.KTriples]
ηiso [in UniMath.Bicategories.Core.EquivToAdjequiv]
ηmor [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
ηobj [in UniMath.Bicategories.PseudoFunctors.Display.Map1Cells]
η_natural_help [in UniMath.Bicategories.Core.EquivToAdjequiv]
η_relmonadmor_eq_from_relmonadmor_iso [in UniMath.CategoryTheory.Monads.RelativeMonads]
η_2cell [in UniMath.Bicategories.DisplayedBicats.Examples.Algebras]
η_slice [in UniMath.SubstitutionSystems.MonadsMultiSorted]
η_fun [in UniMath.SubstitutionSystems.MonadsMultiSorted_alt]
η_disc_fib [in UniMath.CategoryTheory.DisplayedCats.Fibrations]
η_inv [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η_ses_ff [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η_ses_ff_ax [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η_ses_ff_data [in UniMath.CategoryTheory.DisplayedCats.Equivalences]
η_bind [in UniMath.CategoryTheory.Monads.KTriples]
θ [in UniMath.Bicategories.Core.EquivToAdjequiv]
θ [in UniMath.SubstitutionSystems.Signatures]
θ [in UniMath.SubstitutionSystems.BinSumOfSignatures]
θ [in UniMath.SubstitutionSystems.BinProductOfSignatures]
θ [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ [in UniMath.SubstitutionSystems.SumOfSignatures]
θforTerms [in UniMath.SubstitutionSystems.MonadicSubstitution_alt]
θiso [in UniMath.Bicategories.Core.EquivToAdjequiv]
θ_Strength2_int_nicest [in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int_nicer [in UniMath.SubstitutionSystems.Signatures]
θ_Strength2_int [in UniMath.SubstitutionSystems.Signatures]
θ_Strength2 [in UniMath.SubstitutionSystems.Signatures]
θ_Strength1_int_nicer [in UniMath.SubstitutionSystems.Signatures]
θ_Strength1_int [in UniMath.SubstitutionSystems.Signatures]
θ_Strength1 [in UniMath.SubstitutionSystems.Signatures]
θ_target [in UniMath.SubstitutionSystems.Signatures]
θ_source [in UniMath.SubstitutionSystems.Signatures]
θ_ob [in UniMath.SubstitutionSystems.BinSumOfSignatures]
θ_ob_fun [in UniMath.SubstitutionSystems.BinSumOfSignatures]
θ_ob [in UniMath.SubstitutionSystems.BinProductOfSignatures]
θ_ob_fun [in UniMath.SubstitutionSystems.BinProductOfSignatures]
θ_map [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ_map_2 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ_map_1 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ_subset [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ_2 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ_1 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
θ_from_hetsubst [in UniMath.SubstitutionSystems.SubstitutionSystems]
θ_ob [in UniMath.SubstitutionSystems.SumOfSignatures]
θ_ob_fun [in UniMath.SubstitutionSystems.SumOfSignatures]
θ_for_ab_strength [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_ab_strength_data [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_signature [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_for_signature_nat_trans_data [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
θ_const_const [in UniMath.SubstitutionSystems.SignatureExamples]
θ_functor_identity [in UniMath.SubstitutionSystems.SignatureExamples]
θ_from_δ_Signature [in UniMath.SubstitutionSystems.SignatureExamples]
θ_precompG [in UniMath.SubstitutionSystems.SignatureExamples]
θ_from_δ [in UniMath.SubstitutionSystems.SignatureExamples]
θ_from_δ_mor [in UniMath.SubstitutionSystems.SignatureExamples]
θ_in_first_arg [in UniMath.SubstitutionSystems.LiftingInitial]
θ' [in UniMath.SubstitutionSystems.Signatures]
θ' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
θ'_strength_law2 [in UniMath.SubstitutionSystems.Signatures]
θ'_strength_law1 [in UniMath.SubstitutionSystems.Signatures]
θ'_Thm15 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
θ'_Thm15 [in UniMath.SubstitutionSystems.LiftingInitial]
λ_D [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
λ_C [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
λ_A [in UniMath.CategoryTheory.Monoidal.Actions]
λ_A [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
λ_functors_inv [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
λ_functors [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
λ' [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
λ' [in UniMath.CategoryTheory.Monoidal.Actions]
λ' [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
λ' [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
μ [in UniMath.CategoryTheory.Monads.Monads]
μ [in UniMath.Bicategories.PseudoFunctors.Examples.PseudofunctorFromMonoidal]
μ [in UniMath.CategoryTheory.Monads.KTriples]
μL_A [in UniMath.CategoryTheory.Inductives.Lists]
μ_UZ'Zinv [in UniMath.CategoryTheory.Monoidal.ActionBasedStrengthOnHomsInBicat]
μ_3 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_2_ptd [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_2 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_1 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_0_ptd [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
μ_0 [in UniMath.SubstitutionSystems.MonadsFromSubstitutionSystems]
π [in UniMath.Bicategories.DisplayedBicats.Examples.CwF]
π [in UniMath.Algebra.GroupAction]
π₀ [in UniMath.MoreFoundations.Sets]
π₀_universal_map [in UniMath.MoreFoundations.Sets]
π₀_universal_property [in UniMath.MoreFoundations.Sets]
π₀_map [in UniMath.MoreFoundations.Sets]
ρ_D [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
ρ_C [in UniMath.CategoryTheory.Monoidal.MonoidalFunctors]
ρ_Thm15 [in UniMath.SubstitutionSystems.LiftingInitial_alt]
ρ_A [in UniMath.CategoryTheory.Monoidal.Actions]
ρ_A [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
ρ_functors_inv [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
ρ_functors [in UniMath.CategoryTheory.UnitorsAndAssociatorsForEndofunctors]
ρ_Thm15 [in UniMath.SubstitutionSystems.LiftingInitial]
ρ' [in UniMath.CategoryTheory.Monoidal.CategoriesOfMonoids]
ρ' [in UniMath.CategoryTheory.Monoidal.Actions]
ρ' [in UniMath.CategoryTheory.Monoidal.ConstructionOfActions]
ρ' [in UniMath.CategoryTheory.Monoidal.ActionsFormBicategory]
σ_from_τ [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
σ_data_from_τ [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ_lmodule_mor [in UniMath.SubstitutionSystems.ModulesFromSignatures]
τ_from_σ [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
τ_data_from_σ [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
φ_map [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
φ_map_2 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
φ_map_1 [in UniMath.CategoryTheory.RepresentableFunctors.Bifunctor]
φ_adj_inv [in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj [in UniMath.CategoryTheory.Adjunctions.Core]
φ_adj_h_x [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
φ_adj_traho_of_Hinze_Wu [in UniMath.CategoryTheory.CategoricalRecursionSchemes]
χ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
χ [in UniMath.CategoryTheory.Monoidal.Actions]
χ' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ψ [in UniMath.SubstitutionSystems.ModulesFromSignatures]
ψ_from_comps [in UniMath.SubstitutionSystems.GenMendlerIteration]
ψ_target [in UniMath.SubstitutionSystems.GenMendlerIteration]
ψ_source [in UniMath.SubstitutionSystems.GenMendlerIteration]
ψ_pw [in UniMath.SubstitutionSystems.ModulesFromSignatures]
ψ_from_comps [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
ψ_target [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
ψ_source [in UniMath.SubstitutionSystems.GenMendlerIteration_alt]
ϕo [in UniMath.Folds.folds_isomorphism]
ϕ₁ [in UniMath.Folds.folds_isomorphism]
ϕ₂ [in UniMath.Folds.folds_isomorphism]
ϛ [in UniMath.SubstitutionSystems.Signatures]
ϛ_rectangle_eq [in UniMath.SubstitutionSystems.Signatures]
ϛ_pentagon_eq [in UniMath.SubstitutionSystems.Signatures]
ϛ' [in UniMath.SubstitutionSystems.Signatures]
ϛ' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϱ [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ϱ [in UniMath.CategoryTheory.Monoidal.Actions]
ϱ' [in UniMath.CategoryTheory.Monoidal.ActionBasedStrength]
ℕ [in UniMath.MoreFoundations.Nat]
ℤ [in UniMath.NumberSystems.Integers]
ℤBiRecursionData [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤBiRecursion_transition_inv_reversed [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤBiRecursion_transition_inv [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤBiRecursion_inv_compute [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤBiRecursion_compute [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤBiRecursion_weq [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤRecursionData [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤRecursionData0 [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤTorsorRecursion [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤTorsorRecursion_transition_inv [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤTorsorRecursion_transition [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤTorsorRecursion_inv_compute [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤTorsorRecursion_compute [in UniMath.SyntheticHomotopyTheory.AffineLine]
ℤTorsorRecursion_weq [in UniMath.SyntheticHomotopyTheory.AffineLine]

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Record Index

T

total2 [in UniMath.Foundations.Preamble]

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Definition Index

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